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base: openscad:v20.10.2
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openscad:v21.41.1 openscad:v21.41.0 openscad:v21.40.0 openscad:v21.39.0 openscad:v21.38.1 openscad:v21.38.0 openscad:v21.37.1 openscad:v21.37.0 openscad:v21.36.0 openscad:v21.35.6 openscad:v21.35.5 openscad:v21.35.4 openscad:v21.35.3 openscad:v21.35.2 openscad:v21.35.1 openscad:v21.35.0 openscad:v21.34.0 openscad:v21.33.0 openscad:v21.32.1 openscad:v21.32.0 openscad:v21.31.0 openscad:v21.30.0 openscad:v21.29.2 openscad:v21.29.1 openscad:v21.29.0 openscad:v21.28.2 openscad:v21.28.1 openscad:v21.28.0 openscad:v21.27.1 openscad:v21.27.0 openscad:v21.26.0 openscad:v21.25.0 openscad:v21.24.1 openscad:v21.24.0 openscad:v21.23.2 openscad:v21.23.1 openscad:v21.23.0 openscad:v21.22.0 openscad:v21.21.0 openscad:v21.20.0 openscad:v21.19.2 openscad:v21.19.1 openscad:v21.19.0 openscad:v21.18.0 openscad:v21.17.0 openscad:v21.16.1 openscad:v21.16.0 openscad:v21.15.0 openscad:v21.14.0 openscad:v21.13.1 openscad:v21.13.0 openscad:v21.12.0 openscad:v21.11.0 openscad:v21.10.1 openscad:v21.10.0 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compare: openscad:v21.4.1
Branches Tags
openscad:master
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101 Commits
v20.10.2 ... v21.4.1

Author SHA1 Message Date
Chris Palmer
06a286dc98 Fixed missing BOM entry for JST connectors. 
Fixed default colour for JST connectors.
Corrected BOM entry to show right angle options on Molex and pin headers.
 2023-05-08 19:51:29 +01:00
Chris Palmer
f5496c373a Fixed typo in smd_diode(DO214AC) package name. 2023-05-08 19:42:05 +01:00
Chris Palmer
1c6d3d8e95 Updated changelog. 2023-05-01 12:22:10 +01:00
Chris Palmer
5e24a32a0b Added ESP32 camera. 2023-05-01 12:18:12 +01:00
Chris Palmer
fbd8d8c7cd Added smd_coax 2023-05-01 12:14:23 +01:00
Chris Palmer
c77b18ebc9 Updated changelog. 2023-04-29 09:23:57 +01:00
Chris Palmer
b1592f51d4 Fixed bom.py, views.py and tests.py so that vitamin descriptions can contain more than one colon. 2023-04-29 09:22:35 +01:00
Chris Palmer
deb0c14aa2 Updated changelog. 2023-04-23 20:33:27 +01:00
Chris Palmer
cc82cf2a6c Merge branch 'martinbudden-shoulder_screws' 2023-04-23 20:31:18 +01:00
Chris Palmer
61fc194995 Refactored for readability. 2023-04-23 20:30:12 +01:00
Chris Palmer
f8af61568a Updated images and readme. 2023-04-23 17:15:29 +01:00
Chris Palmer
05d16841c4 Fixed thread pitch. 2023-04-23 17:15:02 +01:00
Chris Palmer
61f1dcc509 Merge branch 'shoulder_screws' of https://github.com/martinbudden/NopSCADlib into martinbudden-shoulder_screws 2023-04-22 19:11:39 +01:00
Chris Palmer
5fc70e19ac Added SMD Tantalum caps and 0502 and 0402 resistor and capacitors. 2023-04-22 12:12:12 +01:00
Martin Budden
07e7eb77f7 Added support for shoulder screws. 2023-04-05 12:32:13 +01:00
Chris Palmer
1c5d9a8ef5 Removed utility functions used by invert() from documentation as not generally useful. 2023-03-29 13:21:26 +01:00
Chris Palmer
d3f0bfc17f Fixed typo in resistor comment. 2023-03-29 12:54:07 +01:00
Chris
81f3b084ab Updated changelog. 2023-03-11 18:38:38 +00:00
Chris
62bd2b5597 Merge branch 'dirkjankrijnders-master' 2023-03-11 18:35:11 +00:00
Chris
18cd33c663 Fixed typos, corrected vitamin call, added boilerplate, updated images and readme. 2023-03-11 17:50:16 +00:00
Chris
e899306a13 Merge branch 'master' of https://github.com/dirkjankrijnders/NopSCADlib into dirkjankrijnders-master 2023-03-11 14:10:22 +00:00
Dirkjan Krijnders
ebfb330ac6 Added comments and make holes a linear_extrude result 2023-03-11 15:00:10 +01:00
Chris
07da7d8dc7 Removed Python2.7 from usage.md as no longer works. 2023-03-11 13:57:23 +00:00
Chris
38b52d13ee Merge branch 'master' of https://github.com/dirkjankrijnders/NopSCADlib into dirkjankrijnders-master 2023-03-10 22:03:16 +00:00
Chris
5a3bbf967d Fixed broken cover image. 2023-03-10 22:02:00 +00:00
Chris
ddb2f16b99 Updated changlog. 2023-03-10 21:49:21 +00:00
Chris
9d4d5aba17 veroboard_assembly() renamed veroboard_fastened_assembly(). 
veroboard_assembly() now doesn't include the fasteners.
 2023-03-10 21:24:42 +00:00
Chris
d939401183 Added vero_grid_pos() function. 2023-03-10 21:11:03 +00:00
Chris
584542f87a Added fastons. 2023-03-10 21:09:28 +00:00
Chris
62372a049b The wire() module can now draw wires if a path is specified. 2023-03-10 20:49:41 +00:00
Chris
14698e5203 Added PTFE heatshrink sleeving. 2023-03-10 17:25:26 +00:00
Chris
14f6bb533a Added sleeving_length to al_clad_resistor_assembly(). 2023-03-10 16:04:17 +00:00
Chris
01e9aae698 Added TO220_size() and TO220_lead_pos(i, l). 2023-03-10 15:46:57 +00:00
Dirkjan Krijnders
c5fab08a45 Added photo_interrupter to the test 2023-03-08 16:51:08 +01:00
Dirkjan Krijnders
fecc93746a Added vitamins for photo interrupters 2023-03-08 09:20:14 +01:00
Chris Palmer
27f9b242f2 Added crystal, transistors, diode and LEDs to Arduino Uno. 2023-02-04 00:09:16 +00:00
Chris Palmer
f07fda70cd Wire links can now be sleeved. 2023-02-03 10:02:53 +00:00
Chris Palmer
abf1f1ab3f PCB blocks can now have rounded edges for more realistic cans. 2023-02-01 18:31:33 +00:00
Chris Palmer
df06d1f57f Upated changelog. 2023-02-01 01:33:04 +00:00
Chris Palmer
470d6d6216 Started radial components with crystals. 2023-02-01 01:31:06 +00:00
Chris Palmer
0e5e15a747 Added SOIC14 package. 2023-02-01 01:29:34 +00:00
Chris Palmer
3f84912e55 Added rounded_top_rectangle(). 2023-02-01 01:27:01 +00:00
Chris Palmer
ff7041c285 Updated changelog. 2023-01-29 06:56:40 +00:00
Chris Palmer
dd8a100d9c Merge branch 'elliotf-add-orange-pi-zero-2' 2023-01-29 06:54:28 +00:00
Chris Palmer
01eeafb255 Updated images and readme. 2023-01-29 06:54:02 +00:00
Chris Palmer
dd876c8fc9 Added vertical USB connector to PCB test. 2023-01-29 06:53:07 +00:00
Chris Palmer
ff40a276e1 Fixed display position in tests. 2023-01-29 06:52:30 +00:00
Chris Palmer
463c620cc3 Made a new row of PCBs in the test. 2023-01-29 06:41:47 +00:00
Chris Palmer
7b1a916043 Fixed vAx1 dimensions, removed flange and repositioned the tongue. 2023-01-29 06:20:35 +00:00
Chris Palmer
1a2a9bb512 Merge branch 'add-orange-pi-zero-2' of https://github.com/elliotf/NopSCADlib into elliotf-add-orange-pi-zero-2 2023-01-28 20:35:54 +00:00
Chris Palmer
adcb515d20 Updated changelog. 2023-01-28 20:27:50 +00:00
Chris Palmer
34719c3360 Box shelves now have screws in the corners to hold them down. 2023-01-28 20:25:38 +00:00
Chris Palmer
024439d4c2 Can now specify short inserts to be used for butt_boxes. 2023-01-28 20:22:53 +00:00
Chris Palmer
005c112ba9 Added values to the SMD capacitors on the example PCB. 2023-01-28 20:21:09 +00:00
Chris Palmer
dfbcbf84ab Changed OpenGrab link as nicadrone.com has gone. 2023-01-28 20:15:15 +00:00
Elliot Foster
de051343d0 WiP of an Orange Pi Zero 2 PCB 2023-01-28 13:37:47 -06:00
Chris Palmer
b6e47ed9b7 Updated changelog. 2023-01-24 09:59:02 +00:00
Chris Palmer
6a529c91a7 Merge branch 'elliotf-add-raspberry-pi-3a' 2023-01-24 09:56:52 +00:00
Chris Palmer
e7e9313e71 Updated images and readme. 2023-01-24 09:56:19 +00:00
Chris Palmer
e19bb47273 Merge branch 'add-raspberry-pi-3a' of https://github.com/elliotf/NopSCADlib into elliotf-add-raspberry-pi-3a 2023-01-24 09:24:15 +00:00
Chris Palmer
494002aebe Added test to MP1584EN PCB. 2023-01-24 09:21:58 +00:00
Chris Palmer
77e948f43c Added can bus connectors to OpenGrab model. 
Tweaked some PCB component positions.
 2023-01-24 09:21:14 +00:00
Chris Palmer
543cdb4e01 Incresed the clearance of holes made for pin header. 2023-01-24 09:19:32 +00:00
Elliot Foster
dab06ce4ca Add Raspberry Pi 3 A+ to pcbs 2023-01-23 12:50:00 -06:00
Chris Palmer
2e25932d5c Updated changelog. 2023-01-12 23:02:31 +00:00
Chris Palmer
ebd50bae53 Added SMD diodes, inductors and potentiometers. 
Complete set of components added to MP1584EN buck regulator.
 2023-01-12 23:00:21 +00:00
Chris
8e47270607 Updated changelog. 2023-01-07 11:12:43 +00:00
Chris
ec3e752fc5 Added missing documentation for hinge_female() module. 2023-01-07 11:09:46 +00:00
Chris
de17726d20 Updated changelog. 2023-01-07 11:03:12 +00:00
Chris
8587d52d1b Added screw_keyhole() module. 2023-01-07 10:50:32 +00:00
Chris
cec8c3a107 Added printed LED bezels. 2023-01-07 10:49:45 +00:00
Chris
848dcb86b9 Added 8mm LED. 2023-01-07 10:08:05 +00:00
Chris
a31f6f100c Revised LED dimensions. 2023-01-07 09:24:04 +00:00
Chris
b3dd635889 Fixed duplicated dxf() calls in printed box and butt_box. 
Client code now calls dxf() so that the generated files can be used to speed up assembly views.
 2023-01-07 09:21:04 +00:00
Chris Palmer
3c9004f12d Updated changelog. 2022-12-06 17:14:54 +00:00
Chris Palmer
e256801206 Added comment to indicate the .py suffix may be needed on linux and OSX. 2022-12-06 17:07:40 +00:00
Chris
4080179a74 Merge pull request #246 from majekw/include-terminals 
Include terminal.scad in lib.scad to allow use of terminal_block().
 2022-12-05 20:42:44 +00:00
Marek Wodzinski
9dc8062bef Include terminal.scad in lib.scad to allow use of terminal_block(). 2022-12-05 13:34:16 +01:00
Chris
c2e85a5833 Merge pull request #245 from drf5n/patch-1 
update nuts.scad table comment
 2022-10-26 13:37:41 +01:00
drf5n
f2313a3f0c update nuts.scad table comment 
Change comment about nut sizes from radius to diameter.
 2022-10-20 10:57:06 -04:00
Chris
d95e1e64ed Udated changelog. 2022-09-29 12:00:53 +01:00
Chris
4eaaee6a4d Merge branch 'jeroenrnl-nuthousing' 2022-09-29 11:58:06 +01:00
Chris
f1737d257b Updated images and readme. 2022-09-29 11:57:49 +01:00
Jeroen Roos
ce258d6d4f Leadnuts: add nuthousing 2022-09-27 21:50:28 +02:00
Chris
272b7efd45 Updated changelog. 2022-09-27 01:12:59 +01:00
Chris
e84b5721d7 Merge branch 'jeroenrnl-SC_flex' 2022-09-27 01:10:40 +01:00
Chris
ec85cc5d4c Updated images and readme. 2022-09-27 01:10:23 +01:00
Chris
264e4366f6 Merge branch 'SC_flex' of https://github.com/jeroenrnl/NopSCADlib into jeroenrnl-SC_flex 2022-09-27 00:35:19 +01:00
Chris
233fba275d Updated changelog. 2022-09-27 00:18:08 +01:00
Chris
c9ac393c0c Printed corner blocks now have a short_insert option. 2022-09-27 00:09:49 +01:00
Chris
208334a585 Printed box now has a short insert option. 2022-09-27 00:09:15 +01:00
Chris
3a17b89d5c Added short inserts and M5 inserts. 
screw_insert() now takes a short flag.
screw_length() can now be passed an insert object.
 2022-09-27 00:07:23 +01:00
Chris
0f36c02b5e Added layer_height0 global variable and updated round_to_layer() to handle it. 
Moved functions from global_defs.scad to global.scad so they get documented.
 2022-09-25 18:22:29 +01:00
Jeroen Roos
fb6695471f Shaft coupling: Add flexible SC / 6x8 flexible SC 
Added the possibility for shaft couplings to be flexible and added a 6x8
example of such a coupling.
 2022-09-24 14:17:15 +02:00
Chris
87b794d4a2 Updated changelog. 2022-08-30 22:20:24 +01:00
Chris
75262efe3a Merge branch 'ChemicalXandco-l9110s' 2022-08-30 22:18:36 +01:00
Chris
c1e4625382 Replaced generic chips with SOIC8. 
Updated images and readme.
 2022-08-30 22:18:24 +01:00
ChemicalXandco
6059c5f556 add L9110S 2-Channel motor driver module 2022-08-29 11:17:21 +01:00
Chris
a5a55533e1 Updated changelog. 2022-08-03 07:52:37 +01:00
Chris
4ceb6bd863 Fixed a gap in printed hinges. 2022-08-03 07:50:05 +01:00
Chris
e0df0f31a5 Updated changelog. 2022-07-16 08:23:31 +01:00
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This changelog is generated by `changelog.py` using manually added semantic version tags to classify commits as breaking changes, additions or fixes.
### [v21.4.0](https://github.com/nophead/NopSCADlib/releases/tag/v21.4.0 "show release") Additions [...](https://github.com/nophead/NopSCADlib/compare/v21.3.1...v21.4.0 "diff with v21.3.1")
* 2023-05-01 [`5e24a32`](https://github.com/nophead/NopSCADlib/commit/5e24a32a0b422e8032c3c5d377c1a756ff6f1022 "show commit") [C.P.](# "Chris Palmer") Added ESP32 camera.
* 2023-05-01 [`fbd8d8c`](https://github.com/nophead/NopSCADlib/commit/fbd8d8c7cdff0bd7de0d42aa74bf0ab6551c205b "show commit") [C.P.](# "Chris Palmer") Added `smd_coax`
#### [v21.3.1](https://github.com/nophead/NopSCADlib/releases/tag/v21.3.1 "show release") Fixes [...](https://github.com/nophead/NopSCADlib/compare/v21.3.0...v21.3.1 "diff with v21.3.0")
* 2023-04-29 [`b1592f5`](https://github.com/nophead/NopSCADlib/commit/b1592f51d4b16a125d9b28edae56f758fcac2f02 "show commit") [C.P.](# "Chris Palmer") Fixed `bom.py,` `views.py` and `tests.py` so that vitamin descriptions can contain more than one colon.
### [v21.3.0](https://github.com/nophead/NopSCADlib/releases/tag/v21.3.0 "show release") Additions [...](https://github.com/nophead/NopSCADlib/compare/v21.2.0...v21.3.0 "diff with v21.2.0")
* 2023-04-23 [`61fc194`](https://github.com/nophead/NopSCADlib/commit/61fc19499524a2b750d17a90627a697bf626bbf0 "show commit") [C.P.](# "Chris Palmer") Refactored for readability.
* 2023-04-23 [`f8af615`](https://github.com/nophead/NopSCADlib/commit/f8af61568a8362cf470bc9eb8de8323c8fc001c7 "show commit") [C.P.](# "Chris Palmer") Updated images and readme.
* 2023-04-23 [`05d1684`](https://github.com/nophead/NopSCADlib/commit/05d16841c4d48c5c8f453e438af0ff6eb5bffe53 "show commit") [C.P.](# "Chris Palmer") Fixed thread pitch.
* 2023-04-05 [`07e7eb7`](https://github.com/nophead/NopSCADlib/commit/07e7eb77f73fcaab4291388b49781b0e2de5a64c "show commit") [M.B.](# "Martin Budden") Added support for shoulder screws.
### [v21.2.0](https://github.com/nophead/NopSCADlib/releases/tag/v21.2.0 "show release") Additions [...](https://github.com/nophead/NopSCADlib/compare/v21.1.2...v21.2.0 "diff with v21.1.2")
* 2023-04-22 [`5fc70e1`](https://github.com/nophead/NopSCADlib/commit/5fc70e19ac5d320290f4a2151665e83f0829d796 "show commit") [C.P.](# "Chris Palmer") Added SMD Tantalum caps and 0502 and 0402 resistor and capacitors.
#### [v21.1.2](https://github.com/nophead/NopSCADlib/releases/tag/v21.1.2 "show release") Fixes [...](https://github.com/nophead/NopSCADlib/compare/v21.1.1...v21.1.2 "diff with v21.1.1")
* 2023-03-29 [`1c5d9a8`](https://github.com/nophead/NopSCADlib/commit/1c5d9a8ef5892caf9b2c4d0d84dc3d20eba699d3 "show commit") [C.P.](# "Chris Palmer") Removed utility functions used by `invert()` from documentation as not generally useful.
#### [v21.1.1](https://github.com/nophead/NopSCADlib/releases/tag/v21.1.1 "show release") Fixes [...](https://github.com/nophead/NopSCADlib/compare/v21.1.0...v21.1.1 "diff with v21.1.0")
* 2023-03-29 [`d3f0bfc`](https://github.com/nophead/NopSCADlib/commit/d3f0bfc17f82b42f2d81f2d72a54c3f0cc375604 "show commit") [C.P.](# "Chris Palmer") Fixed typo in resistor comment.
### [v21.1.0](https://github.com/nophead/NopSCADlib/releases/tag/v21.1.0 "show release") Additions [...](https://github.com/nophead/NopSCADlib/compare/v21.0.1...v21.1.0 "diff with v21.0.1")
* 2023-03-11 [`18cd33c`](https://github.com/nophead/NopSCADlib/commit/18cd33c66388d4d4e7be664c0f883cff0854524b "show commit") [C.](# "Chris") Fixed typos, corrected vitamin call, added boilerplate, updated images and readme.
* 2023-03-11 [`ebfb330`](https://github.com/nophead/NopSCADlib/commit/ebfb330ac69f4e90de84ecffea94ce067d041031 "show commit") [D.K.](# "Dirkjan Krijnders") Added comments and make holes a `linear_extrude` result
* 2023-03-08 [`c5fab08`](https://github.com/nophead/NopSCADlib/commit/c5fab08a454383b295be2b151fd715ee79b85db3 "show commit") [D.K.](# "Dirkjan Krijnders") Added `photo_interrupter` to the test
* 2023-03-08 [`fecc937`](https://github.com/nophead/NopSCADlib/commit/fecc93746ab80ad1fc74f0fe3465de92ffee7b36 "show commit") [D.K.](# "Dirkjan Krijnders") Added vitamins for photo interrupters
#### [v21.0.1](https://github.com/nophead/NopSCADlib/releases/tag/v21.0.1 "show release") Fixes [...](https://github.com/nophead/NopSCADlib/compare/v21.0.0...v21.0.1 "diff with v21.0.0")
* 2023-03-11 [`07da7d8`](https://github.com/nophead/NopSCADlib/commit/07da7d8dc7d3fb769e57a6b9ca86465357007b6c "show commit") [C.](# "Chris") Removed `Python2.7` from `usage.md` as no longer works.
* 2023-03-10 [`5a3bbf9`](https://github.com/nophead/NopSCADlib/commit/5a3bbf967dc967eca4726af517382e7eb875dde1 "show commit") [C.](# "Chris") Fixed broken cover image.
## [v21.0.0](https://github.com/nophead/NopSCADlib/releases/tag/v21.0.0 "show release") Breaking Changes [...](https://github.com/nophead/NopSCADlib/compare/v20.24.0...v21.0.0 "diff with v20.24.0")
* 2023-03-10 [`9d4d5ab`](https://github.com/nophead/NopSCADlib/commit/9d4d5aba17974e7b5911e723d48d7b9403a4bcb4 "show commit") [C.](# "Chris") `veroboard_assembly()` renamed `veroboard_fastened_assembly()`.
`veroboard_assembly()` now doesn't include the fasteners.
### [v20.24.0](https://github.com/nophead/NopSCADlib/releases/tag/v20.24.0 "show release") Additions [...](https://github.com/nophead/NopSCADlib/compare/v20.23.0...v20.24.0 "diff with v20.23.0")
* 2023-03-10 [`d939401`](https://github.com/nophead/NopSCADlib/commit/d939401183d12af3452e17aa5b020dab50f8edb0 "show commit") [C.](# "Chris") Added `vero_grid_pos()` function.
* 2023-03-10 [`584542f`](https://github.com/nophead/NopSCADlib/commit/584542f87a27efe06ff3ba597dbaff1f3c32c4fd "show commit") [C.](# "Chris") Added fastons.
* 2023-03-10 [`62372a0`](https://github.com/nophead/NopSCADlib/commit/62372a049b9ac7a0fecebfd3618df91ff6ffa87a "show commit") [C.](# "Chris") The `wire()` module can now draw wires if a path is specified.
* 2023-03-10 [`14698e5`](https://github.com/nophead/NopSCADlib/commit/14698e5203e1e860230ddb3729816730e221f49c "show commit") [C.](# "Chris") Added PTFE heatshrink sleeving.
* 2023-03-10 [`14f6bb5`](https://github.com/nophead/NopSCADlib/commit/14f6bb533a3dcc1d36b2b764906cdca7d8d24484 "show commit") [C.](# "Chris") Added `sleeving_length` to `al_clad_resistor_assembly()`.
* 2023-03-10 [`01e9aae`](https://github.com/nophead/NopSCADlib/commit/01e9aae698f57bac6046d1a04aaa11b0c88006b5 "show commit") [C.](# "Chris") Added `TO220_size()` and `TO220_lead_pos(i,` l).
* 2023-02-04 [`27f9b24`](https://github.com/nophead/NopSCADlib/commit/27f9b242f250c0083344a05527055bb2fbb56f91 "show commit") [C.P.](# "Chris Palmer") Added crystal, transistors, diode and LEDs to Arduino Uno.
* 2023-02-03 [`f07fda7`](https://github.com/nophead/NopSCADlib/commit/f07fda70cdfc743cd2462636fcc1eb13a092f9e4 "show commit") [C.P.](# "Chris Palmer") Wire links can now be sleeved.
* 2023-02-01 [`abf1f1a`](https://github.com/nophead/NopSCADlib/commit/abf1f1ab3f3eddc2f274df649e8481a4117901eb "show commit") [C.P.](# "Chris Palmer") PCB blocks can now have rounded edges for more realistic cans.
* 2023-02-01 [`df06d1f`](https://github.com/nophead/NopSCADlib/commit/df06d1f57fff64cd6da20684f8371da204f69a82 "show commit") [C.P.](# "Chris Palmer") Updated changelog.
### [v20.23.0](https://github.com/nophead/NopSCADlib/releases/tag/v20.23.0 "show release") Additions [...](https://github.com/nophead/NopSCADlib/compare/v20.22.0...v20.23.0 "diff with v20.22.0")
* 2023-02-01 [`470d6d6`](https://github.com/nophead/NopSCADlib/commit/470d6d6216b1cef8ce6cafd4b14300edb62eac4a "show commit") [C.P.](# "Chris Palmer") Started radial components with crystals.
* 2023-02-01 [`0e5e15a`](https://github.com/nophead/NopSCADlib/commit/0e5e15a747fed6b4ef434c9796bef6cb9e658c0e "show commit") [C.P.](# "Chris Palmer") Added SOIC14 package.
* 2023-02-01 [`3f84912`](https://github.com/nophead/NopSCADlib/commit/3f84912e555cd4f7e97e7cac3091260fe969df4c "show commit") [C.P.](# "Chris Palmer") Added `rounded_top_rectangle()`.
### [v20.22.0](https://github.com/nophead/NopSCADlib/releases/tag/v20.22.0 "show release") Additions [...](https://github.com/nophead/NopSCADlib/compare/v20.21.0...v20.22.0 "diff with v20.21.0")
* 2023-01-29 [`01eeafb`](https://github.com/nophead/NopSCADlib/commit/01eeafb2552a4fcc735e85e8d0e7c0855c18be8c "show commit") [C.P.](# "Chris Palmer") Updated images and readme.
* 2023-01-29 [`dd876c8`](https://github.com/nophead/NopSCADlib/commit/dd876c8fc9f2658332c1c3200a6a67e1b78a8f64 "show commit") [C.P.](# "Chris Palmer") Added vertical USB connector to PCB test.
* 2023-01-29 [`ff40a27`](https://github.com/nophead/NopSCADlib/commit/ff40a276e1a37836ab011689e849da76ce19d4a7 "show commit") [C.P.](# "Chris Palmer") Fixed display position in tests.
* 2023-01-29 [`463c620`](https://github.com/nophead/NopSCADlib/commit/463c620cc3053428ecf7ca6360477992b9538978 "show commit") [C.P.](# "Chris Palmer") Made a new row of PCBs in the test.
* 2023-01-29 [`7b1a916`](https://github.com/nophead/NopSCADlib/commit/7b1a9160434f5b000c83f03d39305f73b0bbf646 "show commit") [C.P.](# "Chris Palmer") Fixed vAx1 dimensions, removed flange and repositioned the tongue.
* 2023-01-28 [`de05134`](https://github.com/nophead/NopSCADlib/commit/de051343d01e57b5e0c43a5f8de69eb508bd86ca "show commit") [E.F.](# "Elliot Foster") WiP of an Orange Pi Zero 2 PCB
### [v20.21.0](https://github.com/nophead/NopSCADlib/releases/tag/v20.21.0 "show release") Additions [...](https://github.com/nophead/NopSCADlib/compare/v20.20.1...v20.21.0 "diff with v20.20.1")
* 2023-01-28 [`34719c3`](https://github.com/nophead/NopSCADlib/commit/34719c33607f8720701eb59719af337cb4a1b777 "show commit") [C.P.](# "Chris Palmer") Box shelves now have screws in the corners to hold them down.
* 2023-01-28 [`024439d`](https://github.com/nophead/NopSCADlib/commit/024439d4c2d0f302027d130584cedadb6d9d14a9 "show commit") [C.P.](# "Chris Palmer") Can now specify short inserts to be used for `butt_boxes`.
#### [v20.20.1](https://github.com/nophead/NopSCADlib/releases/tag/v20.20.1 "show release") Fixes [...](https://github.com/nophead/NopSCADlib/compare/v20.20.0...v20.20.1 "diff with v20.20.0")
* 2023-01-28 [`005c112`](https://github.com/nophead/NopSCADlib/commit/005c112ba9fc210f88fa82cf638108dbe0b20f26 "show commit") [C.P.](# "Chris Palmer") Added values to the SMD capacitors on the example PCB.
* 2023-01-28 [`dfbcbf8`](https://github.com/nophead/NopSCADlib/commit/dfbcbf84ab57a2c70aaf5b1fa26668278b6993d3 "show commit") [C.P.](# "Chris Palmer") Changed OpenGrab link as `nicadrone.com` has gone.
### [v20.20.0](https://github.com/nophead/NopSCADlib/releases/tag/v20.20.0 "show release") Additions [...](https://github.com/nophead/NopSCADlib/compare/v20.19.1...v20.20.0 "diff with v20.19.1")
* 2023-01-24 [`e7e9313`](https://github.com/nophead/NopSCADlib/commit/e7e9313e71fb2b30aca142ceded2dc5615695071 "show commit") [C.P.](# "Chris Palmer") Updated images and readme.
* 2023-01-23 [`dab06ce`](https://github.com/nophead/NopSCADlib/commit/dab06ce4ca771787aa625d1370b4f2b779580315 "show commit") [E.F.](# "Elliot Foster") Add Raspberry Pi 3 A+ to pcbs
#### [v20.19.1](https://github.com/nophead/NopSCADlib/releases/tag/v20.19.1 "show release") Fixes [...](https://github.com/nophead/NopSCADlib/compare/v20.19.0...v20.19.1 "diff with v20.19.0")
* 2023-01-24 [`494002a`](https://github.com/nophead/NopSCADlib/commit/494002aebeda560e65ca4f8cb3794707487a3c2a "show commit") [C.P.](# "Chris Palmer") Added test to MP1584EN PCB.
* 2023-01-24 [`77e948f`](https://github.com/nophead/NopSCADlib/commit/77e948f43c911442211bcbf6d1b1520184d2c70b "show commit") [C.P.](# "Chris Palmer") Added can bus connectors to OpenGrab model.
Tweaked some PCB component positions.
* 2023-01-24 [`543cdb4`](https://github.com/nophead/NopSCADlib/commit/543cdb4e01d38308a06d4368ebabadb85c696567 "show commit") [C.P.](# "Chris Palmer") Incresed the clearance of holes made for pin header.
### [v20.19.0](https://github.com/nophead/NopSCADlib/releases/tag/v20.19.0 "show release") Additions [...](https://github.com/nophead/NopSCADlib/compare/v20.18.1...v20.19.0 "diff with v20.18.1")
* 2023-01-12 [`ebd50ba`](https://github.com/nophead/NopSCADlib/commit/ebd50bae535283b94b310ee74c9b98b2e3b7f8be "show commit") [C.P.](# "Chris Palmer") Added SMD diodes, inductors and potentiometers.
Complete set of components added to MP1584EN buck regulator.
#### [v20.18.1](https://github.com/nophead/NopSCADlib/releases/tag/v20.18.1 "show release") Fixes [...](https://github.com/nophead/NopSCADlib/compare/v20.18.0...v20.18.1 "diff with v20.18.0")
* 2023-01-07 [`ec3e752`](https://github.com/nophead/NopSCADlib/commit/ec3e752fc5b5586ef5ac838c709ab4b704dac817 "show commit") [C.](# "Chris") Added missing documentation for `hinge_female()` module.
### [v20.18.0](https://github.com/nophead/NopSCADlib/releases/tag/v20.18.0 "show release") Additions [...](https://github.com/nophead/NopSCADlib/compare/v20.17.0...v20.18.0 "diff with v20.17.0")
* 2023-01-07 [`8587d52`](https://github.com/nophead/NopSCADlib/commit/8587d52d1b87dc9932c7e458798d4a6f3722a371 "show commit") [C.](# "Chris") Added `screw_keyhole()` module.
### [v20.17.0](https://github.com/nophead/NopSCADlib/releases/tag/v20.17.0 "show release") Additions [...](https://github.com/nophead/NopSCADlib/compare/v20.16.0...v20.17.0 "diff with v20.16.0")
* 2023-01-07 [`cec8c3a`](https://github.com/nophead/NopSCADlib/commit/cec8c3a107b81f8badb4e2077a318cc36fcdd481 "show commit") [C.](# "Chris") Added printed LED bezels.
### [v20.16.0](https://github.com/nophead/NopSCADlib/releases/tag/v20.16.0 "show release") Additions [...](https://github.com/nophead/NopSCADlib/compare/v20.15.2...v20.16.0 "diff with v20.15.2")
* 2023-01-07 [`848dcb8`](https://github.com/nophead/NopSCADlib/commit/848dcb86b9f1d9a164366208da76faea6d6050f1 "show commit") [C.](# "Chris") Added 8mm LED.
#### [v20.15.2](https://github.com/nophead/NopSCADlib/releases/tag/v20.15.2 "show release") Fixes [...](https://github.com/nophead/NopSCADlib/compare/v20.15.1...v20.15.2 "diff with v20.15.1")
* 2023-01-07 [`a31f6f1`](https://github.com/nophead/NopSCADlib/commit/a31f6f100ce18168594b02a25d5229536f02a65c "show commit") [C.](# "Chris") Revised LED dimensions.
* 2023-01-07 [`b3dd635`](https://github.com/nophead/NopSCADlib/commit/b3dd635889f7ed4f779ee9408ff81ac64cb1f7ec "show commit") [C.](# "Chris") Fixed duplicated `dxf()` calls in printed box and `butt_box`.
Client code now calls `dxf()` so that the generated files can be used to speed up assembly views.
#### [v20.15.1](https://github.com/nophead/NopSCADlib/releases/tag/v20.15.1 "show release") Fixes [...](https://github.com/nophead/NopSCADlib/compare/v20.15.0...v20.15.1 "diff with v20.15.0")
* 2022-12-06 [`e256801`](https://github.com/nophead/NopSCADlib/commit/e256801206189eafcf020cc7fdb50fff4314c397 "show commit") [C.P.](# "Chris Palmer") Added comment to indicate the `.py` suffix may be needed on linux and OSX.
### [v20.15.0](https://github.com/nophead/NopSCADlib/releases/tag/v20.15.0 "show release") Additions [...](https://github.com/nophead/NopSCADlib/compare/v20.14.1...v20.15.0 "diff with v20.14.1")
* 2022-12-05 [`9dc8062`](https://github.com/nophead/NopSCADlib/commit/9dc8062befa72c6650b17d34428bfe39e709fdc2 "show commit") [M.W.](# "Marek Wodzinski") Include `terminal.scad` in `lib.scad` to allow use of `terminal_block()`.
#### [v20.14.1](https://github.com/nophead/NopSCADlib/releases/tag/v20.14.1 "show release") Fixes [...](https://github.com/nophead/NopSCADlib/compare/v20.14.0...v20.14.1 "diff with v20.14.0")
* 2022-10-20 [`f2313a3`](https://github.com/nophead/NopSCADlib/commit/f2313a3f0ccbb130a7bd974b9a02f5ef6841f39e "show commit") [D.](# "drf5n") update `nuts.scad` table comment
* Change comment about nut sizes from radius to diameter.
* 2022-09-29 [`d95e1e6`](https://github.com/nophead/NopSCADlib/commit/d95e1e64edba4ef51852a1e72d00497154c80c88 "show commit") [C.](# "Chris") Udated changelog.
### [v20.14.0](https://github.com/nophead/NopSCADlib/releases/tag/v20.14.0 "show release") Additions [...](https://github.com/nophead/NopSCADlib/compare/v20.13.0...v20.14.0 "diff with v20.13.0")
* 2022-09-29 [`f1737d2`](https://github.com/nophead/NopSCADlib/commit/f1737d257b54957772ab6faea102f8ddb829119b "show commit") [C.](# "Chris") Updated images and readme.
* 2022-09-27 [`ce258d6`](https://github.com/nophead/NopSCADlib/commit/ce258d6d4f1de5fbdda76a78b0ad2cbf1b41a3f9 "show commit") [J.R.](# "Jeroen Roos") Leadnuts: add nuthousing
### [v20.13.0](https://github.com/nophead/NopSCADlib/releases/tag/v20.13.0 "show release") Additions [...](https://github.com/nophead/NopSCADlib/compare/v20.12.0...v20.13.0 "diff with v20.12.0")
* 2022-09-27 [`ec85cc5`](https://github.com/nophead/NopSCADlib/commit/ec85cc5d4c76baedae670a5652194bd1799a7094 "show commit") [C.](# "Chris") Updated images and readme.
* 2022-09-24 [`fb66954`](https://github.com/nophead/NopSCADlib/commit/fb6695471f935057a0949e55f70a39911ac81f4c "show commit") [J.R.](# "Jeroen Roos") Shaft coupling: Add flexible SC `/` 6x8 flexible SC
* Added the possibility for shaft couplings to be flexible and added a 6x8
example of such a coupling.
### [v20.12.0](https://github.com/nophead/NopSCADlib/releases/tag/v20.12.0 "show release") Additions [...](https://github.com/nophead/NopSCADlib/compare/v20.11.0...v20.12.0 "diff with v20.11.0")
* 2022-09-27 [`c9ac393`](https://github.com/nophead/NopSCADlib/commit/c9ac393c0c7b025b3e6ad9e1030d1b13f8b879c3 "show commit") [C.](# "Chris") Printed corner blocks now have a `short_insert` option.
* 2022-09-27 [`208334a`](https://github.com/nophead/NopSCADlib/commit/208334a585ed0605bf7dbaab1050c060aa15edb7 "show commit") [C.](# "Chris") Printed box now has a short insert option.
* 2022-09-27 [`3a17b89`](https://github.com/nophead/NopSCADlib/commit/3a17b89d5ceb69834b23ff6bc46523f2dfb15f99 "show commit") [C.](# "Chris") Added short inserts and M5 inserts.
`screw_insert()` now takes a short flag.
`screw_length()` can now be passed an insert object.
* 2022-09-25 [`0f36c02`](https://github.com/nophead/NopSCADlib/commit/0f36c02b5e34b0b45d258ff8e6ed4536f0601d92 "show commit") [C.](# "Chris") Added `layer_height0` global variable and updated `round_to_layer()` to handle it.
* Moved functions from `global_defs.scad` to `global.scad` so they get documented.
### [v20.11.0](https://github.com/nophead/NopSCADlib/releases/tag/v20.11.0 "show release") Additions [...](https://github.com/nophead/NopSCADlib/compare/v20.10.3...v20.11.0 "diff with v20.10.3")
* 2022-08-30 [`c1e4625`](https://github.com/nophead/NopSCADlib/commit/c1e4625382646faf6a00e78ac01e495a88169b35 "show commit") [C.](# "Chris") Replaced generic chips with SOIC8.
Updated images and readme.
* 2022-08-29 [`6059c5f`](https://github.com/nophead/NopSCADlib/commit/6059c5f5569a9fc2ba08e448bbf90328fb985ed3 "show commit") [C.](# "ChemicalXandco") add L9110S 2-Channel motor driver module
#### [v20.10.3](https://github.com/nophead/NopSCADlib/releases/tag/v20.10.3 "show release") Fixes [...](https://github.com/nophead/NopSCADlib/compare/v20.10.2...v20.10.3 "diff with v20.10.2")
* 2022-08-03 [`4ceb6bd`](https://github.com/nophead/NopSCADlib/commit/4ceb6bd8639cd39ac39798b3eccd178526a56c13 "show commit") [C.](# "Chris") Fixed a gap in printed hinges.
#### [v20.10.2](https://github.com/nophead/NopSCADlib/releases/tag/v20.10.2 "show release") Fixes [...](https://github.com/nophead/NopSCADlib/compare/v20.10.1...v20.10.2 "diff with v20.10.1")
* 2022-07-16 [`664d04a`](https://github.com/nophead/NopSCADlib/commit/664d04ad93c28c2614d5991e2b8dfa78964f6a99 "show commit") [C.](# "Chris") Now logs the time taken to run non OpenSCAD commands in `cmd_times.txt`
#### [v20.10.1](https://github.com/nophead/NopSCADlib/releases/tag/v20.10.1 "show release") Fixes [...](https://github.com/nophead/NopSCADlib/compare/v20.10.0...v20.10.1 "diff with v20.10.0")
* 2022-06-30 [`f44d9ae`](https://github.com/nophead/NopSCADlib/commit/f44d9ae424f407baa4f8b5187819b43b30800257 "show commit") [M.B.](# "Martin Budden") Made includes relative in `bldc_motors`.

