/Modules/Mechanical/WINDGAUGE01A/CAD/stator1.scad
5,6 → 5,7
vyska_rotoru2=5;
prumer_sroubu=3.2;
vyska_matky=3;
sirka_matky=6;
prumer_orechu=10;
sila_materialu=3;
sila_materialu_vule=0.2;
16,6 → 17,14
lozisko_vyska=5;
lozisko_prekryv=1.5;
 
//stator1
stator1_sila=2;
 
//stator1
sila_pod_loziskem=1;
 
 
 
//nastevní rotoru2
vyska_kryti=5;
 
25,54 → 34,46
vyska_uchytu=10;
tolerance_uchytu=0.1;
 
 
 
 
 
 
 
 
 
 
difference()
{
union ()
{
cylinder (h = vyska_rotoru2, r=prumer_rotoru1/2, center = true, $fn=100);
 
cylinder (h = stator1_sila, r=(lozisko_prumer_vnejsi+10+sirka_matky)/2, center = true, $fn=100);
 
//kryci kroužek
translate([0,0,-(vyska_rotoru2)/2-(vyska_kryti)/2])
komponent2();
}
//otvor pro hridel rotoru
translate([0,0,0])
cylinder (h = stator1_sila+0.1, r=(lozisko_prumer_vnitrni+2*lozisko_prekryv+2)/2, center = true, $fn=100);
//otvor pro sroub 1
translate([(lozisko_prumer_vnejsi+prumer_sroubu+5)/2,0,0])
cylinder (h = stator1_sila+0.1, r=prumer_sroubu/2, center = true, $fn=100);
 
//otvory pro uchyceni krytky rotoru
translate([0,0,hloubka_prekryti/2])
cylinder (h = vyska_rotoru1+0.1, r=prumer_sroubu/2, center = true, $fn=100);
//otvor pro sroub 2
rotate(a=[0,0,120])
translate([(lozisko_prumer_vnejsi+prumer_sroubu+5)/2,0,0])
 
translate([0,0,-(vyska_rotoru1-hloubka_prekryti)/2+vyska_matky/2])
cylinder (h = vyska_matky+0.1, r=prumer_orechu/2, center = true, $fn=100);
cylinder (h = stator1_sila+0.1, r=prumer_sroubu/2, center = true, $fn=100);
//otvor pro sroub 3
rotate(a=[0,0,240])
translate([(lozisko_prumer_vnejsi+prumer_sroubu+5)/2,0,0])
 
cylinder (h = stator1_sila+0.1, r=prumer_sroubu/2, center = true, $fn=100);
//otvor pro uchyceni prvni lopatky
translate([hloubka_uchytu/2+(prumer_rotoru1/2-hloubka_uchytu),0,0])
cylinder (h = vyska_rotoru1+0.1, r=prumer_sroubu/2, center = true, $fn=100);
 
translate([hloubka_uchytu/2+(prumer_rotoru1/2-hloubka_uchytu),0,-(vyska_rotoru2)/2+vyska_matky/2])
cylinder (h = vyska_matky+0.1, r=prumer_orechu/2, center = true, $fn=100);
 
//otvor pro uchyceni druhe lopatky
rotate(a=[0,0,120])
translate([hloubka_uchytu/2+(prumer_rotoru1/2-hloubka_uchytu),0,0])
cylinder (h = vyska_rotoru1+0.1, r=prumer_sroubu/2, center = true, $fn=100);
 
rotate(a=[0,0,120])
translate([hloubka_uchytu/2+(prumer_rotoru1/2-hloubka_uchytu),0,-(vyska_rotoru2)/2+vyska_matky/2])
cylinder (h = vyska_matky+0.1, r=prumer_orechu/2, center = true, $fn=100);
 
//otvor pro uchyceni treti lopatky
rotate(a=[0,0,240])
translate([hloubka_uchytu/2+(prumer_rotoru1/2-hloubka_uchytu),0,0])
cylinder (h = vyska_rotoru1+0.1, r=prumer_sroubu/2, center = true, $fn=100);
 
rotate(a=[0,0,240])
translate([hloubka_uchytu/2+(prumer_rotoru1/2-hloubka_uchytu),0,-(vyska_rotoru2)/2+vyska_matky/2])
cylinder (h = vyska_matky+0.1, r=prumer_orechu/2, center = true, $fn=100);
}
 
81,16 → 82,3
 
 
 
module komponent2()
{
difference ()
{
cylinder (h = vyska_kryti, r=(prumer_rotoru1/2), center = true, $fn=100);
cylinder (h = vyska_kryti+0.1, r=(prumer_rotoru1/2-sila_materialu), center = true, $fn=100);
}
}
/Modules/Mechanical/WINDGAUGE01A/CAD/stator2.scad
0,0 → 1,128
$fn=40; // model faces resolution.
 
