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//
// NopSCADlib Copyright Chris Palmer 2020
// 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/>.
//
//
//! Circlips aka tapered retaining rings.
//
include < ../utils/core/core.scad >
include < ../utils/sector.scad >
include < ../utils/round.scad >
include < ../utils/maths.scad >
function circlip_d1 ( type ) = type [ 1 ] ; //! Nominal OD, i.e. diameter of tube
function circlip_d2 ( type ) = type [ 2 ] ; //! Groove diameter, i.e. OD when installed
function circlip_d3 ( type ) = type [ 3 ] ; //! Relaxed OD when not installed
function circlip_thickness ( type ) = type [ 4 ] ; //! Thickness
function circlip_a ( type ) = type [ 5 ] ; //! Size of the lugs
function circlip_b ( type ) = type [ 6 ] ; //! Widest part of the taper
function circlip_d5 ( type ) = type [ 7 ] ; //! Plier hole diameter
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circlip_colour = grey ( 20 ) ;
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closed_angle = 25 ;
module internal_circlip ( type , open = 0 ) { //! Draw specified internal circlip, open = 0, for nominal size installed, 1 for relaxed uninstalled, -1 for squeezed to install
d1 = circlip_d1 ( type ) ;
vitamin ( str ( "circlip(" , type [ 0 ] , "): Circlip internal " , d1 , "mm" ) ) ;
d3 = circlip_d3 ( type ) ;
d2 = circlip_d2 ( type ) ;
a = circlip_a ( type ) ;
b = circlip_b ( type ) ;
d5 = circlip_d5 ( type ) ;
od = lookup ( open , [ [ - 1 , d1 ] , [ 0 , d2 ] , [ 1 , d3 ] ] ) ;
or = od / 2 ;
c = ( d3 - d1 ) ;
angle = ( od - d1 ) / d1 * 360 + closed_angle ;
tab_angle = 360 * a / PI / od ;
p = [ 0 , - or + b / 2 , 1 ] * rot3_z ( angle / 2 + tab_angle ) ;
pitch = ( or - a / 2 ) ;
y_offset = ( sqr ( p . x ) + sqr ( p . y ) - sqr ( or - b ) ) / ( or - b - p . y ) / 2 ;
ir = or - b + y_offset ;
color ( circlip_colour )
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linear_extrude ( circlip_thickness ( type ) , center = true )
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round ( ( a - d5 ) / 5 )
union ( ) {
difference ( ) {
circle ( or ) ;
translate ( [ 0 , - y_offset ] )
circle ( ir ) ;
sector ( d3 / 2 + 1 , 270 - angle / 2 - tab_angle , 270 + angle / 2 + tab_angle ) ;
}
for ( side = [ - 1 , 1 ] )
intersection ( ) {
circle ( or ) ;
rotate ( side * ( angle + tab_angle ) / 2 )
difference ( ) {
hull ( ) {
translate ( [ 0 , - pitch ] )
circle ( d = a ) ;
translate ( [ 0 , - pitch - a ] )
circle ( d = 1.5 * a ) ;
}
translate ( [ 0 , - pitch ] )
circle ( d = d5 ) ;
}
}
}
}