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Synopses, etc docs added for screw_drive.scad, screws.scad, sliders.scad, threading.scad, tripod_mounts.scad, walls.scad
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6 changed files with 151 additions and 37 deletions
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@ -14,7 +14,11 @@ include <structs.scad>
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// Section: Phillips Drive
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// Module: phillips_mask()
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// Usage: phillips_mask(size) [ATTACHMENTS];
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// Synopsis: Creates a mask for a Philips screw drive.
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// Topics: Screws, Masks
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// See Also: hex_drive_mask(), philips_depth(), phillips_diam(), torx_mask(), robertson_mask()
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// Usage:
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// phillips_mask(size) [ATTACHMENTS];
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// Description:
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// Creates a mask for creating a Phillips drive recess given the Phillips size. Each mask can
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// be lowered to different depths to create different sizes of recess.
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@ -82,6 +86,9 @@ module phillips_mask(size="#2", $fn=36, anchor=BOTTOM, spin=0, orient=UP) {
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// Function: phillips_depth()
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// Synopsis: Returns the depth a phillips recess needs to be for a given diameter.
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// Topics: Screws, Masks
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// See Also: phillips_mask(), hex_drive_mask(), philips_depth(), phillips_diam(), torx_mask()
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// Usage:
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// depth = phillips_depth(size, d);
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// Description:
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@ -104,6 +111,9 @@ function phillips_depth(size, d) =
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// Function: phillips_diam()
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// Synopsis: Returns the diameter of a phillips recess of a given depth.
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// Topics: Screws, Masks
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// See Also: phillips_mask(), hex_drive_mask(), philips_depth(), phillips_diam(), torx_mask()
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// Usage:
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// diam = phillips_diam(size, depth);
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// Description:
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@ -128,6 +138,9 @@ function phillips_diam(size, depth) =
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// Section: Hex drive
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// Module hex_drive_mask()
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// Synopsis: Creates a mask for a hex drive recess.
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// Topics: Screws, Masks
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// See Also: phillips_mask(), hex_drive_mask(), torx_mask(), philips_depth(), phillips_diam(), robertson_mask()
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// Usage:
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// hex_drive_mask(size, length, [anchor], [spin], [orient], [$slop]) [ATTACHMENTS];
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// Description:
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@ -147,6 +160,9 @@ function hex_drive_mask(size,length,l,h,height,anchor,spin,orient) = no_function
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// Section: Torx Drive
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// Module: torx_mask()
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// Synopsis: Creates a mask for a torx drive recess.
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// Topics: Screws, Masks
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// See Also: phillips_mask(), hex_drive_mask(), torx_mask(), philips_depth(), phillips_diam(), robertson_mask()
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// Usage:
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// torx_mask(size, l, [center]) [ATTACHMENTS];
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// Description: Creates a torx bit tip.
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@ -174,6 +190,9 @@ module torx_mask(size, l=5, center, anchor, spin=0, orient=UP) {
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// Module: torx_mask2d()
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// Synopsis: Creates the 2D cross section for a torx drive recess.
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// Topics: Screws, Masks
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// See Also: phillips_mask(), hex_drive_mask(), torx_mask(), philips_depth(), phillips_diam(), torx_info(), robertson_mask()
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// Usage:
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// torx_mask2d(size);
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// Description: Creates a torx bit 2D profile.
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@ -215,6 +234,9 @@ module torx_mask2d(size) {
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// Function: torx_info()
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// Synopsis: Returns the dimensions of a torx drive.
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// Topics: Screws, Masks
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// See Also: phillips_mask(), hex_drive_mask(), torx_mask(), philips_depth(), phillips_diam(), torx_info()
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// Usage:
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// info = torx_info(size);
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// Description:
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@ -263,6 +285,9 @@ function torx_info(size) =
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// Function: torx_diam()
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// Synopsis: Returns the diameter of a torx drive.
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// Topics: Screws, Masks
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// See Also: phillips_mask(), hex_drive_mask(), torx_mask(), philips_depth(), phillips_diam(), torx_info()
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// Usage:
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// diam = torx_diam(size);
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// Description: Get the typical outer diameter of Torx profile.
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@ -272,6 +297,9 @@ function torx_diam(size) = torx_info(size)[0];
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// Function: torx_depth()
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// Synopsis: Returns the typical depth of a torx drive recess.
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// Topics: Screws, Masks
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// See Also: phillips_mask(), hex_drive_mask(), torx_mask(), philips_depth(), phillips_diam(), torx_info()
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// Usage:
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// depth = torx_depth(size);
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// Description: Gets typical drive hole depth.
