/Modules/Mechanical/WINDGAUGE02A/CAD/SRC/WINDGAUGE02A_D01.scad |
---|
8,7 → 8,7 |
module WINDGAUGE02A_D01(S01_vyska_komponentu_na_lozisko,S01_prumer_zavitu,D01_material_pod_zavitem,D01_material_za_zavitem,D01_material_pred_zavitem,D01_delka_tyce,D01_sirka_tyce,D02_sila_materialu,D02_vyska_uchytky,D02_prumer_obruby,D02_delka_celeho_uchytu,D02_dotahova_vzdalenost,D02_prumer_uchytneho_sroubu,S01_tolerance_zavit) |
module WINDGAUGE02A_D01() |
{ |
difference() |
18,22 → 18,22 |
{ |
//zavit |
translate([0,0,D01_material_pod_zavitem]) |
screw_thread(S01_prumer_zavitu-S01_tolerance_zavit,4,55,S01_vyska_komponentu_na_lozisko,PI/2,2); |
screw_thread(S01_prumer_vnitrni-S01_tolerance_zavit,4,55,S01_vyska_spodniho_zavitu,PI/2,2); |
//spodní valec |
translate([0,0,D01_material_pod_zavitem/2]) |
cylinder (h = D01_material_pod_zavitem, r=(S01_prumer_zavitu+D01_material_pred_zavitem*2)/2, center = true, $fn=100); |
cylinder (h = D01_material_pod_zavitem, r=(S01_prumer_vnitrni-S01_tolerance_zavit+D01_material_pred_zavitem*2)/2, center = true, $fn=100); |
//uchyt na tyc |
translate([0,D01_delka_tyce/2+S01_prumer_zavitu/2+D01_material_pred_zavitem,D01_material_pod_zavitem/2]) |
translate([0,D01_delka_tyce/2+(S01_prumer_vnitrni-S01_tolerance_zavit)/2+D01_material_pred_zavitem,D01_material_pod_zavitem/2]) |
cube([D01_sirka_tyce,D01_delka_tyce,D01_material_pod_zavitem],center=true); |
//uchyt na tyc ovalna cast |
translate([0,S01_prumer_zavitu/2+D01_material_pred_zavitem,D01_material_pod_zavitem/2]) |
translate([0,(S01_prumer_vnitrni-S01_tolerance_zavit)/2+D01_material_pred_zavitem,D01_material_pod_zavitem/2]) |
cube([D01_sirka_tyce,D01_material_za_zavitem+D01_material_pred_zavitem,D01_material_pod_zavitem],center=true); |
//material kolem uchytu na sloupek |
translate([0,D01_delka_tyce+S01_prumer_zavitu/2+D01_material_pred_zavitem+(D02_sila_materialu+D02_prumer_obruby/2)/2-D02_dotahova_vzdalenost,D01_material_pod_zavitem/2]) |
translate([0,D01_delka_tyce+(S01_prumer_vnitrni-S01_tolerance_zavit)/2+D01_material_pred_zavitem+(D02_sila_materialu+D02_prumer_obruby/2)/2-D02_dotahova_vzdalenost,D01_material_pod_zavitem/2]) |
difference() |
{ |
cube([D01_sirka_tyce,D02_sila_materialu+D02_prumer_obruby/2,D01_material_pod_zavitem],center=true); |
46,20 → 46,20 |
//uchyt na sloupek |
translate([0,D01_delka_tyce+S01_prumer_zavitu/2+D01_material_pred_zavitem+D02_sila_materialu+(D02_prumer_obruby)/2,D02_vyska_uchytky/2]) |
translate([0,D01_delka_tyce+(S01_prumer_vnitrni-S01_tolerance_zavit)/2+D01_material_pred_zavitem+D02_sila_materialu+(D02_prumer_obruby)/2,D02_vyska_uchytky/2]) |
rotate(a=[0,0,270]) |
WINDGAUGE02A_D02(D02_sila_materialu,D02_vyska_uchytky,D02_prumer_obruby,D02_delka_celeho_uchytu,D02_dotahova_vzdalenost,D02_prumer_uchytneho_sroubu); |
WINDGAUGE02A_D02(); |
} |
//otvor |
translate([0,0,(D01_material_pod_zavitem+S01_vyska_komponentu_na_lozisko)/2]) |
cylinder (h = D01_material_pod_zavitem+S01_vyska_komponentu_na_lozisko+0.02, r=(S01_prumer_zavitu-2*D01_material_za_zavitem)/2, center = true, $fn=100); |
translate([0,0,(D01_material_pod_zavitem+S01_vyska_spodniho_zavitu)/2]) |
cylinder (h = D01_material_pod_zavitem+S01_vyska_spodniho_zavitu+0.02, r=((S01_prumer_vnitrni-S01_tolerance_zavit)-2*D01_material_za_zavitem)/2, center = true, $fn=100); |
} |
} |
WINDGAUGE02A_D01(S01_vyska_komponentu_na_lozisko,S01_prumer_zavitu,D01_material_pod_zavitem,D01_material_za_zavitem,D01_material_pred_zavitem,D01_delka_tyce,D01_sirka_tyce,D02_sila_materialu,D02_vyska_uchytky,D02_prumer_obruby,D02_delka_celeho_uchytu,D02_dotahova_vzdalenost,D02_prumer_uchytneho_sroubu,S01_tolerance_zavit); |
WINDGAUGE02A_D01(); |
