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//////////////////////////////////////////////////////////////////////
// LibFile: bottlecaps.scad
// Bottle caps and necks for PCO18XX standard plastic beverage bottles.
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// Includes:
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// include <BOSL2/std.scad>
// include <BOSL2/bottlecaps.scad>
//////////////////////////////////////////////////////////////////////
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include < threading.scad >
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include < knurling.scad >
// Section: PCO-1810 Bottle Threading
// Module: pco1810_neck()
// Usage:
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// pco1810_neck([wall])
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// Description:
// Creates an approximation of a standard PCO-1810 threaded beverage bottle neck.
// Arguments:
// wall = Wall thickness in mm.
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// ---
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// anchor = Translate so anchor point is at origin (0,0,0). See [anchor](attachments.scad#anchor). Default: `CENTER`
// spin = Rotate this many degrees around the Z axis after anchor. See [spin](attachments.scad#spin). Default: `0`
// orient = Vector to rotate top towards, after spin. See [orient](attachments.scad#orient). Default: `UP`
// Extra Anchors:
// "tamper-ring" = Centered at the top of the anti-tamper ring channel.
// "support-ring" = Centered at the bottom of the support ring.
// Example:
// pco1810_neck();
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// Example: Standard Anchors
// pco1810_neck() show_anchors(custom=false);
// Example: Custom Named Anchors
// expose_anchors(0.3)
// pco1810_neck()
// show_anchors(std=false);
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module pco1810_neck ( wall = 2 , anchor = "support-ring" , spin = 0 , orient = UP )
{
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inner_d = 21.74 ;
neck_d = 26.19 ;
neck_h = 5.00 ;
support_d = 33.00 ;
support_width = 1.45 ;
support_rad = 0.40 ;
support_h = 21.00 ;
support_ang = 16 ;
tamper_ring_d = 27.97 ;
tamper_ring_width = 0.50 ;
tamper_ring_r = 1.60 ;
tamper_base_d = 25.71 ;
tamper_base_h = 14.10 ;
threadbase_d = 24.51 ;
thread_pitch = 3.18 ;
thread_angle = 20 ;
thread_od = 27.43 ;
lip_d = 25.07 ;
lip_h = 1.70 ;
lip_leadin_r = 0.20 ;
lip_recess_d = 24.94 ;
lip_recess_h = 1.00 ;
lip_roundover_r = 0.58 ;
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$fn = segs ( support_d / 2 ) ;
h = support_h + neck_h ;
thread_h = ( thread_od - threadbase_d ) / 2 ;
anchors = [
anchorpt ( "support-ring" , [ 0 , 0 , neck_h - h / 2 ] ) ,
anchorpt ( "tamper-ring" , [ 0 , 0 , h / 2 - tamper_base_h ] )
] ;
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attachable ( anchor , spin , orient , d1 = neck_d , d2 = lip_recess_d + 2 * lip_leadin_r , l = h , anchors = anchors ) {
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down ( h / 2 ) {
rotate_extrude ( convexity = 10 ) {
polygon ( turtle (
state = [ inner_d / 2 , 0 ] , [
"untilx" , neck_d / 2 ,
"left" , 90 ,
"move" , neck_h - 1 ,
"arcright" , 1 , 90 ,
"untilx" , support_d / 2 - support_rad ,
"arcleft" , support_rad , 90 ,
"move" , support_width ,
"arcleft" , support_rad , 90 - support_ang ,
"untilx" , tamper_base_d / 2 ,
"right" , 90 - support_ang ,
"untily" , h - tamper_base_h , // Tamper ring holder base.
"right" , 90 ,
"untilx" , tamper_ring_d / 2 ,
"left" , 90 ,
"move" , tamper_ring_width ,
"arcleft" , tamper_ring_r , 90 ,
"untilx" , threadbase_d / 2 ,
"right" , 90 ,
"untily" , h - lip_h - lip_leadin_r , // Lip base.
"arcright" , lip_leadin_r , 90 ,
"untilx" , lip_d / 2 ,
"left" , 90 ,
"untily" , h - lip_recess_h ,
"left" , 90 ,
"untilx" , lip_recess_d / 2 ,
"right" , 90 ,
"untily" , h - lip_roundover_r ,
"arcleft" , lip_roundover_r , 90 ,
"untilx" , inner_d / 2
]
) ) ;
}
up ( h - lip_h ) {
bottom_half ( ) {
difference ( ) {
thread_helix (
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d = threadbase_d - 0.1 ,
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pitch = thread_pitch ,
thread_depth = thread_h + 0.1 ,
thread_angle = thread_angle ,
twist = 810 ,
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higbee = thread_h * 2 ,
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anchor = TOP
) ;
zrot_copies ( rots = [ 90 , 270 ] ) {
zrot_copies ( rots = [ - 28 , 28 ] , r = threadbase_d / 2 ) {
prismoid ( [ 20 , 1.82 ] , [ 20 , 1.82 + 2 * sin ( 29 ) * thread_h ] , h = thread_h + 0.1 , anchor = BOT , orient = RIGHT ) ;
}
}
}
}
}
}
children ( ) ;
}
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}
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function pco1810_neck ( wall = 2 , anchor = "support-ring" , spin = 0 , orient = UP ) =
no_function ( "pco1810_neck" ) ;
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// Module: pco1810_cap()
// Usage:
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// pco1810_cap([wall], [texture]);
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// Description:
// Creates a basic cap for a PCO1810 threaded beverage bottle.
