Rodless Cylinder for Vacuum Series CYV ø15, ø32 g x (L + B) x 103 Yaw moment M3 = m x g x (L + A) x 103 Roll moment M2 = m x g x (L + B) x 103 (mm) Model CYV15 CYV32 A 16.5 27.0 B 25.5 48.0 L B L B L A M1, 2, 3 : Moment [Nm] m: Load mass [kg] L: Distance to load center of gravity [mm] A, B: Distance to guide shaft [mm] g: Gravitational acceleration [9.8 m/s2] M2 M1 M3 m x g m x g Guide shaft mounting surface m x g Central axis of guide
= 300 W = 400 W = 500 LAT3m-10 120 250 W = 400 W = 500 300 100 5 LAT3m-20 Frequency [cpm] Frequency [cpm] Allowable thrust setting value 150 200 120 250 W = 300 LAT3m-30 4 200 150 200 150 W = 0 W = 100 W = 200 200 150 300 100 W = 0 W = 100 W = 200 3 300 100 600 50 600 50 2 0 0 0 5 10 15 20 25 30 Stroke(Positioning distance) St [mm] 0 5 10 15 20 25 30 Stroke(Positioning distance) St [mm] 1
M5 x 0.8 U W 633 4 port direct operated poppet solenoid valve 10-VQD1000 Dimensions L plug connector: 10-VQD1121-L-M5 M plug connector: 10-VQD1121-M-M5 Lead wire length 300 mm 2-M5 x 0.8 4(A), 2(B) port Direct manual override Indicator light 0.5 0.5 4 (11) 11 2 5.5 0.6 0.6 15 5.3 5.3 13 34 33 25.5 29 6 3 L plug connector (L) 21.5 4 2-3.5 mounting hole 28.5 49 50.5 2-M5 x 0.8 1 (P), 3 (R)
Coordinates and Moments z M3: Yawing MX MTS MY CY M1: Pitching y x MG CX M2: Rolling DStatic Moment -X Ceiling mounting Horizontal mounting Wall mounting 20Data M1 M2 M2 M1 M2 M3 y X x Y y z X x Y X x Z m1 x g m2 x g m3 x g Vertical mounting Mounting orientation Horizontal Ceiling Wall Vertical m1 m2 m3 m4 Static load m M3 M1 m1 x g x X m2 x g x X m4 x g x Z Static moment M1 m1 x g x Y m2
m3 x g Vertical mounting Mounting orientation Horizontal Ceiling Wall Vertical m1 m2 m3 m4 Static load m M3 M1 m1 x g x X m2 x g x X m4 x g x Z Static moment M1 m1 x g x Y m2 x g x Y m3 x g x Z y z M2 z Y m3 x g x X m4 x g x Y M3 m4 x g g: Gravitational acceleration Dynamic Moment z Mounting orientation Horizontal Ceiling Wall Vertical M1 x a x mn x g 1.4 100 Dynamic load FE 1 3 a Dynamic
14 0 1 0 1 0 1 0 1 0 1 15 (1/2B) 4 x M10 x 1.5 4 x M10 x 1.5 4 x M12 x 1.75 4 x M12 x 1.75 4 x M16 x 2 4 x M16 x 2 4 x M20 x 2.5 4 x M22 x 2.5 20 (3/4B) 0 250 73 330 177 80 57 8.7 108 135 2 x M10 x 1.5 18 25 (1B) 32 (1 1/4B) 0 50 342 87 435 255 80 57 12.2 105 150 4 x M10 x 1.5 18 40 (1 1/2B) 50 (2B) 0 60 448 94 540 354 92 65 18.1 120 160 4 x M12 x 1.75 22 65 (2 1/2B) 25 40 504 119 615 385
Weight calculation m2 = d x e x f x Relative density m2 = 4 x 5 + 6 x 2.7 x 10-6 = 3.24 x 10-4 (kg) Inertial moment around Z2 axis IZ2 = {m2 (d2 x e2) / 12} x 10-6 IZ2 = {3.24 x 10-4 x (42 + 52) / 12} x 10-6 = 1.11 x 10-9 (kg.m2) = 1.11 x 10-9 + 3.24 x 10-4 x 23.52 x 10-6 = 0.18 x 10-6 (kg.m2) Inertial moment around Z axis IB = IZ2 x m2r22 x 10-6 IB Thus, the total inertial moment is I
Weight calculation m2 = d x e x f x Relative density m2 = 4 x 5 + 6 x 2.7 x 10-6 = 3.24 x 10-4 (kg) Inertial moment around Z2 axis IZ2 = {m2 (d2 x e2) / 12} x 10-6 IZ2 = {3.24 x 10-4 x (42 + 52) / 12} x 10-6 = 1.11 x 10-9 (kg.m2) = 1.11 x 10-9 + 3.24 x 10-4 x 23.52 x 10-6 = 0.18 x 10-6 (kg.m2) Inertial moment around Z axis IB = IZ2 x m2r22 x 10-6 IB Thus, the total inertial moment is I
W Line name 9th letter Y U8 0x00 Refer to Figure "Line name communication data (7 seg)". (0) 1 R/W Line name 1st letter dot Y U8 0x00 0: OFF (dot OFF) 1: ON (dot ON) (0) 2 R/W Line name 2nd letter dot Y U8 0x00 0: OFF (dot OFF) 1: ON (dot ON) (0) 3 R/W Line name 3rd letter dot Y U8 0x00 0: OFF (dot OFF) 1: ON (dot ON) (0) 4 R/W Line name 4th letter dot Y U8 0x00 0: OFF (dot OFF) 1: ON (dot
5 q t t r u u i i r y y w !6 w Meter-in type Meter-out type Meter-out type Meter-in type Seal method: Face seal For G thread e o !3 !1 !0 !4 !2 !5 q t u i r y !7 w Meter-in type Meter-out type Component Parts No.