/Modules/Mechanical/WINDGAUGE02A/CAD/SRC/WINDGAUGE02A_D02.scad |
---|
3,12 → 3,7 |
module WINDGAUGE02A_D02(D02_sila_materialu, |
D02_vyska_uchytky, |
D02_prumer_obruby, |
D02_delka_celeho_uchytu, |
D02_dotahova_vzdalenost, |
D02_prumer_uchytneho_sroubu){ |
module WINDGAUGE02A_D02(){ |
difference(){ |
union(){ |
/Modules/Mechanical/WINDGAUGE02A/CAD/SRC/WINDGAUGE02A_L01.scad |
---|
7,7 → 7,7 |
module WINDGAUGE02A_L01(L01_hloubka_zapusteni,L01_hloubka_zapusteni_drzaku,L01_sila_zapusteni_drzaku,L01_hrana_drzaku_a,L01_hrana_drzaku_b,L01_tolerance_drzaku,L01_delka_uchytu,L01_prumer_lopatky,L01_sila_materialu_lopatky) |
module WINDGAUGE02A_L01() |
union() |
{ |
/Modules/Mechanical/WINDGAUGE02A/CAD/SRC/WINDGAUGE02A_R01.scad |
---|
2,63 → 2,58 |
include <../configuration.scad> |
module WINDGAUGE02A_R01(R02_sila_mateiralu_pod_lopatkami,L01_hloubka_zapusteni_drzaku,R02_vzdalenost_mezi_uchyty_lopatek,L01_sila_zapusteni_drzaku,L01_hloubka_zapusteni,prumer_pomocne_trubicky,zapusteni_pomocne_trubicky,vule_mezi_statorem_rotorem,R01_vyska_preryti_statoru,R01_sila_materialu_pro_prekriti,S01_sila_materialu,L01_tolerance_drzaku) |
module WINDGAUGE02A_R01() |
{ |
difference() |
{ |
union() |
{ |
cylinder (h = R02_sila_mateiralu_pod_lopatkami+L01_hloubka_zapusteni_drzaku, r=(R02_vzdalenost_mezi_uchyty_lopatek+2*L01_sila_zapusteni_drzaku+2*L01_hloubka_zapusteni+2*vule_mezi_statorem_rotorem+2*R01_sila_materialu_pro_prekriti+2*S01_sila_materialu)/2, center = true, $fn=100); |
cylinder (h = R02_sila_mateiralu_pod_lopatkami+2*L01_hloubka_zapusteni_drzaku+L01_hrana_drzaku_b+2+R01_vyska_preryti_statoru,r=(S01_prumer_vnitrni+4*S01_sila_materialu)/2+S01_mezera_mezi_statorem_rotorem, $fn=100); |
//otvor na osičku |
cylinder (h = R02_sila_mateiralu_pod_lopatkami+L01_hloubka_zapusteni_drzaku, r=(prumer_osicky+3*S01_sila_materialu)/2+0.3, $fn=100); |
//tvorba prekryti statoru |
difference() |
{ |
translate([0,0,((R02_sila_mateiralu_pod_lopatkami+L01_hloubka_zapusteni_drzaku)/2)+R01_vyska_preryti_statoru/2]) |
//odstranění výpnlně |
translate([0,0,R02_sila_mateiralu_pod_lopatkami+L01_hloubka_zapusteni_drzaku]) |
cylinder (h = R01_vyska_preryti_statoru, r=(R02_vzdalenost_mezi_uchyty_lopatek+2*L01_sila_zapusteni_drzaku+2*L01_hloubka_zapusteni+2*vule_mezi_statorem_rotorem+2*R01_sila_materialu_pro_prekriti+2*S01_sila_materialu)/2, center = true, $fn=100); |
cylinder (h = L01_hloubka_zapusteni_drzaku+L01_hrana_drzaku_b+2+R01_vyska_preryti_statoru+0.01, r=(S01_prumer_vnitrni+2*S01_sila_materialu)/2+S01_mezera_mezi_statorem_rotorem, $fn=100); |
translate([0,0,((R02_sila_mateiralu_pod_lopatkami+L01_hloubka_zapusteni_drzaku)/2)+R01_vyska_preryti_statoru/2]) |
cylinder (h = R01_vyska_preryti_statoru+0.1, r=(R02_vzdalenost_mezi_uchyty_lopatek+2*L01_sila_zapusteni_drzaku+2*L01_hloubka_zapusteni+2*vule_mezi_statorem_rotorem+2*S01_sila_materialu)/2, center = true, $fn=100); |
} |
} |
//otvor pro lopatku 1 |
rotate(a=[0,0,0]) |
translate([(R02_vzdalenost_mezi_uchyty_lopatek+2*L01_sila_zapusteni_drzaku+2*L01_hloubka_zapusteni)/2-L01_hloubka_zapusteni-L01_sila_zapusteni_drzaku/2,0,((R02_sila_mateiralu_pod_lopatkami+L01_hloubka_zapusteni_drzaku)/2)-L01_hloubka_zapusteni_drzaku/2]) |
translate([(R02_vzdalenost_mezi_uchyty_lopatek+2*L01_sila_zapusteni_drzaku+2*L01_hloubka_zapusteni)/2-L01_hloubka_zapusteni-L01_sila_zapusteni_drzaku/2,0,(R02_sila_mateiralu_pod_lopatkami+L01_hloubka_zapusteni_drzaku/2)]) |
cube([L01_sila_zapusteni_drzaku+L01_tolerance_drzaku,L01_hrana_drzaku_a+L01_tolerance_drzaku,L01_hloubka_zapusteni_drzaku],true); |
rotate(a=[0,0,0]) |