// Arguments:
// wall = Wall thickness in mm.
// texture = The surface texture of the cap. Valid values are "none", "knurled", or "ribbed". Default: "none"
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// ---
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// anchor = Translate so anchor point is at origin (0,0,0). See [anchor](attachments.scad#anchor). Default: `CENTER`
// spin = Rotate this many degrees around the Z axis after anchor. See [spin](attachments.scad#spin). Default: `0`
// orient = Vector to rotate top towards, after spin. See [orient](attachments.scad#orient). Default: `UP`
// Extra Anchors:
// "inside-top" = Centered on the inside top of the cap.
// Examples:
// pco1810_cap();
// pco1810_cap(texture="knurled");
// pco1810_cap(texture="ribbed");
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// Example: Standard Anchors
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// pco1810_cap(texture="ribbed") show_anchors(custom=false);
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// Example: Custom Named Anchors
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// expose_anchors(0.3)
// pco1810_cap(texture="ribbed")
// show_anchors(std=false);
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module pco1810_cap ( wall = 2 , texture = "none" , anchor = BOTTOM , spin = 0 , orient = UP )
{
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cap_id = 28.58 ;
tamper_ring_h = 14.10 ;
thread_pitch = 3.18 ;
thread_angle = 20 ;
thread_od = cap_id ;
thread_depth = 1.6 ;
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$fn = segs ( 33 / 2 ) ;
w = cap_id + 2 * wall ;
h = tamper_ring_h + wall ;
anchors = [
anchorpt ( "inside-top" , [ 0 , 0 , - ( h / 2 - wall ) ] )
] ;
attachable ( anchor , spin , orient , d = w , l = h , anchors = anchors ) {
down ( h / 2 ) zrot ( 45 ) {
difference ( ) {
union ( ) {
if ( texture = = "knurled" ) {
knurled_cylinder ( d = w , helix = 45 , l = tamper_ring_h + wall , anchor = BOTTOM ) ;
cyl ( d = w - 1.5 , l = tamper_ring_h + wall , anchor = BOTTOM ) ;
} else if ( texture = = "ribbed" ) {
zrot_copies ( n = 30 , r = ( w - 1 ) / 2 ) {
cube ( [ 1 , 1 , tamper_ring_h + wall ] , anchor = BOTTOM ) ;
}
cyl ( d = w - 1 , l = tamper_ring_h + wall , anchor = BOTTOM ) ;
} else {
cyl ( d = w , l = tamper_ring_h + wall , anchor = BOTTOM ) ;
}
}
up ( wall ) cyl ( d = cap_id , h = tamper_ring_h + wall , anchor = BOTTOM ) ;
}
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up ( wall + 2 ) thread_helix ( d = thread_od - thread_depth * 2 , pitch = thread_pitch , thread_depth = thread_depth , thread_angle = thread_angle , twist = 810 , higbee = thread_depth , internal = true , anchor = BOTTOM ) ;
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}
children ( ) ;
}
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}
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function pco1810_cap ( wall = 2 , texture = "none" , anchor = BOTTOM , spin = 0 , orient = UP ) =
no_function ( "pco1810_cap" ) ;
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// Section: PCO-1881 Bottle Threading
// Module: pco1881_neck()
// Usage:
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// pco1881_neck([wall])
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// Description:
// Creates an approximation of a standard PCO-1881 threaded beverage bottle neck.
// Arguments:
// wall = Wall thickness in mm.
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// ---
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// anchor = Translate so anchor point is at origin (0,0,0). See [anchor](attachments.scad#anchor). Default: `CENTER`
// spin = Rotate this many degrees around the Z axis after anchor. See [spin](attachments.scad#spin). Default: `0`
// orient = Vector to rotate top towards, after spin. See [orient](attachments.scad#orient). Default: `UP`
// Extra Anchors:
// "tamper-ring" = Centered at the top of the anti-tamper ring channel.
// "support-ring" = Centered at the bottom of the support ring.
// Example:
// pco1881_neck();
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// Example:
// pco1881_neck() show_anchors(custom=false);
// Example:
// expose_anchors(0.3)
// pco1881_neck()
// show_anchors(std=false);
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module pco1881_neck ( wall = 2 , anchor = "support-ring" , spin = 0 , orient = UP )
{
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inner_d = 21.74 ;
neck_d = 26.19 ;
neck_h = 5.00 ;
support_d = 33.00 ;
support_width = 0.58 ;
support_rad = 0.30 ;
support_h = 17.00 ;
support_ang = 15 ;
tamper_ring_d = 28.00 ;
tamper_ring_width = 0.30 ;
tamper_ring_ang = 45 ;
tamper_base_d = 25.71 ;
tamper_base_h = 11.20 ;
tamper_divot_r = 1.08 ;
threadbase_d = 24.20 ;
thread_pitch = 2.70 ;
thread_angle = 15 ;
thread_od = 27.4 ;
lip_d = 25.07 ;
lip_h = 1.70 ;
lip_leadin_r = 0.30 ;
lip_recess_d = 24.94 ;
lip_recess_h = 1.00 ;
lip_roundover_r = 0.58 ;
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$fn = segs ( support_d / 2 ) ;
h = support_h + neck_h ;
thread_h = ( thread_od - threadbase_d ) / 2 ;
anchors = [
anchorpt ( "support-ring" , [ 0 , 0 , neck_h - h / 2 ] ) ,
anchorpt ( "tamper-ring" , [ 0 , 0 , h / 2 - tamper_base_h ] )
] ;
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attachable ( anchor , spin , orient , d1 = neck_d , d2 = lip_recess_d + 2 * lip_leadin_r , l = h , anchors = anchors ) {
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down ( h / 2 ) {
rotate_extrude ( convexity = 10 ) {
polygon ( turtle (
state = [ inner_d / 2 , 0 ] , [
"untilx" , neck_d / 2 ,
"left" , 90 ,
"move" , neck_h - 1 ,
"arcright" , 1 , 90 ,
"untilx" , support_d / 2 - support_rad ,
"arcleft" , support_rad , 90 ,
"move" , support_width ,
"arcleft" , support_rad , 90 - support_ang ,
"untilx" , tamper_base_d / 2 ,
"arcright" , tamper_divot_r , 180 - support_ang * 2 ,
"left" , 90 - support_ang ,
"untily" , h - tamper_base_h , // Tamper ring holder base.