4
docs/usage.md
View File

@@ -2,7 +2,7 @@
## Requirements
1. OpenSCAD 2021.01 or later, download it from here: https://www.openscad.org/downloads.html
1. Python 2.7+ or 3.6+ from https://www.python.org/downloads/
1. Python 3.6+ from https://www.python.org/downloads/
1. ImageMagick 7 www.imagemagick.org
These are all cross platform tools so NopSCADlib should work on any platform that supports them, although it has currently only been tested on Win7.
@@ -28,6 +28,8 @@ by downloading https://github.com/nophead/NopSCADlib/archive/master.zip and unzi
The `NopSCADlib/scripts` directory needs to be added to the executable search path, `PATH` on Windows and `path` on Linux and Mac.
Note that on Linux and OSX the full file name including the `.py` will be needed.
The installation can be tested by opening `NopSCADlib/libtest.scad` in the OpenSCAD GUI. It should render all the objects in the library in about 1 minute.
Running `tests` from the command line will run all the tests in the `tests` directory and build the `readme.md` catalog for GitHub and render it to `readme.html`

4
global_defs.scad
View File

@@ -29,6 +29,7 @@ rr_green = [0, 146/255, 0]; // Rep
crimson = [220/255, 20/255, 60/255];
layer_height = is_undef($layer_height) ? 0.25 : $layer_height; // layer height when printing
layer_height0 = is_undef($layer_height0) ? layer_height : $layer_height0; // height of first layer if different
extrusion_width = is_undef($extrusion_width) ? 0.5 : $extrusion_width; // filament width when printing
nozzle = is_undef($nozzle) ? 0.45 : $nozzle; // 3D printer nozzle
cnc_bit_r = is_undef($cnc_bit_r) ? 1.2 : $cnc_bit_r; // minimum tool radius when milling 2D objects
@@ -51,10 +52,7 @@ eps = 1/128; // small fudge factor to stop CSG barfing on coincident faces.
$fa = 6;
$fs = extrusion_width / 2;
function round_to_layer(z) = ceil(z / layer_height) * layer_height; //! Round up to a multiple of layer_height.
// Some additional named colours
function grey(n) = [0.01, 0.01, 0.01] * n; //! Generate a shade of grey to pass to color().
silver = [0.75, 0.75, 0.75];
gold = [255, 215, 0] / 255;
brass = [255, 220, 100] / 255;

4
lib.scad
View File

@@ -37,6 +37,7 @@ include <vitamins/components.scad>
include <vitamins/displays.scad>
include <vitamins/extrusions.scad>
include <vitamins/extrusion_brackets.scad>
include <vitamins/fastons.scad>
include <vitamins/geared_steppers.scad>
include <vitamins/hot_ends.scad>
include <vitamins/inserts.scad>
@@ -48,6 +49,7 @@ include <vitamins/magnets.scad>
include <vitamins/mains_sockets.scad>
include <vitamins/modules.scad>
include <vitamins/panel_meters.scad>
include <vitamins/photo_interrupters.scad>
include <vitamins/pillars.scad>
include <vitamins/pillow_blocks.scad>
include <vitamins/pin_headers.scad>
@@ -63,6 +65,7 @@ include <vitamins/spools.scad>
include <vitamins/ssrs.scad>
include <vitamins/stepper_motors.scad>
include <vitamins/swiss_clips.scad>
include <vitamins/terminal.scad>
include <vitamins/toggles.scad>
include <vitamins/transformers.scad>
include <vitamins/tubings.scad>
@@ -98,3 +101,4 @@ use <utils/round.scad>
use <utils/offset.scad>
use <utils/sector.scad>
use <utils/thread.scad>
use <vitamins/photo_interrupter.scad>

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38
libtest.scad
View File

@@ -63,6 +63,7 @@ use <tests/drag_chain.scad>
use <tests/extrusions.scad>
use <tests/extrusion_brackets.scad>
use <tests/fans.scad>
use <tests/fastons.scad>
use <tests/fuseholder.scad>
use <tests/geared_steppers.scad>
use <tests/hot_ends.scad>
@@ -74,6 +75,7 @@ use <tests/LDRs.scad>
use <tests/LEDs.scad>
use <tests/light_strips.scad>
use <tests/linear_bearings.scad>
use <tests/LED_bezel.scad>
use <tests/LED_meters.scad>
use <tests/magnets.scad>
use <tests/microswitches.scad>
@@ -83,6 +85,7 @@ use <tests/o_ring.scad>
use <tests/opengrab.scad>
use <tests/panel_meters.scad>
use <tests/PCBs.scad>
use <tests/photo_interrupters.scad>
use <tests/pillars.scad>
use <tests/pillow_blocks.scad>
use <tests/potentiometers.scad>
@@ -149,6 +152,9 @@ cable_grommets_y = 0;
translate([x5, cable_grommets_y])
cable_grommets();
translate([x5, cable_grommets_y + 30])
led_bezels();
translate([x5 + 50, cable_grommets_y])
ribbon_clamps();
@@ -211,7 +217,7 @@ translate([950, box_y])
box_test();
translate([950, 1400])
translate([950, 1525])
rotate(-90)
bbox_test();
@@ -219,7 +225,7 @@ inserts_y = 0;
nuts_y = inserts_y + 20;
washers_y = nuts_y + 120;
screws_y = washers_y + 120;
circlips_y = screws_y + 160;
circlips_y = screws_y + 180;
springs_y = circlips_y + 20;
o_rings_y = springs_y;
sealing_strip_y = springs_y + 20;
@@ -232,7 +238,7 @@ linear_bearings_y = leadnuts_y + 50;
steppers_y = linear_bearings_y + 110;
sheets_y = steppers_y + 55;
pcbs_y = sheets_y + 60;
displays_y = pcbs_y + 140;
displays_y = pcbs_y + 265;
fans_y = displays_y + 110;
transformers_y = fans_y + 120;
psus_y = transformers_y + 190;
@@ -279,6 +285,9 @@ translate([x0, pulleys_y])
translate([x0, leadnuts_y])
leadnuts();
translate([x0 + 120, leadnuts_y])
leadnuthousings();
translate([x0, linear_bearings_y]) {
linear_bearings();
rods();
@@ -329,9 +338,10 @@ leds_y = 0;
carriers_y = leds_y + 40;
magnets_y = carriers_y + 40;
spades_y = magnets_y + 20;
buttons_y = spades_y + 20;
jacks_y = buttons_y + 40;
microswitches_y = jacks_y + 40;
fastons_y = spades_y + 20;
buttons_y = fastons_y + 20;
jacks_y = buttons_y + 30;
microswitches_y = jacks_y + 30;
rockers_y = microswitches_y + 40;
toggles_y = rockers_y + 60;
components_y = toggles_y + 40;
@@ -357,6 +367,9 @@ translate([x2 + 70, leds_y])
translate([x2, spades_y])
spades();
translate([x2, fastons_y])
fastons();
translate([x2, buttons_y])
buttons();
@@ -389,21 +402,21 @@ extrusions_y = panel_meters_y + 80;
translate([x3, veroboard_y])
veroboard_test();
translate([x3 + 60, veroboard_y + 20])
translate([x3 + 50, veroboard_y + 20])
geared_steppers();
translate([x3 + 160, ssrs_y])
pcb_mounts();
translate([x3 + 170, veroboard_y + 16])
translate([x3 + 145, veroboard_y + 16])
cameras();
translate([x3 + 145, d_connectors_y - 10])
camera_housings();
translate([x3, d_connectors_y])
d_connectors();
translate([x3 + 170, d_connectors_y - 10])
camera_housings();
translate([x3, iecs_y])
iecs();
@@ -416,6 +429,9 @@ translate([x3 + 60, modules_y])
translate([x3 + 90, modules_y])
modules();
translate([x3 + 150, modules_y])
photo_interrupters();
translate([x3, ssrs_y]) {
ssrs();

62
printed/box.scad
View File

@@ -453,8 +453,6 @@ module box_screw_hole_positions(type) {
}
module box_base_blank(type) { //! Generates a 2D template for the base sheet
dxf(str(box_name(type), "_base"));
difference() {
sheet_2D(box_base_sheet(type), box_width(type), box_depth(type), box_sheet_r(type));
@@ -464,8 +462,6 @@ module box_base_blank(type) { //! Generates a 2D template for the base sheet
}
module box_top_blank(type) { //! Generates a 2D template for the top sheet
dxf(str(box_name(type), "_top"));
difference() {
sheet_2D(box_top_sheet(type), box_width(type), box_depth(type), box_sheet_r(type));
@@ -478,18 +474,19 @@ function subst_sheet(type, sheet) =
let(s = box_sheets(type))
sheet ? assert(sheet_thickness(sheet) == sheet_thickness(s)) sheet : s;
module box_shelf_blank(type, sheet = false) { //! Generates a 2D template for a shelf sheet
dxf(str(box_name(type), "_shelf"));
module box_shelf_blank(type, sheet = false, wall = undef) { //! Generates a 2D template for a shelf sheet
difference() {
sheet_2D(subst_sheet(type, sheet), box_width(type) - bezel_clearance, box_depth(type) - bezel_clearance, 1);
offset(bezel_clearance / 2)
box_corner_quadrants(type, box_width(type), box_depth(type));
box_shelf_screw_positions(type, [], 0, wall)
drill(screw_clearance_radius(box_shelf_screw(type)), 0);
}
}
module box_shelf_screw_positions(type, screw_positions, thickness = 0, wall = undef) { //! Place children at the shelf screw positions
module box_shelf_screw_positions(type, screw_positions, thickness = 0, wall = undef, top_screws = true) { //! Place children at the shelf screw positions
w = is_undef(wall) ? box_wall(type) : wall;
insert = box_shelf_insert(type);
translate_z(-insert_boss_radius(insert, w))
@@ -497,13 +494,22 @@ module box_shelf_screw_positions(type, screw_positions, thickness = 0, wall = un
multmatrix(p)
translate_z(thickness)
children();
r = box_boss_r(type);
inset = box_intrusion(type) - r + (r + insert_boss_radius(insert, w) + bezel_clearance / 2) / sqrt(2);
if(top_screws)
translate_z(thickness)
for(x = [-1, 1], y = [-1, 1])
translate([x * (box_width(type) / 2 - inset), y * (box_depth(type) / 2 - inset)])
rotate(45 * x * (2 + y))
children();
}
module box_shelf_bracket(type, screw_positions, wall = undef) { //! Generates a shelf bracket, the first optional child is a 2D cutout and the second 3D cutouts
w = is_undef(wall) ? box_wall(type) : wall;
insert = box_shelf_insert(type);
lip = 2 * insert_boss_radius(insert, w);
width = insert_length(insert) + w;
width = max(insert_length(insert) + w, lip);
module shape()
difference() {
@@ -579,50 +585,44 @@ module box_shelf_bracket_section(type, rows, cols, x, y) { //! Generates section
children();
}
module box_left_blank(type, sheet = false) { //! Generates a 2D template for the left sheet, `sheet` can be set to override the type
dxf(str(box_name(type), "_left"));
module box_left_blank(type, sheet = false) //! Generates a 2D template for the left sheet, `sheet` can be set to override the type
sheet_2D(subst_sheet(type, sheet), box_depth(type) - sheet_reduction(type), box_height(type) - sheet_reduction(type), 1);
}
module box_right_blank(type, sheet = false) { //! Generates a 2D template for the right sheet, `sheet` can be set to override the type
dxf(str(box_name(type), "_right"));
module box_right_blank(type, sheet = false) //! Generates a 2D template for the right sheet, `sheet` can be set to override the type
sheet_2D(subst_sheet(type, sheet), box_depth(type) - sheet_reduction(type), box_height(type) - sheet_reduction(type), 1);
}
module box_front_blank(type, sheet = false) { //! Generates a 2D template for the front sheet, `sheet` can be set to override the type
dxf(str(box_name(type), "_front"));
module box_front_blank(type, sheet = false) //! Generates a 2D template for the front sheet, `sheet` can be set to override the type
sheet_2D(subst_sheet(type, sheet), box_width(type) - sheet_reduction(type), box_height(type) - sheet_reduction(type), 1);
}
module box_back_blank(type, sheet = false) { //! Generates a 2D template for the back sheet, `sheet` can be set to override the type
dxf(str(box_name(type), "_back"));
module box_back_blank(type, sheet = false) //! Generates a 2D template for the back sheet, `sheet` can be set to override the type
sheet_2D(subst_sheet(type, sheet), box_width(type) - sheet_reduction(type), box_height(type) - sheet_reduction(type), 1);
}
module box_base(type) //! Default base, can be overridden to customise
render_2D_sheet(box_base_sheet(type))
box_base_blank(type);
dxf(str(box_name(type), "_base"))
box_base_blank(type);
module box_top(type) //! Default top, can be overridden to customise
render_2D_sheet(box_top_sheet(type))
box_top_blank(type);
dxf(str(box_name(type), "_top"))
box_top_blank(type);
module box_back(type) //! Default back, can be overridden to customise
render_2D_sheet(box_sheets(type))
box_back_blank(type);
dxf(str(box_name(type), "_back"))
box_back_blank(type);
module box_front(type) //! Default front, can be overridden to customise
render_2D_sheet(box_sheets(type))
box_front_blank(type);
dxf(str(box_name(type), "_front"))
box_front_blank(type);
module box_left(type) //! Default left side, can be overridden to customise
render_2D_sheet(box_sheets(type))
box_left_blank(type);
dxf(str(box_name(type), "_left"))
box_left_blank(type);
module box_right(type) //! Default right side, can be overridden to customise
render_2D_sheet(box_sheets(type))
box_right_blank(type);
dxf(str(box_name(type), "_right"))
box_right_blank(type);