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@ -284,6 +312,9 @@ function torx_depth(size) = torx_info(size)[2];
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// Section: Robertson/Square Drives
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// Module: robertson_mask()
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// Synopsis: Creates a mask for a Robertson/Square drive recess.
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// Topics: Screws, Masks
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// See Also: phillips_mask(), hex_drive_mask(), torx_mask(), philips_depth(), phillips_diam(), torx_info(), robertson_mask()
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// Usage:
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// robertson_mask(size, [extra], [ang], [$slop=]);
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// Description:
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63
screws.scad
63
screws.scad
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@ -188,26 +188,28 @@ Torx values: https://www.stanleyengineeredfastening.com/-/media/web/sef/resourc
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// Section: Making Screws
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// Module: screw()
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// Synopsis: Creates a standard screw with optional tolerances.
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// Topics: Threading, Screws
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// See Also: screw_hole(), shoulder_screw()
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// Usage:
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// screw([spec], [head], [drive], [thread=], [drive_size=], [length=|l=], [thread_len=], [undersize=], [shaft_undersize=], [head_undersize=], [tolerance=], [details=], [anchor=], [atype=], [orient=], [spin=]) [ATTACHMENTS];
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// Description:
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// Create a screw. See [screw and nut parameters](#section-screw-and-nut-parameters) for details on the parameters that define a screw.
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// The tolerance determines the dimensions of the screw
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// based on ISO and ASME standards. Screws fabricated at those dimensions will mate properly with standard hardware.
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// Note that the $slop argument does not affect the size of screws: it only adjusts screw holes. This will work fine
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// if you are printing both parts, but if you need to mate printed screws to metal parts you may need to adjust the size
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// of the screws, which you can do with the undersize arguments.
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// Create a screw. See [screw and nut parameters](#section-screw-and-nut-parameters) for details on
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// the parameters that define a screw. The tolerance determines the dimensions of the screw based
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// on ISO and ASME standards. Screws fabricated at those dimensions will mate properly with
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// standard hardware. Note that the $slop argument does not affect the size of screws: it only
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// adjusts screw holes. This will work fine if you are printing both parts, but if you need to mate
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// printed screws to metal parts you may need to adjust the size of the screws, which you can do
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// with the undersize arguments.
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// .
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// You can generate a screw specification from {{screw_info()}}, possibly create a modified version using {{struct_set()}}, and pass that in rather than giving the parameters.
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// You can generate a screw specification from {{screw_info()}}, possibly create a modified version
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// using {{struct_set()}}, and pass that in rather than giving the parameters.
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// .
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// Various anchor types refer to different parts of the screw, some
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// of which are labeled below. The "screw" anchor type (the
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// default) is simply the entire screw, so TOP and BOTTOM refer to
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// the head end and tip respectively, and CENTER is the midpoint of
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// the whole screw, including the head. The "head" anchor refers to
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// the head alone. Both of these anchor types refer to the bounding
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// cylinder for the specified screw part, except for hex heads,
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// which anchor to a hexagonal prism.
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// Various anchor types refer to different parts of the screw, some of which are labeled below. The
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// "screw" anchor type (the default) is simply the entire screw, so TOP and BOTTOM refer to the head
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// end and tip respectively, and CENTER is the midpoint of the whole screw, including the head. The
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// "head" anchor refers to the head alone. Both of these anchor types refer to the bounding
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// cylinder for the specified screw part, except for hex heads, which anchor to a hexagonal prism.
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// Figure(2D,Med,VPD = 140, VPT = [18.4209, 14.9821, -3.59741], VPR = [0, 0, 0],NoAxes):
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// rpos=33;
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// fsize=2.5;
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@ -706,6 +708,9 @@ module screw(spec, head, drive, thread, drive_size,
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// Module: screw_hole()
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// Synopsis: Creates a screw hole.
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// Topics: Threading, Screws
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// See Also: screw()
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// Usage:
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// screw_hole([spec], [head], [thread=], [length=|l=], [oversize=], [hole_oversize=], [teardrop=], [head_oversize], [tolerance=], [$slop=], [anchor=], [atype=], [orient=], [spin=]) [ATTACHMENTS];
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// Description:
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@ -951,6 +956,9 @@ module screw_hole(spec, head, thread, oversize, hole_oversize, head_oversize,
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}
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// Module: shoulder_screw()
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// Synopsis: Creates a shoulder screw.
