recalculate heater clearance and base fanduct radius on it

author: Michael Krelin <hacker@klever.net> 2016-06-11 13:57:14 (UTC)
committer: Michael Krelin <hacker@klever.net> 2016-06-11 13:57:14 (UTC)
commit: 48557dc5e158b0b0c4f9dabda2ee93d1d30bea97 (patch) (unidiff)
tree: dd783376df610dbd0235334a2f6395689284f8b6
parent: 36928b70c94190b739af1dbd39b2680b21f949d0 (diff)
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1 files changed, 8 insertions, 4 deletions
diff --git a/fanduct.scad b/fanduct.scad
index 563920c..421dd5a 100644
--- a/fanduct.scad
+++ b/fanduct.scad
@@ -1,111 +1,115 @@
 use <snapper.scad>;
        extrusion_width=.5; layer_height=.2;    // print parameters
        epsilon=.005;   // for finer cuts
-        heater_w = 16;  // heatblock width
+function hypothenuse(a,b) = sqrt(pow(a,2)+pow(b,2));
-        heater_l = 20;  // heatblock length
-        nozzle_offset=4.5;// nozzle offset from the edge of heatblock
+silicone_shell = 2;
+heater_clearance = max(
+                hypothenuse(16/2     +silicone_shell, 20-4.5 +silicone_shell),// E3D v6
+                hypothenuse(11.5-4.5 +silicone_shell, 15.5   +silicone_shell)// E3D volcano
+);
        fanduct_elevation = 3;                                          // fanduct elevation above nozzle tip
        fanduct_blowtarget = -2;                                        // what to blow at
        fanduct_h = 6;                                                  // inner height of the duct
        fanduct_w = 7;                                                  // inner width of the duct
        fanduct_shell=1.2;                                              // shell thickness
-        fanduct_ir = sqrt(pow(heater_w/2,2)+pow(heater_l-nozzle_offset,2))+5;// inner radius
+        fanduct_ir = heater_clearance+5;                                // inner radius
        jet_angle = 60;         // angular width of the jet
        inlet_w = 12.5;         // inlet width
        inlet_h = 17;   // inlet height
        inlet_l = 7;    // inlet length of protrusion (or depth of intrusion:))
        inlet_away = 15;// how far away inlet is
 hotend_clearance = 12;
        snapper_d = 8; snapper_overlap=0.2;// snip snap
 smooth_f = 120;
 type="3jets"; // "3jets" ; // circular|3jets
 module fanduct(type=type) {
         //     ***duct is all around!
 module duct(what) {
  if(what=="in") {
   sh = fanduct_w+2*fanduct_shell; sv = fanduct_h+2*fanduct_shell;
   smax = max(sh,sv);
   rotate_extrude($fn=smooth_f)
   translate([sh/2+fanduct_ir,sv/2])
   scale([sh/smax,sv/smax])
   circle(d=smax,$fn=4*smax);
  }else if(what=="out") {
   sh = fanduct_w; sv = fanduct_h;
   smax = max(sh,sv);
   rotate_extrude($fn=smooth_f)
   translate([sh/2+fanduct_shell+fanduct_ir,sv/2+fanduct_shell])
   scale([sh/smax,sv/smax])
   circle(d=smax,$fn=4*smax);
  }
 }
         //     ***bumps for easier position adjustments in line with hotend
 module marks(what) {
  if(what=="in") {
   for(y=[-1,1])
    hull() for(z=[0,-fanduct_shell-fanduct_h/2])
     translate([0,y*(fanduct_ir+fanduct_shell+fanduct_w/2),fanduct_shell*2+fanduct_h+z])
     rotate([90,0,0]) {
      cylinder(r=fanduct_shell,h=fanduct_w,center=true,$fn=30);
      for(z=[-1,1]) translate([0,0,z*fanduct_w/2])
       sphere(r=fanduct_shell,$fn=30);
     }
  }
 }
         //     ***output
 module output(what,type=type) {
  module guideline(xyxy) {
   module pin(xy) {
    translate([xy[0],xy[1],0])
    cylinder(d=2*extrusion_width,h=2*fanduct_shell+inlet_h,$fn=6);
   }
   xyxyxy=concat(xyxy,[[0,0]]);
   for(i=[0:1:len(xyxyxy)-2])
    hull() for(j=[i,i+1]) pin(xyxyxy[j]);
  }
  module circus(what) {
   if(what=="in") {
    difference() {
     rotate_extrude($fn=smooth_f)
      polygon([
       [0,-fanduct_elevation+fanduct_blowtarget+epsilon],