46
printed/butt_box.scad
View File

@@ -51,9 +51,10 @@ function bbox_name(type) = type[8]; //! Optional name if there is more tha
function bbox_skip_blocks(type)= type[9]; //! List of fixing blocks to skip, used to allow a hinged panel for example
function bbox_star_washers(type)= type[10];//! Set to false to remove star washers.
function bbox_thin_blocks(type) = type[11];//! Set for 2 screw blocks instead of three hole fixing blocks.
function bbox_short_inserts(type)= type[12];//! Set to use short inserts in the blocks
function bbox(screw, sheets, base_sheet, top_sheet, span, size, name = "bbox", skip_blocks = [], star_washers = true, thin_blocks = false) = //! Construct the property list for a butt_box
[ screw, sheets, base_sheet, top_sheet, span, size.x, size.y, size.z, name, skip_blocks, star_washers, thin_blocks ];
function bbox(screw, sheets, base_sheet, top_sheet, span, size, name = "bbox", skip_blocks = [], star_washers = true, thin_blocks = false, short_inserts = false) = //! Construct the property list for a butt_box
[ screw, sheets, base_sheet, top_sheet, span, size.x, size.y, size.z, name, skip_blocks, star_washers, thin_blocks, short_inserts ];
function bbox_volume(type) = bbox_width(type) * bbox_depth(type) * bbox_height(type) / 1000000; //! Internal volume in litres
function bbox_area(type) = let(w = bbox_width(type), d = bbox_depth(type), h = bbox_height(type)) //! Internal surface area in m^2
@@ -78,7 +79,8 @@ function corner_block_positions(type) = let(
rotate([z > 0 ? 180 : 0, 0, corner * 90 + (z > 0 ? 90 : 0)])
];
function corner_holes(type) = [for(p = corner_block_positions(type), q = corner_block_holes(bbox_screw(type))) p * q];
function corner_holes(type) = let(short = bbox_short_inserts(type))
[for(p = corner_block_positions(type), q = corner_block_holes(bbox_screw(type), short_insert = short)) p * q];
function fixing_block_positions(type) = let(
width = bbox_width(type),
@@ -112,7 +114,8 @@ function fixing_block_positions(type) = let(
function side_holes(type) = let(
screw = bbox_screw(type),
holes = bbox_thin_blocks(type) ? 2screw_block_holes(screw) : fixing_block_holes(screw))
short = bbox_short_inserts(type),
holes = bbox_thin_blocks(type) ? 2screw_block_holes(screw, short_insert = short) : fixing_block_holes(screw))
[for(p = fixing_block_positions(type), q = holes) p * q];
module bbox_drill_holes(type, t)
@@ -120,8 +123,6 @@ module bbox_drill_holes(type, t)
drill(screw_clearance_radius(bbox_screw(type)), 0);
module bbox_base_blank(type) { //! 2D template for the base
dxf(str(bbox_name(type), "_base"));
difference() {
sheet_2D(bbox_base_sheet(type), bbox_width(type), bbox_depth(type), 1);
@@ -130,8 +131,6 @@ module bbox_base_blank(type) { //! 2D template for the base
}
module bbox_top_blank(type) { //! 2D template for the top
dxf(str(bbox_name(type), "_top"));
t = sheet_thickness(bbox_sheets(type));
difference() {
@@ -147,8 +146,6 @@ function subst_sheet(type, sheet) =
sheet ? assert(sheet_thickness(sheet) == sheet_thickness(s)) sheet : s;
module bbox_left_blank(type, sheet = false) { //! 2D template for the left side
dxf(str(bbox_name(type), "_left"));
t = sheet_thickness(bbox_sheets(type));
bb = sheet_thickness(bbox_base_sheet(type));
@@ -161,8 +158,6 @@ module bbox_left_blank(type, sheet = false) { //! 2D template for the left side
}
module bbox_right_blank(type, sheet = false) { //! 2D template for the right side
dxf(str(bbox_name(type), "_right"));
t = sheet_thickness(bbox_sheets(type));
bb = sheet_thickness(bbox_base_sheet(type));
@@ -175,8 +170,6 @@ module bbox_right_blank(type, sheet = false) { //! 2D template for the right sid
}
module bbox_front_blank(type, sheet = false, width = 0) { //! 2D template for the front
dxf(str(bbox_name(type), "_front"));
t = sheet_thickness(bbox_sheets(type));
bb = sheet_thickness(bbox_base_sheet(type));
bt = sheet_thickness(bbox_top_sheet(type));
@@ -190,8 +183,6 @@ module bbox_front_blank(type, sheet = false, width = 0) { //! 2D template for th
}
module bbox_back_blank(type, sheet = false) { //! 2D template for the back
dxf(str(bbox_name(type), "_back"));
bb = sheet_thickness(bbox_base_sheet(type));
t = sheet_thickness(bbox_sheets(type));
@@ -205,27 +196,33 @@ module bbox_back_blank(type, sheet = false) { //! 2D template for the back
module bbox_base(type) //! Default base, can be overridden to customise
render_2D_sheet(bbox_base_sheet(type))
bbox_base_blank(type);
dxf(str(bbox_name(type), "_base"))
bbox_base_blank(type);
module bbox_top(type) //! Default top, can be overridden to customise
render_2D_sheet(bbox_top_sheet(type))
bbox_top_blank(type);
dxf(str(bbox_name(type), "_top"))
bbox_top_blank(type);
module bbox_back(type) //! Default back, can be overridden to customise
render_2D_sheet(bbox_sheets(type))
bbox_back_blank(type);
dxf(str(bbox_name(type), "_back"))
bbox_back_blank(type);
module bbox_front(type) //! Default front, can be overridden to customise
render_2D_sheet(bbox_sheets(type))
bbox_front_blank(type);
dxf(str(bbox_name(type), "_front"))
bbox_front_blank(type);
module bbox_left(type) //! Default left side, can be overridden to customise
render_2D_sheet(bbox_sheets(type))
bbox_left_blank(type);
dxf(str(bbox_name(type), "_left"))
bbox_left_blank(type);
module bbox_right(type) //! Default right side, can be overridden to customise
render_2D_sheet(bbox_sheets(type))
bbox_right_blank(type);
dxf(str(bbox_name(type), "_right"))
bbox_right_blank(type);
module _bbox_assembly(type, top = true, base = true, left = true, right = true, back = true, front = true) { //! The box assembly, wrap with a local copy without parameters
width = bbox_width(type);
@@ -238,6 +235,7 @@ module _bbox_assembly(type, top = true, base = true, left = true, right = true,
tt = sheet_thickness(bbox_top_sheet(type));
star_washers = bbox_star_washers(type);
thin_blocks = bbox_thin_blocks(type);
short = bbox_short_inserts(type);
function is_missing_screw(p) = p.y > depth / 2 - 1 ? !back : false;
@@ -247,14 +245,14 @@ module _bbox_assembly(type, top = true, base = true, left = true, right = true,
let(q = transform([0, 0, 0], p), thickness = q.z > 0 ? tt : bt)
multmatrix(p)
fastened_corner_block_assembly(is_missing_screw(q) && ((q.z > 0) != (q.x > 0)) ? 0 : t, bbox_screw(type), thickness,
is_missing_screw(q) && ((q.z > 0) == (q.x > 0)) ? 0 : t, star_washers = star_washers);
is_missing_screw(q) && ((q.z > 0) == (q.x > 0)) ? 0 : t, star_washers = star_washers, short_insert = short);
h = height / 2 - 1;
for(p = fixing_block_positions(type))
let(q = transform([0, 0, 0], p), thickness = q.z > h ? tt : q.z < -h ? bt : t)
multmatrix(p)
if(thin_blocks)
fastened_2screw_block_assembly(is_missing_screw(q) ? 0 : t, bbox_screw(type), thickness_below = thickness, star_washers = star_washers);
fastened_2screw_block_assembly(is_missing_screw(q) ? 0 : t, bbox_screw(type), thickness_below = thickness, star_washers = star_washers, short_insert = short);
else
fastened_fixing_block_assembly(is_missing_screw(q) ? 0 : t, bbox_screw(type), thickness2 = thickness, star_washers = star_washers);

1
printed/camera_housing.scad
View File

@@ -23,7 +23,6 @@
include <../core.scad>
include <../vitamins/cameras.scad>
use <../vitamins/pcb.scad>
use <../vitamins/insert.scad>
wall = 1.75;
min_wall = 2 * extrusion_width;

204
printed/corner_block.scad
View File

@@ -44,47 +44,49 @@ overshoot = 2; // how far screw can overshoot the insert
function corner_block_screw() = def_screw; //! Default screw type
function corner_block_hole_offset(screw = def_screw) = //! Hole offset from the edge
let(insert = screw_insert(screw))
function corner_block_hole_offset(screw = def_screw, short_insert = false) = //! Hole offset from the edge
let(insert = screw_insert(screw, short_insert))
insert_length(insert) + max(overshoot + screw_clearance_radius(screw), insert_hole_radius(insert)) + 1;
function corner_block_width(screw = def_screw, short_insert = false) = //! Block width, depth and height
corner_block_hole_offset(screw, short_insert) + insert_outer_d(screw_insert(screw, short_insert)) / 2 + wall;
function corner_block_width(screw = def_screw) = //! Block width, depth and height
corner_block_hole_offset(screw) + insert_outer_d(screw_insert(screw)) / 2 + wall;
function corner_block_v_hole(screw = def_screw, short_insert = false) = //! Transform to bottom hole
let(offset = corner_block_hole_offset(screw, short_insert))
translate([offset, offset]) * rotate([180, 0, 0]);
function corner_block_v_hole(screw = def_screw) = let(offset = corner_block_hole_offset(screw)) translate([offset, offset]) * rotate([180, 0, 0]); //! Transform to bottom hole
function corner_block_h_holes(screw = def_screw) = //! List of transforms to side holes
let(offset = corner_block_hole_offset(screw))
function corner_block_h_holes(screw = def_screw, short_insert = false) = //! List of transforms to side holes
let(offset = corner_block_hole_offset(screw, short_insert))
[translate([offset, 0, offset]) * rotate([90, 0, 0]),
translate([0, offset, offset - layer_height]) * rotate([90, 0, -90])];
function corner_block_holes(screw) = concat([corner_block_v_hole(screw)], corner_block_h_holes(screw)); //! List of transforms to all holes
function corner_block_holes(screw, short_insert = false) = //! List of transforms to all holes
concat([corner_block_v_hole(screw, short_insert)], corner_block_h_holes(screw, short_insert));
module corner_block_v_hole(screw = def_screw) //! Place children at the bottom screw hole
multmatrix(corner_block_v_hole(screw))
module corner_block_v_hole(screw = def_screw, short_insert = false) //! Place children at the bottom screw hole
multmatrix(corner_block_v_hole(screw, short_insert))
children();
module corner_block_h_holes(screw = def_screw, index = undef) //! Place children at the side screw holes
for(p = !is_undef(index) ? [corner_block_h_holes(screw)[index]] : corner_block_h_holes(screw))
module corner_block_h_holes(screw = def_screw, index = undef, short_insert = false) //! Place children at the side screw holes
for(p = !is_undef(index) ? [corner_block_h_holes(screw, short_insert)[index]] : corner_block_h_holes(screw, short_insert))
multmatrix(p)
children();
module corner_block_holes(screw = def_screw) //! Place children at all the holes
for(p = corner_block_holes(screw))
module corner_block_holes(screw = def_screw, short_insert = false) //! Place children at all the holes
for(p = corner_block_holes(screw, short_insert))
multmatrix(p)
children();
module corner_block(screw = def_screw, name = false) { //! Generate the STL for a printed corner block
module corner_block(screw = def_screw, name = false, short_insert = false) { //! Generate the STL for a printed corner block
r = 1;
cb_width = corner_block_width(screw);
cb_width = corner_block_width(screw, short_insert);
cb_height = cb_width;
cb_depth = cb_width;
insert = screw_insert(screw);
insert = screw_insert(screw, short_insert);
corner_rad = insert_outer_d(insert) / 2 + wall;
offset = corner_block_hole_offset(screw);
offset = corner_block_hole_offset(screw, short_insert);
stl(name ? name : str("corner_block", "_M", screw_radius(screw) * 20))
stl(name ? name : str("corner_block", "_M", screw_radius(screw) * 20, short_insert ? "_s": ""))
difference() {
hull() {
translate([r, r])
@@ -110,53 +112,54 @@ module corner_block(screw = def_screw, name = false) { //! Generate the STL for
rotate([0, 90, 180])
rounded_cylinder(r = corner_rad, h = r, r2 = r);
}
corner_block_v_hole(screw)
corner_block_v_hole(screw, short_insert)
insert_hole(insert, overshoot);
corner_block_h_holes(screw)
corner_block_h_holes(screw, short_insert = short_insert)
insert_hole(insert, overshoot, true);
children();
}
}
module corner_block_assembly(screw = def_screw, name = false) //! The printed block with inserts
assembly(name ? name : str("corner_block_M", 20 * screw_radius(screw)), ngb = true) {
insert = screw_insert(screw);
module corner_block_assembly(screw = def_screw, name = false, short_insert = false) //! The printed block with inserts
assembly(name ? name : str("corner_block_M", 20 * screw_radius(screw), short_insert ? "_s": ""), ngb = true) {
insert = screw_insert(screw, short_insert);
stl_colour(name ? pp2_colour : pp1_colour)
render() corner_block(screw, name) children();
render() corner_block(screw, name, short_insert) children();
corner_block_h_holes(screw)
corner_block_h_holes(screw, short_insert = short_insert)
insert(insert);
corner_block_v_hole(screw)
corner_block_v_hole(screw, short_insert)
insert(insert);
}
module fastened_corner_block_assembly(thickness, screw = def_screw, thickness_below = undef, thickness_side2 = undef, name = false, show_block = true, star_washers = true) { //! Printed block with all fasteners
module fastened_corner_block_assembly(thickness, screw = def_screw, thickness_below = undef, thickness_side2 = undef, name = false, show_block = true, star_washers = true, short_insert = false) { //! Printed block with all fasteners
thickness2 = !is_undef(thickness_below) ? thickness_below : thickness;
thickness3 = !is_undef(thickness_side2) ? thickness_side2 : thickness;
function screw_len(t) = screw_length(screw, t + overshoot, star_washers ? 2 : 1, true);
insert = screw_insert(screw, short_insert);
function screw_len(t) = screw_length(screw, t + overshoot, star_washers ? 2 : 1, insert);
screw_length = screw_len(thickness);
screw_length2 = screw_len(thickness2);
screw_length3 = screw_len(thickness3);
if(show_block)
corner_block_assembly(screw, name) children();
corner_block_assembly(screw, name, short_insert) children();
if(thickness)
corner_block_h_holes(screw, 0)
corner_block_h_holes(screw, 0, short_insert)
translate_z(thickness)
screw_and_washer(screw, screw_length, star_washers);
if(thickness3)
corner_block_h_holes(screw, 1)
corner_block_h_holes(screw, 1, short_insert)
translate_z(thickness3)
screw_and_washer(screw, screw_length3, star_washers);
if(thickness2)
corner_block_v_hole(screw)
corner_block_v_hole(screw, short_insert)
translate_z(thickness2)
screw_and_washer(screw, screw_length2, star_washers);
}
@@ -165,6 +168,10 @@ module corner_block_M20_stl() corner_block(M2_cap_screw);
module corner_block_M25_stl() corner_block(M2p5_cap_screw);
module corner_block_M30_stl() corner_block(M3_cap_screw);
module corner_block_M40_stl() corner_block(M4_cap_screw);
module corner_block_M20_s_stl() corner_block(M2_cap_screw, short_insert = true);
module corner_block_M25_s_stl() corner_block(M2p5_cap_screw, short_insert = true);
module corner_block_M30_s_stl() corner_block(M3_cap_screw, short_insert = true);
module corner_block_M40_s_stl() corner_block(M4_cap_screw, short_insert = true);
//
//! 1. Lay the blocks out and place an M2 insert in each upward facing hole.
//! 1. Push them home with a soldering iron with a conical bit heated to 200&deg;C.
@@ -197,36 +204,69 @@ module corner_block_M30_assembly() corner_block_assembly(M3_cap_screw);
//
module corner_block_M40_assembly() corner_block_assembly(M4_cap_screw);
function 2screw_block_width(screw = def_screw) = //! 2 screw block width is narrower, height and depth are as corner_block
insert_outer_d(screw_insert(screw)) + 2 * wall;
//
//! 1. Lay the blocks out and place an M2 insert in each upward facing hole.
//! 1. Push them home with a soldering iron with a conical bit heated to 200&deg;C.
//! When removing the iron it helps to twist it a little anti-clockwise to release it from the thread.
//! 1. Lay the blocks on each of their other two flat sides and repeat.
//
module corner_block_M20_s_assembly() corner_block_assembly(M2_cap_screw, short_insert = true);
function 2screw_block_v_hole(screw = def_screw) = translate([0, corner_block_hole_offset(screw)]) * rotate([180, 0, 0]); //! Transform to bottom hole
function 2screw_block_h_hole(screw = def_screw) = translate([0, 0, corner_block_hole_offset(screw)]) * rotate([90, 0, 0]); //! Transform to front hole
function 2screw_block_holes(screw) = concat([2screw_block_v_hole(screw)], [2screw_block_h_hole(screw)]); //! List of transforms to both holes
//
//! 1. Lay the blocks out and place an M2.5 insert in each upward facing hole.
//! 1. Push them home with a soldering iron with a conical bit heated to 200&deg;C.
//! When removing the iron it helps to twist it a little anti-clockwise to release it from the thread.
//! 1. Lay the blocks on each of their other two flat sides and repeat.
//
module corner_block_M25_s_assembly() corner_block_assembly(M2p5_cap_screw, short_insert = true);
module 2screw_block_v_hole(screw = def_screw) //! Place children at the bottom screw hole
multmatrix(2screw_block_v_hole(screw))
//
//! 1. Lay the blocks out and place an M3 insert in each upward facing hole.
//! 1. Push them home with a soldering iron with a conical bit heated to 200&deg;C.
//! When removing the iron it helps to twist it a little anti-clockwise to release it from the thread.
//! 1. Lay the blocks on each of their other two flat sides and repeat.
//
module corner_block_M30_s_assembly() corner_block_assembly(M3_cap_screw, short_insert = true);
//
//! 1. Lay the blocks out and place an M4 insert in each upward facing hole.
//! 1. Push them home with a soldering iron with a conical bit heated to 200&deg;C.
//! When removing the iron it helps to twist it a little anti-clockwise to release it from the thread.
//! 1. Lay the blocks on each of their other two flat sides and repeat.
//
module corner_block_M40_s_assembly() corner_block_assembly(M4_cap_screw, short_insert = true);
function 2screw_block_width(screw = def_screw, short_insert = false) = //! 2 screw block width is narrower, height and depth are as corner_block
insert_outer_d(screw_insert(screw, short_insert)) + 2 * wall;
function 2screw_block_v_hole(screw = def_screw, short_insert = false) = translate([0, corner_block_hole_offset(screw, short_insert)]) * rotate([180, 0, 0]); //! Transform to bottom hole
function 2screw_block_h_hole(screw = def_screw, short_insert = false) = translate([0, 0, corner_block_hole_offset(screw, short_insert)]) * rotate([90, 0, 0]); //! Transform to front hole
function 2screw_block_holes(screw, short_insert = false) = concat([2screw_block_v_hole(screw, short_insert)], [2screw_block_h_hole(screw, short_insert)]); //! List of transforms to both holes
module 2screw_block_v_hole(screw = def_screw, short_insert = false) //! Place children at the bottom screw hole
multmatrix(2screw_block_v_hole(screw, short_insert))
children();
module 2screw_block_h_hole(screw = def_screw) //! Place children at the front screw hole
multmatrix(2screw_block_h_hole(screw))
module 2screw_block_h_hole(screw = def_screw, short_insert = false) //! Place children at the front screw hole
multmatrix(2screw_block_h_hole(screw, short_insert))
children();
module 2screw_block_holes(screw = def_screw) //! Place children at both screw holes
for(p = 2screw_block_holes(screw))
module 2screw_block_holes(screw = def_screw, short_insert = false) //! Place children at both screw holes
for(p = 2screw_block_holes(screw, short_insert))
multmatrix(p)
children();
module 2screw_block(screw = def_screw, name = false) { //! Generate the STL for a printed 2screw block
module 2screw_block(screw = def_screw, name = false, short_insert = false) { //! Generate the STL for a printed 2screw block
r = 1;
cb_width = 2screw_block_width(screw);
cb_height = corner_block_width(screw);
cb_width = 2screw_block_width(screw, short_insert);
cb_height = corner_block_width(screw, short_insert);
cb_depth = cb_height;
insert = screw_insert(screw);
insert = screw_insert(screw, short_insert);
corner_rad = insert_outer_d(insert) / 2 + wall;
offset = corner_block_hole_offset(screw);
offset = corner_block_hole_offset(screw, short_insert);
stl(name ? name : str("2screw_block", "_M", screw_radius(screw) * 20))
stl(name ? name : str("2screw_block", "_M", screw_radius(screw) * 20, short_insert ? "_s" : ""))
difference() {
hull() {
translate([-cb_width / 2 + r, r])
@@ -245,43 +285,44 @@ module 2screw_block(screw = def_screw, name = false) { //! Generate the STL for
rotate([-90, 0, 180])
rounded_cylinder(r = corner_rad, h = r, r2 = r);
}
2screw_block_v_hole(screw)
2screw_block_v_hole(screw, short_insert)
insert_hole(insert, overshoot);
2screw_block_h_hole(screw)
2screw_block_h_hole(screw, short_insert)
insert_hole(insert, overshoot, true);
children();
}
}
module 2screw_block_assembly(screw = def_screw, name = false) //! The printed block with inserts
assembly(name ? name : str("2screw_block_M", 20 * screw_radius(screw)), ngb = true) {
insert = screw_insert(screw);
module 2screw_block_assembly(screw = def_screw, name = false, short_insert = false) //! The printed block with inserts
assembly(name ? name : str("2screw_block_M", 20 * screw_radius(screw), short_insert ? "_s" :""), ngb = true) {
insert = screw_insert(screw, short_insert);
stl_colour(name ? pp2_colour : pp1_colour)
render() 2screw_block(screw, name) children();
render() 2screw_block(screw, name, short_insert) children();
2screw_block_holes(screw)
2screw_block_holes(screw, short_insert)
insert(insert);
}
module fastened_2screw_block_assembly(thickness, screw = def_screw, thickness_below = undef, name = false, show_block = true, star_washers = true) { //! Printed block with fasteners
module fastened_2screw_block_assembly(thickness, screw = def_screw, thickness_below = undef, name = false, show_block = true, star_washers = true, short_insert = false) { //! Printed block with fasteners
thickness2 = !is_undef(thickness_below) ? thickness_below : thickness;
function screw_len(t) = screw_length(screw, t + overshoot, star_washers ? 2 : 1, true);
insert = screw_insert(screw, short_insert);
function screw_len(t) = screw_length(screw, t + overshoot, star_washers ? 2 : 1, insert);
screw_length = screw_len(thickness);
screw_length2 = screw_len(thickness2);
if(show_block)
2screw_block_assembly(screw, name) children();
2screw_block_assembly(screw, name, short_insert) children();
if(thickness)
2screw_block_h_hole(screw)
2screw_block_h_hole(screw, short_insert)
translate_z(thickness)
screw_and_washer(screw, screw_length, star_washers);
if(thickness2)
2screw_block_v_hole(screw)
2screw_block_v_hole(screw, short_insert)
translate_z(thickness2)
screw_and_washer(screw, screw_length2, star_washers);
}
@@ -289,6 +330,11 @@ module 2screw_block_M20_stl() 2screw_block(M2_cap_screw);
module 2screw_block_M25_stl() 2screw_block(M2p5_cap_screw);
module 2screw_block_M30_stl() 2screw_block(M3_cap_screw);
module 2screw_block_M40_stl() 2screw_block(M4_cap_screw);
module 2screw_block_M20_s_stl() 2screw_block(M2_cap_screw, short_insert = true);
module 2screw_block_M25_s_stl() 2screw_block(M2p5_cap_screw, short_insert = true);
module 2screw_block_M30_s_stl() 2screw_block(M3_cap_screw, short_insert = true);
module 2screw_block_M40_s_stl() 2screw_block(M4_cap_screw, short_insert = true);
//
//! 1. Lay the blocks out and place an M2 insert in the forward facing hole.
//! 1. Push them home with a soldering iron with a conical bit heated to 200&deg;C.
@@ -297,6 +343,14 @@ module 2screw_block_M40_stl() 2screw_block(M4_cap_screw);
//
module 2screw_block_M20_assembly() 2screw_block_assembly(M2_cap_screw);
//
//! 1. Lay the blocks out and place an M2 insert in the forward facing hole.
//! 1. Push them home with a soldering iron with a conical bit heated to 200&deg;C.
//! When removing the iron it helps to twist it a little anti-clockwise to release it from the thread.
//! 1. Lay the blocks on each of their other flat side and repeat.
//
module 2screw_block_M20_s_assembly() 2screw_block_assembly(M2_cap_screw, short_insert = true);
//
//! 1. Lay the blocks out and place an M2.5 insert in the forward facing hole.
//! 1. Push them home with a soldering iron with a conical bit heated to 200&deg;C.
@@ -305,6 +359,14 @@ module 2screw_block_M20_assembly() 2screw_block_assembly(M2_cap_screw);
//
module 2screw_block_M25_assembly() 2screw_block_assembly(M2p5_cap_screw);
//
//! 1. Lay the blocks out and place an M2.5 insert in the forward facing hole.
//! 1. Push them home with a soldering iron with a conical bit heated to 200&deg;C.
//! When removing the iron it helps to twist it a little anti-clockwise to release it from the thread.
//! 1. Lay the blocks on each of their other flat side and repeat.
//
module 2screw_block_M25_s_assembly() 2screw_block_assembly(M2p5_cap_screw, short_insert = true);
//
//! 1. Lay the blocks out and place an M3 insert in the forward facing hole.
//! 1. Push them home with a soldering iron with a conical bit heated to 200&deg;C.
@@ -313,6 +375,14 @@ module 2screw_block_M25_assembly() 2screw_block_assembly(M2p5_cap_screw);
//
module 2screw_block_M30_assembly() 2screw_block_assembly(M3_cap_screw);
//
//! 1. Lay the blocks out and place an M3 insert in the forward facing hole.
//! 1. Push them home with a soldering iron with a conical bit heated to 200&deg;C.
//! When removing the iron it helps to twist it a little anti-clockwise to release it from the thread.
//! 1. Lay the blocks on each of their other flat side and repeat.
//
module 2screw_block_M30_s_assembly() 2screw_block_assembly(M3_cap_screw, short_insert = true);
//
//! 1. Lay the blocks out and place an M4 insert in the forward facing hole.
//! 1. Push them home with a soldering iron with a conical bit heated to 200&deg;C.
@@ -320,3 +390,11 @@ module 2screw_block_M30_assembly() 2screw_block_assembly(M3_cap_screw);
//! 1. Lay the blocks on each of their other flat side and repeat.
//
module 2screw_block_M40_assembly() 2screw_block_assembly(M4_cap_screw);
//
//! 1. Lay the blocks out and place an M4 insert in the forward facing hole.
//! 1. Push them home with a soldering iron with a conical bit heated to 200&deg;C.
//! When removing the iron it helps to twist it a little anti-clockwise to release it from the thread.
//! 1. Lay the blocks on each of their other flat side and repeat.
//
module 2screw_block_M40_s_assembly() 2screw_block_assembly(M4_cap_screw, short_insert = true);

7
printed/flat_hinge.scad
View File

@@ -111,15 +111,16 @@ module hinge_male(type, female = false) { //! The half with the stationary
rotate(180)
teardrop(r = kr, h = 0);
translate([-kr - 1, -kr])
square(1);
translate([-kr - inset - eps, -kr])
square([eps, t]);
}
teardrop_plus(r = pr + (female ? gap : 0), h = 0);
}
}
}
module hinge_female(type) hinge_male(type, true);
module hinge_female(type) //! The half without the pin
hinge_male(type, true);
module hinge_both(type) { //! Both parts together for printing
hinge_male(type);