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// Topics: Threading, Screws
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// See Also: screw(), screw_hole()
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// Usage:
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// shoulder_screw(s, d, length, [head=], [thread_len=], [tolerance=], [head_size=], [drive=], [drive_size=], [thread=], [undersize=], [shaft_undersize=], [head_undersize=], [shoulder_undersize=],[atype=],[anchor=],[orient=],[spin=]) [ATTACHMENTS];
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// Description:
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@ -1355,6 +1363,9 @@ function _parse_drive(drive=undef, drive_size=undef) =
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// Module: screw_head()
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// Synopsis: Creates a screw head.
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// Topics: Threading, Screws
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// See Also: screw(), screw_hole()
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// Usage:
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// screw_head(screw_info, [details],[counterbore],[flat_height],[teardrop],[internal])
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// Description:
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@ -1455,9 +1466,11 @@ module screw_head(screw_info,details=false, counterbore=0,flat_height,teardrop=f
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// Module: nut()
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// Synopsis: Creates a standard nut.
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// Topics: Threading, Screws
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// See Also: screw(), screw_hole()
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// Usage:
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// nut([spec], [shape], [thickness], [nutwidth], [thread=], [tolerance=], [hole_oversize=], [bevel=], [$slop=], [anchor=], [spin=], [orient=]) [ATTACHMENTS];
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// Description:
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// Generates a hexagonal or square nut. See [screw and nut parameters](#section-screw-and-nut-parameters) for details on the parameters that define a nut.
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// As with screws, you can give the specification in `spec` and then omit the name. The diameter is the flat-to-flat
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@ -1571,6 +1584,9 @@ module nut(spec, shape, thickness, nutwidth, thread, tolerance, hole_oversize,
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// Module: nut_trap_side()
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// Synopsis: Creates a side nut trap mask.
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// Topics: Threading, Screws
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// See Also: screw(), screw_hole()
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// Usage:
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// nut_trap_side(trap_width, [spec], [shape], [thickness], [nutwidth=], [poke_len=], [poke_diam=], [$slop=], [anchor=], [orient=], [spin=]) [ATTACHMENTS];
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// Description:
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@ -1658,6 +1674,9 @@ module nut_trap_side(trap_width, spec, shape, thickness, nutwidth, anchor=BOT, o
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}
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// Module: nut_trap_inline()
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// Synopsis: Creates an inline nut trap mask.
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// Topics: Threading, Screws
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// See Also: screw(), screw_hole()
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// Usage:
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// nut_trap_inline(length|l|heigth|h, [spec], [shape], [$slop=], [anchor=], [orient=], [spin=]) [ATTACHMENTS];
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// Description:
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@ -1726,6 +1745,9 @@ module nut_trap_inline(length, spec, shape, l, height, h, nutwidth, anchor, orie
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// Function: screw_info()
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// Synopsis: Returns the dimensions and other info for the given screw.
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// Topics: Threading, Screws
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// See Also: screw(), screw_hole()
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// Usage:
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// info = screw_info(name, [head], [drive], [thread=], [drive_size=], [oversize=], [head_oversize=])
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// Description:
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@ -1816,6 +1838,9 @@ function screw_info(name, head, drive, thread, drive_size, shaft_oversize, head_
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// Function: nut_info()
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// Synopsis: Returns the dimensions and other info for the given nut.
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// Topics: Threading, Screws
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// See Also: screw(), screw_hole()
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// Usage:
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// nut_spec = nut_info(name, [shape], [thickness=], [thread=], [width=], [hole_oversize=]);
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// Description:
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@ -2873,6 +2898,9 @@ function _validate_screw_spec(spec) =
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// Function: thread_specification()
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// Synopsis: Returns the thread geometry for a given screw.
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// Topics: Threading, Screws
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// See Also: screw(), screw_hole()
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// Usage:
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// thread_specification(screw_spec, [tolerance], [internal])
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// Description:
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@ -2961,6 +2989,3 @@ http://files.engineering.com/getfile.aspx?folder=76fb0d5e-1fff-4c49-87a5-0597947
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// vim: expandtab tabstop=4 shiftwidth=4 softtabstop=4 nowrap
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@ -13,6 +13,9 @@
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// Module: slider()
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// Synopsis: Creates a V-groove slider.
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// Topics: Parts, Sliders
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// See Also: rail()
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// Description:
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// Creates a slider to match a V-groove rail.