"right" , 90 ,
"untilx" , tamper_ring_d / 2 ,
"left" , 90 ,
"move" , tamper_ring_width ,
"left" , tamper_ring_ang ,
"untilx" , threadbase_d / 2 ,
"right" , tamper_ring_ang ,
"untily" , h - lip_h - lip_leadin_r , // Lip base.
"arcright" , lip_leadin_r , 90 ,
"untilx" , lip_d / 2 ,
"left" , 90 ,
"untily" , h - lip_recess_h ,
"left" , 90 ,
"untilx" , lip_recess_d / 2 ,
"right" , 90 ,
"untily" , h - lip_roundover_r ,
"arcleft" , lip_roundover_r , 90 ,
"untilx" , inner_d / 2
]
) ) ;
}
up ( h - lip_h ) {
difference ( ) {
thread_helix (
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d = threadbase_d - 0.1 ,
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pitch = thread_pitch ,
thread_depth = thread_h + 0.1 ,
thread_angle = thread_angle ,
twist = 650 ,
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higbee = thread_h * 2 ,
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anchor = TOP
) ;
zrot_copies ( rots = [ 90 , 270 ] ) {
zrot_copies ( rots = [ - 28 , 28 ] , r = threadbase_d / 2 ) {
prismoid ( [ 20 , 1.82 ] , [ 20 , 1.82 + 2 * sin ( 29 ) * thread_h ] , h = thread_h + 0.1 , anchor = BOT , orient = RIGHT ) ;
}
}
}
}
}
children ( ) ;
}
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}
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function pco1881_neck ( wall = 2 , anchor = "support-ring" , spin = 0 , orient = UP ) =
no_function ( "pco1881_neck" ) ;
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// Module: pco1881_cap()
// Usage:
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// pco1881_cap(wall, [texture]);
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// Description:
// Creates a basic cap for a PCO1881 threaded beverage bottle.
// Arguments:
// wall = Wall thickness in mm.
// texture = The surface texture of the cap. Valid values are "none", "knurled", or "ribbed". Default: "none"
// anchor = Translate so anchor point is at origin (0,0,0). See [anchor](attachments.scad#anchor). Default: `CENTER`
// spin = Rotate this many degrees around the Z axis after anchor. See [spin](attachments.scad#spin). Default: `0`
// orient = Vector to rotate top towards, after spin. See [orient](attachments.scad#orient). Default: `UP`
// Extra Anchors:
// "inside-top" = Centered on the inside top of the cap.
// Examples:
// pco1881_cap();
// pco1881_cap(texture="knurled");
// pco1881_cap(texture="ribbed");
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// Example: Standard Anchors
// pco1881_cap(texture="ribbed") show_anchors(custom=false);
// Example: Custom Named Anchors
// expose_anchors(0.5)
// pco1881_cap(texture="ribbed")
// show_anchors(std=false);
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module pco1881_cap ( wall = 2 , texture = "none" , anchor = BOTTOM , spin = 0 , orient = UP )
{
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$fn = segs ( 33 / 2 ) ;
w = 28.58 + 2 * wall ;
h = 11.2 + wall ;
anchors = [
anchorpt ( "inside-top" , [ 0 , 0 , - ( h / 2 - wall ) ] )
] ;
attachable ( anchor , spin , orient , d = w , l = h , anchors = anchors ) {
down ( h / 2 ) zrot ( 45 ) {
difference ( ) {
union ( ) {
if ( texture = = "knurled" ) {
knurled_cylinder ( d = w , helix = 45 , l = 11.2 + wall , anchor = BOTTOM ) ;
cyl ( d = w - 1.5 , l = 11.2 + wall , anchor = BOTTOM ) ;
} else if ( texture = = "ribbed" ) {
zrot_copies ( n = 30 , r = ( w - 1 ) / 2 ) {
cube ( [ 1 , 1 , 11.2 + wall ] , anchor = BOTTOM ) ;
}
cyl ( d = w - 1 , l = 11.2 + wall , anchor = BOTTOM ) ;
} else {
cyl ( d = w , l = 11.2 + wall , anchor = BOTTOM ) ;
}
}
up ( wall ) cyl ( d = 28.58 , h = 11.2 + wall , anchor = BOTTOM ) ;
}
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up ( wall + 2 ) thread_helix ( d = 25.5 , pitch = 2.7 , thread_depth = 1.6 , thread_angle = 15 , twist = 650 , higbee = 1.6 , internal = true , anchor = BOTTOM ) ;
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}
children ( ) ;
}
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}
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function pco1881_cap ( wall = 2 , texture = "none" , anchor = BOTTOM , spin = 0 , orient = UP ) =
no_function ( "pco1881_cap" ) ;
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// Section: Generic Bottle Connectors
// Module: generic_bottle_neck()
// Usage:
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// generic_bottle_neck([wall], ...)