85
printed/led_bezel.scad Normal file
View File

@@ -0,0 +1,85 @@
//
// NopSCADlib Copyright Chris Palmer 2022
// nop.head@gmail.com
// hydraraptor.blogspot.com
//
// This file is part of NopSCADlib.
//
// NopSCADlib is free software: you can redistribute it and/or modify it under the terms of the
// GNU General Public License as published by the Free Software Foundation, either version 3 of
// the License, or (at your option) any later version.
//
// NopSCADlib is distributed in the hope that it will be useful, but WITHOUT ANY WARRANTY;
// without even the implied warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.
// See the GNU General Public License for more details.
//
// You should have received a copy of the GNU General Public License along with NopSCADlib.
// If not, see <https://www.gnu.org/licenses/>.
//
//
//! Printed LED bezels for panel mounting
//
include <../core.scad>
use <../vitamins/led.scad>
function led_bezel(led, flange = 1, flange_h = 1, wall = 1, height = 8) = [led, flange, flange_h, wall, height]; //! Constructor
function led_bezel_led(type) = type[0]; //! The LED
function led_bezel_flange(type) = type[1]; //! Flange width
function led_bezel_flange_t(type) = type[2]; //! Flange thickness
function led_bezel_wall(type) = type[3]; //! Wall thickness
function led_bezel_height(type) = type[4]; //! Total height
function led_bezel_r(type) = //! Radius of the tube
corrected_radius(led_rim_dia(led_bezel_led(type)) / 2) + led_bezel_wall(type);
function led_bezel_hole_r(type) = //! Panel hole radius
led_bezel_r(type) + 0.1;
module led_bezel(type) { //! Makes the STL for the bezel
led = led_bezel_led(type);
stl(str(led[0],"_bezel")) {
rl = led_diameter(led) / 2;
rr = led_rim_dia(led) / 2;
wall = led_bezel_wall(type);
poly_tube(or = rr + wall + led_bezel_flange(type), ir = rl, h = led_bezel_flange_t(type)); // Flange
poly_tube(or = rl + wall, ir = rl, h = led_height(led) - rl - led_rim_t(led)); // Tube up to LED flange
poly_tube(or = corrected_radius(rr) + wall, ir = rr, h = led_bezel_height(type)); // Tube beyond the flange
}
}
module led_bezel_retainer(type) { //! Makes the STL for the retaining ring
led = led_bezel_led(type);
stl(str(led[0],"_bezel_retainer")) {
ir = led_bezel_r(type);
poly_tube(or = ir + led_bezel_wall(type), ir = ir, h = 4);
}
}
module led_bezel_assembly(type, colour = "red") {//! Led bezel with LED
led = led_bezel_led(type);
assembly(str(led[0], "_", colour, "_bezel")) {
translate_z(led_bezel_flange_t(type)) {
vflip()
stl_colour(pp1_colour)
led_bezel(type);
translate_z(-led_height(led) + led_diameter(led) / 2)
explode(-20)
led(led, colour);
}
}
}
module led_bezel_fastened_assembly(type, t, colour = "red") //! Led bezel fitted to panel with and retaining ring
{
explode(20)
led_bezel_assembly(type, colour);
translate_z(-t)
vflip()
stl_colour(pp2_colour)
explode(60)
led_bezel_retainer(type);
}

19
printed/printed_box.scad
View File

@@ -32,8 +32,8 @@ use <../vitamins/washer.scad>
use <../vitamins/insert.scad>
use <foot.scad>
function pbox(name, wall, top_t, base_t, radius, size, foot = false, screw = false, ridges = [0, 0]) //! Construct a printed box property list
= concat([name, wall, top_t, base_t, foot, screw, radius, ridges], size);
function pbox(name, wall, top_t, base_t, radius, size, foot = false, screw = false, short_insert = false, ridges = [0, 0]) //! Construct a printed box property list
= concat([name, wall, top_t, base_t, foot, screw, short_insert, radius, ridges], size);
function pbox_name(type) = type[0]; //! Name to allow more than one box in a project
function pbox_wall(type) = type[1]; //! Wall thickness
@@ -41,11 +41,12 @@ function pbox_top(type) = type[2]; //! Top thickness
function pbox_base(type) = type[3]; //! Base thickness, can be zero for no base
function pbox_foot(type) = type[4]; //! Printed foot, can be false to suppress feet
function pbox_base_screw(type) = type[5]; //! Screw type if no feet
function pbox_radius(type) = type[6]; //! Internal corner radius
function pbox_ridges(type) = type[7]; //! Ridge wavelength and amplitude
function pbox_width(type) = type[8]; //! Internal width
function pbox_depth(type) = type[9]; //! Internal depth
function pbox_height(type) = type[10]; //! Internal height
function pbox_short_insert(type)=type[6]; //! Use short inserts
function pbox_radius(type) = type[7]; //! Internal corner radius
function pbox_ridges(type) = type[8]; //! Ridge wavelength and amplitude
function pbox_width(type) = type[9]; //! Internal width
function pbox_depth(type) = type[10]; //! Internal depth
function pbox_height(type) = type[11]; //! Internal height
base_outset = 1; // How much the base overlaps the inner dimensions
base_overlap = 2; // The width of ledge the base sits on
@@ -63,12 +64,12 @@ function pbox_total_height(type) = //! Total height including base overlap
function pbox_screw(type) = //! Foot screw if got feet else base_screw
let(foot = pbox_foot(type)) foot ? foot_screw(foot) : pbox_base_screw(type);
function pbox_insert(type) = screw_insert(pbox_screw(type)); //! The insert for the base screws
function pbox_insert(type) = screw_insert(pbox_screw(type), short = pbox_short_insert(type)); //! The insert for the base screws
function pbox_washer(type) = screw_washer(pbox_screw(type)); //! The washer for the base screws
function pbox_screw_length(type, panel_thickness = 0) = //! Length of the base screw
let(foot = pbox_foot(type), screw = pbox_screw(type))
screw_length(screw, pbox_base(type) + (foot ? foot_thickness(foot) : panel_thickness), 1, true);
screw_length(screw, pbox_base(type) + (foot ? foot_thickness(foot) : panel_thickness), 1, pbox_insert(type));
function pbox_mid_offset(type) = pbox_ridges(type).y + pbox_wall(type) / 2; // Offset to wall midpoint

588
readme.md
View File

File diff suppressed because it is too large Load Diff

4
scripts/bom.py
View File

@@ -140,7 +140,7 @@ class BOM:
for part in sorted(self.vitamins):
i += 1
if ': ' in part:
part_no, description = part.split(': ')
part_no, description = part.split(': ', 1)
else:
part_no, description = "", part
qty = self.vitamins[part].count
@@ -183,7 +183,7 @@ class BOM:
for part in sorted(self.vitamins):
if ': ' in part:
part_no, description = part.split(': ')
part_no, description = part.split(': ', 1)
else:
part_no, description = "", part
if breakdown:

4
scripts/tests.py
View File

@@ -259,11 +259,11 @@ def tests(tests):
things = BOM[thing]
if things:
body += ['### %s\n| Qty | %s |\n| ---:|:--- |%s' % (thing.title(), heading, ':---|' if '|' in heading else '')]
for item in sorted(things, key = lambda s: s.split(":")[-1]):
for item in sorted(things, key = lambda s: s.split(":",1)[-1]):
name = item
desc = ''
if thing == "vitamins":
vit = item.split(':')
vit = item.split(':', 1)
name = '`' + vit[0] + '`' if vit[0] else ''
while '[[' in name and ']]' in name:
i = name.find('[[')

8
scripts/views.py
View File

@@ -303,7 +303,7 @@ def views(target, do_assemblies = None):
grand_total2 = 0
heading = headings[t][0].upper() + headings[t][1:]
print(('| ' * len(global_bom) + '| | **%s** |') % heading, file = doc_file)
for thing in sorted(things[t], key = lambda s: s.split(":")[-1]):
for thing in sorted(things[t], key = lambda s: s.split(":",1)[-1]):
for ass in global_bom:
count = ass[t][thing]["count"] if thing in ass[t] else 0
print('| %s ' % pad(count if count else '.', 2, 1), file = doc_file, end = '')
@@ -313,7 +313,7 @@ def views(target, do_assemblies = None):
else:
totals[name] = count
grand_total2 += count
print('| %s | %s |' % (pad(things[t][thing], 2, 1), pad(thing.split(":")[-1], 2)), file = doc_file)
print('| %s | %s |' % (pad(things[t][thing], 2, 1), pad(thing.split(":",1)[-1], 2)), file = doc_file)
grand_total = 0
for ass in global_bom:
@@ -344,8 +344,8 @@ def views(target, do_assemblies = None):
print("### Vitamins", file = doc_file)
print("|Qty|Description|", file = doc_file)
print("|---:|:----------|", file = doc_file)
for v in sorted(vitamins, key = lambda s: s.split(":")[-1]):
print("|%d|%s|" % (vitamins[v]["count"], v.split(":")[1]), file = doc_file)
for v in sorted(vitamins, key = lambda s: s.split(":",1)[-1]):
print("|%d|%s|" % (vitamins[v]["count"], v.split(":",1)[1]), file = doc_file)
print("\n", file = doc_file)
printed = ass["printed"]

37
tests/LED_bezel.scad Normal file
View File

@@ -0,0 +1,37 @@
//
// NopSCADlib Copyright Chris Palmer 2018
// nop.head@gmail.com
// hydraraptor.blogspot.com
//
// This file is part of NopSCADlib.
//
// NopSCADlib is free software: you can redistribute it and/or modify it under the terms of the
// GNU General Public License as published by the Free Software Foundation, either version 3 of
// the License, or (at your option) any later version.
//
// NopSCADlib is distributed in the hope that it will be useful, but WITHOUT ANY WARRANTY;
// without even the implied warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.
// See the GNU General Public License for more details.
//
// You should have received a copy of the GNU General Public License along with NopSCADlib.
// If not, see <https://www.gnu.org/licenses/>.
//
include <../core.scad>
use <../utils/layout.scad>
include <../vitamins/leds.scad>
use <../printed/led_bezel.scad>
module led_bezels()
layout([for(l = LEDs) led_diameter(l)], 6) let(l = LEDs[$i], b = led_bezel(l))
if($preview)
led_bezel_fastened_assembly(b, 3, ["yellow", "blue", "red", "orange"][$i % 4]);
else {
led_bezel(b);
translate([0, -20])
led_bezel_retainer(b);
}
led_bezels();

2
tests/LEDs.scad
View File

@@ -23,7 +23,7 @@ include <../vitamins/leds.scad>
module leds()
layout([for(l = LEDs) led_diameter(l)], 5)
led(LEDs[$i], ["green", "blue", "red"][$i % 3]);
led(LEDs[$i], ["green", "blue", "red", "orange"][$i % 4]);
if($preview)
leds();

111
tests/PCB.scad
View File

@@ -21,6 +21,7 @@ include <../vitamins/microswitches.scad>
include <../vitamins/d_connectors.scad>
include <../vitamins/leds.scad>
include <../vitamins/axials.scad>
include <../vitamins/radials.scad>
include <../vitamins/smds.scad>
include <../vitamins/7_segments.scad>
include <../vitamins/potentiometers.scad>
@@ -61,27 +62,41 @@ test_pcb = ["test_pcb", "Test PCB",
[
[ 20, -5, 180, "trimpot10"],
[ 20, -15, 90, "trimpot10", true],
[ 7, 2, 90, "smd_led", LED1206, "blue"],
[ 10, 2, 90, "smd_led", LED0805, "red"],
[ 19, 2, 90, "smd_led", LED1206, "blue"],
[ 16, 2, 90, "smd_led", LED0805, "red"],
[ 13, 2, 90, "smd_led", LED0603, "orange"],
[ 16, 2, 90, "smd_res", RES1206, "1K"],
[ 19, 2, 90, "smd_res", RES0805, "1K"],
[ 22, 2, 90, "smd_res", RES0603, "1K"],
[ 25, 2, 90, "smd_cap", CAP1206, 1.5],
[ 28, 2, 90, "smd_cap", CAP0805, 1.0],
[ 31, 2, 90, "smd_cap", CAP0603, 0.7],
[ 16, 6, -90, "smd_sot", SOT23, "2N7000"],
[ 28, 20, -90, "smd_sot", SOT223, "LM117"],
[ 19, 6, -90, "smd_res", RES1206, "1M"],
[ 16, 6, -90, "smd_res", RES0805, "1K"],
[ 13, 6, -90, "smd_res", RES0603, "100"],
[ 10, 6, -90, "smd_res", RES0502, "10"],
[ 7, 6, -90, "smd_res", RES0402, "1"],
[ 19, 10, 90, "smd_cap", CAP1206, 1.5, "1uF"],
[ 16, 10, 90, "smd_cap", CAP0805, 1.0, "100nF"],
[ 13, 10, 90, "smd_cap", CAP0603, 0.7, "10nF"],
[ 10, 10, 90, "smd_cap", CAP0502, 0.6, "10nF"],
[ 7, 10, 90, "smd_cap", CAP0402, 0.5, "10nF"],
[ 19, 16, -90, "smd_tant", TANT_C, "107C"],
[ 13, 16, -90, "smd_tant", TANT_B, "106A"],
[ 7, 16, -90, "smd_tant", TANT_A, "105e"],
[ 32, 3, -90, "smd_diode",DO214AC, "SS34"],
[ 26, 2, -90, "smd_pot", TC33X1, "10K"],
[ 26, 6, -90, "smd_coax",U_FL_R_SMT_1],
[ 10, 10, 0, "2p54header", 4, 1],
[ 25, 10, 0, "2p54header", 5, 1, false, "blue" ],
[ 10, 20, 0, "2p54boxhdr", 4, 2],
[ 10, 30, 0, "2p54socket", 6, 1],
[ 25, 30, 0, "2p54socket", 4, 1, false, 0, false, "red" ],
[ 65, 50, 0, "led", LED3mm, "red"],
[ 75, 50, 0, "led", LED5mm, "orange"],
[ 90, 50, 0, "led", LED10mm, "yellow"],
[ 10, 45, 180, "rj45"],
[ 26, 10, -90, "smd_sot", SOT23, "2N7000"],
[ 28, 16, -90, "smd_sot", SOT223, "LM117"],
[ 45, 35, 0, "2p54header", 4, 1],
[ 60, 35, 0, "2p54header", 5, 1, false, "blue" ],
[ 80, 33, 0, "2p54boxhdr", 4, 2],
[ 45, 30, 0, "2p54socket", 4, 1, false, 0, false, "red" ],
[ 60, 30, 0, "2p54socket", 6, 1],
[ 59, 60, 180, "led", LED3mm, "red"],
[ 66, 60, 180, "led", LED5mm, "orange"],
[ 77, 60, 180, "led", LED8mm, "blue"],
[ 90, 60, 180, "led", LED10mm, "yellow"],
[ 10, 35, 180, "rj45"],
[ 7, 50, 180, "usb_vAx1"],
[ 8, 65, 180, "usb_A"],
[ 8, 105, 180, "usb_Ax2"],
[ 7, 85, 180, "molex_usb_Ax1"],
@@ -99,28 +114,41 @@ test_pcb = ["test_pcb", "Test PCB",
[ 25, 200, 0, "buzzer", 4.5, 8.5],
[ 25, 218, 0, "buzzer"],
[ 65, 9, 0, "link", inch(0.4)],
[ 65, 12, 0, "ax_res", res1_8, 1000],
[ 65, 17, 0, "ax_res", res1_4, 10000],
[ 65, 22, 0, "ax_res", res1_2, 100000],
[ 55, 22, 0, "vero_pin"],
[ 55, 17, 0, "vero_pin", true],
[ 55, 9, 0, "link", 0, 5],
[ 45, 5, 0, "link", inch(0.4), 0.75, undef, undef, [1.5, "red"]], // Sleeved link
[ 45, 9, 0, "link", inch(0.4)], // Flat link
[ 45, 12, 0, "ax_res", res1_8, 1000],
[ 45, 17, 0, "ax_res", res1_4, 10000],
[ 45, 22, 0, "ax_res", res1_2, 100000],
[ 35, 22, 0, "vero_pin"],
[ 35, 17, 0, "vero_pin", true],
[ 35, 9, 0, "link", 0, 5], // Vertical wire
[ 80, 9, 0, "link", inch(0.2), inch(0.4)],
[ 80, 12, 0, "ax_res", res1_8, 1000000, 1, inch(0.1)],
[ 80, 17, 0, "ax_res", res1_4, 100, 2, inch(0.1)],
[ 80, 22, 0, "ax_res", res1_2, 10, 10, inch(0.2)],
[ 60, 9, 0, "link", inch(0.2), inch(0.4)], // Raised link
[ 60, 12, 0, "ax_res", res1_8, 1000000, 1, inch(0.1)],
[ 60, 17, 0, "ax_res", res1_4, 100, 2, inch(0.1)],
[ 60, 22, 0, "ax_res", res1_2, 10, 10, inch(0.2)],
[ 60, 3, 0, "flex"],
[ 50, 15, -90, "flat_flex"],
[ 40, 15, -90, "flat_flex", true],
[ 33, 110, -90, "rd_xtal", HC49, "4MHz" ],
[ 28, 110, -90, "rd_xtal", HC49_4H, "10MHz" ],
[ 28, 103, -90, "rd_xtal", C_002RX, "60KHz", 2 ],
[ 50, 50, 0, "molex_hdr", 2],
[ 50, 60, 0, "jst_xh", 2],
[ 50, 70, 180, "term254", 3],
[ 63, 70, 180, "term254", 3, undef, grey(20)],
[ 75, 70, 180, "gterm508",2, undef, "blue"],
[ 30, 130,-90, "rd_xtal", ACT1100, "40MHz", 0.5 ],
[ 30, 150,-90, "rd_xtal", ACT1700, "80MHz", 0.5 ],
[ 77, 15, -90, "flex"],
[ 95, 15, -90, "flat_flex"],
[ 87, 15, -90, "flat_flex", true],
[ 47, 55, 0, "molex_hdr", 2],
[ 51, 48, 0, "molex_hdr", 2, 1],
[ 51, 41, 0, "molex_hdr", 2, -1],
[ 45, 65, 0, "jst_xh", 2],
[ 54, 65, 0, "jst_ph", 2],
[ 61, 65, 0, "jst_zh", 2],
[ 50, 75, 180, "term254", 3],
[ 63, 75, 180, "term254", 3, undef, grey(20)],
[ 75, 75, 180, "gterm508",2, undef, "blue"],
[ 50, 90, 180, "gterm35", 4, [1,2]],
[ 63, 90, 180, "gterm35", 4, [1,2], "red"],
@@ -141,7 +169,10 @@ test_pcb = ["test_pcb", "Test PCB",
[ 52, 200, 0, "pcb", 11, TMC2130 ],
[ 80, 210, 0, "pdip", 24, "27C32", true, inch(0.6) ],
[ 80, 180, 0, "pdip", 8, "NE555" ],
[ 80, 166, -90, "smd_soic", SOIC18, "PIC18F88"],
[ 71, 180, 0, "smd_inductor", IND2525, "4R7"],
[ 87, 166, -90, "smd_soic", SOIC18, "PIC18F88"],
[ 78, 166, -90, "smd_soic", SOIC14, "74HC00"],
[ 71, 166, -90, "smd_soic", SOIC16, "ICL323"],
[ 64, 166, -90, "smd_soic", SOIC8, "M34063"],
[ 80, 150, 0, "chip", 10, 5, 1, grey(20)],
@@ -152,7 +183,7 @@ test_pcb = ["test_pcb", "Test PCB",
[ 50, 240, 0, "potentiometer"],
[ 75, 240, 0, "potentiometer", KY_040_encoder, 8],
[ 30, 85, -90, "7seg", WT5011BSR, 2],
[ 30, 55, -90, "D_plug", DCONN9],
[ 30, 55, -90, "D_plug", DCONN9],
],
// accessories
[]

6
tests/PCBs.scad
View File

@@ -39,6 +39,12 @@ module pcbs() {
translate([0, -pcb_width(perfboards[$i]) / 2])
pcb_assembly(perfboards[$i], 5 + $i, 3);
translate([0, 125])
layout([for(p = big_pcbs) spacing(p)], 0)
translate([0, pcb_length(big_pcbs[$i]) / 2])
rotate(90)
pcb_assembly(big_pcbs[$i], 5 + $i, 3);
for(p = pcbs_not_shown)
hidden()
pcb(p);

30
tests/SMDs.scad
View File

@@ -23,7 +23,7 @@ include <../vitamins/smds.scad>
module smds() {
layout([for(r = smd_resistors) smd_res_size(r).x], 1)
smd_resistor(smd_resistors[$i], ["1R0", "10M", "100K"][$i % 3]);
smd_resistor(smd_resistors[$i], ["1R0", "10", "100", "10M", "100K"][$i % 5]);
translate([0, 3])
layout([for(l = smd_leds) smd_led_size(l).x], 1)
@@ -34,16 +34,40 @@ module smds() {
let(c = smd_capacitors[$i])
smd_capacitor(c, smd_cap_size(c).y * 0.8);
translate([0, 12])
translate([0, 9])
layout([for(t = smd_tants) smd_tant_leads(t).x], 1)
let(t = smd_tants[$i])
smd_tant(t, ["105e","106J", "107A"][$i]);
translate([0, 12.5])
layout([for(d = smd_diodes) smd_diode_leads(d).x], 1)
let(d = smd_diodes[$i])
smd_diode(d, ["SS34"][$i]);
translate([0, 24])
layout([for(s = smd_sots) smd_sot_size(s).x], 1)
let(s = smd_sots[$i])
smd_sot(s, ["2N7000", "FZT851"][$i]);
translate([0, 20])
translate([0, 18])
layout([for(p = smd_pots) smd_pot_size(p).x], 1)
let(p = smd_pots[$i])
smd_pot(p, "10K");
translate([6, 18])
layout([for(c = smd_coaxs) smd_coax_base_size(c).x], 1)
let(c = smd_coaxs[$i])
smd_coax(c);
translate([0, 31])
layout([for(s = smd_soics) smd_soic_size(s).x], 1)
let(s = smd_soics[$i])
smd_soic(s, s[0]);
translate([0, 39])
layout([for(i = smd_inductors) smd_inductor_leads(i).x], 1)
let(i = smd_inductors[$i])
smd_inductor(i, "4R7");
}
if($preview)

4
tests/axials.scad
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@@ -28,6 +28,10 @@ module axials() {
rotate(90)
wire_link(0.8, inch(0.4));
pcb_grid(pcb, 1, 1.5)
rotate(90)
wire_link(0.8, inch(0.3), 0.75, sleeve = [1.5, "red"]);
pcb_grid(pcb, 0, 7)
wire_link(0.8, 0, 5);

5
tests/camera_housing.scad
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@@ -26,8 +26,9 @@ include <../vitamins/cameras.scad>
use <../vitamins/pcb.scad>
module camera_housings()
layout([for(c = cameras) pcb_length(camera_pcb(c))], 15, false) let(c = cameras[$i])
camera_fastened_assembly(c, 3);
layout([for(c = cameras) pcb_length(camera_pcb(c))], 10, false) let(c = cameras[$i])
if(pcb_screw(camera_pcb(c)))
camera_fastened_assembly(c, 3);
if($preview)
camera_housings();

7
tests/displays.scad
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@@ -24,9 +24,10 @@ use <../vitamins/pcb.scad>
module displays()
layout([for(d = displays) pcb_length(display_pcb(d))], 10)
translate([0, pcb_width(displays[$i]) / 2])
vflip()
display(displays[$i]);
let(d = displays[$i], offset = display_pcb_offset(d))
translate([-offset.x, pcb_width(display_pcb(d)) / 2 - offset.y])
vflip()
display(d);
if($preview)
let($show_threads = true)

35
tests/fastons.scad Normal file
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@@ -0,0 +1,35 @@
//
// NopSCADlib Copyright Chris Palmer 2023
// nop.head@gmail.com
// hydraraptor.blogspot.com
//
// This file is part of NopSCADlib.
//
// NopSCADlib is free software: you can redistribute it and/or modify it under the terms of the
// GNU General Public License as published by the Free Software Foundation, either version 3 of
// the License, or (at your option) any later version.
//
// NopSCADlib is distributed in the hope that it will be useful, but WITHOUT ANY WARRANTY;
// without even the implied warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.
// See the GNU General Public License for more details.
//
// You should have received a copy of the GNU General Public License along with NopSCADlib.
// If not, see <https://www.gnu.org/licenses/>.
//
include <../utils/core/core.scad>
include <../vitamins/fastons.scad>
module fastons()
for(i = [0, len(fastons) - 1])
translate([i * 20, 0])
let(f = fastons[i]) {
rotate(180)
faston(f);
translate([10, 0])
rotate(180)
faston(f, true);
}
fastons();

8
tests/inserts.scad
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@@ -24,9 +24,15 @@ include <../vitamins/inserts.scad>
module inserts() {
for(i = [0: len(inserts) -1])
translate([10 * i, 0])
translate([10 * i, 5])
insert(inserts[i]);
for(i = [0: len(short_inserts) -1])
translate([10 * i, -5])
insert(short_inserts[i]);
stl_colour(pp1_colour)
translate([len(inserts) * 10, 0]) {
insert_lug(inserts[0], 2, 1);

22
tests/leadnuts.scad
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@@ -25,6 +25,26 @@ module leadnuts()
layout([for(n = leadnuts) leadnut_flange_dia(n)], 5)
leadnut(leadnuts[$i]);
module leadnuthousings()
layout([for(n = leadnuthousings) leadnuthousing_width(n)], 5) {
rotate([0,0,270]) {
leadnuthousing(leadnuthousings[$i]);
explode(15)
leadnuthousing_nut_position(leadnuthousings[$i])
leadnut(leadnuthousing_nut(leadnuthousings[$i]));
explode(17 + leadnuthousing_nut_screw_length(leadnuthousings[$i]))
translate_z(leadnuthousing_height(leadnuthousings[$i])/2)
leadnuthousing_nut_screw_positions(leadnuthousings[$i])
screw(leadnut_screw(
leadnuthousing_nut(leadnuthousings[$i])),
leadnuthousing_nut_screw_length(leadnuthousings[$i])
);
}
}
if($preview)
let($show_threads = true)
let($show_threads = true) {
leadnuts();
translate([0,50,0])
leadnuthousings();
}

28
tests/photo_interrupters.scad Normal file
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@@ -0,0 +1,28 @@
//
// NopSCADlib Copyright Chris Palmer 2023
// nop.head@gmail.com
// hydraraptor.blogspot.com
//
// This file is part of NopSCADlib.
//
// NopSCADlib is free software: you can redistribute it and/or modify it under the terms of the
// GNU General Public License as published by the Free Software Foundation, either version 3 of
// the License, or (at your option) any later version.
//
// NopSCADlib is distributed in the hope that it will be useful, but WITHOUT ANY WARRANTY;
// without even the implied warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.
// See the GNU General Public License for more details.
//
// You should have received a copy of the GNU General Public License along with NopSCADlib.
// If not, see <https://www.gnu.org/licenses/>.
//
include <../utils/core/core.scad>
include <../vitamins/photo_interrupters.scad>
use <../utils/layout.scad>
module photo_interrupters()
layout([for(l = photo_interrupters) pi_base_length(l)], 5, true)
photo_interrupter(photo_interrupters[$i]);
photo_interrupters();