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// Usage:
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@ -63,6 +66,9 @@ module slider(l=30, w=10, h=10, base=10, wall=5, ang=30, anchor=BOTTOM, spin=0,
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// Module: rail()
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// Synopsis: Creates a V-groove rail.
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// Topics: Parts, Sliders
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// See Also: slider()
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// Description:
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// Creates a V-groove rail.
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// Usage:
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// Section: Standard (UTS/ISO) Threading
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// Module: threaded_rod()
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// Synopsis: Creates an ISO threaded rod.
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// Topics: Threading, Screws
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// See Also: threaded_nut()
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// Usage:
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// threaded_rod(d, l|length, pitch, [internal=], ...) [ATTACHMENTS];
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// Description:
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@ -129,6 +132,9 @@ module threaded_rod(
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// Module: threaded_nut()
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// Synopsis: Creates an ISO threaded nut.
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// Topics: Threading, Screws
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// See Also: threaded_rod()
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// Usage:
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// threaded_nut(nutwidth, id, h|height|thickness, pitch,...) [ATTACHMENTS];
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// Description:
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// Module: trapezoidal_threaded_rod()
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// Synopsis: Creates a trapezoidal threaded rod.
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// Topics: Threading, Screws
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// See Also: trapezoidal_threaded_nut()
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// Usage:
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// trapezoidal_threaded_rod(d, l|length, pitch, [thread_angle], [thread_depth], [internal=], ...) [ATTACHMENTS];
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// Description:
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// Module: trapezoidal_threaded_nut()
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// Synopsis: Creates a trapezoidal threaded nut.
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// Topics: Threading, Screws
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// See Also: trapezoidal_threaded_rod()
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// Usage:
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// trapezoidal_threaded_nut(nutwidth, id, h|height|thickness, pitch, [thread_angle], [thread_depth], ...) [ATTACHMENTS];
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// Description:
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// Constructs a hex nut or square nut for a symmetric trapzoidal threaded rod.
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// By default produces the nominal dimensions
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// for metric trapezoidal threads: a thread angle of 30 degrees and a depth set to half the pitch.
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// You can also specify your own trapezoid parameters. For ACME threads see acme_threaded_nut().
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// Constructs a hex nut or square nut for a symmetric trapzoidal threaded rod. By default produces
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// the nominal dimensions for metric trapezoidal threads: a thread angle of 30 degrees and a depth
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// set to half the pitch. You can also specify your own trapezoid parameters. For ACME threads see
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// acme_threaded_nut().
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// Arguments:
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// nutwidth = flat to flat width of nut
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// id = diameter of threaded rod to screw onto.
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// Module: acme_threaded_rod()
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// Synopsis: Creates an ACME threaded rod.
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// Topics: Threading, Screws
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// See Also: acme_threaded_nut()
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// Usage:
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// acme_threaded_rod(d, l|length, tpi|pitch=, [internal=], ...) [ATTACHMENTS];
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// Description:
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// Module: acme_threaded_nut()
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// Synopsis: Creates an ACME threaded nut.
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// Topics: Threading, Screws
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// See Also: acme_threaded_rod()
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// Usage:
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// acme_threaded_nut(nutwidth, id, h|height|thickness, tpi|pitch=, [shape=], ...) [ATTACHMENTS];
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// Description:
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// Section: Pipe Threading
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// Module: npt_threaded_rod()
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// Synopsis: Creates NPT pipe threading.
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// Topics: Threading, Screws
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// See Also: acme_threaded_rod()
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// Usage:
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// npt_threaded_rod(size, [internal=], ...) [ATTACHMENTS];
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// Description:
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// Section: Buttress Threading
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// Module: buttress_threaded_rod()
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// Synopsis: Creates a buttress-threaded rod.
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// Topics: Threading, Screws
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// See Also: buttress_threaded_nut()
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// Usage:
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// buttress_threaded_rod(d, l|length, pitch, [internal=], ...) [ATTACHMENTS];
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// Description:
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@ -778,6 +802,9 @@ module buttress_threaded_rod(
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// Module: buttress_threaded_nut()
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// Synopsis: Creates a buttress-threaded nut.
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// Topics: Threading, Screws
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// See Also: buttress_threaded_rod()
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// Usage:
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// buttress_threaded_nut(nutwidth, id, h|height|thickness, pitch, ...) [ATTACHMENTS];
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// Description:
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// Section: Square Threading
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// Module: square_threaded_rod()
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// Synopsis: Creates a square-threaded rod.