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// Description:
// Creates a bottle neck given specifications.
// Arguments:
// wall = distance between ID and any wall that may be below the support
// neck_d = Outer diameter of neck without threads
// id = Inner diameter of neck
// thread_od = Outer diameter of thread
// height = Height of neck above support
// support_d = Outer diameter of support ring. Set to 0 for no support.
// pitch = Thread pitch
// round_supp = True to round the lower edge of the support ring
// ---
// anchor = Translate so anchor point is at origin (0,0,0). See [anchor](attachments.scad#anchor). Default: `CENTER`
// spin = Rotate this many degrees around the Z axis after anchor. See [spin](attachments.scad#spin). Default: `0`
// orient = Vector to rotate top towards, after spin. See [orient](attachments.scad#orient). Default: `UP`
// Extra Anchors:
// "support-ring" = Centered at the bottom of the support ring.
// Example:
// generic_bottle_neck();
module generic_bottle_neck (
wall ,
neck_d = 25 ,
id = 21.4 ,
thread_od = 27.2 ,
height = 17 ,
support_d = 33.0 ,
pitch = 3.2 ,
round_supp = false ,
anchor = "support-ring" ,
spin = 0 ,
orient = UP
) {
inner_d = id ;
neck_d = neck_d ;
supp_d = max ( neck_d , support_d ) ;
thread_pitch = pitch ;
thread_angle = 15 ;
diamMagMult = neck_d / 26.19 ;
heightMagMult = height / 17.00 ;
sup_r = 0.30 * ( heightMagMult > 1 ? heightMagMult : 1 ) ;
support_r = floor ( ( ( supp_d = = neck_d ) ? sup_r : min ( sup_r , ( supp_d - neck_d ) / 2 ) ) * 5000 ) / 10000 ;
support_rad = ( wall = = undef || ! round_supp ) ? support_r :
min ( support_r , floor ( ( supp_d - ( inner_d + 2 * wall ) ) * 5000 ) / 10000 ) ;
//Too small of a radius will cause errors with the arc, this limits granularity to .0001mm
support_width = 1 * ( heightMagMult > 1 ? heightMagMult : 1 ) * sign ( support_d ) ;
roundover = 0.58 * diamMagMult ;
lip_roundover_r = ( roundover > ( neck_d - inner_d ) / 2 ) ? 0 : roundover ;
h = height + support_width ;
threadbase_d = neck_d - 0.8 * diamMagMult ;
$fn = segs ( 33 / 2 ) ;
thread_h = ( thread_od - threadbase_d ) / 2 ;
anchors = [
anchorpt ( "support-ring" , [ 0 , 0 , 0 - h / 2 ] )
] ;
attachable ( anchor , spin , orient , d1 = neck_d , d2 = 0 , l = h , anchors = anchors ) {
down ( h / 2 ) {
rotate_extrude ( convexity = 10 ) {
polygon ( turtle (
state = [ inner_d / 2 , 0 ] , ( supp_d ! = neck_d ) ? [
"untilx" , supp_d / 2 - ( ( round_supp ) ? support_rad : 0 ) ,
"arcleft" , ( ( round_supp ) ? support_rad : 0 ) , 90 ,
"untily" , support_width - support_rad ,
"arcleft" , support_rad , 90 ,
"untilx" , neck_d / 2 ,
"right" , 90 ,
"untily" , h - lip_roundover_r ,
"arcleft" , lip_roundover_r , 90 ,
"untilx" , inner_d / 2
] : [
"untilx" , supp_d / 2 - ( ( round_supp ) ? support_rad : 0 ) ,
"arcleft" , ( ( round_supp ) ? support_rad : 0 ) , 90 ,
"untily" , h - lip_roundover_r ,
"arcleft" , lip_roundover_r , 90 ,
"untilx" , inner_d / 2
]
) ) ;
}
up ( h - pitch / 2 - lip_roundover_r ) {
difference ( ) {
thread_helix (
d = threadbase_d - 0.1 * diamMagMult ,
pitch = thread_pitch ,
thread_depth = thread_h + 0.1 * diamMagMult ,
thread_angle = thread_angle ,
twist = 360 * ( height - pitch - lip_roundover_r ) * . 6167 / pitch ,
higbee = thread_h * 2 ,
anchor = TOP
) ;
zrot_copies ( rots = [ 90 , 270 ] ) {
zrot_copies ( rots = [ - 28 , 28 ] , r = threadbase_d / 2 ) {
prismoid (
[ 20 * heightMagMult , 1.82 * diamMagMult ] ,
[ 20 * heightMagMult , 1.82 * diamMagMult * . 6 + 2 * sin ( 29 ) * thread_h ] ,
h = thread_h + 0.1 * diamMagMult ,
anchor = BOT ,
orient = RIGHT
) ;
}
}
}
}
}
children ( ) ;
}
}
function generic_bottle_neck (
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neck_d ,
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id ,
thread_od ,
height ,
support_d ,
pitch ,
round_supp ,
wall ,
anchor , spin , orient
) = no_function ( "generic_bottle_neck" ) ;
// Module: generic_bottle_cap()
// Usage:
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// generic_bottle_cap(wall, [texture], ...);
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// Description:
// Creates a basic threaded cap given specifications.
