.. image:: docs/imgs/logo.png :alt: bolt-in-nut logo threadlib is a library of standard threads for `OpenSCAD `__. It is based on Helges excellent `threadprofile.scad `__ to create nice threads with lead-in / lead-out tapers. Check out his `article on generating nice threads `__ on Hackaday. In contrast to other thread libraries such as `openscad-threads `__, `yet another thread library `__, `threads for screws and nuts V1 `__, and `threading.scad `__, threadlib does not make you look up diameters and pitches and maybe even thread-profiles in tables and norms: It has these tables built in. Creating a thread is as simple as .. code-block:: OpenSCAD use thread("G1/2-ext", turns=10); .. image:: docs/imgs/thread-G1o2-ext-10turns.png :alt: bolt-in-nut logo to create a British Standard Pipe parallel external thread. Why you may want to use threadlib ================================== - really easy to use - creates nice threads - configurable higbee arc - creates working threads (clearances are left for production tolerances) - flexible: - choose the $fn you need to fit the rest of your design - let threadlib tell you the thread specs so you can do with them what *you* want - extensible: Add your own threads - tried and tested in the real world: Um no, not yet. But with your help, it will soon be. Installation =========================== Prerequisits: - `scad-utils `__ - `list-comprehension `__ - `threadprofile.scad `__ Save all of these into your OpenSCAD `library folder `__ threadlib: Clone threadlib into the folder 'threadlib' inside your OpenSCAD library folder Usage =========================== To create a bolt (without head) with 5 turns of M4 thread: .. code-block:: OpenSCAD bolt("M4", turns=5, higbee_arc=30); .. image:: docs/imgs/bolt-M4.png :alt: Bolt with M4 thread See these nice lead-in / lead-out tapers? Try a nut (this time using the default argument for higbee_arc): .. code-block:: OpenSCAD nut("M12x0.5", turns=10, Douter=16); .. image:: docs/imgs/nut-M12x0.5.png :alt: M12x0.5 nut Note that for a nut you also have to specify an outer diameter. The inner diameter is implicitly given by the thread designator ("M12x0.5" in this case). If you only need the threads alone: .. code-block:: OpenSCAD thread("G1/2-ext", turns=5); .. image:: docs/imgs/thread-G1o2-ext.png :alt: G1/2 external thread Then, add the support you want. In the simplest case, a cylinder (which is what nut(...) uses): .. code-block:: OpenSCAD specs = thread_specs("G2 1/2-ext"); P = specs[0]; Rrot = specs[1]; Dsupport = specs[2]; section_profile = specs[3]; H = (5 + 1) * P; translate([0, 0, -P / 2]) cylinder(h=H, d=Dsupport, $fn=120); .. image:: docs/imgs/flexible.png :alt: G1/2 bolt Here, we have used the function thread_specs(...) to look up the threads specifications - including the recommended diameter of the support structure. List of supported threads =========================== Currently, threadlib knows these threads: - `Metric threads `__ (coarse, fine, and super-fine pitches) M0.25 to M600 - `BSP parallel thread `__ G1/16 to G6 - `PCO-1881 `__ (PET-bottle thread) Extensibility =========================== Don't find some of the threads you need for your project? Don't worry: You can add your own: .. code-block:: OpenSCAD use MY_THREAD_TABLE = [ ["special", [pitch, Rrot, Dsupport, [[r0, z0], [r1, z1], ..., [rn, zn]]]] ]; thread("special", turns=15, table=MY_THREAD_TABLE); Care to share? Safe others from repeating the valuable work you have already accomplished and get the fame you deserve: Send in your tried and tested threads for addition to threadlib! Change Log =========================== - 0.2: `Metric threads `__, `PCO-1881 `__ - 0.1: Initial release supporting `BSP parallel thread `__