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// Topics: Threading, Screws
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// See Also: square_threaded_nut()
|
||||
// Usage:
|
||||
// square_threaded_rod(d, l|length, pitch, [internal=], ...) [ATTACHMENTS];
|
||||
// Description:
|
||||
// Constructs a square profile threaded screw rod. The greatest advantage of square threads is that they have the least friction and a much higher intrinsic efficiency than trapezoidal threads.
|
||||
// Constructs a square profile threaded screw rod. The greatest advantage of square threads is
|
||||
// that they have the least friction and a much higher intrinsic efficiency than trapezoidal threads.
|
||||
// They produce no radial load on the nut. However, square threads cannot carry as much load as trapezoidal threads.
|
||||
// Arguments:
|
||||
// d = Outer diameter of threaded rod.
|
||||
|
@ -926,6 +957,9 @@ module square_threaded_rod(
|
|||
|
||||
|
||||
// Module: square_threaded_nut()
|
||||
// Synopsis: Creates a square-threaded nut.
|
||||
// Topics: Threading, Screws
|
||||
// See Also: square_threaded_rod()
|
||||
// Usage:
|
||||
// square_threaded_nut(nutwidth, id, h|height|thickness, pitch, ...) [ATTACHMENTS];
|
||||
// Description:
|
||||
|
@ -997,6 +1031,8 @@ module square_threaded_nut(
|
|||
// Section: Ball Screws
|
||||
|
||||
// Module: ball_screw_rod()
|
||||
// Synopsis: Creates a ball screw rod.
|
||||
// Topics: Threading, Screws
|
||||
// Usage:
|
||||
// ball_screw_rod(d, l|length, pitch, [ball_diam], [ball_arc], [internal=], ...) [ATTACHMENTS];
|
||||
// Description:
|
||||
|
@ -1072,6 +1108,9 @@ module ball_screw_rod(
|
|||
// Section: Generic Threading
|
||||
|
||||
// Module: generic_threaded_rod()
|
||||
// Synopsis: Creates a generic threaded rod.
|
||||
// Topics: Threading, Screws
|
||||
// See Also: generic_threaded_nut()
|
||||
// Usage:
|
||||
// generic_threaded_rod(d, l|length, pitch, profile, [internal=], ...) [ATTACHMENTS];
|
||||
// Description:
|
||||
|
@ -1330,6 +1369,9 @@ module generic_threaded_rod(
|
|||
|
||||
|
||||
// Module: generic_threaded_nut()
|
||||
// Synopsis: Creates a generic threaded nut.
|
||||
// Topics: Threading, Screws
|
||||
// See Also: generic_threaded_rod()
|
||||
// Usage:
|
||||
// generic_threaded_nut(nutwidth, id, h|height|thickness, pitch, profile, [$slop], ...) [ATTACHMENTS];
|
||||
// Description:
|
||||
|
@ -1451,6 +1493,9 @@ module _nutshape(nutwidth, h, shape, bevel1, bevel2)
|
|||
|
||||
|
||||
// Module: thread_helix()
|
||||
// Synopsis: Creates a thread helix to add to a cylinder.
|
||||
// Topics: Threading, Screws
|
||||
// See Also: generic_threaded_rod()
|
||||
// Usage:
|
||||
// thread_helix(d, pitch, [thread_depth], [flank_angle], [turns], [profile=], [left_handed=], [higbee=], [internal=]);
|
||||
// Description:
|
||||
|
@ -1587,10 +1632,10 @@ module thread_helix(
|
|||
|
||||
|
||||
|
||||
// vim: expandtab tabstop=4 shiftwidth=4 softtabstop=4 nowrap
|
||||
|
||||
// Questions
|
||||
// Should nut modules take d1/d2 for tapered nuts?
|
||||
//
|
||||
// Need explanation of what exactly the diff is between threaded_rod and helix_threads.
|
||||
// Higbee is different, angle in one and length in another. Need to reconcile
|
||||
|
||||
// vim: expandtab tabstop=4 shiftwidth=4 softtabstop=4 nowrap
|
||||
|
|
|
@ -10,6 +10,8 @@
|
|||
|
||||
|
||||
// Module: manfrotto_rc2_plate()
|
||||
// Synopsis: Creates a Manfrotto RC2 tripod quick release mount plate.
|
||||
// Topics: Parts
|
||||
// Usage:
|
||||
// manfrotto_rc2_plate([chamfer],[anchor],[orient],[spin]) [ATTACHMENTS];
|
||||
// Description:
|
||||
|
|
25
walls.scad
25
walls.scad
|
@ -13,12 +13,13 @@
|
|||
|
||||
|
||||
// Module: sparse_wall()
|
||||
// Synopsis: Makes an open cross-braced rectangular wall.