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32
tests/radials.scad Normal file
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@@ -0,0 +1,32 @@
//
// NopSCADlib Copyright Chris Palmer 2023
// nop.head@gmail.com
// hydraraptor.blogspot.com
//
// This file is part of NopSCADlib.
//
// NopSCADlib is free software: you can redistribute it and/or modify it under the terms of the
// GNU General Public License as published by the Free Software Foundation, either version 3 of
// the License, or (at your option) any later version.
//
// NopSCADlib is distributed in the hope that it will be useful, but WITHOUT ANY WARRANTY;
// without even the implied warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.
// See the GNU General Public License for more details.
//
// You should have received a copy of the GNU General Public License along with NopSCADlib.
// If not, see <https://www.gnu.org/licenses/>.
//
include <../core.scad>
include <../vitamins/pcbs.scad>
module radials() {
pcb = PERF60x40;
pcb(pcb);
for(i = [0 : len(rd_xtals) - 1])
pcb_grid(pcb, [0.5, 1, 1.5, 9, 1][i], [0, 2, 6.5, 6.5, 11][i])
rd_xtal(rd_xtals[i], value = rd_xtals[i][0], z = 1.5, pitch = [inch(0.1), inch(0.2), [inch(0.3), inch(0.3)], [inch(0.6), inch(0.3)], inch(0.2)][i]);
}
if($preview)
radials();

3
tests/rounded_cylinder.scad
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@@ -27,6 +27,9 @@ module rounded_cylinders() {
translate([30, 10])
rounded_cylinder(10, 20, 3, 5, 270);
translate([65, 10])
rounded_top_rectangle([30, 20, 5], 3, 2);
}
rounded_cylinders();

2
tests/screws.scad
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@@ -56,7 +56,7 @@ module screws() {
screw(screw, length);
}
}
translate([20, 40, -15])
translate([20, 60, -15])
polysink_stl();
}

2
tests/tubings.scad
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@@ -22,7 +22,7 @@ use <../utils/layout.scad>
include <../vitamins/tubings.scad>
module tubings()
layout([for(t = tubings) tubing_od(t)], 8)
layout([for(t = tubings) tubing_od(t)], 5)
tubing(tubings[$i]);
if($preview)

4
tests/veroboard.scad
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@@ -36,11 +36,11 @@ z_vb = ["z_vb", "z_bed_terminal", 5, z_cable_ways / 2 + 12, inch(0.1), false, M3
module veroboard_test() translate([vero_length(z_vb) / 2, vero_width(z_vb) / 2]) {
vflip()
veroboard_assembly(z_vb, 12, 3);
veroboard_assembly(z_vb);
translate([30, 0])
rotate(180)
veroboard_assembly(z_vb, 12, 3);
veroboard_fastened_assembly(z_vb, 12, 3);
}
if($preview)

10
utils/core/global.scad
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@@ -19,6 +19,7 @@
//
//! Global constants, functions and modules. This file is used directly or indirectly in every scad file.
//! See [global_defs.scad](../../global_defs.scad) for a list of global constants.
//
include <../../global_defs.scad>
@@ -38,6 +39,13 @@ function r2sides(r) = $fn ? $fn : ceil(max(min(360/ $fa, r * 2 * PI / $fs), 5));
function r2sides4n(r) = floor((r2sides(r) + 3) / 4) * 4; //! Round up the number of sides to a multiple of 4 to ensure points land on all axes
function limit(x, min, max) = max(min(x, max), min); //! Force x in range min <= x <= max
function round_to_layer(z) = //! Round up to a layer boundary using `layer_height0` for the first layer and `layer_height` for subsequent layers.
z <= 0 ? 0 :
z <= layer_height0 ? layer_height0 :
ceil((z -layer_height0) / layer_height) * layer_height + layer_height0;
function grey(n) = [0.01, 0.01, 0.01] * n; //! Generate a shade of grey to pass to color().
module translate_z(z) //! Shortcut for Z only translations
translate([0, 0, z]) children();
@@ -68,7 +76,7 @@ module render_if(render = true, convexity = 2) //! Renders an object if `re
module extrude_if(h, center = true) //! Extrudes 2D object to 3D when `h` is nonzero, otherwise leaves it 2D
if(h)
linear_extrude(h, center = center, convexity = 2) // 3D
linear_extrude(h, center = center, convexity = 5) // 3D
children();
else
children(); // 2D

8
utils/maths.scad
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@@ -118,24 +118,24 @@ module position_children(list, t) //! Position children if they are on the Z = 0
// Matrix inversion: https://www.mathsisfun.com/algebra/matrix-inverse-row-operations-gauss-jordan.html
function augment(m) = let(l = len(m), n = identity(l)) [ //! Augment a matrix by adding an identity matrix to the right
function augment(m) = let(l = len(m), n = identity(l)) [ // Augment a matrix by adding an identity matrix to the right
for(i = [0 : l - 1])
concat(m[i], n[i])
];
function rowswap(m, i, j) = [ //! Swap two rows of a matrix
function rowswap(m, i, j) = [ // Swap two rows of a matrix
for(k = [0 : len(m) - 1])
k == i ? m[j] : k == j ? m[i] : m[k]
];
function solve_row(m, i) = let(diag = m[i][i]) [ //! Make diagonal one by dividing the row by it and subtract from other rows to make column zero
function solve_row(m, i) = let(diag = m[i][i]) [ // Make diagonal one by dividing the row by it and subtract from other rows to make column zero
for(j = [0 : len(m) - 1])
i == j ? m[j] / diag : m[j] - m[i] * m[j][i] / diag
];
function nearly_zero(x) = abs(x) < 1e-5; //! True if x is close to zero
function solve(m, i = 0, j = 0) = //! Solve each row ensuring diagonal is not zero
function solve(m, i = 0, j = 0) = // Solve each row ensuring diagonal is not zero
i < len(m) ?
assert(i + j < len(m), "matrix is singular")
solve(!nearly_zero(m[i + j][i]) ? solve_row(j ? rowswap(m, i, i + j) : m, i) : solve(m, i, j + 1), i + 1)

19
utils/rounded_cylinder.scad
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@@ -45,3 +45,22 @@ module rounded_cylinder(r, h, r2, ir = 0, angle = 360) //! Rounded cylinder give
rotate_extrude(angle = angle)
rounded_corner(r, h, r2, ir);
}
module rounded_top_rectangle(size, r, r2) { //! Make a rounded rectangle with a rounded top edge
hull() {
translate([size.x / 2 - r, size.y / 2 - r])
rounded_cylinder(r = r, h = size.z, r2 = r2, angle = 90);
translate([-size.x / 2 + r, size.y / 2 - r])
rotate(90)
rounded_cylinder(r = r, h = size.z, r2 = r2, angle = 90);
translate([-size.x / 2 + r, -size.y / 2 + r])
rotate(180)
rounded_cylinder(r = r, h = size.z, r2 = r2, angle = 90);
translate([size.x / 2 - r, -size.y / 2 + r])
rotate(270)
rounded_cylinder(r = r, h = size.z, r2 = r2, angle = 90);
}
}

11
vitamins/axial.scad
View File

@@ -23,8 +23,9 @@
include <../utils/core/core.scad>
include <../utils/round.scad>
module wire_link(d, l, h = 1, tail = 3) { //! Draw a wire jumper link. If `l` is zero then a vertical wire is drawn.
vitamin(str("wire_link(", d, ", ", l, arg(h, 1, "h"), arg(tail, 3, "tail"), "): Wire link ", d, "mm x ", l ? str(l / inch(1), "\"") : str(h + tail,"mm")));
module wire_link(d, l, h = 1, tail = 3, sleeve = false) { //! Draw a wire jumper link. `sleeve` can be a list with the diameter and colour. If `l` is zero then a vertical wire is drawn.
vitamin(str("wire_link(", d, ", ", l, arg(h, 1, "h"), arg(tail, 3, "tail"), arg(sleeve, false, "sleeve"),
"): Wire link ", d, "mm x ", l ? str(l / inch(1), "\"") : str(h + tail,"mm"), sleeve ? str(" with ", sleeve[1], " sleeving") : ""));
r = d;
$fn = 32;
@@ -48,6 +49,12 @@ module wire_link(d, l, h = 1, tail = 3) { //! Draw a wire jumper link. If `l` is
else
translate_z(-tail)
cylinder(d = d, h = tail + h);
if(sleeve)
color(sleeve[1])
translate_z(h)
rotate([0, 90, 0])
cylinder(d = sleeve[0], h = l - 2 * r, center = true);
}
function ax_res_wattage(type) = type[1]; //! Power rating

2
vitamins/camera.scad
View File

@@ -91,7 +91,7 @@ module camera(type, show_lens = true, fov_distance = 0, fov = undef) {
color("orange")
hull() {
translate_z(flex.y /2)
translate(camera_lens_offset(type) + [0, camera_lens(type)[0][0].y / 2])
translate(camera_lens_offset(type) + [0, sign(pos.y) * camera_lens(type)[0][0].y / 2, 0])
cube([flex.x, eps, flex.y], center = true);
translate_z(conn.z - flex.y)

88
vitamins/cameras.scad
View File

@@ -70,6 +70,92 @@ rpi_camera = ["rpi_camera", "Raspberry Pi focusable camera", rpi_camera_pcb, [0,
[0, 18 - 1.5 - 2.5], [8, 5, 1.6]
];
cameras = [rpi_camera_v1, rpi_camera_v2, rpi_camera];
esp32_cam_x = 1; // Seems to vary as mine is offset but pictures on the web show it more centered.
ESP32_module = ["", "", 18, 26, 0.8, 0, 0.7, [1.1, 1.1, 0, gold], grey(18), false, [
for(x = [0,1], y = [0:13]) [x * 18, y * 1.27 + 1.4], // Hole positions on the edge
for(x = [0:9]) [18 / 2 + (x - 4.5) * 1.27, 0],
],
[
[18 / 2, 9.7 - 3.4 / 2 , 0, "block", 15.75, 17.6 - 3.4, 2.2, silver, false, 0.3, 0.3], // can
[18 / 2 - 2.65, 9.7 , 0, "block", 10.4, 17.6, 2.2, silver, false, 0.3, 0.3], // can
[12.7, -6.5, 45, "smd_res", RES0502],
[15.15, -8.3, -90, "smd_coax", U_FL_R_SMT_1],
// Antenna
let(x = [0.9, 3.2, 5.7, 8.1, 10.6, 12.8, 15, 15.2])
each [
for(i = [0, 5,6,7]) [x[i], -2.8, 0, "block", 0.6, 4.8, 0.2, gold], // long verticals
for(i = [1: 4]) [x[i], -2.05, 0, "block", 0.6, 3.3, 0.2, gold], // short verticals
for(i = [0, 2, 4,5])[(x[i] + x[i + 1]) / 2, -0.7, 0, "block", x[i + 1] - x[i], 0.6, 0.2, gold], // top horizontals
for(i = [1, 3]) [(x[i] + x[i + 1]) / 2, -3.4, 0, "block", x[i + 1] - x[i], 0.6, 0.2, gold], // lower horizontals
]
],
];
ESP32_CAM_pcb = ["", "", 27, 40, 1.7, 2.5, 0, 0, grey(15), false, [],
[
[27 / 2, 26 / 2, 0, "-pcb", 0, ESP32_module],
for(side = [-1, 1]) [side * inch(0.45) + 27 / 2, -(4.2 + inch(.35)), 0, "-2p54header", 1, 8],
[ 27 / 2, -8, 90, "uSD", [14.85, 14.65, 1.8]],
[ 27 / 2 + 1, 15, 0, "flat_flex", false],
[ 27 / 2 + inch(0.45), 10.5, 0, "block", 3, 3, 0.8, grey(90)],
[ 27 / 2 + inch(0.45), 10.5, 0, "block", 2.9, 2.9, 0.81, "yellow", true, 2.9 / 2 - eps],
[ 27 / 2, 3, 0, "text", 15, 2, "ESP32-CAM", "Liberation Sans:style=Bold"],
[0.5, -(4.7 + inch(.35)), 90, "text", inch(0.75), 0.9, "IO4 IO2 IO14 IO15 IO13 IO12 GND 5V", "Liberation Sans:style=Bold"],
[26.5, -(4.6 + inch(.35)), -90, "text", inch(0.77), 0.9, "3V3 1O16 IO0 GND VCC U0R U0T GND", "Liberation Sans:style=Bold"],
[5.5, -3.3, 90, "-chip", 4, 3, 1.6, silver], // Mock button surround
[5.5, -3.3, 90, "-chip", 1.8,0, 2.0, grey(20)], // Mock button
[10, -10.8, 0, "-smd_led", LED0603, "red"],
[-6.5, -5, 0, "-smd_soic", SOIC8],
[12.2, -4.5, 180, "-smd_sot", SOT223, "AMS1117"],
[25.3, 14, 0, "smd_sot", SOT23],
[3.0, 14, 0, "smd_sot", SOT23],
[8, 20, 90, "smd_sot", SOT23],
[16, 20, 90, "smd_sot", SOT23],
[3.0, 11.5,0, "smd_res", RES0502],
[2.9, 10.3,0, "smd_res", RES0502],
[5.4, 20, 90, "smd_cap", CAP0603, 0.5],
[11.5, 20, 90, "smd_cap", CAP0603, 0.5],
[18.7, 20, 90, "smd_cap", CAP0603, 0.5],
[19.9, 20, 90, "smd_cap", CAP0402, 0.3],
for(i = [0, 1, 2, 4]) [7.6 + i * 1.09, 8.8, 90, "smd_res", RES0502],
for(i = [0 : 3]) [-4.8, 20 + i * 1.09, 0, "smd_res", RES0502],
for(i = [3, 5, 8]) [7.6 + i * 1.09, 8.8, 90, "smd_cap", CAP0502, 0.5],
[-8.1, 23, 90, "smd_res", RES0502],
[-9.2, 23, 90, "smd_res", RES0502],
[-6.3, 23.3, 180, "text", 0.8, 0.7, "5V", "Liberation Sans:style=Bold"],
[-6.5, 22.2, 180, "text", 1.2, 0.7, "3V3", "Liberation Sans:style=Bold"],
[8, -3.3, 90, "-smd_cap", CAP0603, 0.5],
[2, -2, 0, "-text", 2.3, 1, "RST", "Liberation Sans:style=Bold"],
[10,-9.4, 0, "-text", 3.1, 1, "LED1", "Liberation Sans:style=Bold"],
[12.4, -10.8, 0, "-smd_res", RES0502],
[13.7, -9.4, 0, "-smd_cap", CAP0603, 0.5],
[17.2,-9.4, 0, "-smd_cap", CAP0502, 0.4],
[22.1, -10.8, 0, "-smd_res", RES0502],
[16.9, -4.8, 90, "-smd_res", RES0502],
[2.2, 9.0, 90, "-smd_cap", CAP0502, 0.4],
[2.2, 11.6, 90, "-smd_cap", CAP0502, 0.4],
[2.2, 14.2, 90, "-smd_res", RES0502],
[5.9, -9.4, 90, "-smd_tant", TANT_B, "107A"],
],
[],
[(27 - inch(0.9)) / 2, 40 - 4.2 - inch(0.7), 2, 8, silver, inch(0.9), inch(0.1)], // 8x2 grid of holes
];
ESP32_CAM = ["ESP32_CAM", "ESP32-CAM Camera module", ESP32_CAM_pcb, [esp32_cam_x, pcb_width(ESP32_CAM_pcb) / 2 - 12, 1.8],
[
[[8, 8, 2.4], 0],
[[0, 0, 4.2], 4],
[[0, 0, 6.3], 3.5, [1, 1, 0.5]],
],
[1, -4], [15, 2.2, 1],
[54, 41] // FOV
];
cameras = [rpi_camera_v1, rpi_camera_v2, rpi_camera, ESP32_CAM];
use <camera.scad>

54
vitamins/component.scad
View File

@@ -41,7 +41,7 @@ function resistor_sleeved(type) = type[9]; //! Are the leads sleeved
splay_angle = 2; // radial lead splay angle
module resistor(type) { //! Draw specified type of resitor
module resistor(type) { //! Draw specified type of resistor
length = resistor_length(type);
dia = resistor_diameter(type);
@@ -190,10 +190,7 @@ module al_clad_resistor(type, value, leads = true) { //! Draw an aluminium clad
cylinder(r = leads ? 3 : height / 2 - 2, h = length + eps, center = true);
}
module al_clad_resistor_assembly(type, value, sleeved = true) { //* Draw aluminium clad resistor with optional sleaving, positions children at the screw positions
sleeving_length = 15;
sleeving = HSHRNK32;
module al_clad_resistor_assembly(type, value, sleeved = true, sleeving = HSHRNK32, sleeving_length = 15) { //! Draw aluminium clad resistor with optional sleaving, positions children at the screw positions
al_clad_resistor(type, value);
if(sleeved)
@@ -207,52 +204,55 @@ module al_clad_resistor_assembly(type, value, sleeved = true) { //* Draw alumini
children();
}
TO220_hole_y = 2.9; // Distance to hole from top of tab
function TO220_size() = [10.2, 15, 4.4]; //! Size of a TO220
function TO220_thickness() = 1.5; //! Thickness of the tab of a TO220
function TO220_lead_pos(i, l) = //! Position of ith lead end when length = l
[i * inch(0.1), -TO220_size().y + TO220_hole_y - l, 1.9];
module TO220(description, leads = 3, lead_length = 16) { //! Draw a TO220 package, use `description` to describe what it is
width = 10.2;
s = TO220_size();
inset = 1.5;
hole = 3.3;
length = 15;
height = 4.4;
lead_height = 1.9;
lead_t = 0.4;
lead_w = 0.7;
lead_w2 = 1.4;
lead_l = 4.2;
body = 8;
hole_y = 2.9;
vitamin(str("TO220(\"", description, "\"", arg(leads, 3, "leads"), "): ", description));
translate([0, -length + hole_y]) {
color("silver") {
translate([0, -s.y + TO220_hole_y]) {
color("silver")
linear_extrude(TO220_thickness())
difference() {
translate([-width / 2, inset])
square([width, length - inset]);
translate([-s.x / 2, inset])
square([s.x, s.y - inset]);
translate([0, length - hole_y])
translate([0, s.y - TO220_hole_y])
circle(d = hole);
for(side = [-1, 1])
translate([side * width / 2, 0])
translate([side * s.x / 2, 0])
square([inset * 2, body * 2], center = true);
}
for(i = [-1 : 1])
if(i || leads == 3) {
translate([inch(0.1) * i, -lead_length / 2, lead_height])
cube([lead_w, lead_length, lead_t], center = true);
translate([inch(0.1) * i, -lead_l / 2, lead_height])
cube([lead_w2, lead_l, lead_t], center = true);
}
}
color("dimgrey")
translate([-width / 2, 0, eps])
cube([width, body, height]);
translate([-s.x / 2, 0, eps])
cube([s.x, body, s.z]);
}
color(silver)
for(i = [-1 : 1])
if(i || leads == 3) {
translate(TO220_lead_pos(i, lead_length / 2))
cube([lead_w, lead_length, lead_t], center = true);
translate(TO220_lead_pos(i, lead_l / 2))
cube([lead_w2, lead_l, lead_t], center = true);
}
translate_z(TO220_thickness())
children();
}

219
vitamins/faston.scad Normal file
View File

@@ -0,0 +1,219 @@
//
// NopSCADlib Copyright Chris Palmer 2023
// nop.head@gmail.com
// hydraraptor.blogspot.com
//
// This file is part of NopSCADlib.
//
// NopSCADlib is free software: you can redistribute it and/or modify it under the terms of the
// GNU General Public License as published by the Free Software Foundation, either version 3 of
// the License, or (at your option) any later version.
//
// NopSCADlib is distributed in the hope that it will be useful, but WITHOUT ANY WARRANTY;
// without even the implied warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.
// See the GNU General Public License for more details.
//
// You should have received a copy of the GNU General Public License along with NopSCADlib.
// If not, see <https://www.gnu.org/licenses/>.
//
//
//! Faston receptacles to mate with spade connectors
//
include <../utils/core/core.scad>
include <../utils/sector.scad>
function faston_width(type) = type[1]; //! Width of matching spade
function faston_size(type) = type[2]; //! Size of the receptical part
function faston_d_top(type) = type[3]; //! Radius of the clips
function faston_d_bot(type) = type[4]; //! Radius of bottom corners
function faston_t(type) = type[5]; //! Thickness
function faston_wire_crimp_l(type) = type[6]; //! Length of the wire crimp
function faston_wire_crimp_d(type) = type[7]; //! Outside diameter of the wire crimp
function faston_wire_crimp_p(type) = type[8]; //! Position of the tip of the wire crimp
function faston_fillet_d(type) = type[9]; //! Fillets at the transition
function faston_wall_h(type) = type[10]; //! Height of transition web wall
function faston_insul_crimp_l(type) = type[11]; //! Length of the insulation crimp
function faston_insul_crimp_d(type) = type[12]; //! Outside diameter of the insulation crimp
function faston_insul_crimp_p(type) = type[13]; //! Position of the tip of the insulation crimp
function faston_insul_crimp_o(type) = type[14]; //! Offset of insulation crimp
function faston_length(type) = //! Total length of crimp
faston_insul_crimp_p(type).z + faston_insul_crimp_l(type);
function faston_insul_stop(type) = //! Position where insulation stops
faston_wire_crimp_p(type).z + faston_wire_crimp_l(type);
module faston(type, closed = false) { //! Draw specified faston
vitamin(str("faston(", type[0], "): Faston part no ", type[0], " to fit ", faston_width(type), "mm spade"));
s = faston_size(type);
r_top = faston_d_top(type) / 2;
r_bot = faston_d_bot(type) / 2;
t = faston_t(type);
wc_l = faston_wire_crimp_l(type);
wc_r = faston_wire_crimp_d(type) / 2;
wc_p = faston_wire_crimp_p(type);
fillet_r = faston_fillet_d(type) / 2;
wall_h = faston_wall_h(type);
ic_l = faston_insul_crimp_l(type);
ic_r = faston_insul_crimp_d(type) / 2;
ic_p = faston_insul_crimp_p(type);
ic_o = faston_insul_crimp_o(type);
$fn = 64;
// Receptical
module reciptical_shape()
for(side = [-1, 1]) mirror([side < 0 ? 1 : 0, 0]) {
translate([s.x / 2 - r_top, s.y - r_top])
difference() {
sector(r_top, 0, 180);
sector(r_top - t, 0, 180);
}
translate([s.x / 2 - r_bot, r_bot])
difference() {
sector(r_bot, -90, 0);
sector(r_bot - t, -90, 0);
}
translate([s.x / 2 - t, r_bot])
square([t, s.y - r_top - r_bot]);
square([s.x / 2 - r_bot, t]);
}
module crimp_shape(p, r, offset = 0) {
hpot = norm([p.x, p.y] - [0, r + offset]);
opp = sqrt(sqr(hpot) - sqr(r));
angle = atan((p.y - (r + offset)) / p.x) - acos(r / hpot);
r_crimp = r / 2 - eps;
lift = -0.1;
z = (opp - r * 2 * PI / -angle / 360 - PI * r_crimp) / 2 + lift / 2;
for(side = [-1, 1]) mirror([side < 0 ? 1 : 0, 0])
translate([0, r + offset]) {
difference() {
sector(r, 270, 360 + (closed ? 0 : angle));
circle(r - t);
}
if(!closed)
rotate(angle)
translate([r - t, -eps])
square([t, opp]);
else {
translate([r - r_crimp, z])
difference() {
sector(r_crimp, 0, 180);
circle(r_crimp - t);
}
translate([r - t, 0])
square([t, z]);
translate([r - 2 * r_crimp, lift])
square([t, z - lift]);
}
}
}
// Wire crimp
module wire_crimp_shape() crimp_shape(wc_p, wc_r);
// Insulation crimp
module insul_crimp_shape() crimp_shape(ic_p, ic_r, ic_o);
module crop(z = 0)
intersection() {
children();
square([s.x, 2 * (wall_h + fillet_r + z)], center = true);
}
color(silver) translate([0, -t]) {
// Transition from reciptical to wire crimp
render() difference() {
hull() {
translate_z(s.z)
linear_extrude(eps)
crop()
reciptical_shape();
translate_z(wc_p.z - eps)
linear_extrude(eps)
crop()
wire_crimp_shape();
}
translate([0, s.y, (s.z + wc_p.z) / 2])
rotate([0, 90, 0])
rounded_rectangle([wc_p.z - s.z, 2 * (s.y - wall_h), s.x + 1], fillet_r, center = true);
hull() {
translate_z(s.z - eps)
linear_extrude(eps)
offset(-t)
crop(t)
hull()
reciptical_shape();
translate_z(wc_p.z + eps / 8)
linear_extrude(eps / 8)
offset(-t)
crop(t)
hull()
wire_crimp_shape();
}
}
// Transition from wire crimp to insulation crimp
render() difference() {
hull() {
translate_z(wc_p.z + wc_l)
linear_extrude(eps)
wire_crimp_shape();
translate_z(ic_p.z - eps)
linear_extrude(eps)
insul_crimp_shape();
}
gap = ic_p.z - wc_p.z - wc_l;
d = gap * 2 / 3;
translate([0, wall_h + fillet_r - gap / 2, ic_p.z - d / 2])
hull() {
rotate([0, 90, 0])
cylinder(d = d, h = 10, center = true);
translate([-5, d / 2, d / 2 - gap])
cube([10, 10, gap]);
}
hull() {
translate_z(wc_p.z + wc_l - eps)
linear_extrude(eps)
offset(-t)
hull()
wire_crimp_shape();
translate_z(ic_p.z + eps / 8)
linear_extrude(eps / 8)
offset(-t)
hull()
insul_crimp_shape();
}
}
linear_extrude(s.z)
reciptical_shape();
translate_z(wc_p.z)
linear_extrude(wc_l)
wire_crimp_shape();
translate_z(ic_p.z)
linear_extrude(ic_l)
insul_crimp_shape();
}
}

28
vitamins/fastons.scad Normal file
View File

@@ -0,0 +1,28 @@
//
// NopSCADlib Copyright Chris Palmer 2023
// nop.head@gmail.com
// hydraraptor.blogspot.com
//
// This file is part of NopSCADlib.
//
// NopSCADlib is free software: you can redistribute it and/or modify it under the terms of the
// GNU General Public License as published by the Free Software Foundation, either version 3 of
// the License, or (at your option) any later version.
//
// NopSCADlib is distributed in the hope that it will be useful, but WITHOUT ANY WARRANTY;
// without even the implied warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.
// See the GNU General Public License for more details.
//
// You should have received a copy of the GNU General Public License along with NopSCADlib.
// If not, see <https://www.gnu.org/licenses/>.
//
//
//! Faston receptacles to mate with spade connectors
//
5_160430_7 = ["5_160430_7", 4.75, [5.6, 2.56, 6.3], 2.25, 1.13, 0.32, 3.2, 1.64, [1.64, 3.09, 9], 0.5, 0.96, 1.7, 3.53, [2.08, 4.47, 13.3], -0.4];
fastons = [5_160430_7];
use <faston.scad>

2
vitamins/insert.scad
View File

@@ -53,7 +53,7 @@ module insert(type) { //! Draw specified insert
ring2_h = ring1_h + chamfer1;
gap = (length - ring1_h - ring2_h - chamfer2) / 3;
vitamin(str("insert(", type[0], "): Heatfit insert M", insert_screw_diameter(type)));
vitamin(str("insert(", type[0], "): Heatfit insert M", insert_screw_diameter(type), " x ", length, "mm"));
$fn = 64;
thread_d = insert_screw_diameter(type);
explode(20, offset = [0, 0, -5]) translate_z(eps) vflip() {