translate([(R02_vzdalenost_mezi_uchyty_lopatek+2*L01_sila_zapusteni_drzaku+2*L01_hloubka_zapusteni+2*vule_mezi_statorem_rotorem)/2+R01_sila_materialu_pro_prekriti,0,((R02_sila_mateiralu_pod_lopatkami+L01_hloubka_zapusteni_drzaku)/2)+R01_vyska_preryti_statoru/2]) |
cube([3*R01_sila_materialu_pro_prekriti+L01_tolerance_drzaku,L01_hrana_drzaku_a+L01_tolerance_drzaku,R01_vyska_preryti_statoru+L01_tolerance_drzaku],true); |
translate([(S01_prumer_vnitrni+4*S01_sila_materialu)/2+S01_mezera_mezi_statorem_rotorem,0,R02_sila_mateiralu_pod_lopatkami+L01_hloubka_zapusteni_drzaku+(L01_hloubka_zapusteni_drzaku+L01_hrana_drzaku_b+2+R01_vyska_preryti_statoru+0.01)/2]) |
cube([3*R01_sila_materialu_pro_prekriti+L01_tolerance_drzaku,L01_hrana_drzaku_a+L01_tolerance_drzaku,L01_hloubka_zapusteni_drzaku+L01_hrana_drzaku_b+2+R01_vyska_preryti_statoru+0.01],true); |
//otvor pro lopatku 2 |
rotate(a=[0,0,120]) |
translate([(R02_vzdalenost_mezi_uchyty_lopatek+2*L01_sila_zapusteni_drzaku+2*L01_hloubka_zapusteni)/2-L01_hloubka_zapusteni-L01_sila_zapusteni_drzaku/2,0,((R02_sila_mateiralu_pod_lopatkami+L01_hloubka_zapusteni_drzaku)/2)-L01_hloubka_zapusteni_drzaku/2]) |
translate([(R02_vzdalenost_mezi_uchyty_lopatek+2*L01_sila_zapusteni_drzaku+2*L01_hloubka_zapusteni)/2-L01_hloubka_zapusteni-L01_sila_zapusteni_drzaku/2,0,(R02_sila_mateiralu_pod_lopatkami+L01_hloubka_zapusteni_drzaku/2)]) |
cube([L01_sila_zapusteni_drzaku+L01_tolerance_drzaku,L01_hrana_drzaku_a+L01_tolerance_drzaku,L01_hloubka_zapusteni_drzaku],true); |
rotate(a=[0,0,120]) |
translate([(R02_vzdalenost_mezi_uchyty_lopatek+2*L01_sila_zapusteni_drzaku+2*L01_hloubka_zapusteni+2*vule_mezi_statorem_rotorem)/2+R01_sila_materialu_pro_prekriti,0,((R02_sila_mateiralu_pod_lopatkami+L01_hloubka_zapusteni_drzaku)/2)+R01_vyska_preryti_statoru/2]) |
cube([3*R01_sila_materialu_pro_prekriti+L01_tolerance_drzaku,L01_hrana_drzaku_a+L01_tolerance_drzaku,R01_vyska_preryti_statoru+L01_tolerance_drzaku],true); |
translate([(S01_prumer_vnitrni+4*S01_sila_materialu)/2+S01_mezera_mezi_statorem_rotorem,0,R02_sila_mateiralu_pod_lopatkami+L01_hloubka_zapusteni_drzaku+(L01_hloubka_zapusteni_drzaku+L01_hrana_drzaku_b+2+R01_vyska_preryti_statoru+0.01)/2]) |
cube([3*R01_sila_materialu_pro_prekriti+L01_tolerance_drzaku,L01_hrana_drzaku_a+L01_tolerance_drzaku,L01_hloubka_zapusteni_drzaku+L01_hrana_drzaku_b+2+R01_vyska_preryti_statoru+0.01],true); |
//otvor pro lopatku 3 |
rotate(a=[0,0,240]) |
translate([(R02_vzdalenost_mezi_uchyty_lopatek+2*L01_sila_zapusteni_drzaku+2*L01_hloubka_zapusteni)/2-L01_hloubka_zapusteni-L01_sila_zapusteni_drzaku/2,0,((R02_sila_mateiralu_pod_lopatkami+L01_hloubka_zapusteni_drzaku)/2)-L01_hloubka_zapusteni_drzaku/2]) |
translate([(R02_vzdalenost_mezi_uchyty_lopatek+2*L01_sila_zapusteni_drzaku+2*L01_hloubka_zapusteni)/2-L01_hloubka_zapusteni-L01_sila_zapusteni_drzaku/2,0,(R02_sila_mateiralu_pod_lopatkami+L01_hloubka_zapusteni_drzaku/2)]) |
cube([L01_sila_zapusteni_drzaku+L01_tolerance_drzaku,L01_hrana_drzaku_a+L01_tolerance_drzaku,L01_hloubka_zapusteni_drzaku],true); |
rotate(a=[0,0,240]) |
translate([(R02_vzdalenost_mezi_uchyty_lopatek+2*L01_sila_zapusteni_drzaku+2*L01_hloubka_zapusteni+2*vule_mezi_statorem_rotorem)/2+R01_sila_materialu_pro_prekriti,0,((R02_sila_mateiralu_pod_lopatkami+L01_hloubka_zapusteni_drzaku)/2)+R01_vyska_preryti_statoru/2]) |
cube([3*R01_sila_materialu_pro_prekriti+L01_tolerance_drzaku,L01_hrana_drzaku_a+L01_tolerance_drzaku,R01_vyska_preryti_statoru+L01_tolerance_drzaku],true); |
//otvor na hřídelku |
cylinder (h = R02_sila_mateiralu_pod_lopatkami+L01_hloubka_zapusteni_drzaku+0.1, r=prumer_osicky/2, center = true, $fn=100); |