|
||||
// Topics: FDM Optimized, Walls
|
||||
// See Also: sparse_wall(), corrugated_wall(), thinning_wall(), thinning_triangle(), narrowing_strut()
|
||||
//
|
||||
// Usage:
|
||||
// sparse_wall(h, l, thick, [maxang=], [strut=], [max_bridge=]) [ATTACHMENTS];
|
||||
//
|
||||
// Topics: FDM Optimized, Walls
|
||||
//
|
||||
// Description:
|
||||
// Makes an open rectangular strut with X-shaped cross-bracing, designed to reduce
|
||||
// the need for support material in 3D printing.
|
||||
|
@ -86,12 +87,13 @@ module sparse_wall(h=50, l=100, thick=4, maxang=30, strut=5, max_bridge=20, anch
|
|||
|
||||
|
||||
// Module: corrugated_wall()
|
||||
// Synopsis: Makes a corrugated rectangular wall.
|
||||
// Topics: FDM Optimized, Walls
|
||||
// See Also: sparse_wall(), corrugated_wall(), thinning_wall(), thinning_triangle(), narrowing_strut()
|
||||
//
|
||||
// Usage:
|
||||
// corrugated_wall(h, l, thick, [strut=], [wall=]) [ATTACHMENTS];
|
||||
//
|
||||
// Topics: FDM Optimized, Walls
|
||||
//
|
||||
// Description:
|
||||
// Makes a corrugated wall which relieves contraction stress while still
|
||||
// providing support strength. Designed with 3D printing in mind.
|
||||
|
@ -144,12 +146,13 @@ module corrugated_wall(h=50, l=100, thick=5, strut=5, wall=2, anchor=CENTER, spi
|
|||
|
||||
|
||||
// Module: thinning_wall()
|
||||
// Synopsis: Makes a rectangular wall with a thin middle.
|
||||
// Topics: FDM Optimized, Walls
|
||||
// See Also: sparse_wall(), corrugated_wall(), thinning_wall(), thinning_triangle(), narrowing_strut()
|
||||
//
|
||||
// Usage:
|
||||
// thinning_wall(h, l, thick, [ang=], [braces=], [strut=], [wall=]) [ATTACHMENTS];
|
||||
//
|
||||
// Topics: FDM Optimized, Walls
|
||||
//
|
||||
// Description:
|
||||
// Makes a rectangular wall which thins to a smaller width in the center,
|
||||
// with angled supports to prevent critical overhangs.
|
||||
|
@ -327,12 +330,13 @@ module thinning_wall(h=50, l=100, thick=5, ang=30, braces=false, strut, wall, an
|
|||
|
||||
|
||||
// Module: thinning_triangle()
|
||||
// Synopsis: Makes a triangular wall with a thin middle.
|
||||
// Topics: FDM Optimized, Walls
|
||||
// See Also: sparse_wall(), corrugated_wall(), thinning_wall(), thinning_triangle(), narrowing_strut()
|
||||
//
|
||||
// Usage:
|
||||
// thinning_triangle(h, l, thick, [ang=], [strut=], [wall=], [diagonly=], [center=]) [ATTACHMENTS];
|
||||
//
|
||||
// Topics: FDM Optimized, Walls
|
||||
//
|
||||
// Description:
|
||||
// Makes a triangular wall with thick edges, which thins to a smaller width in
|
||||
// the center, with angled supports to prevent critical overhangs.
|
||||
|
@ -394,12 +398,13 @@ module thinning_triangle(h=50, l=100, thick=5, ang=30, strut=5, wall=3, diagonly
|
|||
|
||||
|
||||
// Module: narrowing_strut()
|
||||
// Synopsis: Makes a strut like an extruded baseball home plate.
|
||||
// Topics: FDM Optimized
|
||||
// See Also: sparse_wall(), corrugated_wall(), thinning_wall(), thinning_triangle(), narrowing_strut()
|
||||
//
|
||||
// Usage:
|
||||
// narrowing_strut(w, l, wall, [ang=]) [ATTACHMENTS];
|
||||
//
|
||||
// Topics: FDM Optimized
|
||||
//
|
||||
// Description:
|
||||
// Makes a rectangular strut with the top side narrowing in a triangle.
|
||||
// The shape created may be likened to an extruded home plate from baseball.
|
||||
|
|
Loading…
Reference in a new issue