9
vitamins/inserts.scad
View File

@@ -34,6 +34,13 @@ F1BM2p5 = [ "F1BM2p5", 5.8, 4.6, 4.0, 2.5, 3.65, 1.6, 4.4, 3.9 ];
F1BM3 = [ "F1BM3", 5.8, 4.6, 4.0, 3, 3.65, 1.6, 4.4, 3.9 ];
F1BM4 = [ "F1BM4", 8.2, 6.3, 5.6, 4, 5.15, 2.3, 6.0, 5.55 ];
inserts = [ F1BM2, F1BM2p5, F1BM3, F1BM4 ];
CNCKM2p5 =[ "CNCKM2p5",4.0, 4.6, 4.0, 2.5, 3.65, 1.0, 4.4, 3.9 ];
CNCKM3 = [ "CNCKM3", 3.0, 4.6, 4.0, 3, 3.65, 0.7, 4.4, 3.9 ];
CNCKM4 = [ "CNCKM4", 4.0, 6.3, 5.6, 4, 5.15, 1.0, 6.0, 5.55];
CNCKM5 = [ "CNCKM5", 5.8, 7.1, 6.4, 5, 6.0, 1.6, 6.8, 6.33];
inserts = [ F1BM2, F1BM2p5, F1BM3, F1BM4, CNCKM5 ];
short_inserts = [ F1BM2, CNCKM2p5, CNCKM3, CNCKM4, CNCKM5 ];
use <insert.scad>

67
vitamins/leadnut.scad
View File

@@ -23,6 +23,7 @@
include <../utils/core/core.scad>
use <../utils/tube.scad>
use <../utils/thread.scad>
use <../vitamins/screw.scad>
function leadnut_bore(type) = type[2]; //! Thread size
function leadnut_od(type) = type[3]; //! Outer diameter of the shank
@@ -41,6 +42,17 @@ function leadnut_colour(type) = type[15]; //! The colour
function leadnut_shank(type) = leadnut_height(type) - leadnut_flange_t(type) - leadnut_flange_offset(type); //! The length of the shank below the flange
function leadnuthousing_length(type) = type[2]; //! Length of housing
function leadnuthousing_width(type) = type[3]; //! Width of housing
function leadnuthousing_height(type) = type[4]; //! Height of housing
function leadnuthousing_hole_pos(type) = type[5]; //! Offset from center for nut hole
function leadnuthousing_screw_dist_l(type) = type[6]; //! Distance between mounting holes length
function leadnuthousing_screw_dist_w(type) = type[7]; //! Distance between mounting holes width
function leadnuthousing_mount_screw(type) = type[8]; //! Mounting screw
function leadnuthousing_mount_screw_len(type) = type[9]; //! Mounting screw length
function leadnuthousing_nut(type) = type[10]; //! Nut type this is suitable for
function leadnuthousing_nut_screw_length(type) = type[11]; //! Length of mounting screw for nut
module leadnut_screw_positions(type) { //! Position children at the screw holes
holes = leadnut_holes(type);
flat = leadnut_flat(type);
@@ -87,3 +99,58 @@ module leadnut(type) { //! Draw specified leadnut
}
}
}
module leadnuthousing_screw_positions(type) { //! Get screw positions to mount the leadnut housing
for(p = [[-1,-1], [1,-1], [1,1], [-1,1]])
translate([p.x * leadnuthousing_screw_dist_l(type)/2, p.y * leadnuthousing_screw_dist_w(type)/2, 0])
children();
}
module leadnuthousing_nut_position(type) { //! The position of the nut may be off-center, use this to get the position
translate([leadnuthousing_hole_pos(type),0, leadnuthousing_height(type)/2])
children();
}
module leadnuthousing_nut_screw_positions(type) { //! get screw positions to mount the nut to the nut housing
translate([leadnuthousing_hole_pos(type),0, 0])
leadnut_screw_positions(leadnuthousing_nut(type))
children();
}
module leadnuthousing(type) { //! Nut housing, to connect a lead nut to another object
vitamin(str("nuthousing(", type[0], "): ", type[1]));
leadnut = leadnuthousing_nut(type);
screw = leadnut_screw(leadnut);
d = screw_radius(screw) * 2;
p = metric_coarse_pitch(d);
sl = leadnuthousing_nut_screw_length(type);
ms = leadnuthousing_mount_screw(type);
msl = leadnuthousing_mount_screw_len(type);
md = screw_radius (ms) * 2;
mp = metric_coarse_pitch(md);
color("silver")
difference() {
cube([leadnuthousing_length(type), leadnuthousing_width(type), leadnuthousing_height(type)], center = true);
translate([leadnuthousing_hole_pos(type),0,0]) {
cylinder(d=leadnut_od(leadnut), h=leadnuthousing_length(type)+2, center=true);
translate_z(leadnut_flange_offset(leadnut))
leadnut_screw_positions(leadnut)
cylinder(r=screw_radius(leadnut_screw(leadnut)), h=sl+1);
}
rotate([0,90,0])
leadnuthousing_screw_positions(type)
cylinder(r=screw_radius(ms), h=msl+1);
}
if(show_threads) {
translate([leadnuthousing_hole_pos(type),0,leadnuthousing_height(type)/2 - sl/2 - leadnut_flange_t(leadnut)])
leadnut_screw_positions(leadnut)
female_metric_thread(d, p, sl, center = true, colour = silver);
rotate([0,90,0])
translate_z(msl/2)
leadnuthousing_screw_positions(type)
female_metric_thread(md, mp, msl, center = true, colour = silver);
}
}

4
vitamins/leadnuts.scad
View File

@@ -29,5 +29,9 @@ LSN8x8 = ["LSN8x8", "Leadscrew nut 8 x 8 RobotDigg", 8, 12.75,19, 25.4, 4.1, 0
SFU1610 = ["SFU1610", "Leadscrew nut for SFU1610", 16, 28, 42.5, 48, 10, 0, 6, 6, 38/2, M6_cap_screw, 5, 10, 40, "#DFDAC5"];
leadnuts = [LSN8x2, LSN8x8, SFU1610];
// L W H Hole Mounting screws (top) Nut Nut mount screw
// Pos Dist L Dist W Type L Length
LNHT8x2 = [ "LNHT8x2", "Lead Screw Nut Housing T8", 30, 34, 30, -1, 20, 24, M4_cs_cap_screw, 15, LSN8x2, 15 ];
leadnuthousings = [LNHT8x2];
use <leadnut.scad>

9
vitamins/leds.scad
View File

@@ -25,10 +25,11 @@
// d t h h
// t t
//
LED3mm = ["LED3mm", 3, 3.1, 1.0, 4.5, 2.54, 0.4];
LED5mm = ["LED5mm", 5, 5.6, 0.9, 8.5, 2.54, 0.4];
LED10mm = ["LED10mm", 10, 11.0, 2.0, 13.5, 2.54, 0.4];
LED3mm = ["LED3mm", 3, 3.15, 1.15, 4.6, 2.54, 0.4];
LED5mm = ["LED5mm", 5, 5.9, 1.1, 9.0, 2.54, 0.4];
LED8mm = ["LED8mm", 8, 9.2, 1.95,11.0, 2.54, 0.4];
LED10mm = ["LED10mm", 10, 11.0, 2.0, 13.5, 2.54, 0.4];
LEDs = [LED3mm, LED5mm, LED10mm];
LEDs = [LED3mm, LED5mm, LED8mm, LED10mm];
use <led.scad>

16
vitamins/nuts.scad
View File

@@ -28,14 +28,14 @@ M5_nut_depth = 4;
M6_nut_depth = 5;
M8_nut_depth = 6.5;
// s r t n w t t
// c a h y a r h
// r d i l s a r
// e i c o h p e
// w u k c e d
// s n r d
// e t e p
// s h p i
// s d t n w t t
// c i h y a r h
// r a i l s a r
// e m c o h p e
// w e k c e d
// t n r d
// e e t e p
// r s h p i
// s k t t
// h c
// h

24
vitamins/opengrab.scad
View File

@@ -18,7 +18,7 @@
//
//
//! Nicodrone OpenGrab V3 electro-permanent magnet, see <https://nicadrone.com/products/epm-v3>.
//! Nicodrone OpenGrab V3 electro-permanent magnet, see <https://kb.zubax.com/display/MAINKB/OpenGrab+EPM+v3>.
//!
//! A permanent magnet that can be magnetized and de-magnetized electronically.
//
@@ -37,14 +37,13 @@ pole_w = 2;
pole_l = 36;
poles = 15;
pcb = ["", "", width, width, 0.8, 0, 3.5, 0, "darkgreen", false, [],
[ [ 3.45, 19, 0, "button_4p5mm"],
[ 2.75, 24.5, 0, "smd_led", LED0805, "green"],
[ 2.75, 28.0, 0, "smd_led", LED0805, "red"],
[ 28.5, 13, 0, "2p54header", 3, 1, false, undef, true],
pcb = ["", "", width, width, 0.8, 0, 3.5, 0, "darkgreen", false, [],
[ [ 3.475, 19.05, 0, "button_4p5mm"],
[ 2.2, 24.125, 0, "smd_led", LED0805, "green"],
[ 2.375, 27.9, 0, "smd_led", LED0805, "red"],
[ 28.4, 13.345, 0, "2p54header", 3, 1, false, undef, true],
]];
module opengrab_hole_positions() //! Position children at the screw positions
let($d = 3.2)
for($x = [-pitch, pitch], $y = [-pitch, pitch])
@@ -96,6 +95,17 @@ module opengrab() { //! Draw OpenGrab module
if(show_threads)
female_metric_thread(3, metric_coarse_pitch(3), depth - 1, center = false, colour = brass);
}
module molex()
translate_z(opengrab_pcb_z() + pcb_thickness(pcb))
color(grey(90))
import("stl/Molex_5023860470.stl");
translate([-8.4, -14.2])
molex();
translate([0.125, -14.2])
molex();
}
module opengrab_target() { //! Draw OpenGrab target

44
vitamins/pcb.scad
View File

@@ -37,6 +37,7 @@ use <d_connector.scad>
use <led.scad>
use <dip.scad>
use <axial.scad>
use <radial.scad>
use <smd.scad>
use <terminal.scad>
include <potentiometers.scad>
@@ -115,6 +116,14 @@ module usb_A_tongue() {
}
}
module usb_vAx1(cutout = false) { //! Draw a vertical USB type A single socket
h = 5.8;
w = 13.8;
translate([0, h / 2, w / 2])
rotate([90, 0, 0])
usb_A(h = h, v_flange_l = 0, bar = 0, cutout = cutout, l = 14, h_flange_l = 0, flange_t = 0.3, w = w);
}
module usb_Ax1(cutout = false) { //! Draw USB type A single socket
usb_A(h = 6.5, v_flange_l = 4.5, bar = 0, cutout = cutout);
}
@@ -123,12 +132,8 @@ module usb_Ax2(cutout = false) { //! Draw USB type A dual socket
usb_A(h = 15.6, v_flange_l = 12.15, bar = 3.4, cutout = cutout);
}
module usb_A(h, v_flange_l, bar, cutout) {
l = 17;
w = 13.25;
flange_t = 0.4;
module usb_A(h, v_flange_l, bar, cutout, l=17, h_flange_l = 11, flange_t = 0.4, w = 13.25) {
h_flange_h = 0.8;
h_flange_l = 11;
v_flange_h = 1;
socket_h = (h - 2 * flange_t - bar) / 2;
@@ -154,9 +159,11 @@ module usb_A(h, v_flange_l, bar, cutout) {
translate_z(l / 2 - flange_t)
linear_extrude(flange_t) difference() {
union() {
square([h + 2 * h_flange_h, h_flange_l], center = true);
if(h_flange_l)
square([h + 2 * h_flange_h, h_flange_l], center = true);
square([v_flange_l, w + 2 * v_flange_h], center = true);
if(v_flange_l)
square([v_flange_l, w + 2 * v_flange_h], center = true);
}
square([h - eps, w - eps], center = true);
}
@@ -164,7 +171,8 @@ module usb_A(h, v_flange_l, bar, cutout) {
for(z = bar ? [-1, 1] : [0])
translate_z(z * (bar / 2 + socket_h / 2))
usb_A_tongue();
translate([l - 17, 0])
usb_A_tongue();
}
}
@@ -1063,7 +1071,7 @@ module trimpot10(vertical, cutout = false) { //! Draw a ten turn trimpot
}
}
module block(size, colour, makes_cutout, cutouts) //! Draw a coloured cube to represent a random PCB component
module block(size, colour, makes_cutout, cutouts, r = 0, rtop = 0) //! Draw a coloured cube to represent a random PCB component
if(cutouts) {
if(makes_cutout)
translate([-50, 0, size.z / 2 - panel_clearance])
@@ -1071,8 +1079,10 @@ module block(size, colour, makes_cutout, cutouts) //! Draw a coloured cube to re
}
else
color(colour)
translate_z(size.z / 2)
cube(size, center = true);
if(rtop)
let($fn = 32) rounded_top_rectangle(size, r, rtop);
else
rounded_rectangle(size, r);
module pcb_component(comp, cutouts = false, angle = undef) { //! Draw pcb component from description
function show(comp, part) = (comp[3] == part || comp[3] == str("-",part)) && (!cutouts || angle == undef || angle == comp.z);
@@ -1088,6 +1098,8 @@ module pcb_component(comp, cutouts = false, angle = undef) { //! Draw pcb compon
if(show(comp, "chip")) chip(comp[4], comp[5], comp[6], param(7, grey(30)), cutouts);
if(show(comp, "rj45")) rj45(cutouts);
if(show(comp, "usb_A")) usb_Ax1(cutouts);
if(show(comp, "usb_vAx1")) usb_vAx1(cutouts);
if(show(comp, "usb_Ax1")) usb_Ax1(cutouts);
if(show(comp, "usb_Ax2")) usb_Ax2(cutouts);
if(show(comp, "usb_uA")) usb_uA(cutouts);
if(show(comp, "usb_miniA")) usb_miniA(cutouts);
@@ -1106,7 +1118,7 @@ module pcb_component(comp, cutouts = false, angle = undef) { //! Draw pcb compon
if(show(comp, "molex_usb_Ax1")) molex_usb_Ax1(cutouts);
if(show(comp, "smd_led")) smd_led(comp[4], comp[5], cutouts);
if(show(comp, "7seg")) let(z = param(6, 0)) translate_z(z) 7_segment_digits(comp[4], comp[5], pin_length = z + 3, cutout = cutouts);
if(show(comp, "block")) block(size = [comp[4], comp[5], comp[6]], colour = comp[7], makes_cutout = param(8));
if(show(comp, "block")) block(size = [comp[4], comp[5], comp[6]], colour = comp[7], makes_cutout = param(8), r = param(9, 0), rtop = param(10, 0));
if(!cutouts) {
// Components that don't have a cutout parameter go in this section
if(show(comp, "button_6mm")) square_button(button_6mm);
@@ -1124,7 +1136,8 @@ module pcb_component(comp, cutouts = false, angle = undef) { //! Draw pcb compon
if(show(comp, "led")) translate_z(eps) led(comp[4], comp[5], 2.6);
if(show(comp, "pdip")) pdip(comp[4], comp[5], param(6, false), param(7, inch(0.3)));
if(show(comp, "ax_res")) ax_res(comp[4], comp[5], param(6, 5), param(7, 0));
if(show(comp, "link")) wire_link(l = comp[4], h = param(5, 1), d = param(6, 0.8), tail = param(7, 3));
if(show(comp, "rd_xtal")) rd_xtal(type = comp[4], value = param(5, undef), z = param(6, 0), pitch = param(7, undef)); // type, value, z, forced pitch
if(show(comp, "link")) wire_link(l = comp[4], h = param(5, 1), d = param(6, 0.8), tail = param(7, 3), sleeve = param(8, false));
if(show(comp, "D_plug")) translate_z(d_pcb_offset(comp[4])) d_plug(comp[4], pcb = true);
if(show(comp, "molex_hdr")) molex_254(comp[4], param(5, 0), param(6, undef));
if(show(comp, "jst_xh")) jst_xh_header(jst_xh_header, comp[4], param(5, false), param(6, "white"), param(7, undef));
@@ -1133,8 +1146,13 @@ module pcb_component(comp, cutouts = false, angle = undef) { //! Draw pcb compon
if(show(comp, "buzzer")) buzzer(param(4, 9), param(5, 12), param(6, grey(20)));
if(show(comp, "smd_res")) smd_resistor(comp[4], comp[5]);
if(show(comp, "smd_cap")) smd_capacitor(comp[4], comp[5], param(6, undef));
if(show(comp, "smd_tant")) smd_tant(comp[4], param(5, undef));
if(show(comp, "smd_sot")) smd_sot(comp[4], comp[5]);
if(show(comp, "smd_soic")) smd_soic(comp[4], comp[5]);
if(show(comp, "smd_diode")) smd_diode(comp[4], comp[5]);
if(show(comp, "smd_inductor")) smd_inductor(comp[4], comp[5]);
if(show(comp, "smd_pot")) smd_pot(comp[4], comp[5]);
if(show(comp, "smd_coax")) smd_coax(comp[4]);
if(show(comp, "vero_pin")) vero_pin(param(4, false));
if(show(comp, "terminal")) terminal_block(comp[5], comp[4]);
if(show(comp, "text")) color("white") linear_extrude(eps) resize([comp[4], comp[5]]) text(comp[6], font = param(7, "Liberation Mono"), valign = "center", halign = "center");

84
vitamins/pcbs.scad
View File

@@ -20,6 +20,7 @@ include <microswitches.scad>
include <d_connectors.scad>
include <leds.scad>
include <axials.scad>
include <radials.scad>
include <smds.scad>
include <green_terminals.scad>
include <7_segments.scad>
@@ -537,6 +538,37 @@ Melzi = ["Melzi", "Melzi electronics", 203.2, 49.53, 1.6, 3.81, 3.1, 6, "green"
[],
[": USB A to Mini B lead", ": Micro SD card"]];
OPZ2 = ["OPZ2", "Orange Pi Zero 2", 60, 53, 1.4, 1.75, 3, 5, "blue", false, [[2.5, 2.5], [-2.5, 2.5], [-2.5, -2.5], [2.5, -2.5]],
[[-2.54, 53/2, 90, "2p54header", 13, 2],
[-10, -10-2.54*2, 0, "2p54header", 3, 1],
[2.54/2, 53/2, 90, "2p54header", 13, 1],
[6+16/2, -10.5+1, 90, "rj45"],
[24+9/2, -3.6+1, 90, "usb_C"],
[37+6.5/2, -8.5/2+1, 90, "micro_hdmi"],
[-7-5.8/2, -7+1, 90, "usb_vAx1"],
[-17, 18, 0, "chip", 13, 7.5, 1],
[-17, 28, 0, "chip", 13, 7.5, 1],
[26, 23, 0, "chip", 12.2, 14, 1],
[8.1+10.3/2, 3.7+10.3/2, 0, "chip", 10.3, 10.3, 1.8, "silver"],
[10.7+14.6/2, 14.7/2, 90, "-uSD", [14.6, 14.7, 2]],
],
[": Micro SD card"],
[60-2.54*1.5, 53/2 - 6*2.54, 2, 13]];
RPI3A = ["RPI3A", "Raspberry Pi 3 A+", 65, 56, 1.4, 3, 2.75, 6, "green", false, [[3.5, 3.5], [61.5, 3.5], [61.5, -3.5], [3.5, -3.5]],
[[32.5, -3.5, 0, "2p54header", 20, 2],
[27, -24.6, 0, "chip", 14, 14, 1],
[53.5, 6, -90, "jack"],
[32, 4.4, -90, "hdmi"],
[-6.5, 31.45, 0, "usb_Ax1"],
[10.6, 2, -90, "usb_uA"],
[3.6, 28, 90, "flex"],
[45, 11.5,-90, "flex"],
[7.75, 28, 180, "-uSD", [12, 11.5, 1.28]],
],
[": Micro SD card"],
[32.5 - 9.5 * 2.54, 52.5 - 1.27, 20, 2]];
RPI3 = ["RPI3", "Raspberry Pi 3", 85, 56, 1.4, 3, 2.75, 6, "green", false, [[3.5, 3.5], [61.5, 3.5], [61.5, -3.5], [3.5, -3.5]],
[[32.5, -3.5, 0, "2p54header", 20, 2],
[27, -24.6, 0, "chip", 14, 14, 1],
@@ -627,6 +659,14 @@ ArduinoUno3 = ["ArduinoUno3", "Arduino Uno R3", 68.58, 53.34, 1.6, 0, 3.3, 0, "#
[4.7625, 7.62, 180,"barrel_jack"],
[1.5875, 37.78, 180,"usb_B"],
[46.99, 17, 270,"pdip", 28, "ATMEGA328", true],
[18.7, 25.8, 0, "rd_xtal", HC49_4H],
[7.5, 17.2, 90, "smd_sot", SOT223],
[7.9, 26.5, 90, "smd_sot", SOT23],
[21.3, 2.7, 0, "smd_diode", DO214AC],
[27.8, 34.6, 0, "smd_led", LED0805, "red"],
[27.8, 37, 0, "smd_led", LED0805, "red"],
[27.8, 42.3, 0, "smd_led", LED0805, "red"],
[58.8, 37.1, 0, "smd_led", LED0805, "red"],
],
[],[],
inch([
@@ -744,9 +784,29 @@ WD2002SJ = ["WD2002SJ", "WD2002SJ Buck Boost DC-DC converter", 78, 47, 1.6, 0, 3
],
[]];
MP1584EN = ["MP1584EN", "MP1584EN 3A buck converter", 22, 17, 1.2, 0, 1, [2, 2], "green", false,
[[1.75, 1.75], [1.75, -1.75], [-1.75, 1.75], [-1.75, -1.75], [-1.75, -4.4], [-1.75, 4.48], [1.75, -4.4], [1.75, 4.4]],
[]
MP1584EN = ["MP1584EN", "MP1584EN 3A buck converter", 22, 17, 1.25, 0, 1, [2, 2], "green", false,
[[1.75, 1.75], [-1.75, 1.75], [-1.75, 4.4], [1.75, 4.4]],
[ [1.75, 8.5, 90, "smd_cap", CAP1206, 1],
[-1.75, 8.5, 90, "smd_cap", CAP1206, 1],
[7.5, 8.5, 0, "smd_soic", SOIC8, "WP1584EN"],
[3.9, 8.3, 90, "smd_res", RES0603, "104"],
[3.9, 11.2, 90,"smd_cap", CAP0603, 0.5],
[3.9, 5.4, 90, "smd_res", RES0603, "822"],
[6.2, 3.5, 0, "smd_res", RES0603, "104"],
[6.2, 2.1, 0, "smd_cap", CAP0603, 0.5],
[9.2, 3.5, 0, "smd_res", RES0603, "104"],
[9.2, 2.1, 0, "smd_res", RES0603, "104"],
[6.3, 14.4, 0, "smd_diode",DO214AC, "SS34"],
[12.1, 4.9, 0, "smd_cap", CAP0603, 0.5],
[15.8, 4.9, 0, "smd_cap", CAP0603, 0.5],
[14.5, 10, 90, "smd_inductor", IND2525, "4R7"],
[14.7, 1.8,-90,"smd_pot", TC33X1, "10K"],
[13.9, -1.4, 0,"text", 5, 1.5, "D-SUN", "Liberation Mono:style=Bold"],
[17.7, -1.2, 0,"text", 1.5,1.5,"\u2296", "MS Gothic:style=Bold"],
[17.9, 1.75, 0,"text", 1.5,1.5,"\u2295", "MS Gothic:style=Bold"],
],
[],
[1.75,17 -4.4, 2, 2, silver, 18.5, 2.65], // Abuse the grid facility to get the round pads
];
PERF80x20 = ["PERF80x20", "Perfboard 80 x 20mm", 80, 20, 1.6, 0, 2.3, 0, "green", true, [[2,2],[-2,2],[2,-2],[-2,-2]], [], [], [5.71, 3.65]];
@@ -812,7 +872,7 @@ XIAO = [
[for(x = [0:6], y = [-1,1]) [x * 2.54 + 2.71, y * 3 * 2.54 + 9], // Inboard hole positions
for(x = [0:6], y = [-1,1]) [x * 2.54 + 2.71, y * 9 + 9]], // Hole positions on the edge, pad overlaps the inboard holes
[ // components
[7.6, 9, 0, "block", 12.3, 12, 2.41, silver], // can
[7.6, 9, 0, "block", 12.3, 12, 2.41, silver, false, 0.3, 0.3], // can
[21 + 1.76 - 7.35 / 2, 9, 0, "usb_C"],
],
[] // accessories
@@ -861,7 +921,7 @@ ESP32_DOIT_V1 = let(l = 51.45, w = 28.33, pitch = inch(1), pins = 15, poffset =
[l / 2 + poffset, w / 2 - pitch / 2, 0, "-2p54joiner", pins, 1],
[l / 2 + poffset, w / 2 + pitch / 2, 0, "-2p54joiner", pins, 1],
[1.75, w / 2, 180, "usb_uA" ],
[35, w / 2, 0, "block", 17.7, 16, 3, silver], // can
[35, w / 2, 0, "block", 17.7, 16, 3, silver, false, 0.3, 0.3], // can
for(y=[-1,1]) [3.5, y * 6.5, 0, "chip", 4, 3, 1.6, silver], // Mock button surround
for(y=[-1,1]) [3.5, y * 6.5, 0, "chip", 1.8,0, 2.0, grey(20)], // Mock buttons
for(y=[-1,1]) [21.6, y * 9, 0, "smd_led", LED0603, y < 0 ? "red" : "blue"],
@@ -908,9 +968,21 @@ KY_040 = ["KY_040", "KY-040 rotart encoder breakout",
],
[]];
L9110S = ["L9110S", "L9110S 2-Channel motor driver module", 29.2, 23, 1.6, 0, 3, 0, "#2140BE", false, [[10.7, 2.3], [10.7, -2.3], [-5.3, 2.3], [-5.3, -2.3] ],
[
[ -1.3, 11.5, 0, "2p54header", 1, 6],
[ 16, 9.5 , 0, "smd_led", LED0805, "red"],
for(i = [-1, 1]) [ 4, 5.5*i, 180, "gterm508", 2],
for(i = [-1, 1]) [ 17.38, 3*i, 90, "smd_soic", SOIC8, "" ]
],
[]];
tiny_pcbs = [XIAO, MP1584EN, TP4056, ESP_01, LIPO_fuel_gauge];
pcbs = [RAMPSEndstop, KY_040, MT3608, ZC_A0591, ArduinoNano, RPI_Pico, ESP32_DOIT_V1, RPI0, EnviroPlus, ArduinoUno3, ArduinoLeonardo, WD2002SJ, RPI3, RPI4, BTT_RELAY_V1_2, BTT_SKR_MINI_E3_V2_0, BTT_SKR_E3_TURBO, BTT_SKR_V1_4_TURBO, DuetE, Duex5];
big_pcbs = [BTT_RELAY_V1_2, BTT_SKR_MINI_E3_V2_0, BTT_SKR_E3_TURBO, BTT_SKR_V1_4_TURBO, DuetE, Duex5];
pcbs = [RAMPSEndstop, MT3608, KY_040, L9110S, ZC_A0591, ArduinoNano, RPI_Pico, ESP32_DOIT_V1, RPI0, EnviroPlus, ArduinoUno3, ArduinoLeonardo, WD2002SJ, OPZ2, RPI3A, RPI3, RPI4];
pcbs_not_shown = [Melzi, Duex2, PSU12V1A, Keyes5p1, PI_IO, ExtruderPCB];