// Arguments:
// wall = Wall thickness in mm.
// texture = The surface texture of the cap. Valid values are "none", "knurled", or "ribbed". Default: "none"
// ---
// height = Interior height of the cap in mm.
// thread_od = Outer diameter of the threads in mm.
// tolerance = Extra space to add to the outer diameter of threads and neck in mm. Applied to radius.
// neck_od = Outer diameter of neck in mm.
// thread_angle = Angle of taper on threads.
// pitch = Thread pitch in mm.
// anchor = Translate so anchor point is at origin (0,0,0). See [anchor](attachments.scad#anchor). Default: `CENTER`
// spin = Rotate this many degrees around the Z axis after anchor. See [spin](attachments.scad#spin). Default: `0`
// orient = Vector to rotate top towards, after spin. See [orient](attachments.scad#orient). Default: `UP`
// Extra Anchors:
// "inside-top" = Centered on the inside top of the cap.
// Examples:
// generic_bottle_cap();
// generic_bottle_cap(texture="knurled");
// generic_bottle_cap(texture="ribbed");
module generic_bottle_cap (
wall = 2 ,
texture = "none" ,
height = 11.2 ,
thread_od = 28.58 ,
tolerance = . 2 ,
neck_od = 25.5 ,
thread_angle = 15 ,
pitch = 4 ,
anchor = BOTTOM ,
spin = 0 ,
orient = UP
) {
$fn = segs ( 33 / 2 ) ;
threadOuterDTol = thread_od + 2 * tolerance ;
w = threadOuterDTol + 2 * wall ;
h = height + wall ;
neckOuterDTol = neck_od + 2 * tolerance ;
threadDepth = ( thread_od - neck_od ) / 2 + . 8 ;
diamMagMult = ( w > 32.58 ) ? w / 32.58 : 1 ;
heightMagMult = ( height > 11.2 ) ? height / 11.2 : 1 ;
anchors = [
anchorpt ( "inside-top" , [ 0 , 0 , - ( h / 2 - wall ) ] )
] ;
attachable ( anchor , spin , orient , d = w , l = h , anchors = anchors ) {
down ( h / 2 ) {
difference ( ) {
union ( ) {
// For the knurled and ribbed caps the PCO caps in BOSL2 cut into the wall
// thickness so the wall+texture are the specified wall thickness. That
// seems wrong so this does specified thickness+texture
if ( texture = = "knurled" ) {
knurled_cylinder ( d = w + 1.5 * diamMagMult , helix = 45 , l = h , anchor = BOTTOM ) ;
cyl ( d = w , l = h , anchor = BOTTOM ) ;
} else if ( texture = = "ribbed" ) {
zrot_copies ( n = 30 , r = ( w + . 2 * diamMagMult ) / 2 ) {
cube ( [ 1 * diamMagMult , 1 * diamMagMult , h ] , anchor = BOTTOM ) ;
}
cyl ( d = w , l = h , anchor = BOTTOM ) ;
} else {
cyl ( d = w , l = h , anchor = BOTTOM ) ;
}
}
up ( wall ) cyl ( d = threadOuterDTol , h = h , anchor = BOTTOM ) ;
}
difference ( ) {
up ( wall + pitch / 2 ) {
thread_helix ( d = neckOuterDTol , pitch = pitch , thread_depth = threadDepth , thread_angle = thread_angle , twist = 360 * ( ( height - pitch ) / pitch ) , higbee = threadDepth , internal = true , anchor = BOTTOM ) ;
}
}
}
children ( ) ;
}
}
function generic_bottle_cap (
wall , texture , height ,
thread_od , tolerance ,
neck_od , thread_angle , pitch ,
anchor , spin , orient
) = no_function ( "generic_bottle_cap" ) ;
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// Module: bottle_adapter_neck_to_cap()
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// Usage:
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// bottle_adapter_neck_to_cap(wall, [texture]);
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// Description:
// Creates a threaded neck to cap adapter
// Arguments:
// wall = Thickness of wall between neck and cap when d=0. Leave undefined to have the outside of the tube go from the OD of the neck support ring to the OD of the cap. Default: undef
// texture = The surface texture of the cap. Valid values are "none", "knurled", or "ribbed". Default: "none"
// cap_wall = Wall thickness of the cap in mm.
// cap_h = Interior height of the cap in mm.
// cap_thread_od = Outer diameter of cap threads in mm.
// tolerance = Extra space to add to the outer diameter of threads and neck in mm. Applied to radius.
// cap_neck_od = Inner diameter of the cap threads.
// cap_neck_id = Inner diameter of the hole through the cap.
// cap_thread_taper = Angle of taper on threads.