translate([(S01_prumer_vnitrni+4*S01_sila_materialu)/2+S01_mezera_mezi_statorem_rotorem,0,R02_sila_mateiralu_pod_lopatkami+L01_hloubka_zapusteni_drzaku+(L01_hloubka_zapusteni_drzaku+L01_hrana_drzaku_b+2+R01_vyska_preryti_statoru+0.01)/2]) |
cube([3*R01_sila_materialu_pro_prekriti+L01_tolerance_drzaku,L01_hrana_drzaku_a+L01_tolerance_drzaku,L01_hloubka_zapusteni_drzaku+L01_hrana_drzaku_b+2+R01_vyska_preryti_statoru+0.01],true); |
65,6 → 60,6 |
} |
} |
WINDGAUGE02A_R01(R02_sila_mateiralu_pod_lopatkami,L01_hloubka_zapusteni_drzaku,R02_vzdalenost_mezi_uchyty_lopatek,L01_sila_zapusteni_drzaku,L01_hloubka_zapusteni,prumer_pomocne_trubicky,zapusteni_pomocne_trubicky,vule_mezi_statorem_rotorem,R01_vyska_preryti_statoru,R01_sila_materialu_pro_prekriti,S01_sila_materialu,L01_tolerance_drzaku); |
WINDGAUGE02A_R01(); |
/Modules/Mechanical/WINDGAUGE02A/CAD/SRC/WINDGAUGE02A_R02.scad |
---|
5,7 → 5,7 |
PI=3.141592; |
module WINDGAUGE02A_R02(R02_sila_mateiralu_pod_lopatkami,L01_hloubka_zapusteni_drzaku,R02_vzdalenost_mezi_uchyty_lopatek,L01_sila_zapusteni_drzaku,L01_hloubka_zapusteni,prumer_pomocne_trubicky,zapusteni_pomocne_trubicky) |
module WINDGAUGE02A_R02() |
{ |
59,6 → 59,6 |
} |
} |
WINDGAUGE02A_R02(R02_sila_mateiralu_pod_lopatkami,L01_hloubka_zapusteni_drzaku,R02_vzdalenost_mezi_uchyty_lopatek,L01_sila_zapusteni_drzaku,L01_hloubka_zapusteni,prumer_pomocne_trubicky,zapusteni_pomocne_trubicky); |
WINDGAUGE02A_R02(); |
/Modules/Mechanical/WINDGAUGE02A/CAD/SRC/WINDGAUGE02A_R03.scad |
---|
3,20 → 3,19 |
//kryt_rotoru |
module WINDGAUGE02A_R03(R03_sila_materialu,R02_vzdalenost_mezi_uchyty_lopatek,L01_sila_zapusteni_drzaku,L01_hloubka_zapusteni,vule_mezi_statorem_rotorem,R01_sila_materialu_pro_prekriti, |
R02_sila_mateiralu_pod_lopatkami,S01_sila_materialu) |
module WINDGAUGE02A_R03() |
{ |
//kopule |
difference() |
{ |
sphere(r = (R02_vzdalenost_mezi_uchyty_lopatek+2*L01_sila_zapusteni_drzaku+2*L01_hloubka_zapusteni+2*vule_mezi_statorem_rotorem+2*R01_sila_materialu_pro_prekriti+2*R03_sila_materialu+2*S01_sila_materialu)/2, $fn=100); |
sphere(r = (S01_prumer_vnitrni+4*S01_sila_materialu)/2+S01_mezera_mezi_statorem_rotorem+S01_sila_materialu, $fn=100); |
sphere(r = (R02_vzdalenost_mezi_uchyty_lopatek+2*L01_sila_zapusteni_drzaku+2*L01_hloubka_zapusteni+2*vule_mezi_statorem_rotorem+2*R01_sila_materialu_pro_prekriti+2*S01_sila_materialu)/2+0.1, $fn=100); |
sphere(r = (S01_prumer_vnitrni+4*S01_sila_materialu)/2+S01_mezera_mezi_statorem_rotorem-0.2, $fn=100); |
translate([0,0,-(R02_vzdalenost_mezi_uchyty_lopatek+2*L01_sila_zapusteni_drzaku+2*L01_hloubka_zapusteni+2*vule_mezi_statorem_rotorem+2*R01_sila_materialu_pro_prekriti+2*R03_sila_materialu+2*S01_sila_materialu)/2]) |
translate([-((S01_prumer_vnitrni+4*S01_sila_materialu)/2+S01_mezera_mezi_statorem_rotorem+S01_sila_materialu),-((S01_prumer_vnitrni+4*S01_sila_materialu)/2+S01_mezera_mezi_statorem_rotorem+S01_sila_materialu),-2*((S01_prumer_vnitrni+4*S01_sila_materialu)/2+S01_mezera_mezi_statorem_rotorem+S01_sila_materialu)]) |
cube(size = [(R02_vzdalenost_mezi_uchyty_lopatek+2*L01_sila_zapusteni_drzaku+2*L01_hloubka_zapusteni+2*vule_mezi_statorem_rotorem+2*R01_sila_materialu_pro_prekriti+2*R03_sila_materialu+2*S01_sila_materialu), (R02_vzdalenost_mezi_uchyty_lopatek+2*L01_sila_zapusteni_drzaku+2*L01_hloubka_zapusteni+2*vule_mezi_statorem_rotorem+2*R01_sila_materialu_pro_prekriti+2*R03_sila_materialu+2*S01_sila_materialu), (R02_vzdalenost_mezi_uchyty_lopatek+2*L01_sila_zapusteni_drzaku+2*L01_hloubka_zapusteni+2*vule_mezi_statorem_rotorem+2*R01_sila_materialu_pro_prekriti+2*R03_sila_materialu+2*S01_sila_materialu)], center = true); |