       [fanduct_ir+fanduct_shell,fanduct_shell+fanduct_h/2],
       [fanduct_ir+fanduct_shell+fanduct_w/2,0],
       [0,-fanduct_elevation+fanduct_blowtarget-epsilon]]);
     translate([0,0,-1])
     cylinder(r=hotend_clearance,h=fanduct_h+2*fanduct_shell+2,$fn=smooth_f);
     mirror([0,0,1])
     translate([0,0,-epsilon])
     cylinder(r=fanduct_ir+fanduct_shell+1,h=fanduct_elevation+.1+2);
    }
   }else if(what=="out") {
    rotate_extrude($fn=smooth_f)
    polygon([
     [0,-fanduct_elevation+fanduct_blowtarget+epsilon],
     [fanduct_ir+fanduct_shell+1,fanduct_h/2],
     [fanduct_ir+fanduct_w/2+fanduct_shell+1,fanduct_shell],
     [0,-fanduct_elevation+fanduct_blowtarget-epsilon]]);
   }else if(what=="airguides") {
    inr = fanduct_ir+fanduct_shell; our = inr+fanduct_w;
    union() {
     for(my=[0,1]) mirror([0,my,0]) {
      guideline([
       [-our,inlet_w/6],
       [-inr*sin(60),inr*cos(60)]
      ]);
      a0=30; as=15; a1=180;
      for(a=[a0+as:as:a1]) {
author	Michael Krelin <hacker@klever.net>	2016-06-11 13:57:14 (UTC)
committer	Michael Krelin <hacker@klever.net>	2016-06-11 13:57:14 (UTC)
commit	48557dc5e158b0b0c4f9dabda2ee93d1d30bea97 (patch) (unidiff)
tree	dd783376df610dbd0235334a2f6395689284f8b6
parent	36928b70c94190b739af1dbd39b2680b21f949d0 (diff)
download	fanductory-48557dc5e158b0b0c4f9dabda2ee93d1d30bea97.zip fanductory-48557dc5e158b0b0c4f9dabda2ee93d1d30bea97.tar.gz fanductory-48557dc5e158b0b0c4f9dabda2ee93d1d30bea97.tar.bz2

diff --git a/fanduct.scad b/fanduct.scad index 563920c..421dd5a 100644 --- a/fanduct.scad +++ b/fanduct.scad
@@ -1,111 +1,115 @@
1	use <snapper.scad>;	1	use <snapper.scad>;
2	extrusion_width=.5; layer_height=.2; // print parameters	2	extrusion_width=.5; layer_height=.2; // print parameters
3		3
4	epsilon=.005; // for finer cuts	4	epsilon=.005; // for finer cuts
5		5
6	heater_w = 16; // heatblock width	6	function hypothenuse(a,b) = sqrt(pow(a,2)+pow(b,2));
7	heater_l = 20; // heatblock length	7
8	nozzle_offset=4.5;// nozzle offset from the edge of heatblock	8	silicone_shell = 2;
		9	heater_clearance = max(
		10	hypothenuse(16/2 +silicone_shell, 20-4.5 +silicone_shell),// E3D v6
		11	hypothenuse(11.5-4.5 +silicone_shell, 15.5 +silicone_shell)// E3D volcano
		12	);
9		13
10	fanduct_elevation = 3; // fanduct elevation above nozzle tip	14	fanduct_elevation = 3; // fanduct elevation above nozzle tip
11	fanduct_blowtarget = -2; // what to blow at	15	fanduct_blowtarget = -2; // what to blow at
12	fanduct_h = 6; // inner height of the duct	16	fanduct_h = 6; // inner height of the duct
13	fanduct_w = 7; // inner width of the duct	17	fanduct_w = 7; // inner width of the duct
14	fanduct_shell=1.2; // shell thickness	18	fanduct_shell=1.2; // shell thickness
15	fanduct_ir = sqrt(pow(heater_w/2,2)+pow(heater_l-nozzle_offset,2))+5;// inner radius	19	fanduct_ir = heater_clearance+5; // inner radius
16		20
17	jet_angle = 60; // angular width of the jet	21	jet_angle = 60; // angular width of the jet
18		22
19	inlet_w = 12.5; // inlet width	23	inlet_w = 12.5; // inlet width
20	inlet_h = 17; // inlet height	24	inlet_h = 17; // inlet height
21	inlet_l = 7; // inlet length of protrusion (or depth of intrusion:))	25	inlet_l = 7; // inlet length of protrusion (or depth of intrusion:))
22	inlet_away = 15;// how far away inlet is	26	inlet_away = 15;// how far away inlet is
23		27
24	hotend_clearance = 12;	28	hotend_clearance = 12;
25		29
26	snapper_d = 8; snapper_overlap=0.2;// snip snap	30	snapper_d = 8; snapper_overlap=0.2;// snip snap
27		31
28	smooth_f = 120;	32	smooth_f = 120;
29		33
30	type="3jets"; // "3jets" ; // circular\|3jets	34	type="3jets"; // "3jets" ; // circular\|3jets
31		35
32		36
33	module fanduct(type=type) {	37	module fanduct(type=type) {
34		38
35	// ***duct is all around!	39	// ***duct is all around!