// cap_thread_pitch = Thread pitch in mm
// neck_d = Outer diameter of neck w/o threads
// neck_id = Inner diameter of neck
// neck_thread_od = 27.2
// neck_h = Height of neck down to support ring
// neck_thread_pitch = Thread pitch in mm.
// neck_support_od = Outer diameter of neck support ring. Leave undefined to set equal to OD of cap. Set to 0 for no ring. Default: undef
// d = Distance between bottom of neck and top of cap
// taper_lead_in = Length to leave straight before tapering on tube between neck and cap if exists.
// Examples:
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// bottle_adapter_neck_to_cap();
module bottle_adapter_neck_to_cap (
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wall ,
texture = "none" ,
cap_wall = 2 ,
cap_h = 11.2 ,
cap_thread_od = 28.58 ,
tolerance = . 2 ,
cap_neck_od = 25.5 ,
cap_neck_id ,
cap_thread_taper = 15 ,
cap_thread_pitch = 4 ,
neck_d = 25 ,
neck_id = 21.4 ,
neck_thread_od = 27.2 ,
neck_h = 17 ,
neck_thread_pitch = 3.2 ,
neck_support_od ,
d = 0 ,
taper_lead_in = 0
) {
neck_support_od = ( neck_support_od = = undef || ( d = = 0 && neck_support_od < cap_thread_od + 2 * tolerance ) ) ? cap_thread_od + 2 * ( cap_wall + tolerance ) : neck_support_od ;
cap_neck_id = ( cap_neck_id = = undef ) ? neck_id : cap_neck_id ;
wall = ( wall = = undef ) ? neck_support_od + neck_d + cap_thread_od + neck_id : wall ;
$fn = segs ( 33 / 2 ) ;
wallt1 = min ( wall , ( max ( neck_support_od , neck_d ) - neck_id ) / 2 ) ;
wallt2 = min ( wall , ( cap_thread_od + 2 * ( cap_wall + tolerance ) - cap_neck_id ) / 2 ) ;
difference ( ) {
union ( ) {
up ( d / 2 ) {
generic_bottle_neck ( neck_d = neck_d ,
id = neck_id ,
thread_od = neck_thread_od ,
height = neck_h ,
support_d = neck_support_od ,
pitch = neck_thread_pitch ,
round_supp = ( ( wallt1 < ( neck_support_od - neck_id ) / 2 ) && ( d > 0 || neck_support_od > ( cap_thread_od + 2 * ( cap_wall + tolerance ) ) ) ) ,
wall = ( d > 0 ) ? wallt1 : min ( wallt1 , ( ( cap_thread_od + 2 * ( cap_wall + tolerance ) - neck_id ) / 2 ) )
) ;
}
if ( d ! = 0 ) {
rotate_extrude ( ) {
polygon ( points = [
[ 0 , d / 2 ] ,
[ neck_id / 2 + wallt1 , d / 2 ] ,
[ neck_id / 2 + wallt1 , d / 2 - taper_lead_in ] ,
[ cap_neck_id / 2 + wallt2 , taper_lead_in - d / 2 ] ,
[ cap_neck_id / 2 + wallt2 , - d / 2 ] ,
[ 0 , - d / 2 ]
] ) ;
}
}
down ( d / 2 ) {
generic_bottle_cap ( wall = cap_wall ,
texture = texture ,
height = cap_h ,
thread_od = cap_thread_od ,
tolerance = tolerance ,
neck_od = cap_neck_od ,
thread_angle = cap_thread_taper ,
orient = DOWN ,
pitch = cap_thread_pitch
) ;
}
}
rotate_extrude ( ) {
polygon ( points = [
[ 0 , d / 2 + 0.1 ] ,
[ neck_id / 2 , d / 2 ] ,
[ neck_id / 2 , d / 2 - taper_lead_in ] ,
[ cap_neck_id / 2 , taper_lead_in - d / 2 ] ,
[ cap_neck_id / 2 , - d / 2 - cap_wall ] ,
[ 0 , - d / 2 - cap_wall - 0.1 ]
] ) ;
}
}
}
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function bottle_adapter_neck_to_cap (
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wall , texture , cap_wall , cap_h , cap_thread_od ,
tolerance , cap_neck_od , cap_neck_id , cap_thread_taper ,
cap_thread_pitch , neck_d , neck_id , neck_thread_od ,
neck_h , neck_thread_pitch , neck_support_od , d , taper_lead_in
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) = no_fuction ( "bottle_adapter_neck_to_cap" ) ;
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// Module: bottle_adapter_cap_to_cap()
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// Usage:
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// bottle_adapter_cap_to_cap(wall, [texture]);
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// Description:
// Creates a threaded cap to cap adapter.
// Arguments:
// wall = Wall thickness in mm.
// texture = The surface texture of the cap. Valid values are "none", "knurled", or "ribbed". Default: "none"
// cap_h1 = Interior height of top cap.
// cap_thread_od1 = Outer diameter of threads on top cap.
// tolerance = Extra space to add to the outer diameter of threads and neck in mm. Applied to radius.
// cap_neck_od1 = Inner diameter of threads on top cap.
// cap_thread_pitch1 = Thread pitch of top cap in mm.
// cap_h2 = Interior height of bottom cap. Leave undefined to duplicate cap_h1.
// cap_thread_od2 = Outer diameter of threads on bottom cap. Leave undefined to duplicate capThread1.