cube(size = [2*((S01_prumer_vnitrni+4*S01_sila_materialu)/2+S01_mezera_mezi_statorem_rotorem+S01_sila_materialu), 2*((S01_prumer_vnitrni+4*S01_sila_materialu)/2+S01_mezera_mezi_statorem_rotorem+S01_sila_materialu), 2*((S01_prumer_vnitrni+4*S01_sila_materialu)/2+S01_mezera_mezi_statorem_rotorem+S01_sila_materialu)]); |
} |
29,14 → 28,14 |
translate([0,0,- |
R02_sila_mateiralu_pod_lopatkami/2]) |
cylinder (h = |
R02_sila_mateiralu_pod_lopatkami, r=(R02_vzdalenost_mezi_uchyty_lopatek+2*L01_sila_zapusteni_drzaku+2*L01_hloubka_zapusteni+2*vule_mezi_statorem_rotorem+2*R01_sila_materialu_pro_prekriti+2*R03_sila_materialu+2*S01_sila_materialu)/2, center = true, $fn=100); |
R02_sila_mateiralu_pod_lopatkami, r=(S01_prumer_vnitrni+4*S01_sila_materialu)/2+S01_mezera_mezi_statorem_rotorem+S01_sila_materialu, center = true, $fn=100); |
//válec pro vykrojení |
translate([0,0,-R02_sila_mateiralu_pod_lopatkami/2]) |
cylinder (h = R02_sila_mateiralu_pod_lopatkami+0.01, r=(R02_vzdalenost_mezi_uchyty_lopatek+2*L01_sila_zapusteni_drzaku+2*L01_hloubka_zapusteni+2*vule_mezi_statorem_rotorem+2*R01_sila_materialu_pro_prekriti+2*S01_sila_materialu)/2+0.01, center = true, $fn=100); |
cylinder (h = R02_sila_mateiralu_pod_lopatkami+0.01, r=(S01_prumer_vnitrni+4*S01_sila_materialu)/2+S01_mezera_mezi_statorem_rotorem-0.2, center = true, $fn=100); |
} |
} |
WINDGAUGE02A_R03(R03_sila_materialu,R02_vzdalenost_mezi_uchyty_lopatek,L01_sila_zapusteni_drzaku,L01_hloubka_zapusteni,vule_mezi_statorem_rotorem,R01_sila_materialu_pro_prekriti,R02_sila_mateiralu_pod_lopatkami,S01_sila_materialu); |
WINDGAUGE02A_R03(); |
/Modules/Mechanical/WINDGAUGE02A/CAD/SRC/WINDGAUGE02A_S01.scad |
---|
1,122 → 1,120 |
$fn=40; // model faces resolution. |
include <../configuration.scad> |
include <polyScrewThread_r1.scad> |
PI=3.141592; |
S01_vyska=80; |
S01_prumer_vnitrni=30; |
S01_sila_materialu=2; |
S01_vyska_horni_zavit=10; |
S01_vyska_spodniho_zavitu=10; |
S01_sila_drzaku_RJ11=2; |
module WINDGAUGE02A_S01(S01_vyska,S01_prumer_vnitrni,S01_sila_materialu) |
{ |
difference() |
{ |
union() |
{ |
//základní válec |
cylinder (h = S01_vyska-S01_vyska_horni_zavit, r=(S01_prumer_vnitrni)/2+S01_sila_materialu, $fn=100); |
//horní závit |
translate([0,0,S01_vyska-S01_vyska_horni_zavit]) |
screw_thread((S01_prumer_vnitrni+2*S01_sila_materialu),S01_hloubka_zavitu,55,S01_vyska_horni_zavit,PI/2,2); |
} |
//vystouplá část |
translate([0,0,S01_vyska_spodniho_zavitu+S01_sila_drzaku_RJ11-0.3]) |
cylinder (h = S01_sila_drzaku_RJ11, r=(S01_prumer_vnitrni)/2-1-S01_hloubka_zavitu/2, $fn=100); |
//otvor na drzak rj11 |
translate([0,0,S01_vyska_spodniho_zavitu]) |
cylinder (h = S01_sila_drzaku_RJ11-0.3, r=(S01_prumer_vnitrni)/2-S01_hloubka_zavitu/2, $fn=100); |
//spodní závit |
screw_thread((S01_prumer_vnitrni),S01_hloubka_zavitu,55,S01_vyska_spodniho_zavitu+0.01,PI/2,2); |
//otvor skrz |
translate([0,0,S01_vyska_spodniho_zavitu+2*S01_sila_drzaku_RJ11-0.3]) |
cylinder (h = S01_vyska, r=(S01_prumer_vnitrni)/2-1, $fn=100); |
cube(100); // cut to show internal relief |
} |
} |
WINDGAUGE02A_S01(S01_vyska,S01_prumer_vnitrni,S01_sila_materialu); |
/* |
module WINDGAUGE02A_S01(R02_vzdalenost_mezi_uchyty_lopatek,L01_sila_zapusteni_drzaku,L01_hloubka_zapusteni,S01_vyska_zuzene_casti,S01_vyska_na_elektroniku,S01_vyska_zavitu_na_nasroubovani_drzaku,S01_vyska_prechodu,vule_mezi_statorem_rotorem,S01_vyska_zavitu_na_nasroubovani_drzaku,S01_sila_materialu) |
{ |
//zuzena cas komponentu |
translate([0,0,(S01_vyska_na_elektroniku+S01_vyska_zavitu_na_nasroubovani_drzaku+2*S01_vyska_komponentu_na_lozisko+S01_vyska_zuzene_casti)/2+S01_vyska_prechodu]) |
difference() |
{ |
cylinder (h = S01_vyska_zuzene_casti, r=(R02_vzdalenost_mezi_uchyty_lopatek+2*L01_sila_zapusteni_drzaku+2*L01_hloubka_zapusteni+2*vule_mezi_statorem_rotorem+2*S01_sila_materialu)/2, center = true, $fn=100); |