36	module duct(what) {	40	module duct(what) {
37	if(what=="in") {	41	if(what=="in") {
38	sh = fanduct_w+2fanduct_shell; sv = fanduct_h+2fanduct_shell;	42	sh = fanduct_w+2fanduct_shell; sv = fanduct_h+2fanduct_shell;
39	smax = max(sh,sv);	43	smax = max(sh,sv);
40	rotate_extrude($fn=smooth_f)	44	rotate_extrude($fn=smooth_f)
41	translate([sh/2+fanduct_ir,sv/2])	45	translate([sh/2+fanduct_ir,sv/2])
42	scale([sh/smax,sv/smax])	46	scale([sh/smax,sv/smax])
43	circle(d=smax,$fn=4*smax);	47	circle(d=smax,$fn=4*smax);
44	}else if(what=="out") {	48	}else if(what=="out") {
45	sh = fanduct_w; sv = fanduct_h;	49	sh = fanduct_w; sv = fanduct_h;
46	smax = max(sh,sv);	50	smax = max(sh,sv);
47	rotate_extrude($fn=smooth_f)	51	rotate_extrude($fn=smooth_f)
48	translate([sh/2+fanduct_shell+fanduct_ir,sv/2+fanduct_shell])	52	translate([sh/2+fanduct_shell+fanduct_ir,sv/2+fanduct_shell])
49	scale([sh/smax,sv/smax])	53	scale([sh/smax,sv/smax])
50	circle(d=smax,$fn=4*smax);	54	circle(d=smax,$fn=4*smax);
51	}	55	}
52	}	56	}
53		57
54	// ***bumps for easier position adjustments in line with hotend	58	// ***bumps for easier position adjustments in line with hotend
55	module marks(what) {	59	module marks(what) {
56	if(what=="in") {	60	if(what=="in") {
57	for(y=[-1,1])	61	for(y=[-1,1])
58	hull() for(z=[0,-fanduct_shell-fanduct_h/2])	62	hull() for(z=[0,-fanduct_shell-fanduct_h/2])
59	translate([0,y(fanduct_ir+fanduct_shell+fanduct_w/2),fanduct_shell2+fanduct_h+z])	63	translate([0,y(fanduct_ir+fanduct_shell+fanduct_w/2),fanduct_shell2+fanduct_h+z])
60	rotate([90,0,0]) {	64	rotate([90,0,0]) {
61	cylinder(r=fanduct_shell,h=fanduct_w,center=true,$fn=30);	65	cylinder(r=fanduct_shell,h=fanduct_w,center=true,$fn=30);
62	for(z=[-1,1]) translate([0,0,z*fanduct_w/2])	66	for(z=[-1,1]) translate([0,0,z*fanduct_w/2])
63	sphere(r=fanduct_shell,$fn=30);	67	sphere(r=fanduct_shell,$fn=30);
64	}	68	}
65	}	69	}
66	}	70	}
67		71
68	// ***output	72	// ***output
69	module output(what,type=type) {	73	module output(what,type=type) {
70	module guideline(xyxy) {	74	module guideline(xyxy) {
71	module pin(xy) {	75	module pin(xy) {
72	translate([xy[0],xy[1],0])	76	translate([xy[0],xy[1],0])
73	cylinder(d=2extrusion_width,h=2fanduct_shell+inlet_h,$fn=6);	77	cylinder(d=2extrusion_width,h=2fanduct_shell+inlet_h,$fn=6);
74	}	78	}
75	xyxyxy=concat(xyxy,[[0,0]]);	79	xyxyxy=concat(xyxy,[[0,0]]);