// cap_neck_od2 = Inner diameter of threads on top cap. Leave undefined to duplicate cap_neck_od1.
// cap_thread_pitch2 = Thread pitch of bottom cap in mm. Leave undefinced to duplicate cap_thread_pitch1.
// d = Distance between caps.
// neck_id1 = Inner diameter of cutout in top cap.
// neck_id2 = Inner diameter of cutout in bottom cap.
// taper_lead_in = Length to leave straight before tapering on tube between caps if exists.
// Examples:
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// bottle_adapter_cap_to_cap();
module bottle_adapter_cap_to_cap (
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wall = 2 ,
texture = "none" ,
cap_h1 = 11.2 ,
cap_thread_od1 = 28.58 ,
tolerance = . 2 ,
cap_neck_od1 = 25.5 ,
cap_thread_pitch1 = 4 ,
cap_h2 ,
cap_thread_od2 ,
cap_neck_od2 ,
cap_thread_pitch2 ,
d = 0 ,
neck_id1 , neck_id2 ,
taper_lead_in = 0
) {
cap_h2 = ( cap_h2 = = undef ) ? cap_h1 : cap_h2 ;
cap_thread_od2 = ( cap_thread_od2 = = undef ) ? cap_thread_od1 : cap_thread_od2 ;
cap_neck_od2 = ( cap_neck_od2 = = undef ) ? cap_neck_od1 : cap_neck_od2 ;
cap_thread_pitch2 = ( cap_thread_pitch2 = = undef ) ? cap_thread_pitch1 : cap_thread_pitch2 ;
neck_id2 = ( neck_id2 = = undef && neck_id1 ! = undef ) ? neck_id1 : neck_id2 ;
taper_lead_in = ( d >= taper_lead_in * 2 ) ? taper_lead_in : d / 2 ;
$fn = segs ( 33 / 2 ) ;
difference ( ) {
union ( ) {
up ( d / 2 ) {
generic_bottle_cap (
orient = UP ,
wall = wall ,
texture = texture ,
height = cap_h1 ,
thread_od = cap_thread_od1 ,
tolerance = tolerance ,
neck_od = cap_neck_od1 ,
pitch = cap_thread_pitch1
) ;
}
if ( d ! = 0 ) {
rotate_extrude ( ) {
polygon ( points = [
[ 0 , d / 2 ] ,
[ cap_thread_od1 / 2 + ( wall + tolerance ) , d / 2 ] ,
[ cap_thread_od1 / 2 + ( wall + tolerance ) , d / 2 - taper_lead_in ] ,
[ cap_thread_od2 / 2 + ( wall + tolerance ) , taper_lead_in - d / 2 ] ,
[ cap_thread_od2 / 2 + ( wall + tolerance ) , - d / 2 ] ,
[ 0 , - d / 2 ]
] ) ;
}
}
down ( d / 2 ) {
generic_bottle_cap (
orient = DOWN ,
wall = wall ,
texture = texture ,
height = cap_h2 ,
thread_od = cap_thread_od2 ,
tolerance = tolerance ,
neck_od = cap_neck_od2 ,
pitch = cap_thread_pitch2
) ;
}
}
if ( neck_id1 ! = undef || neck_id2 ! = undef ) {
neck_id1 = ( neck_id1 = = undef ) ? neck_id2 : neck_id1 ;
neck_id2 = ( neck_id2 = = undef ) ? neck_id1 : neck_id2 ;
rotate_extrude ( ) {
polygon ( points = [
[ 0 , wall + d / 2 + 0.1 ] ,
[ neck_id1 / 2 , wall + d / 2 ] ,
[ neck_id1 / 2 , wall + d / 2 - taper_lead_in ] ,
[ neck_id2 / 2 , taper_lead_in - d / 2 - wall ] ,
[ neck_id2 / 2 , - d / 2 - wall ] ,
[ 0 , - d / 2 - wall - 0.1 ]
] ) ;
}
}
}
}
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function bottle_adapter_cap_to_cap (
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wall , texture , cap_h1 , cap_thread_od1 , tolerance ,
cap_neck_od1 , cap_thread_pitch1 , cap_h2 , cap_thread_od2 ,
cap_neck_od2 , cap_thread_pitch2 , d , neck_id1 , neck_id2 , taper_lead_in
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) = no_function ( "bottle_adapter_cap_to_cap" ) ;
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// Module: bottle_adapter_neck_to_neck()
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// Usage:
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// bottle_adapter_neck_to_neck();
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// Description:
// Creates a threaded neck to neck adapter.
// Arguments:
// d = Distance between bottoms of necks
// neck_od1 = Outer diameter of top neck w/o threads
// neck_id1 = Inner diameter of top neck
// thread_od1 = Outer diameter of threads on top neck
// height1 = Height of top neck above support ring.
// support_od1 = Outer diameter of the support ring on the top neck. Set to 0 for no ring.
// thread_pitch1 = Thread pitch of top neck.
// neck_od2 = Outer diameter of bottom neck w/o threads. Leave undefined to duplicate neck_od1
// neck_id2 = Inner diameter of bottom neck. Leave undefined to duplicate neck_id1
// thread_od2 = Outer diameter of threads on bottom neck. Leave undefined to duplicate thread_od1
// height2 = Height of bottom neck above support ring. Leave undefined to duplicate height1
// support_od2 = Outer diameter of the support ring on bottom neck. Set to 0 for no ring. Leave undefined to duplicate support_od1
// pitch2 = Thread pitch of bottom neck. Leave undefined to duplicate thread_pitch1
// taper_lead_in = Length to leave straight before tapering on tube between necks if exists.