103
vitamins/photo_interrupter.scad Normal file
View File

@@ -0,0 +1,103 @@
//
// NopSCADlib Copyright Chris Palmer 2023
// nop.head@gmail.com
// hydraraptor.blogspot.com
//
// This file is part of NopSCADlib.
//
// NopSCADlib is free software: you can redistribute it and/or modify it under the terms of the
// GNU General Public License as published by the Free Software Foundation, either version 3 of
// the License, or (at your option) any later version.
//
// NopSCADlib is distributed in the hope that it will be useful, but WITHOUT ANY WARRANTY;
// without even the implied warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.
// See the GNU General Public License for more details.
//
// You should have received a copy of the GNU General Public License along with NopSCADlib.
// If not, see <https://www.gnu.org/licenses/>.
//
//
//! Photo interrupter modules popular in robot kits and from China.
//
include <../utils/core/core.scad>
include <../utils/rounded_polygon.scad>
function pi_base_width(type) = type[1]; //! Width of the base
function pi_base_length(type) = type[2]; //! Length of the base
function pi_base_height(type) = type[3]; //! Height of the base
function pi_gap_height(type) = type[4]; //! Height of the gap where the light can be interrupted
function pi_gap_width(type) = type[6]; //! Width of the gap
function pi_stem_width(type) = type[5]; //! Width of the stems
function pi_hole_diameter(type) = type[7]; //! Diameter of the mounting holes
function pi_color(type) = type[8]; //! Color of photo interrupter
function pi_pcb(type) = type[9]; //! Parameter for the support PCB, created with pi_pcb
module pi_hole_locations(type) { //! Locations of photo interrupter mounting holes
translate([0, -(pi_base_length(type) - pi_base_width(type)) / 2, 0])
children();
translate([0, (pi_base_length(type) - pi_base_width(type)) / 2, 0])
children();
}
module pi_pcb_hole_locations(pcb) { //! Locations of the PCB holes
for (xy = pcb[7]) {
translate([xy[0], xy[1], 0])
children();
}
}
module pi_pcb(type) { //! Draw the support PCB
pcb = pi_pcb(type);
color(pcb[6]) {
translate([0, 0, -pcb[2]]) {
linear_extrude(pcb[2]) {
difference() {
rounded_polygon([[0, -(pi_base_length(type) - pi_base_width(type)) / 2, -pi_base_width(type) / 2],
[pi_base_width(type) / 2, -pcb[1]/2, eps],
[pcb[0]+1, -pcb[1]/2, eps],
[pcb[0]+1, pcb[1]/2, eps],
[pi_base_width(type) / 2, pcb[1]/2, eps],
[0, (pi_base_length(type) - pi_base_width(type)) / 2, -pi_base_width(type) / 2]
]);
pi_pcb_hole_locations(pcb)
circle(d = pcb[8]);
pi_hole_locations(type)
circle(d=pi_hole_diameter(type));
}
}
}
}
}
module photo_interrupter(type) { //! Draw the photo interrupter, with PCB
vitamin(str("photo_interrupter(", type[0], "): ", type[0], " Photo interrupter"));
color(pi_color(type)) {
linear_extrude(pi_base_height(type)) {
difference() {
hull() {
pi_hole_locations(type)
circle(d = pi_base_width(type));
}
pi_hole_locations(type)
circle(d = pi_hole_diameter(type));
}
}
translate([-pi_base_width(type)/2, -(pi_gap_width(type)/2 + pi_stem_width(type)), 0])
cube([pi_base_width(type), pi_stem_width(type), pi_gap_height(type) + pi_base_height(type)]);
translate([-pi_base_width(type)/2, pi_gap_width(type)/2, 0])
cube([pi_base_width(type), pi_stem_width(type), pi_gap_height(type) + pi_base_height(type)]);
}
pi_pcb(type);
}
module pi_cutout(type) { //! Shape to subtract for fitting a photo interrupter
hull() {
pi_hole_locations(type)
cylinder(h = pi_base_height(type), d = pi_base_width(type));
}
translate([-pi_base_width(type)/2, -(pi_gap_width(type)/2 + pi_stem_width(type)), 0])
cube([pi_base_width(type), pi_stem_width(type), pi_gap_height(type) + pi_base_height(type)]);
translate([-pi_base_width(type)/2, pi_gap_width(type)/2, 0])
cube([pi_base_width(type), pi_stem_width(type), pi_gap_height(type) + pi_base_height(type)]);
};

23
vitamins/photo_interrupters.scad Normal file
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@@ -0,0 +1,23 @@
//
// NopSCADlib Copyright Chris Palmer 2023
// nop.head@gmail.com
// hydraraptor.blogspot.com
//
// This file is part of NopSCADlib.
//
// NopSCADlib is free software: you can redistribute it and/or modify it under the terms of the
// GNU General Public License as published by the Free Software Foundation, either version 3 of
// the License, or (at your option) any later version.
//
// NopSCADlib is distributed in the hope that it will be useful, but WITHOUT ANY WARRANTY;
// without even the implied warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.
// See the GNU General Public License for more details.
//
// You should have received a copy of the GNU General Public License along with NopSCADlib.
// If not, see <https://www.gnu.org/licenses/>.
//
PH1 = ["PH1", 6.4, 25.9 , 3.5, 8.6, 4.1, 5.9, 3, grey(20), [22, 20, 1.6, true, 11-3.2, 0, "blue",[[8.3, -7.5], [8.3, 7.5]], 3]];
photo_interrupters = [PH1];
use <photo_interrupter.scad>

13
vitamins/pin_header.scad
View File

@@ -20,7 +20,7 @@
include <../utils/core/core.scad>
use <../utils/dogbones.scad>
panel_clearance = 0.2;
panel_clearance = 0.5;
housing_height = 14.12; // measured height of a Dupont connector.
housing_colour = grey(25);
@@ -242,9 +242,11 @@ module pin_socket(type, cols = 1, rows = 1, right_angle = false, height = 0, smt
}
}
module jst_xh_header(type, pin_count, right_angle = false, colour = false, pin_colour = false, smt = false) { //! Draw JST XH connector
colour = colour ? colour : hdr_base_colour(type);
pin_colour = pin_colour ? pin_colour : hdr_pin_colour(type);
module jst_xh_header(type, pin_count, right_angle = false, colour = false, pin_colour = false, smt = false) { //! Draw JST XH, PH or ZH connector
series = chr([ord(type[0][4]) - 32, ord(type[0][5]) - 32]);
vitamin(str("jst_xh_header(", type[0], ", ", pin_count, arg(right_angle, false, "right_angle"), arg(colour, false, "colour"), arg(smt, false, "smt"), "): JST ", series, " connector ",
pin_count, " way", right_angle ? " right_angle" :""));
pitch = hdr_pitch(type);
size = hdr_box_size(type) + [(pin_count - 1) * pitch, 0, 0];
pinOffsetX = hdr_box_size(type).x / 2; // Offset from last pin to box edge
@@ -255,6 +257,7 @@ module jst_xh_header(type, pin_count, right_angle = false, colour = false, pin_c
ra_z = ra_h - size.y / 2;
ra_extra = ra_h - size.y; // thicker base for right angle version
pinWidth = hdr_pin_width(type);
pin_colour = pin_colour ? pin_colour : hdr_pin_colour(type);
module jst_xh_socket(type, pin_count, ra = false) {
module wall() {
@@ -308,7 +311,7 @@ module jst_xh_header(type, pin_count, right_angle = false, colour = false, pin_c
}
} // end module
color(colour)
color(colour ? colour : hdr_base_colour(type))
if(right_angle)
translate([0, -ra_box_offset, ra_z])
rotate([-90, 0, 180])

6
vitamins/pin_headers.scad
View File

@@ -27,9 +27,9 @@
2p54header = ["2p54header", 2.54, 11.6, 3.2, 0.66, gold, grey(20), 8.5, [0, 0, 8.7], 2.4, 0, 0, 0 ];
2p54joiner = ["2p54joiner", 2.54, 6.86, 2.5, 0.66, gold, grey(20), 8.5, [0, 0, 8.7], 2.4, 0, 0, 0 ]; // Cropped pins for joining PCBs
jst_xh_header = ["jst_xh_header",2.5, 10, 3.4, 0.64, gold, grey(90), 0, [4.9, 5.75, 7], 0.8, 0.525, 0.6, 6.1];
jst_ph_header = ["jst_ph_header",2.0, 9, 3.4, 0.64, silver, grey(90), 0, [3.9, 4.5, 6], 0.6, 0.55, 0.25, 4.8];
jst_zh_header = ["jst_zh_header",1.5, 7.4, 3.4, 0.5 , silver, grey(90), 0, [3.0, 3.5,4.5], 0.5, 0.45, 0.25, 3.7];
jst_xh_header = ["jst_xh_header",2.5, 10, 3.4, 0.64, gold, "white", 0, [4.9, 5.75, 7], 0.8, 0.525, 0.6, 6.1];
jst_ph_header = ["jst_ph_header",2.0, 9, 3.4, 0.64, silver, "white", 0, [3.9, 4.5, 6], 0.6, 0.55, 0.25, 4.8];
jst_zh_header = ["jst_zh_header",1.5, 7.4, 3.4, 0.5 , silver, "white", 0, [3.0, 3.5,4.5], 0.5, 0.45, 0.25, 3.7];
pin_headers = [ 2p54header ];

137
vitamins/radial.scad Normal file
View File

@@ -0,0 +1,137 @@
//
// NopSCADlib Copyright Chris Palmer 2023
// nop.head@gmail.com
// hydraraptor.blogspot.com
//
// This file is part of NopSCADlib.
//
// NopSCADlib is free software: you can redistribute it and/or modify it under the terms of the
// GNU General Public License as published by the Free Software Foundation, either version 3 of
// the License, or (at your option) any later version.
//
// NopSCADlib is distributed in the hope that it will be useful, but WITHOUT ANY WARRANTY;
// without even the implied warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.
// See the GNU General Public License for more details.
//
// You should have received a copy of the GNU General Public License along with NopSCADlib.
// If not, see <https://www.gnu.org/licenses/>.
//
//
//! Radial components for PCBs.
//
include <../utils/core/core.scad>
include <../utils/sweep.scad>
include <../utils/rounded_polygon.scad>
include <../utils/rounded_cylinder.scad>
function rd_xtal_size(type) = type[1]; //! Crystal length, width and height and optional corner radius
function rd_xtal_flange(type) = type[2]; //! Crystal flange width and thickness
function rd_xtal_pitch(type) = type[3]; //! Crystal lead pitch
function rd_xtal_lead_d(type) = type[4]; //! Crystal lead diameter
module cylindrical_wrap(r, h = eps) { //! Wrap a 2D child extruded to height `h` around a cylinder with radius `r`.
sides = r2sides(r);
dx = 2 * r * tan(180 / sides);
for(i = [0 : sides - 1])
rotate((i - 0.5) * 360 / sides)
translate([0, r])
rotate([-90, 0, 0])
linear_extrude(h, center = true)
intersection() {
translate([(sides / 2 - i) * -dx, 0])
children();
square([dx, inf], center = true);
}
}
module lead_positions(p, z) {
if(is_list(p))
for($x = [-1, 1], $y = [-1, 1])
translate([$x * p.x / 2, $y * p.y / 2, z])
children();
else
for($x = [-1, 1])
translate([$x * p / 2, 0, z])
children();
}
module radial_leads(ap, p, z, d, tail)
color(silver) {
assert(p == ap || z > 3 * d, "Must be space to bend the wires");
zl = tail + (p == ap ? z : 0);
let($fn = 16) {
lead_positions(p, -tail)
rotate(90)
cylinder(d = d, h = zl);
if(p != ap) {
assert(!is_list(p), "Bending four leads not supported yet");
sd = d * sign(p - ap);
path = [[0, z, 0], [0 + sd, z - d / 2, -sd], [p / 2 - ap / 2 - sd, d / 2, sd], [p / 2 - ap / 2, 0, 0]];
rpath = let($fn = 32) rounded_polygon(path);
lead_positions(ap, 0)
rotate([90, 0, 90 * -$x + 90])
sweep([for(p = rpath) [p.x, p.y, 0]], circle_points(d / 2));
}
}
}
module rd_xtal(type, value, z = 0, pitch = undef, tail = 3) { //! Draw a crystal
vitamin(str("rd_xtal(", type[0], ", \"", value, "\"): Crystal ", type[0], " ", value));
s = rd_xtal_size(type);
r = len(s) < 4 ? s.y / 2 - eps : s[3];
f = rd_xtal_flange(type);
cp = rd_xtal_pitch(type);
p = is_undef(pitch) ? cp : pitch;
d = rd_xtal_lead_d(type);
r2 = 0.2;
color(silver) {
translate_z(z) {
if(s.y) {
$fn = 32;
rounded_rectangle([s.x, s.y, s.z - r2], r);
translate_z(s.z - r2)
rounded_top_rectangle([s.x, s.y, r2], r, r2);
}
else
let($fn = 32)
rounded_cylinder(r = s.x / 2, h = s.z, r2 = r2);
if(f) {
rounded_rectangle([s.x + 2 * f.x, s.y + 2 * f.x, f[1]], r + f.x);
if(is_list(cp))
translate([-s.x / 2 - f.x, -s.y / 2 - f.x])
cube([r + f.x, r + f.x, f[1]]); // Pin 1 marked by sharp corner on 4 pin packages
}
}
radial_leads(cp, p, z, d, tail);
}
color(grey(10)) {
if(!is_undef(value))
if(s.y)
translate_z(z + s.z)
linear_extrude(eps)
resize([s.x * 0.75, s.y / 2])
text(value, halign = "center", valign = "center");
else
translate_z(z + s.z / 2)
let($fn = 32)
cylindrical_wrap(s.x / 2)
rotate(-90)
resize([s.z * 0.9, s.x * PI / 4])
text(value, halign = "center", valign = "center");
if(s.y)
lead_positions(cp, z)
cylinder(d = d * 4, h = 2 * eps, center = true);
else
translate_z(z)
cylinder(d = (s.x + cp) / 2, h = 2 * eps, center = true);
}
}

33
vitamins/radials.scad Normal file
View File

@@ -0,0 +1,33 @@
//
// NopSCADlib Copyright Chris Palmer 2023
// nop.head@gmail.com
// hydraraptor.blogspot.com
//
// This file is part of NopSCADlib.
//
// NopSCADlib is free software: you can redistribute it and/or modify it under the terms of the
// GNU General Public License as published by the Free Software Foundation, either version 3 of
// the License, or (at your option) any later version.
//
// NopSCADlib is distributed in the hope that it will be useful, but WITHOUT ANY WARRANTY;
// without even the implied warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.
// See the GNU General Public License for more details.
//
// You should have received a copy of the GNU General Public License along with NopSCADlib.
// If not, see <https://www.gnu.org/licenses/>.
//
//
//! Radial components for PCBs.
//
// Crystals
HC49 = ["HC49", [10.5, 3.7, 13.5], [0.475, 0.6], 4.88, 0.45];
HC49_4H = ["HC49_4H", [10.5, 3.7, 3.5], [0.475, 0.6], 4.88, 0.43];
C_002RX = ["C_002RX", [ 2.0, 0, 6], false, 0.7, 0.2];
ACT1700 = ["ACT1700", [10.8, 10.8, 5.3, 1], [1, 0.6], [ inch(0.3), inch(0.3)], 0.45 ];
ACT1100 = ["ACT1100", [20.4, 10.8, 5.3, 1], [1, 0.6], [ inch(0.6), inch(0.3)], 0.45 ];
rd_xtals = [C_002RX, HC49_4H, ACT1700, ACT1100, HC49];
use <radial.scad>

54
vitamins/screw.scad
View File

@@ -41,6 +41,7 @@ function screw_washer(type) = type[9]; //! Default washer
function screw_nut(type) = type[10]; //! Default nut
function screw_pilot_hole(type) = type[11]; //! Pilot hole radius for wood screws, tap radius for machine screws
function screw_clearance_radius(type) = type[12]; //! Clearance hole radius
function screw_thread_diameter(type) = type[13]; //! Thread diameter, if different from nominal diamter
function screw_nut_radius(type) = screw_nut(type) ? nut_radius(screw_nut(type)) : 0; //! Radius of matching nut
function screw_boss_diameter(type) = max(washer_diameter(screw_washer(type)) + 1, 2 * (screw_nut_radius(type) + 3 * extrusion_width)); //! Boss big enough for nut trap and washer
function screw_head_depth(type, d = 0) = //! How far a counter sink head will go into a straight hole diameter d
@@ -68,7 +69,7 @@ function screw_shorter_than(x) = x >= 20 ? floor(x / 5) * 5 : //! Returns the le
function screw_length(screw, thickness, washers, insert = false, nyloc = false, nut = false, longer = false) = //! Returns the length of the longest or shortest screw that will got through `thickness` and `washers` and possibly an `insert`, `nut` or `nyloc`
let(washer = washers ? washers * washer_thickness(screw_washer(screw)) : 0,
insert = insert ? insert_length(screw_insert(screw)) : 0,
insert = insert ? insert_length(is_list(insert) ? insert : screw_insert(screw)) : 0,
nut = nut || nyloc ? nut_thickness(screw_nut(screw), nyloc) : 0,
total = thickness + washer + insert + nut
)
@@ -76,57 +77,61 @@ function screw_length(screw, thickness, washers, insert = false, nyloc = false,
function screw_smaller_than(d) = d >= 2.5 && d < 3 ? 2.5 : floor(d); // Largest diameter screw less than or equal to specified diameter
function screw_insert(screw, i = 0) = let(d = screw_radius(screw) * 2)
i >= len(inserts) ? undef
: insert_screw_diameter(inserts[i]) == d ? inserts[i]
: screw_insert(screw, i + 1);
function screw_insert(screw, short = false, i = 0) = //! Find insert to fit specified screw, defaults to longest but can specify the shortest
let(d = screw_radius(screw) * 2, list = short ? short_inserts : inserts)
i >= len(list) ? undef
: insert_screw_diameter(list[i]) == d ? list[i]
: screw_insert(screw, short, i + 1);
module screw(type, length, hob_point = 0, nylon = false) { //! Draw specified screw, optionally hobbed or nylon
description = str("Screw ", nylon ? "Nylon " : "", type[1], length < 10 ? " x " : " x ", length, "mm", hob_point ? str(", hobbed at ", hob_point) : "");
vitamin(str("screw(", type[0], "_screw, ", length, arg(hob_point, 0, "hob_point"), arg(nylon, false, "nylon"), "): ", description));
head_type = screw_head_type(type);
rad = screw_radius(type) - eps;
shaft_rad = screw_radius(type) - eps;
head_rad = screw_head_radius(type);
head_height = screw_head_height(type);
socket_af = screw_socket_af(type);
socket_depth= screw_socket_depth(type);
socket_rad = socket_af / cos(30) / 2;
max_thread = screw_max_thread(type);
has_shoulder = !is_undef(screw_thread_diameter(type));
thread_rad = has_shoulder ? screw_thread_diameter(type) / 2 : screw_radius(type);
thread = max_thread ? length >= max_thread + 5 ? max_thread
: length
: length;
d = 2 * screw_radius(type);
pitch = metric_coarse_pitch(d);
thread_offset = has_shoulder ? thread : 0;
thread_d = 2 * thread_rad;
pitch = metric_coarse_pitch(thread_d);
colour = nylon || head_type == hs_grub ? grey(40) : grey(80);
module shaft(socket = 0, headless = false) {
point = screw_nut(type) ? 0 : 3 * rad;
shank = length - thread - socket;
point = screw_nut(type) ? 0 : 3 * shaft_rad;
shank = length - socket - (has_shoulder ? 0 : thread);
if(show_threads && !point && pitch)
translate_z(-length)
male_metric_thread(d, pitch, thread - (shank > 0 || headless ? 0 : socket), false, top = headless ? -1 : 0, solid = !headless, colour = colour);
translate_z(-length - thread_offset)
male_metric_thread(thread_d, pitch, thread - (shank > 0 || headless ? 0 : socket), false, top = headless ? -1 : 0, solid = !headless, colour = colour);
else
color(colour * 0.9)
rotate_extrude() {
translate([0, -length + point])
square([rad, length - socket - point]);
translate([0, -length + point - thread_offset])
square([thread_rad - eps, length - socket - point]);
if(point)
polygon([
[0.4, -length], [0, point - length], [rad, point - length]
[0.4, -length], [0, point - length], [shaft_rad, point - length]
]);
}
if(shank > 0)
color(colour)
translate_z(-shank - socket)
cylinder(r = rad + eps, h = shank);
cylinder(r = shaft_rad + eps, h = shank);
}
module cs_head(socket_rad, socket_depth) {
head_t = rad / 5;
head_t = shaft_rad / 5;
head_height = head_rad + head_t;
color(colour) {
@@ -172,7 +177,7 @@ module screw(type, length, hob_point = 0, nylon = false) { //! Draw specified sc
}
if(head_type == hs_grub) {
color(colour) {
r = show_threads ? rad - pitch / 2 : rad;
r = show_threads ? shaft_rad - pitch / 2 : shaft_rad;
translate_z(-socket_depth)
linear_extrude(socket_depth)
difference() {
@@ -327,6 +332,19 @@ module screw_polysink(type, h = 100, alt = false, sink = 0) { //! A countersink
}
}
module screw_keyhole(type, h = 0) { //! Make keyhole slot to accept and retain screw head
r = screw_head_radius(type);
extrude_if(h) {
translate([0, - 2 * r])
drill(r + 0.5, 0);
hull()
for(y = [0, -2 * r])
translate([0, y])
drill(screw_clearance_radius(type), 0);
}
}
module screw_and_washer(type, length, star = false, penny = false) { //! Screw with a washer which can be standard or penny and an optional star washer on top
washer = screw_washer(type);
head_type = screw_head_type(type);

4
vitamins/screws.scad
View File

@@ -103,6 +103,9 @@ M8_hex_screw = ["M8_hex", "M8 hex", hs_hex, 8, 15, 5.65, 0, 0
M3_low_cap_screw = ["M3_low_cap", "M3 low cap", hs_cap, 3, 5.5, 2, 1.5, 2.0, 18, M3_washer, M3_nut, M3_tap_radius, M3_clearance_radius];
M3_shoulder_screw= ["M3_shoulder", "M3 shoulder",hs_cap, 4, 7.0, 2.4, 1.5, 3.0, 6, M4_washer, M3_nut, M3_tap_radius, 2, 3];
M4_shoulder_screw= ["M4_shoulder", "M4 shoulder",hs_cap, 5, 9.0, 2.4, 1.5, 3.0, 8, M5_washer, M4_nut, M4_tap_radius, 2.5, 4];
M3_grub_screw = ["M3_grub", "M3 grub", hs_grub, 3, 0, 0, 2.5, 1.5, 0, M3_washer, M3_nut, M3_tap_radius, M3_clearance_radius];
M4_grub_screw = ["M4_grub", "M4 grub", hs_grub, 4, 0, 0, 2.4, 2.0, 0, M4_washer, M4_nut, M4_tap_radius, M4_clearance_radius];
M5_grub_screw = ["M5_grub", "M5 grub", hs_grub, 5, 0, 0, 2.4, 2.5, 0, M5_washer, M5_nut, M5_tap_radius, M5_clearance_radius];
@@ -117,6 +120,7 @@ No8_screw = ["No8", "No8 pan wood", hs_pan, 4.2, 8.2, 3.05, 0, 0
screw_lists = [
[ M2_cap_screw, M2p5_cap_screw, M3_cap_screw, M4_cap_screw, M5_cap_screw, M6_cap_screw, M8_cap_screw],
[ 0, 0, M3_low_cap_screw],
[ 0, 0, M3_shoulder_screw, M4_shoulder_screw],
[ M2_cs_cap_screw, 0, M3_cs_cap_screw, M4_cs_cap_screw, M5_cs_cap_screw, M6_cs_cap_screw, M8_cs_cap_screw],
[ M2_dome_screw, M2p5_dome_screw,M3_dome_screw, M4_dome_screw, M5_dome_screw],
[ 0, 0, M3_hex_screw, M4_hex_screw, M5_hex_screw, M6_hex_screw, M8_hex_screw],

7
vitamins/shaft_coupling.scad
View File

@@ -26,6 +26,7 @@ function sc_length(type) = type[1]; //! Coupling length
function sc_diameter(type) = type[2]; //! Coupling outer diameter
function sc_diameter1(type) = type[3]; //! Diameter of smaller shaft
function sc_diameter2(type) = type[4]; //! Diameter of larger shaft
function sc_flexible(type) = type[5]; //! Flexible coupling
module shaft_coupling(type, colour = "silver") { //! Draw the shaft coupling
vitamin(str("shaft_coupling(", type[0], "): Shaft coupling ", type[0]));
@@ -34,6 +35,7 @@ module shaft_coupling(type, colour = "silver") { //! Draw the shaft coupling
radius = sc_diameter(type) / 2;
r1 = sc_diameter1(type) / 2;
r2 = sc_diameter2(type) / 2;
flexible = is_undef(sc_flexible(type)) ? false : sc_flexible(type);
grub_length = 3;
module grub_screw_positions() {
@@ -54,6 +56,11 @@ module shaft_coupling(type, colour = "silver") { //! Draw the shaft coupling
tube(radius, r2, length / 2, false);
}
if (flexible) {
linear_extrude(length/3, center=true, convexity = 20, twist = -5 * 360)
translate([r1,0,0])
square(radius-r1,1);
}
grub_screw_positions()
rotate([180, 0, 0])
cylinder(r = screw_radius(M3_grub_screw), h = 5);

8
vitamins/shaft_couplings.scad
View File

@@ -21,9 +21,9 @@
//! Shaft couplings
//
// L D d1 d2
SC_5x8_rigid = [ "SC_5x8_rigid", 25, 12.5, 5, 8 ];
shaft_couplings = [SC_5x8_rigid];
// L D d1 d2 flex?
SC_5x8_rigid = [ "SC_5x8_rigid", 25, 12.5, 5, 8, false ];
SC_6x8_flex = [ "SC_6x8_flex", 25, 19, 6, 8, true ];
shaft_couplings = [SC_5x8_rigid, SC_6x8_flex];
use <shaft_coupling.scad>

4
vitamins/sheets.scad
View File

@@ -49,7 +49,7 @@ AL3 = [ "AL3", "Aluminium tooling plate", 3, [0.9, 0.9, 0.9, 1 ],
AL6 = [ "AL6", "Aluminium tooling plate", 6, [0.9, 0.9, 0.9, 1 ], false];
AL8 = [ "AL8", "Aluminium tooling plate", 8, [0.9, 0.9, 0.9, 1 ], false];
Steel06 = [ "Steel06", "Sheet mild steel", 0.6,"silver" , false];
Spring05 = [ "Spring05", "Bi-metal saw blade", 0.5,"#FBC300", false];
Spring08 = [ "Spring08", "Bi-metal saw blade", 0.8,"#FBC300", false];
Silicone3 = [ "Silicone3", "Sheet silicone", 3, [0.9, 0.9, 0.9, 0.95 ], false];
CF1 = [ "CF1", "Sheet carbon fiber", 1, grey(35), false, 2, 2, grey(20)];
CF2 = [ "CF2", "Sheet carbon fiber", 2, grey(35), false, 2, 2, grey(20)];
@@ -57,6 +57,6 @@ CF3 = [ "CF3", "Sheet carbon fiber", 3, grey(35),
sheets = [CF1, CF2, CF3, MDF6, MDF10, MDF12, MDF19, PMMA1p25, PMMA2, PMMA3, PMMA6, PMMA8, PMMA10,
glass2, DiBond, DiBond6, Cardboard, FoilTape, AL1_6, AL2, AL3, AL6, AL8, Steel06, Spring05, Silicone3, Foam20];
glass2, DiBond, DiBond6, Cardboard, FoilTape, AL1_6, AL2, AL3, AL6, AL8, Steel06, Spring08, Silicone3, Foam20];
use <sheet.scad>