76	for(i=[0:1:len(xyxyxy)-2])	80	for(i=[0:1:len(xyxyxy)-2])
77	hull() for(j=[i,i+1]) pin(xyxyxy[j]);	81	hull() for(j=[i,i+1]) pin(xyxyxy[j]);
78	}	82	}
79		83
80	module circus(what) {	84	module circus(what) {
81	if(what=="in") {	85	if(what=="in") {
82	difference() {	86	difference() {
83	rotate_extrude($fn=smooth_f)	87	rotate_extrude($fn=smooth_f)
84	polygon([	88	polygon([
85	[0,-fanduct_elevation+fanduct_blowtarget+epsilon],	89	[0,-fanduct_elevation+fanduct_blowtarget+epsilon],
86	[fanduct_ir+fanduct_shell,fanduct_shell+fanduct_h/2],	90	[fanduct_ir+fanduct_shell,fanduct_shell+fanduct_h/2],
87	[fanduct_ir+fanduct_shell+fanduct_w/2,0],	91	[fanduct_ir+fanduct_shell+fanduct_w/2,0],
88	[0,-fanduct_elevation+fanduct_blowtarget-epsilon]]);	92	[0,-fanduct_elevation+fanduct_blowtarget-epsilon]]);
89	translate([0,0,-1])	93	translate([0,0,-1])
90	cylinder(r=hotend_clearance,h=fanduct_h+2*fanduct_shell+2,$fn=smooth_f);	94	cylinder(r=hotend_clearance,h=fanduct_h+2*fanduct_shell+2,$fn=smooth_f);
91	mirror([0,0,1])	95	mirror([0,0,1])
92	translate([0,0,-epsilon])	96	translate([0,0,-epsilon])
93	cylinder(r=fanduct_ir+fanduct_shell+1,h=fanduct_elevation+.1+2);	97	cylinder(r=fanduct_ir+fanduct_shell+1,h=fanduct_elevation+.1+2);
94	}	98	}
95	}else if(what=="out") {	99	}else if(what=="out") {
96	rotate_extrude($fn=smooth_f)	100	rotate_extrude($fn=smooth_f)
97	polygon([	101	polygon([
98	[0,-fanduct_elevation+fanduct_blowtarget+epsilon],	102	[0,-fanduct_elevation+fanduct_blowtarget+epsilon],
99	[fanduct_ir+fanduct_shell+1,fanduct_h/2],	103	[fanduct_ir+fanduct_shell+1,fanduct_h/2],
100	[fanduct_ir+fanduct_w/2+fanduct_shell+1,fanduct_shell],	104	[fanduct_ir+fanduct_w/2+fanduct_shell+1,fanduct_shell],
101	[0,-fanduct_elevation+fanduct_blowtarget-epsilon]]);	105	[0,-fanduct_elevation+fanduct_blowtarget-epsilon]]);
102	}else if(what=="airguides") {	106	}else if(what=="airguides") {
103	inr = fanduct_ir+fanduct_shell; our = inr+fanduct_w;	107	inr = fanduct_ir+fanduct_shell; our = inr+fanduct_w;
104	union() {	108	union() {
105	for(my=[0,1]) mirror([0,my,0]) {	109	for(my=[0,1]) mirror([0,my,0]) {
106	guideline([	110	guideline([
107	[-our,inlet_w/6],	111	[-our,inlet_w/6],
108	[-inrsin(60),inrcos(60)]	112	[-inrsin(60),inrcos(60)]
109	]);	113	]);
110	a0=30; as=15; a1=180;	114	a0=30; as=15; a1=180;
111	for(a=[a0+as:as:a1]) {	115	for(a=[a0+as:as:a1]) {