// wall = Thickness of tube wall between necks. Leave undefined to match outer diameters with the neckODs/supportODs.
// Examples:
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// bottle_adapter_neck_to_neck();
module bottle_adapter_neck_to_neck (
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d = 0 ,
neck_od1 = 25 ,
neck_id1 = 21.4 ,
thread_od1 = 27.2 ,
height1 = 17 ,
support_od1 = 33.0 ,
thread_pitch1 = 3.2 ,
neck_od2 , neck_id2 ,
thread_od2 , height2 ,
support_od2 , pitch2 ,
taper_lead_in = 0 , wall
) {
neck_od2 = ( neck_od2 = = undef ) ? neck_od1 : neck_od2 ;
neck_id2 = ( neck_id2 = = undef ) ? neck_id1 : neck_id2 ;
thread_od2 = ( thread_od2 = = undef ) ? thread_od1 : thread_od2 ;
height2 = ( height2 = = undef ) ? height1 : height2 ;
support_od2 = ( support_od2 = = undef ) ? support_od1 : support_od2 ;
pitch2 = ( pitch2 = = undef ) ? thread_pitch1 : pitch2 ;
wall = ( wall = = undef ) ? support_od1 + support_od2 + neck_id1 + neck_id2 : wall ;
supprtOD2 = ( d = = 0 && support_od2 ! = 0 ) ? max ( neck_od1 , support_od2 ) : support_od2 ;
supprtOD1 = ( d = = 0 && support_od1 ! = 0 ) ? max ( neck_od2 , support_od1 ) : support_od1 ;
$fn = segs ( 33 / 2 ) ;
wallt1 = min ( wall , ( max ( supprtOD1 , neck_od1 ) - neck_id1 ) / 2 ) ;
wallt2 = min ( wall , ( max ( supprtOD2 , neck_od2 ) - neck_id2 ) / 2 ) ;
taper_lead_in = ( d >= taper_lead_in * 2 ) ? taper_lead_in : d / 2 ;
difference ( ) {
union ( ) {
up ( d / 2 ) {
generic_bottle_neck ( orient = UP ,
neck_d = neck_od1 ,
id = neck_id1 ,
thread_od = thread_od1 ,
height = height1 ,
support_d = supprtOD1 ,
pitch = thread_pitch1 ,
round_supp = ( ( wallt1 < ( supprtOD1 - neck_id1 ) / 2 ) || ( support_od1 > max ( neck_od2 , support_od2 ) && d = = 0 ) ) ,
wall = ( d > 0 ) ? wallt1 : min ( wallt1 , ( ( max ( neck_od2 , support_od2 ) ) - neck_id1 ) / 2 )
) ;
}
if ( d ! = 0 ) {
rotate_extrude ( ) {
polygon ( points = [
[ 0 , d / 2 ] ,
[ neck_id1 / 2 + wallt1 , d / 2 ] ,
[ neck_id1 / 2 + wallt1 , d / 2 - taper_lead_in ] ,
[ neck_id2 / 2 + wallt2 , taper_lead_in - d / 2 ] ,
[ neck_id2 / 2 + wallt2 , - d / 2 ] ,
[ 0 , - d / 2 ]
] ) ;
}
}
down ( d / 2 ) {
generic_bottle_neck ( orient = DOWN ,
neck_d = neck_od2 ,
id = neck_id2 ,
thread_od = thread_od2 ,
height = height2 ,
support_d = supprtOD2 ,
pitch = pitch2 ,
round_supp = ( ( wallt2 < ( supprtOD2 - neck_id2 ) / 2 ) || ( support_od2 > max ( neck_od1 , support_od1 ) && d = = 0 ) ) ,
wall = ( d > 0 ) ? wallt2 : min ( wallt2 , ( ( max ( neck_od1 , support_od1 ) ) - neck_id2 ) / 2 )
) ;
}
}
if ( neck_id1 ! = undef || neck_id2 ! = undef ) {
neck_id1 = ( neck_id1 = = undef ) ? neck_id2 : neck_id1 ;
neck_id2 = ( neck_id2 = = undef ) ? neck_id1 : neck_id2 ;
rotate_extrude ( ) {
polygon ( points = [
[ 0 , d / 2 ] ,
[ neck_id1 / 2 , d / 2 ] ,
[ neck_id1 / 2 , d / 2 - taper_lead_in ] ,
[ neck_id2 / 2 , taper_lead_in - d / 2 ] ,
[ neck_id2 / 2 , - d / 2 ] ,
[ 0 , - d / 2 ]
] ) ;
}
}
}
}
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function bottle_adapter_neck_to_neck (
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d , neck_od1 , neck_id1 , thread_od1 , height1 ,
support_od1 , thread_pitch1 , neck_od2 , neck_id2 ,
thread_od2 , height2 , support_od2 ,
pitch2 , taper_lead_in , wall
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) = no_fuction ( "bottle_adapter_neck_to_neck" ) ;
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// vim: expandtab tabstop=4 shiftwidth=4 softtabstop=4 nowrap