350
vitamins/smd.scad
View File

@@ -19,11 +19,27 @@
//
//! Surface mount components for PCBs.
//!
//! Note that the value string for tantalum capacitors is the the capacitance in pico farads expressed as two digits plus an exponent plus a single letter voltage code.
//! E.g. 475A is 4.7uF 10V on the parts list.
//!
//! | Code | Voltage |
//! | ---- | ------- |
//! | e | 2.5 |
//! | G | 4 |
//! | J | 6.3 |
//! | A | 10 |
//! | C | 16 |
//! | D | 20 |
//! | E | 25 |
//! | V | 35 |
//! | H | 50 |
//
include <../utils/core/core.scad>
use <../utils/tube.scad>
use <../utils/sweep.scad>
use <../utils/sector.scad>
function smd_led_size(type) = type[1]; //! Body length, width and height
function smd_led_lens(type) = type[2]; //! Lens length width and height
@@ -228,3 +244,337 @@ module smd_soic(type, value) { //! Draw an SMD SOIC
text(value, halign = "center", valign = "center");
}
function smd_diode_size(type) = type[1]; //! Body length, width and height
function smd_diode_z(type) = type[2]; //! Height above PCB surface
function smd_diode_lead_z(type) = type[3]; //! Top of lead frame from top
function smd_diode_leads(type) = type[4]; //! Lead extent in x, width, thickness and gap
function smd_diode_colour(type) = type[5]; //! Body colour
module smd_diode(type, value) { //! Draw an SMD diode
vitamin(str("smd_diode(", type[0], "): ", type[0], " package ", value));
slant = 5; //! 5 degree body draft angle
size = smd_diode_size(type);
z0 = smd_diode_z(type);
z2 = z0 + size.z;
z1 = z2 - smd_diode_lead_z(type);
stripe = size.x / 5;
leads = smd_diode_leads(type);
gap = leads[3];
gap2 = gap - leads.z * 2;
color(smd_diode_colour(type))
difference() {
hull()
for(z = [z0, z1, z2], inset = abs(z - z1) * tan(slant))
translate_z(z)
cube([size.x - 2 * inset, size.y - 2 * inset, eps], center = true);
for(side = [-1, 1])
translate([side * (size.x / 2 - (size.x - gap2) / 4), 0, eps])
cube([(size.x - gap2) / 2, size.y, 3 * leads.z], center = true);
}
color("white")
translate([-stripe / 2, 0, z2])
linear_extrude(eps)
resize([0.9 * (size.x - stripe), size.y / 2])
text(value, halign = "center", valign = "center");
color(grey(90)) {
inset = (z2 - z1) * tan(slant);
translate([size.x / 2 - stripe, -size.y / 2 + inset, z2])
cube([stripe - inset, size.y - 2 * inset, eps]);
}
color(silver)
translate_z(z1 / 2)
rotate([90, 0, 0])
linear_extrude(leads.y, center = true, convexity = 3) let($fn = 32)
difference() {
rounded_square([leads.x, z1], 2 * leads.z);
rounded_square([leads.x - 2 * leads.z, z1 - 2 * leads.z], leads.z);
translate([0, - z1 / 2])
square([gap, leads.z * 2 + eps], center = true);
}
}
function smd_tant_size(type) = type[1]; //! Body length, width and height
function smd_tant_z(type) = type[2]; //! Height above PCB surface
function smd_tant_lead_z(type) = type[3]; //! Top of lead frame from top
function smd_tant_leads(type) = type[4]; //! Lead extent in x, width, thickness and gap
function smd_tant_colours(type)= type[5]; //! Colours of body and stripe
module smd_tant(type, value) { //! Draw an SMD tantalum capacitor
function dig(c) = let(x = ord(c) - ord("0")) assert(x >= 0 && x <= 9, "expected value in the form 475A for 4.7uF 10V") x;
uF = is_undef(value) ? "" : str(" ,", (dig(value[0]) * 10 + dig(value[1])) * 10 ^ dig(value[2]) / 10^6, "uF");
codes = "eGJACDEVH";
voltages = [2.5, 4, 6.3, 10, 16, 20, 25, 35, 50];
volts = is_undef(value) ? "" : let(c = value[3])
assert(in(codes, c), str("expected the 4th character of value to be a voltage code: ", codes, ", got ", c))
str(", ", voltages[search(c, codes)[0]], "V");
vitamin(str("smd_tant(", type[0], "): SMD Tantalum capacitor package ", type[0][len(type[0]) -1], uF, volts));
size = smd_tant_size(type);
slant = 5; //! 5 degree body draft angle
z0 = smd_tant_z(type);
z2 = z0 + size.z;
z1 = z2 - smd_tant_lead_z(type);
stripe = size.x / 5;
leads = smd_tant_leads(type);
gap = leads[3];
gap2 = gap - leads.z * 2;
colours = smd_tant_colours(type);
inset = (z2 - z1) * tan(slant);
color(colours[0])
difference() {
hull()
for(z = [z0, z1, z2], inset = abs(z - z1) * tan(slant))
translate_z(z)
cube([size.x - 2 * inset, size.y - 2 * inset, eps], center = true);
for(side = [-1, 1])
translate([side * (size.x / 2 - (size.x - gap2) / 4), 0, eps])
cube([(size.x - gap2) / 2, size.y, 3 * leads.z], center = true);
}
color("white") {
w = 0.9 * (size.x - stripe - inset);
translate([-size.x / 2 + inset + stripe + w / 2, 0, z2])
linear_extrude(eps)
resize([w, size.y / 2])
text(value, halign = "center", valign = "center");
}
color(colours[1]) {
translate([-size.x / 2 + stripe * 0.2, -size.y / 2 + inset, z2])
cube([(stripe - inset) * 0.8, size.y - 2 * inset, eps]);
}
color(silver)
translate_z(z1 / 2)
rotate([90, 0, 0])
linear_extrude(leads.y, center = true, convexity = 3) let($fn = 32)
difference() {
rounded_square([leads.x, z1], 2 * leads.z);
rounded_square([leads.x - 2 * leads.z, z1 - 2 * leads.z], leads.z);
translate([0, - z1 / 2])
square([gap, leads.z * 2 + eps], center = true);
}
}
function smd_inductor_size(type) = type[1]; //! Body length, width and height
function smd_inductor_z(type) = type[2]; //! Height above PCB surface
function smd_inductor_lead_z(type) = type[3]; //! Top of lead frame from top
function smd_inductor_leads(type) = type[4]; //! Lead extent in x, width, thickness and gap
function smd_inductor_colour(type) = type[5]; //! Body colour
module smd_inductor(type, value) { //! Draw an SMD inductor
vitamin(str("smd_inductor(", type[0], "): ", type[0], " package ", value));
size = smd_inductor_size(type);
z0 = smd_inductor_z(type);
z1 = smd_inductor_lead_z(type);
z2 = z0 + size.z;
leads = smd_inductor_leads(type);
gap = leads[3];
gap2 = gap - leads.z * 2;
color(smd_inductor_colour(type))
difference() {
translate_z(z0)
rounded_rectangle(size, 0.5);
for(side = [-1, 1])
translate([side * (size.x / 2 - (size.x - gap2) / 4), 0, eps])
cube([(size.x - gap2) / 2, leads.y + 2 * leads.z, 3 * leads.z], center = true);
}
color("white")
translate_z(z2)
linear_extrude(eps)
resize([0.9 * size.x, size.y / 2])
text(value, halign = "center", valign = "center");
color(silver)
translate_z(z1 / 2)
rotate([90, 0, 0])
linear_extrude(leads.y, center = true, convexity = 3) let($fn = 32)
difference() {
rounded_square([leads.x, z1], 2 * leads.z);
rounded_square([leads.x - 2 * leads.z, z1 - 2 * leads.z], leads.z);
translate([0, - z1 / 2])
square([gap, leads.z * 2 + eps], center = true);
}
}
function smd_pot_size(type) = type[1]; //! Base length, width and height
function smd_pot_contacts(type) = type[2]; //! Contacts width, depth, pitch and width, depth, gap for center contact
function smd_pot_wiper(type) = type[3]; //! Wiper diameter, offset, thickness, height, d1, d2, d3, d4
function smd_pot_cross(type) = type[4]; //! Cross head slot for screwdriver
function smd_pot_flat(type) = type[5]; //! Flat at the back of the wiper
module smd_pot(type, value) { //! Draw an SMD pot
vitamin(str("smd_pot(", type[0], "): ", type[0], " package ", value));
size = smd_pot_size(type);
contacts = smd_pot_contacts(type);
contacts_pitch = contacts[2];
centre_contact_w = contacts[3];
centre_contact_d = contacts[4];
centre_contact_gap = contacts[5];
wiper = smd_pot_wiper(type);
wiper_r1 = wiper.x / 2; // outer radius
wiper_y = wiper.y;
wiper_t = wiper.z;
wiper_h = wiper[3];
wiper_r2 = wiper[4] / 2; // inner radius at the top
wiper_r3 = wiper[5] / 2; // inner radius at the bottom
wiper_r4 = wiper[6] / 2; // outer radius of rivet
wiper_r5 = wiper[7] / 2; // inner radius of rivet
cross = smd_pot_cross(type);
flat = smd_pot_flat(type);
track_or = size.x * 0.48;
track_ir = track_or * 0.6;
color(grey(90))
translate_z(size.z / 2)
cube(size, center = true);
color(silver) {
for(side = [-1, 1])
translate([side * contacts_pitch, -size.y / 2 + contacts.y / 2, size.z / 2])
cube([contacts.x, contacts.y, size.z] + 2 * eps * [1,1,1], center = true);
translate([0, size.y / 2 - centre_contact_d / 2, size.z / 2])
render() difference() {
cube([centre_contact_w, centre_contact_d + 2 * eps, size.z + 2 * eps], center = true);
translate_z(size.z / 2)
cube([centre_contact_gap, centre_contact_d + 4 * eps, 2 * eps], center = true);
}
slope_angle = atan((wiper_h - size.z - wiper_t) / (wiper_r2 - wiper_r3));
dx = wiper_t / tan(90 - slope_angle / 2);
translate([0, wiper_y]) {
render() difference() {
rotate_extrude() {
polygon([
[wiper_r5, size.z + wiper_t],
[wiper_r3, size.z + wiper_t],
[wiper_r2, wiper_h],
[wiper_r1, wiper_h],
[wiper_r1, wiper_h - wiper_t],
[wiper_r2 + dx, wiper_h - wiper_t],
[wiper_r3 + dx, size.z],
[wiper_r5, size.z],
]);
r = (wiper_r4 - wiper_r5) / 2;
translate([wiper_r5 + r, size.z + wiper_t])
circle(r, $fn = 16);
}
translate_z(size.z + wiper_t)
linear_extrude(wiper_h - size.z - wiper_t)
difference() {
union() {
square(cross, center = true);
rotate(90)
square(cross, center = true);
}
circle(wiper_r4 + eps);
}
}
translate([0, -(wiper_r1 + cross.x / 2) / 2, wiper_h - wiper_t / 2])
cube([flat, wiper_r1 - cross.x / 2, wiper_t], center = true);
}
}
color("black")
translate([0, wiper.y, size.z])
linear_extrude(eps) {
difference() {
sector(track_or, -270 / 2 + 90, 270 / 2 + 90);
circle(track_ir);
}
track_w = track_or - track_ir;
track_l = wiper.y - track_ir / sqrt(2) + size.y / 2 - contacts.y;
for(side = [-1, 1])
translate([side * (track_ir / sqrt(2) + track_w / 2), -wiper.y -size.y / 2 + track_l / 2 + contacts.y])
square([track_w, track_l], center = true);
}
}
function smd_coax_base_size(type) = type[1]; //! Size of the insulating base
function smd_coax_base_r(type) = type[2]; //! Corner radius of the base
function smd_coax_tube(type) = type[3]; //! OD, ID, height
function smd_coax_groove(type) = type[4]; //! Groove id, width and z
function smd_coax_pin_d(type) = type[5]; //! Central pin diameter
function smd_coax_lug_size(type) = type[6]; //! lug size
function smd_contact_size(type) = type[7]; //! contact size
module smd_coax(type) { //! Draw an SMD coaxial connector
vitamin(str("smd_coax(", type[0], "): SMD coax connector type: ", type[0]));
size = smd_coax_base_size(type);
t = smd_coax_tube(type);
g = smd_coax_groove(type);
chamfer = (t.x - g.x) / 2;
pin_r = smd_coax_pin_d(type) / 2;
lug = smd_coax_lug_size(type);
contact = smd_contact_size(type);
$fn = 64;
color(grey(90))
translate_z(eps)
rounded_rectangle(size, smd_coax_base_r(type));
color(gold) {
rotate_extrude() {
polygon([
[t.y / 2, 0.1],
[t.y / 2, t.z],
[g.x / 2, t.z],
[t.x / 2, t.z - chamfer],
[t.x / 2, g.z + g.y / 2 + chamfer],
[g.x / 2, g.z + g.y / 2],
[g.x / 2, g.z - g.y / 2],
[t.x / 2, g.z - g.y / 2 - chamfer],
[t.x / 2, 0.1],
]);
}
hull() {
translate_z(t.z - pin_r)
sphere(pin_r);
translate_z(0.1)
cylinder(r = pin_r, h = eps);
}
for(side = [-1, 1])
translate([side * size.x / 2, 0, lug.z / 2])
cube(lug, center = true);
rotate(180)
translate([-contact.x / 2, 0])
cube([contact.x, contact.y / 2, contact.z]);
cylinder(r = pin_r * 9 / 5, h = 0.1);
tube_wall = (t.x - t.y) / 2;
translate([-contact.x / 2, 0, (size.z - tube_wall) / 2])
cube([contact.x, contact.y / 2, tube_wall]);
}
}

40
vitamins/smds.scad
View File

@@ -27,27 +27,55 @@ LED1206 = ["LED1206", [3.2, 1.6, 0.5], [2.0, 1.6, .6]];
smd_leds = [LED0603, LED0805, LED1206];
RES0402 = ["RES0402", [1.0, 0.5, 0.35], 0.2, 1/16];
RES0502 = ["RES0502", [1.3, 0.6, 0.38], 0.2, 1/20];
RES0603 = ["RES0603", [1.6, 0.8, 0.45], 0.3, 1/10];
RES0805 = ["RES0805", [2.0, 1.2, 0.45], 0.4, 1/8];
RES1206 = ["RES1206", [3.1, 1.6, 0.6], 0.5, 1/4];
smd_resistors = [RES0603, RES0805, RES1206];
smd_resistors = [RES0402, RES0502, RES0603, RES0805, RES1206];
CAP0402 = ["CAP0402", [1.0, 0.5], 0.2];
CAP0502 = ["CAP0502", [1.3, 0.6], 0.2];
CAP0603 = ["CAP0603", [1.6, 0.8], 0.3];
CAP0805 = ["CAP0805", [2.0, 1.2], 0.4];
CAP1206 = ["CAP1206", [3.1, 1.6], 0.5];
smd_capacitors = [CAP0603, CAP0805, CAP1206];
smd_capacitors = [CAP0402, CAP0502, CAP0603, CAP0805, CAP1206];
SOT23 = ["SOT23", [3, 1.4, 1.0], 0.05, 0.66, 1.9, 2.6, [0.4, 0.45, 0.15], 0.4];
SOT223 = ["SOT223", [6.5, 3.5, 1.6], 0.05, 0.89, 2.3, 7.0, [0.7, 0.95, 0.25], 3];
smd_sots = [SOT23, SOT223];
SOIC8 = ["SOIC8", [4.90, 3.90, 1.25], 0.10, 0.66, 1.27, 6.00, [0.31, .50, 0.20]];
SOIC16 = ["SOIC16", [9.90, 3.90, 1.25], 0.10, 0.66, 1.27, 6.00, [0.31, .50, 0.20]];
SOIC18 = ["SOIC18", [11.40, 7.50, 2.00], 0.10, 1.20, 1.27, 10.30, [0.31, .50, 0.20]];
SOIC8 = ["SOIC8", [4.90, 3.90, 1.25], 0.10, 0.66, 1.27, 6.00, [0.31, .50, 0.20]];
SOIC14 = ["SOIC14", [8.70, 3.90, 1.25], 0.10, 0.66, 1.27, 6.00, [0.31, .50, 0.20]];
SOIC16 = ["SOIC16", [9.90, 3.90, 1.25], 0.10, 0.66, 1.27, 6.00, [0.31, .50, 0.20]];
SOIC18 = ["SOIC18", [11.40,7.50, 2.00], 0.10, 1.20, 1.27, 10.30, [0.31, .50, 0.20]];
smd_soics = [SOIC8, SOIC16, SOIC18];
smd_soics = [SOIC8, SOIC14, SOIC16, SOIC18];
DO214AC = ["DO214AC", [4.0, 2.5, 2.0], 0.1, 1, [4.8, 1.2, 0.15, 2], grey(20)];
smd_diodes = [DO214AC];
TANT_A = ["TANT_A", [3.0, 1.6, 1.6], 0.1, 0.8, [3.2, 1.2, 0.08, 1.1], ["#E9D769", "#E9B44A"]];
TANT_B = ["TANT_B", [3.3, 2.8, 1.9], 0.1, 0.95, [3.5, 2.2, 0.08, 1.4], ["#E9D769", "#E9B44A"]];
TANT_C = ["TANT_C", [5.8, 3.2, 2.6], 0.1, 1.3, [6.0, 2.2, 0.08, 2.9], ["#E9D769", "#E9B44A"]];
smd_tants = [TANT_A, TANT_B, TANT_C];
IND2525 = ["IND2525", [6.75, 6.75, 2], 0.1, 1.75, [7.24, 3.2, 0.15, 4.4], grey(50)];
smd_inductors = [IND2525];
TC33X1 = ["TC33X1", [3.0, 3.8, 0.5], [0.95, 0.9, 0.88, 1.5, 0.2, 0.75],[3.0, 0.1, 0.2, 1.2, 1.7, 1.2, 1, 0.5], [2.1, 0.5], 1.5];
smd_pots = [TC33X1];
U_FL_R_SMT_1 = ["U_FL_R_SMT_1", [2.6, 2.6, 0.35], 0.2, [2, 1.7, 1.25], [1.86, 0.09, 0.6], 0.5, [0.4, 1.8, 0.2], [0.6, 3.1, 0.2]];
smd_coaxs = [U_FL_R_SMT_1];
use <smd.scad>

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vitamins/stl/Molex_5023860470.stl Normal file
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36
vitamins/tubings.scad
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@@ -19,23 +19,25 @@
//
// Tubing and sleeving
// Description OD ID Colour
PVC64 = ["PVC64", "PVC aquarium tubing", 6, 4, [0.8, 0.8, 0.8, 0.75 ]];
PVC85 = ["PVC85", "PVC aquarium tubing", 8, 5, [0.8, 0.8, 0.8, 0.75 ]];
NEOP85 = ["NEOP85", "Neoprene tubing", 8, 5, [0.2,0.2,0.2]];
PTFE07 = ["PTFE07", "PTFE sleeving", 1.2, 0.71, [0.95, 0.95, 0.95, 0.9]];
PTFE20 = ["PTFE20", "PTFE sleeving", 2.6, 2, [0.95, 0.95, 0.95, 0.9]];
PTFE2_4 = ["PTFE2_4", "PTFE tubing", 4, 2, [0.95, 0.95, 0.95, 0.9]];
PTFE2_3 = ["PTFE2_3", "PTFE tubing", 3, 2, [0.95, 0.95, 0.95, 0.9]];
PTFE4_6 = ["PTFE4_6", "PTFE tubing", 6, 4, [0.95, 0.95, 0.95, 0.9]];
PF7 = ["PF7", "PTFE tubing", 46/10, 3.84, [0.95, 0.95, 0.95, 0.9]];
HSHRNK16 = ["HSHRNK16", "Heatshrink sleeving", 2.0, 1.6, "grey"];
HSHRNK24 = ["HSHRNK24", "Heatshrink sleeving", 2.8, 2.4, "grey"];
HSHRNK32 = ["HSHRNK32", "Heatshrink sleeving", 3.6, 3.2, "grey"];
HSHRNK64 = ["HSHRNK64", "Heatshrink sleeving", 6.8, 6.4, "grey"];
HSHRNK100 = ["HSHRNK100", "Heatshrink sleeving",10.4, 10.0, [0.2,0.2,0.2]];
CARBONFIBER10 = ["CBNFIB10", "Carbon fiber", 10.0, 8.0, [0.3,0.3,0.3]];
// Description OD ID Colour
PVC64 = ["PVC64", "PVC aquarium tubing", 6, 4, [0.8, 0.8, 0.8, 0.75 ]];
PVC85 = ["PVC85", "PVC aquarium tubing", 8, 5, [0.8, 0.8, 0.8, 0.75 ]];
NEOP85 = ["NEOP85", "Neoprene tubing", 8, 5, [0.2,0.2,0.2]];
PTFE07 = ["PTFE07", "PTFE sleeving", 1.2, 0.71, [0.95, 0.95, 0.95, 0.9]];
PTFE20 = ["PTFE20", "PTFE sleeving", 2.6, 2, [0.95, 0.95, 0.95, 0.9]];
PTFE2_4 = ["PTFE2_4", "PTFE tubing", 4, 2, [0.95, 0.95, 0.95, 0.9]];
PTFE2_3 = ["PTFE2_3", "PTFE tubing", 3, 2, [0.95, 0.95, 0.95, 0.9]];
PTFE4_6 = ["PTFE4_6", "PTFE tubing", 6, 4, [0.95, 0.95, 0.95, 0.9]];
PF7 = ["PF7", "PTFE tubing", 46/10, 3.84, [0.95, 0.95, 0.95, 0.9]];
HSHRNK16 = ["HSHRNK16", "Heatshrink sleeving", 2.0, 1.6, "grey"];
HSHRNK24 = ["HSHRNK24", "Heatshrink sleeving", 2.8, 2.4, "grey"];
HSHRNK32 = ["HSHRNK32", "Heatshrink sleeving", 3.6, 3.2, "grey"];
HSHRNK64 = ["HSHRNK64", "Heatshrink sleeving", 6.8, 6.4, "grey"];
HSHRNK100 = ["HSHRNK100", "Heatshrink sleeving", 10.4, 10.0, [0.2,0.2,0.2]];
STFE4_3p2_CLR = ["STFE4_3p2_CLR", "PTFE heatshrink sleeving", 3.7, 3.2, [0.95, 0.95, 0.95, 0.5]];
STFE4_6p4_CLR = ["STFE4_6p4_CLR", "PTFE heatshrink sleeving", 7.0, 6.4, [0.95, 0.95, 0.95, 0.5]];
CARBONFIBER10 = ["CBNFIB10", "Carbon fiber", 10.0, 8.0, [0.3,0.3,0.3]];
tubings = [PVC64, PVC85, NEOP85, PTFE07, PTFE20, PF7, PTFE2_3, PTFE2_4, PTFE4_6, HSHRNK16, HSHRNK24, HSHRNK64, HSHRNK100, CARBONFIBER10];
tubings = [PVC64, PVC85, NEOP85, PTFE07, PTFE20, PF7, PTFE2_3, PTFE2_4, PTFE4_6, HSHRNK16, HSHRNK24, HSHRNK64, HSHRNK100, STFE4_3p2_CLR, STFE4_6p4_CLR, CARBONFIBER10];
use <tubing.scad>

47
vitamins/veroboard.scad
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@@ -60,13 +60,14 @@ module solder_meniscus(type, ir = 0.3, r = undef) { //! Draw a solder meniscus
}
}
module vero_grid_pos(type, x, y) { //! Convert grid position to offset from the centre
holes = vero_holes(type);
strips = vero_strips(type);
translate([((x + holes) % holes) - holes / 2 + 0.5,
((y + strips) % strips) - strips / 2 + 0.5] * vero_pitch(type))
function vero_grid_pos(type, x, y) = //! Convert grid position to offset from the centre
let(holes = vero_holes(type), strips = vero_strips(type))
[((x + holes) % holes) - holes / 2 + 0.5,
((y + strips) % strips) - strips / 2 + 0.5] * vero_pitch(type);
module vero_grid_pos(type, x, y) //! Convert grid position to offset from the centre
translate(vero_grid_pos(type, x, y))
children();
}
module vero_mounting_hole_positions(type) //! Positions children at the mounting holes
for(p = vero_mounting_holes(type))
@@ -147,23 +148,25 @@ module vero_components(type, cutouts = false, angle = undef)
module vero_cutouts(type, angle = undef) //! Make cutouts to clear components
vero_components(type, true, angle);
module veroboard_assembly(type, height, thickness, flip = false, ngb = false) //! Draw the assembly with components and fasteners in place
module veroboard_assembly(type, ngb = false) //! Draw the assembly with components
pose_vflip(exploded = true)
assembly(vero_assembly(type), ngb = ngb) {
veroboard(type);
vero_components(type);
for(r = vero_joints(type))
for(x = r.x, y = r.y)
vero_grid_pos(type, x, y)
vflip()
solder_meniscus(type);
}
module veroboard_fasteners(type, height, thickness, flip = false) { //! Draw the fasteners in place
screw = vero_screw(type);
nut = screw_nut(screw);
screw_length = screw_length(screw, height + thickness + vero_thickness(type), 2, nyloc = true);
translate_z(height) {
veroboard(type);
vero_components(type);
for(r = vero_joints(type))
for(x = r.x, y = r.y)
vero_grid_pos(type, x, y)
vflip()
solder_meniscus(type);
}
vero_mounting_hole_positions(type) {
translate_z(height + vero_thickness(type))
if(flip)
@@ -181,3 +184,11 @@ assembly(vero_assembly(type), ngb = ngb) {
nut_and_washer(nut, true);
}
}
module veroboard_fastened_assembly(type, height, thickness, flip = false, ngb = false) { //! Draw the assembly with components and fasteners in place
translate_z(height)
veroboard_assembly(type, ngb = ngb);
veroboard_fasteners(type, height, thickness, flip);
}

8
vitamins/wire.scad
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@@ -25,8 +25,12 @@ use <../utils/sweep.scad>
use <../utils/maths.scad>
include <zipties.scad>
module wire(colour, strands, length, strand = 0.2) //! Add stranded wire to the BOM
vitamin(str(": Wire ", colour, " ", strands, "/", strand, "mm strands, length ",length, "mm"));
module wire(colour, strands, length, strand = 0.2, d = 0, path = []) { //! Add stranded wire to the BOM and draw it if diameter and path specified
vitamin(str(": Wire ", colour, " ", strands, "/", strand, "mm strands, length ", ceil(length + path_length(path)), "mm"));
if(path && d)
color(colour) sweep(path, circle_points(r = d / 2));
}
module ribbon_cable(ways, length) //! Add ribbon cable to the BOM
vitamin(str(": Ribbon cable ", ways, " way ", length, "mm"));