ZP M6 x 1 A6 Mounting M8 x 1 A8 U C Flat Flat with ribs M4 x 0.7 B4 M5 x 0.8 B5 D Deep M6 x 1 B6 B Bellows UT Thin flat CT Thin flat with ribs M8 x 1.25 B8 Material N S NBR Silicon rubber Table (1) Pad Diameter/Pad Type Dia.
P_1P_2 P_1P_2 W i ndow com parat or m ode H yst eresi s m ode O ut put pressure of E/P regul at or P_2 P_1 P_1 P_2 O N O FF O N O FF Sw i t ch out put P_1P_20 O ut of range m ode The sw i t ch out put t urns on w hen set pressure i s achi eved.
Extension Locking, Rubber Bumper Retraction Locking, Rubber Bumper 1000 1000 100 100 80 100 80 100 Load mass (kg) Load mass (kg) 63 63 10 10 50 50 40 40 25 32 25 32 1 1 20 20 0.5 MPa 0.4 MPa 0.5 MPa 0.4 MPa 0.1 0.1 100 500 Maximum speed (mm/s) 100 500 Maximum speed (mm/s) Allowable Load Mass Horizontal (Without switch) Horizontal (With switch) 30 30 10 10 100 100 80 Load mass m (kg) Load
Material: Chromium molybdenum steel (Nickel plated) (mm) L UT YB-03 YB-05 32, 40 50, 63 12 12 7 9 25 32 9 11 34 42 11.5 depth 7.5 14.5 depth 8.5 C UA Part no. Applicable bore size (mm) UA C d1 d2 H K L UT Weight (g) 25 40 YU-03 YU-05 17 17 11 13 15.8 19.8 14 18 M8 x 1.25 M10 x 1.5 8 10 7 7 6 6 32, 40 50, 60 Weight (g) Bore size (mm) T2 V W RS T1 Part no.
), Thin flat with ribs (CT) Thin flat Thin flat with ribs ZP 10 UT N 7 7 Pad diameter ZX Material 12 12 Y Y 10 N 10 NBR ZR 13 S 13 Silicon rubber A A 16 U 16 Urethane rubber B B ZM F Fluoro rubber GN ZPUT ZPCT Conductive NBR Pad type ZH GS Conductive silicon rubber UT Thin flat Dimensions (mm) Dimensions (mm) CT Thin flat with ribs ZU A A B B Y Y Model Model ZP10UT ZP10CT 10 10 11 11 1 0.8
Assuming that the tube I.D. is 2 mm, the piping capacity is as follows: V = P/4 x D2 x L x 1/1000 = P/4 x 22 x 1 x 1/1000 = 0.0031 L (2) Assuming that leakage (QL) during adsorption is 0, find the average suction flow rate to meet the adsorption response time using the formula on the front matter 8.
Assuming that the tube I.D. is 2 mm, the piping capacity is as follows: V = P/4 x D2 x L x 1/1000 = P/4 x 22 x 1 x 1/1000 = 0.0031 L (2) Assuming that leakage (QL) during adsorption is 0, find the average suction flow rate to meet the adsorption response time using the formula on the front matter 8.
Assuming that the tube I.D. is 2 mm, the piping capacity is as follows: V = P/4 x D2 x L x 1/1000 = P/4 x 22 x 1 x 1/1000 = 0.0031 L (2) Assuming that leakage (QL) during adsorption is 0, find the average suction flow rate to meet the adsorption response time using the formula on the front matter 8.
ZPT10UT-A6 4 4 4 4 ZP10UT ZP 13 UT ZPT13UT-A6 4 4 4 4 ZP13UT ZP 16 UT ZPT16UT-A6 4 4 4 4 ZP16UT ZP 10 U ZPG10U-7A-X2 7 7 7 7 ZP10U ZPT2-7A-X2 ZP 13 U ZPG13U-7A-X2 7 7 7 8 ZP13U ZP 16 U ZPG16U-7A-X2 7 7 7 8 ZP16U ZP 20 U ZPG20U-7A-X2 9 10 10 10 ZP20U ZPT3-7A-X2 ZP 25 U ZPG25U-7A-X2 10 10 10 11 ZP25U ZP 32 U ZPG32U-7A-X2 10 11 11 12 ZP32U ZP 10 C ZPG10C-7A-X2 7 7 7 7 ZP10C ZPT2-7A-X2
V (mm/s) = Auto switch operating range (mm) Load operating time (ms) x 1000 In case of high piston speed, the operating time of the load can be extended by using an auto switch (D-F7NT) with built-in OFF delay timer (approx. 200ms). 4. Keep wiring as short as possible.