a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a , a a a a a a a The use of compact spacer w th bracket reduces the lotal assembled space X lmproved f low characteristics X Built-in gauges Model Beduction New old \mm) X Easier assembly AC10 AC1000 4 AC20 AC2000 14 AC25 AC2s00 1 4 AC30 AC3000 AC40 AC4000 1 4 '18 X lmproved ozone resistance I Larger bowl capacities S lmproved
Load factor: ( (Load weight x 9.8) /Theoretical force) x 100% Conditions Series CJ2 Series CM2 6 x 1 m AS3301F-06 8 x 1 m AS3301F-08 AN110-01 Series MB/CA2 Series CJ2 Series CM2 4 x 1 m Series MB/CA2 Body ported Tubing bore x Length Speed controller Silencer Base mounted Tubing bore x Length Speed controller Silencer AS2301F-04 6 x 1 m 4 x 1 m AS1301F-04 AN120-M5 SYJ5120-M5 SYJ5140-01 AN101
1963 1001 681 487 443 1113 795 477 1069 764 458 1113 795 477 3067 3067 3117 1527 1034 739 Theoretical Output First stage Extension Retraction Retraction Extension Second stage Action Pressure port A C A A B A C PB C PC Air pressure [MPa] PA PC PA PA PA PC Formula for theoretical output F[N] F=-q x PA+w x PC F=q x PA+(e-q) x PC F=-q x PA+r x PB+(w-e) x PC F=q x PA q, w and e are piston areas
1.25 M14 x 1.5 Up to 200 Up to 300 Up to 300 Up to 300 15.5 19.5 19.5 27 M4 x 0.7 depth 7 4 5 5.5 6 6 8 8 10 12 16 10 14 M5 x 0.8 depth 7.5 M5 x 0.8 depth 8 M6 x 1 depth 12 Without rod boot ZZ e f h l ZZ With rod boot Stroke range Bore size (mm) H1 WA WW WB WH H PG PH PL PW S TA TB P TC W 30 30 25 20 20 25 32 40 178 193 196 221 198 215 218 241 55 62 62 70 16 17 17 17 30 30 35 35 35 40 40
The pilot air of the piston r is also exhausted from the pilot valve q, and the piston r is returned upward due to the spring, closing the flow passage from the needle t. q r w Exhaust OFF t e 6 A AV2000-A/3000-A/4000-A/5000-A Series Construction X X-X r e u q y t Component Parts No.
The pilot air of the piston r is also exhausted from the pilot valve q, and the piston r is returned upward due to the spring, closing the flow passage from the needle t. r w Exhaust OFF t e 6 AV2000-A/3000-A/4000-A/5000-A Series Construction X X-X r e u q y t Component Parts No.
0.5 M5 x 0.8 0.39 0.10 0.59 [0.40] 0.43 [0.33] 0.16 [0.11] 0.36 54 (28) 3 position 0.42 [0.33] 0.16 [0.080] 0.46 0.32 0.11 0.58 [0.32] 22 25 2 position SYJA320-M3 M3 x 0.5 M3 x 0.5 0.9 28 3 position 22 25 2 position SYJA330 M3 x 0.5 Note 1) Value when used on a manifold.
K = WITH ADJUSTING KNOB W/S = WITH 1/4" SHAFT W/0S = FLUSH SHAFT Back to Top .
low wattage 2 W DC) M5 x 0.8 0 to 0.7 Series VK3000 can be used as 3 port valve, as a N.C. or N.O. type, by plugging either A or B cylinder Port.
VD0.05 PA0.02 PC0.05 GC +0.1 K 0 PB0.02 GA GB VF LA0.1 VA0.02 C VE L 2 x 2 x P H7 depth D 2 x V H7 depth I 4 x NN depth S N 2 x NPT 1/4 G 2 x 2 x MM depth J Hexagon socket head plug 2 x NPT 1/4 G E B RB (mm) Bore size (mm) 50 63 80 C D E GA GB GC I J K L LA LB MM N NA NB NC NN P B 95 48 12 13.7 134.3 138.5 93 10 12 55 376.4 149.5 78.4 M10 x 1.5 19 13 36.5 10.3 M8 x 1.25 10 112 54 12 16.6