translate([0,0,-S01_vyska_zuzene_casti/2+S01_vyska_zuzene_casti-R02_sila_mateiralu_pod_lopatkami-S01_vyska_komponentu_na_lozisko]) |
screw_thread((R02_vzdalenost_mezi_uchyty_lopatek+2*L01_sila_zapusteni_drzaku+2*L01_hloubka_zapusteni+2*vule_mezi_statorem_rotorem),S01_hloubka_zavitu,55,S01_vyska_zuzene_casti+0.01,PI/2,2); |
translate([0,0,-(S01_vyska_zuzene_casti/2)+(S01_vyska_zuzene_casti-R02_sila_mateiralu_pod_lopatkami-S01_vyska_komponentu_na_lozisko)/2]) |
cylinder (h = S01_vyska_zuzene_casti-R02_sila_mateiralu_pod_lopatkami-S01_vyska_komponentu_na_lozisko+0.01, r=(R02_vzdalenost_mezi_uchyty_lopatek+2*L01_sila_zapusteni_drzaku+2*L01_hloubka_zapusteni+2*vule_mezi_statorem_rotorem)/2, center = true, $fn=100); |
//translate([0,0,(stator3_vyska-stator3_vyska_prekryti)/2]) |
} |
difference() |
{ |
translate([0,0,(S01_vyska_na_elektroniku+S01_vyska_zavitu_na_nasroubovani_drzaku+2*S01_vyska_komponentu_na_lozisko+S01_vyska_prechodu)/2]) |
cylinder(h=S01_vyska_prechodu,r1=(S01_prumer_zavitu+2*S01_sila_materialu)/2, r2=(R02_vzdalenost_mezi_uchyty_lopatek+2*L01_sila_zapusteni_drzaku+2*L01_hloubka_zapusteni+2*vule_mezi_statorem_rotorem+2*S01_sila_materialu)/2, center=true); |
translate([0,0,(S01_vyska_na_elektroniku+S01_vyska_zavitu_na_nasroubovani_drzaku+2*S01_vyska_komponentu_na_lozisko+S01_vyska_prechodu)/2]) |
cylinder(h=S01_vyska_prechodu,r1=(S01_prumer_zavitu)/2, r2=(R02_vzdalenost_mezi_uchyty_lopatek+2*L01_sila_zapusteni_drzaku+2*L01_hloubka_zapusteni+2*vule_mezi_statorem_rotorem)/2, center=true); |
} |
//spodni cast se zavitem |
difference() |
{ |
cylinder (h = S01_vyska_na_elektroniku+S01_vyska_zavitu_na_nasroubovani_drzaku+2*S01_vyska_komponentu_na_lozisko, r=(S01_prumer_zavitu+2*S01_sila_materialu)/2, center = true, $fn=100); |
translate([0,0,-(S01_vyska_na_elektroniku+S01_vyska_zavitu_na_nasroubovani_drzaku+2*S01_vyska_komponentu_na_lozisko)/2]) |
// metric_thread (diameter=S01_prumer_zavitu, pitch=1, length=S01_vyska_na_elektroniku+S01_vyska_zavitu_na_nasroubovani_drzaku+2*S01_vyska_komponentu_na_lozisko+0.01, internal=true, n_starts=6); |
screw_thread(S01_prumer_zavitu,4,55,S01_vyska_na_elektroniku+S01_vyska_zavitu_na_nasroubovani_drzaku+2*S01_vyska_komponentu_na_lozisko+0.01,PI/2,2); |
} |
} |
*/ |
$fn=40; // model faces resolution. |
include <../configuration.scad> |
include <polyScrewThread_r1.scad> |
PI=3.141592; |
module WINDGAUGE02A_S01() |
{ |
difference() |
{ |
union() |
{ |
//základní válec |
cylinder (h = S01_vyska, r=(S01_prumer_vnitrni)/2+S01_sila_materialu, $fn=100); |
} |
//horní závit |
translate([0,0,S01_vyska-S01_vyska_horni_zavit]) |
screw_thread(S01_prumer_vnitrni,S01_hloubka_zavitu,55,S01_vyska_horni_zavit,PI/2,2); |
//otvor na drzak rj11 |
translate([0,0,S01_vyska_spodniho_zavitu+S01_sila_drzaku_RJ11-0.3]) |
cylinder( 2*S01_sila_drzaku_RJ11, d1=(S01_prumer_vnitrni)-1-1.5*S01_hloubka_zavitu,d2=(S01_prumer_vnitrni) ); |
translate([0,0,S01_vyska_spodniho_zavitu]) |
cylinder (h = S01_sila_drzaku_RJ11-0.3, r=(S01_prumer_vnitrni)/2-S01_hloubka_zavitu/2+0.5, $fn=100); |
//spodní závit |
screw_thread((S01_prumer_vnitrni),S01_hloubka_zavitu,55,S01_vyska_spodniho_zavitu+0.01,PI/2,2); |
//otvor skrz |
translate([0,0,S01_vyska_spodniho_zavitu+3*S01_sila_drzaku_RJ11-0.3]) |
cylinder (h = S01_vyska-S01_vyska_horni_zavit-(S01_vyska_spodniho_zavitu+3*S01_sila_drzaku_RJ11-0.3), r=(S01_prumer_vnitrni)/2, $fn=100); |
cube(300); // cut to show internal relief |
} |
} |
WINDGAUGE02A_S01(); |
/* |