800 Up to 800 Up to 1000 Up to 1000 Up to 1000 Up to 1000 Up to 1000 37 44 50 56 66 8-25-11 11 Series MGZ With Mounting Bracket Transaxial foot style: (L) 4-LD through LT LH LY X/2 ZZ + Stroke LS + Stroke X X Y LZ LX (mm) Stroke range Bore size (mm) LS ZZ LD Y X LH LT LX LY LZ Up to 800 Up to 800 Up to 1000 Up to 1000 Up to 1000 Up to 1000 Up to 1000 20 25 32 40 50 63 80 86 107 120 138 148
Stroke (mm) Up to 10 Up to 30 Up to 50 Up to 75 Up to 100 Up to 1000 Up to 800 Up to 1000 Up to 1000 Up to 800 Up to 1000 Up to 1000 Max. speed (mm/s) 20 Selection graph (6) (7) (8) (9) (10) (11) (12) 25 32 Caution If the cylinder is horizontally mounted and the plate end does not reach the load's center of gravity, use the formula below to calculate the imaginary stroke l that includes the
1000 Maximum speed: V (mm/s) Maximum speed: V (mm/s) CNS Graph (6) Graph (3) 0.4 MPa P < 0.5 MPa 0.4 MPa P < 0.5 MPa CLS 200 200 CLQ 100 100 40 32 MLGP 30 40 50 30 40 50 25 40 RLQ Load weight: m (kg) Load weight: m (kg) 20 32 20 20 [Example] 25 MLU 10 10 20 ML1C 5 4 5 4 3 D3 2 2 -X 1 1 200.5 0.5 100 500 400 300 200 100 500 400 300 200 1000 1000 Data Maximum speed: V (mm/s) Maximum speed
Inrush current 50A or less 1000 1000 Over current protection 14A circuit protector Facility water temp. 20deg.C Do not peel off or rub alert warning and caution labels.
Auto switch operating range (mm) _ Time load applied (ms) V(mm/s) = x 1000 4. Keep wiring as short as possible. Although wire length should not affect switch function, use wiring 100m or shorter. 5. Take precautions for the internal voltage drop of the switch.
Joints 12 7 25 9 34 11.5, depth 7.5 YB-03 32, 40 K ( across flats) 12 9 32 11 42 14.5, depth 8.5 YB-05 50, 63 H (with locking) 16 11 38 13 52 18, depth 12 YB-08 80 d2 d1 19 14 50 17 62 21, depth 14 YB-10 100 L UT Weight (g) Bore size (mm) C UA RS W T1 T2 V Part no. (mm) 9 50 18 6.5 10 YB-03 32, 40 80 UA C d1 d2 H K L UT Weight (g) Part no.
Cylinder side pressure (P2) I N I N O UT O UT Specifications 0.8 MPa 0.15 MPa 5 to 50C 0.60 dm3/(sbar) 180 c.p.m Maximum operating pressure Minimum operating pressure Ambient and fluid temp.
K ( across flats) YB-03 32, 40 11.5 depth 7.5 34 9 25 7 12 H (With locking) YB-05 50, 63 14.5 depth 8.5 42 11 32 9 12 YB-08 80 18 depth 12 52 13 38 11 16 d1 d2 YB-10 100 21 depth 14 62 17 50 14 19 L UT Mass (g) Bore size (mm) RS W T1 V T2 Part no. C UA DMaterial: Chrome molybdenum steel (Nickel plated) YB-03 32, 40 9 50 80 18 6.5 10 Part no.
C UA L UT YB-03 YB-05 YB-08 YB-10 32, 40 50, 63 80 100 6.5 10 18 50 9 80 Material: Chromium molybdenum steel (Nickel plated) (mm) 6.5 12 22 60 11 120 8.5 16 28 75 14 230 Part no.
D-X 100 Lateral load F (N) 2080 10 Data 63 50 Operating pressure 0.5 MPa Operating pressure 0.4 MPa 40 32 25 Graph (1) 1000 20 1 10 100 300 Stroke + Eccentric distance (mm) Cushion Needle Adjustment 100 100 Load weight kg Caution 80 63 50 1.