prumer_rotoru1=60;
vyska_rotoru1=5;
vyska_rotoru2=5;
prumer_sroubu=3.2;
prumer_hlavy_sroubu=6;
vyska_matky=3;
sirka_matky=6;
prumer_orechu=10;
sila_materialu=3;
sila_materialu_vule=0.2;
hloubka_prekryti=2;
 
//lozisko
lozisko_prumer_vnitrni=5;
lozisko_prumer_vnejsi=16;
lozisko_vyska=5;
lozisko_prekryv=1.5;
 
//stator1
stator1_sila=2;
 
//stator2
sila_pod_loziskem=1;
 
//stator3
stator3_sila_steny=2;
stator3_vzdalenost_od_steny=2; //definuje vzdalenost hlavy sroubu od steny statrou 4
 
vule1=2; //vůle mezi statorem a rotorem ze strany
 
//nastevní rotoru2
vyska_kryti=5;
 
//lopatka
hloubka_uchytu=20;
sila_uchytu=12;
vyska_uchytu=10;
tolerance_uchytu=0.1;
 
//parametry uchytu senzoru
roztec_der=10.16;
vzdalenost_der_x=2*roztec_der;
vzdalenost_der_y=1*roztec_der;
 
 
 
 
 
 
 
 
 
difference()
{
cylinder (h = lozisko_vyska+sila_pod_loziskem, r=(prumer_rotoru1-2*sila_materialu-2*vule1-stator3_sila_steny)/2, center = true, $fn=100);
 
//otvor pro lozisko
translate([0,0,sila_pod_loziskem])
cylinder (h = lozisko_vyska+0.1, r=(lozisko_prumer_vnejsi+0.1)/2, center = true, $fn=100);
//otvor pro hridel rotoru
translate([0,0,0])
cylinder (h = lozisko_vyska+sila_pod_loziskem+0.1, r=(lozisko_prumer_vnitrni+2*lozisko_prekryv+2)/2, center = true, $fn=100);
//otvor pro sroub 1
translate([(lozisko_prumer_vnejsi+prumer_sroubu+5)/2,0,0])
cylinder (h = lozisko_vyska+sila_pod_loziskem+0.1, r=prumer_sroubu/2, center = true, $fn=100);
 
//otvor pro sroub 2
rotate(a=[0,0,120])
translate([(lozisko_prumer_vnejsi+prumer_sroubu+5)/2,0,0])
 
cylinder (h = lozisko_vyska+sila_pod_loziskem+0.1, r=prumer_sroubu/2, center = true, $fn=100);
//otvor pro sroub 3
rotate(a=[0,0,240])
translate([(lozisko_prumer_vnejsi+prumer_sroubu+5)/2,0,0])
 
cylinder (h = lozisko_vyska+sila_pod_loziskem+0.1, r=prumer_sroubu/2, center = true, $fn=100);
//otvory pro uchyceni senzoru
//otvor pro sroub 1
rotate(a=[0,0,0])
translate([(vzdalenost_der_x/2),-vzdalenost_der_y/2,0])
 
cylinder (h = lozisko_vyska+sila_pod_loziskem+0.1, r=prumer_sroubu/2, center = true, $fn=100);
 
//otvor pro sroub 1
rotate(a=[0,0,0])
translate([(-vzdalenost_der_x/2),-vzdalenost_der_y/2,0])
 
cylinder (h = lozisko_vyska+sila_pod_loziskem+0.1, r=prumer_sroubu/2, center = true, $fn=100);
 
//otvor pro sroub 1
rotate(a=[0,0,0])
translate([(vzdalenost_der_x/2),vzdalenost_der_y/2,0])
 
cylinder (h = lozisko_vyska+sila_pod_loziskem+0.1, r=prumer_sroubu/2, center = true, $fn=100);
 
//otvor pro sroub 1
rotate(a=[0,0,0])
translate([(-vzdalenost_der_x/2),vzdalenost_der_y/2,0])
 
cylinder (h = lozisko_vyska+sila_pod_loziskem+0.1, r=prumer_sroubu/2, center = true, $fn=100);
 
 
 
 
 
 
 
 
//otvory pro uchyceni stator 3
//otvor pro sroub 1
translate([0,(prumer_rotoru1-2*sila_materialu-2*vule1-2*stator3_sila_steny-prumer_hlavy_sroubu-2*stator3_vzdalenost_od_steny)/2,0])
cylinder (h = lozisko_vyska+sila_pod_loziskem+0.1, r=3, center = true, $fn=100);
 
 
}