module WINDGAUGE02A_S01(R02_vzdalenost_mezi_uchyty_lopatek,L01_sila_zapusteni_drzaku,L01_hloubka_zapusteni,S01_vyska_zuzene_casti,S01_vyska_na_elektroniku,S01_vyska_zavitu_na_nasroubovani_drzaku,S01_vyska_prechodu,vule_mezi_statorem_rotorem,S01_vyska_zavitu_na_nasroubovani_drzaku,S01_sila_materialu) |
{ |
//zuzena cas komponentu |
translate([0,0,(S01_vyska_na_elektroniku+S01_vyska_zavitu_na_nasroubovani_drzaku+2*S01_vyska_komponentu_na_lozisko+S01_vyska_zuzene_casti)/2+S01_vyska_prechodu]) |
difference() |
{ |
cylinder (h = S01_vyska_zuzene_casti, r=(R02_vzdalenost_mezi_uchyty_lopatek+2*L01_sila_zapusteni_drzaku+2*L01_hloubka_zapusteni+2*vule_mezi_statorem_rotorem+2*S01_sila_materialu)/2, center = true, $fn=100); |
translate([0,0,-S01_vyska_zuzene_casti/2+S01_vyska_zuzene_casti-R02_sila_mateiralu_pod_lopatkami-S01_vyska_komponentu_na_lozisko]) |
screw_thread((R02_vzdalenost_mezi_uchyty_lopatek+2*L01_sila_zapusteni_drzaku+2*L01_hloubka_zapusteni+2*vule_mezi_statorem_rotorem),S01_hloubka_zavitu,55,S01_vyska_zuzene_casti+0.01,PI/2,2); |
translate([0,0,-(S01_vyska_zuzene_casti/2)+(S01_vyska_zuzene_casti-R02_sila_mateiralu_pod_lopatkami-S01_vyska_komponentu_na_lozisko)/2]) |
cylinder (h = S01_vyska_zuzene_casti-R02_sila_mateiralu_pod_lopatkami-S01_vyska_komponentu_na_lozisko+0.01, r=(R02_vzdalenost_mezi_uchyty_lopatek+2*L01_sila_zapusteni_drzaku+2*L01_hloubka_zapusteni+2*vule_mezi_statorem_rotorem)/2, center = true, $fn=100); |
//translate([0,0,(stator3_vyska-stator3_vyska_prekryti)/2]) |
} |
difference() |
{ |
translate([0,0,(S01_vyska_na_elektroniku+S01_vyska_zavitu_na_nasroubovani_drzaku+2*S01_vyska_komponentu_na_lozisko+S01_vyska_prechodu)/2]) |
cylinder(h=S01_vyska_prechodu,r1=(S01_prumer_zavitu+2*S01_sila_materialu)/2, r2=(R02_vzdalenost_mezi_uchyty_lopatek+2*L01_sila_zapusteni_drzaku+2*L01_hloubka_zapusteni+2*vule_mezi_statorem_rotorem+2*S01_sila_materialu)/2, center=true); |
translate([0,0,(S01_vyska_na_elektroniku+S01_vyska_zavitu_na_nasroubovani_drzaku+2*S01_vyska_komponentu_na_lozisko+S01_vyska_prechodu)/2]) |
cylinder(h=S01_vyska_prechodu,r1=(S01_prumer_zavitu)/2, r2=(R02_vzdalenost_mezi_uchyty_lopatek+2*L01_sila_zapusteni_drzaku+2*L01_hloubka_zapusteni+2*vule_mezi_statorem_rotorem)/2, center=true); |
} |
//spodni cast se zavitem |
difference() |
{ |
cylinder (h = S01_vyska_na_elektroniku+S01_vyska_zavitu_na_nasroubovani_drzaku+2*S01_vyska_komponentu_na_lozisko, r=(S01_prumer_zavitu+2*S01_sila_materialu)/2, center = true, $fn=100); |
translate([0,0,-(S01_vyska_na_elektroniku+S01_vyska_zavitu_na_nasroubovani_drzaku+2*S01_vyska_komponentu_na_lozisko)/2]) |
// metric_thread (diameter=S01_prumer_zavitu, pitch=1, length=S01_vyska_na_elektroniku+S01_vyska_zavitu_na_nasroubovani_drzaku+2*S01_vyska_komponentu_na_lozisko+0.01, internal=true, n_starts=6); |
screw_thread(S01_prumer_zavitu,4,55,S01_vyska_na_elektroniku+S01_vyska_zavitu_na_nasroubovani_drzaku+2*S01_vyska_komponentu_na_lozisko+0.01,PI/2,2); |
} |
} |
*/ |
/Modules/Mechanical/WINDGAUGE02A/CAD/SRC/WINDGAUGE02A_S02.scad |
---|
19,11 → 19,20 |
difference() |
{ |
cylinder (h = S01_vyska_horni_zavit+S01_sila_materialu, r=(S01_prumer_vnitrni+4*S01_sila_materialu)/2+S01_tolerance_zavit/2, $fn=100); |
union() { |
translate([0,0,S01_sila_materialu]) |
screw_thread((S01_prumer_vnitrni+2*S01_sila_materialu+S01_tolerance_zavit),S01_hloubka_zavitu,55,S01_vyska_horni_zavit,PI/2,2); |
screw_thread((S01_prumer_vnitrni-S01_tolerance_zavit),S01_hloubka_zavitu,55,S01_vyska_horni_zavit,PI/2,2); |
//spodní doraz |
cylinder (h = S01_sila_materialu, r=S01_prumer_vnitrni/2+S01_sila_materialu, $fn=100); |
} |
//odstranění vnitřní výplně |
translate([0,0,S01_sila_materialu]) |
cylinder (h = S01_vyska_horni_zavit+0.01, r=S01_prumer_vnitrni/2-S01_hloubka_zavitu/2-S01_sila_materialu, $fn=100); |
//otvor na pruchod hridelky |
translate([0,0,S01_sila_materialu/2]) |
cylinder (h = S01_sila_materialu+0.01, r=(lozisko_prumer_vnitrni+0.2)/2+lozisko_prekryv, center = true, $fn=100); |
80,6 → 89,9 |
} |
} |
} |
/Modules/Mechanical/WINDGAUGE02A/CAD/assembly.scad |
---|
30,7 → 30,7 |
color(barva_D01) |
translate([0,0,0]) |
WINDGAUGE02A_D01(S01_vyska_komponentu_na_lozisko,S01_prumer_zavitu,D01_material_pod_zavitem,D01_material_za_zavitem,D01_material_pred_zavitem,D01_delka_tyce,D01_sirka_tyce,D02_sila_materialu,D02_vyska_uchytky,D02_prumer_obruby,D02_delka_celeho_uchytu,D02_dotahova_vzdalenost,D02_prumer_uchytneho_sroubu,S01_tolerance_zavit); |
WINDGAUGE02A_D01(); |
//WINDGAUGE02A_D02 DRŽÁK druhy dil |
/Modules/Mechanical/WINDGAUGE02A/CAD/configuration.scad |
---|
4,21 → 4,21 |
//---------------------------------------------------------------- |
//---------------------------------------------------------------- |
//S01 |
S01_vyska=80; |
S01_hloubka_zavitu=4; |
S01_vyska=80; //80 |
S01_prumer_vnitrni=40; |
S01_sila_materialu=2; |
S01_sila_materialu=1.3; |
S01_vyska_horni_zavit=10; |
S01_vyska_spodniho_zavitu=10; |
S01_sila_drzaku_RJ11=2; |
S01_tolerance_zavit=1.5; |
S01_mezera_mezi_statorem_rotorem=1.5; |
//Obecné parametry |
prumer_osicky=5.1; |
prumer_pomocne_trubicky=8; |
zapusteni_pomocne_trubicky=3; |
vule_mezi_statorem_rotorem=3; //vůle mezi statorem a rotorem + sila materialu statoru |
//rozmery modulu se senzorem |
senzor_delka=20.32; |
senzor_sirka=10.16; |
50,11 → 50,11 |
//WINDGAUGE02A_S01 |
S01_vyska=5; |
//WINDGAUGE02A_L01 //pro lopatku |
L01_hloubka_zapusteni=3; |
L01_hloubka_zapusteni_drzaku=3; |
88,7 → 88,7 |
//WINDGAUGE02A_R01 //rotor s prekritim statoru |
R01_vyska_preryti_statoru=10; |
R01_vyska_preryti_statoru=20; |
R01_sila_materialu_pro_prekriti=1.3; |
//WINDGAUGE02A_R02 //rotor spodni dil |
103,16 → 103,6 |
//WINDGAUGE02A_R05 //drzak magnetu |
R05_sirka_matky=10; |
//WINDGAUGE02A_S01 //stator |
S01_sila_materialu=1.3; |
S01_vyska_zuzene_casti=20; |
S01_vyska_komponentu_na_lozisko=15; |
S01_vyska_zavitu_na_nasroubovani_drzaku=15; |
S01_vyska_na_elektroniku=35; |
S01_prumer_zavitu=64; |
S01_tolerance_zavit=1.5; |
S01_hloubka_zavitu=4; |
S01_vyska_prechodu=20; |
124,77 → 114,15 |
//kryt rotoru |
sila_materialu_krytu=1; |
//stator1 |
stator1_sila=2; |
//stator2 |
sila_pod_loziskem=1; |
//stator3 |
stator3_sila_steny=2; |
stator3_vzdalenost_od_steny=1; //definuje vzdalenost hlavy sroubu od steny statrou 4 |
stator3_vyska=60; |
stator3_vyska_prekryti=10; |
//uchyt pro anemometr |
uchyt_prumer_sroubu=3.2; |
roztec_sroubu=10.16; |
//nastevní rotoru2 |
vzdalenost_rot_stat=2; //vzdálenost mezi statorem a rotorem uvnitř(osa Z) |
vzdalenost_rot_stat2=1.5;//vzdálenost mezi statorem a rotorem (osa Z) |
//lopatka |
hloubka_uchytu=20; |
sila_uchytu=12; |
vyska_uchytu=10; |
tolerance_uchytu=0.2; |
delka_uchytu_lopatky=20; |
hrana_uchytu_lopatky=4; |
prumer_lopatky=50; |
sila_materialu_lopatky=0.8; |
//parametry uchytu senzoru |
roztec_der=10.16; |
vzdalenost_der_x=2*roztec_der; |
vzdalenost_der_y=1*roztec_der; |
//magnet |
magnet_prumer=6.3; |
magnet_vyska=5; |
magnet_zapusteni=2; |
vyska_pod_magnetem=5; |
//rotor2 |
delka_hridele=5; //delka hridele koukající ve statoru |
//rotor2 |
vyska_kryti=stator1_sila+vyska_matky+vzdalenost_rot_stat+stator3_vyska_prekryti-vzdalenost_rot_stat2; //udává výšku krycího prstence |
vule1=1.5; //vůle mezi statorem a rotorem ze vnitř (z boku) |
//uchyt pro anemometr |
uchyt_prumer_sroubu=3.2; |
roztec_sroubu=20; |
//stator 4 |
vyska_stator4=5; |
uchyt_vyska_matky=3; |
uchyt_prumer_orechu=10; |
//parametr kabelu |
kabel_prumer=10; |