Thermo-chiller

[W] = 7.3 [kW] T = T2 T1 Cooling capacity = Considering a safety factor of 20%, 7.3 [kW] x 1.2 = 8.8 [kW] T1: Outlet temperature 23 Cooing Capacity Calculation Series HRS100/150 Required Cooling Capacity Calculation Example 3: When there is no heat generation, and when cooling the object below a certain temperature and period of time.

OMU0023

response Start ID Note 2) Error function Check Details of sum End code error ) T1-T2-T3-T4 1 byte 1 byte 1 byte 2 bytes T1-T2-T3-T4 The MSB of the function code is Problems 3.5 character code Note 5) CRC 3.5 character times Note 1) 01 FF times Note 1) changed to 1.

Compact Cylinder with Air Cushion

24 31 24 55 24 31 64 72 Y-G10 22 32 100 79 Knuckle pin and snap ring are included.

RQ

24 31 24 55 24 31 64 72 22 32 79 Knuckle pin and snap ring are included.

XM, XY

flange) (mm) Model A 75.8 102.5 119 B 48 66 79 C 1 2 2 D 23.5 38 53 E 40 55 75 Fn 26 41 52 G 40.5 57 70 H 21.5 30 35 J XYH-25 XYH-40 XYH-50 100.2 130 178 494 XMH, XYH Series Glossary 2 Shaft Sealing Method 1 Seal Materials Bellows Bellows offer cleaner sealing with reduced particle generation and less outgassing.

Stainless Steel High Vacuum, Angle/In-line Valve, Angle type Series XM, In-line type Series XY

Body (Material: SCS13) Refer to the page 22 for the maintenance parts. 2 Series XMA, XYA Stainless steel High Vacuum Angle/In-line Valve Dimensions XMA/Angle type C D L2 (KF flange) Fn Fd Fc C (Fc) L1 (K flange) (CF flange) H B G A A (mm) Model A 103 113 158 170 196 235 B 38 48 66 79 100 117 C 1 1 2 2 3 3 D 30 40 55 75 87 114 Fn 95 110 Fd 34 70 114 Fc 17 26 41 52 70 83 G 40 39 63 68

JXCx-OMT0061CN

LED . 28 8.1 LED . 28 8.2 LED . 28 9. . 29 9.1 . 29 9.2 No. . 29 9.3 / . 29 9.4 . 30 9.5 . 30 10. . 32 10.1 . 32 11. . 47 11.1 . 47 11.2 . 50 11.3 . 52 11.4 . 53 12. . 54 12.1 . 54 12.2 . 54 12.3 . 55 (1) . 55 (2) () . 55 (3) . 55 12.4 . 56 12.5 . 56 13. () . 57 13.1 . 57 13.2 . 58 14. . 59 14.1 . 59 14.2 No. . 59 [1] . 59 [2] . 60 2 - [3] . 61 [4] HOLD . 61 [5]

Environment

L Speed: V [mm/s] Cycle time T can be found from the following equation. a1 a2 T = T1 + T2 + T3 + T4 [s] T1: Acceleration time and T3: Deceleration time can be obtained by the following equation. Time [s] T1 = V/a1 [s] T3 = V/a2 [s] T1 T2 T3 T4 T2: Constant speed time can be found from the following equation.

JXCx-OMT0034CN

STATION No (X10) 161 (x10) STATION No (X1) (x1) B RATE IF CC-Link F D C 10Mbps B 5Mbps A 2.5Mbps 230.4kbps 9 625kbps 8 156kbps 7 5 4 10Mbps 3 5Mbps 2 2.5Mbps 115.2kbps 1 625kbps 0 156kbps B RATE 1(LEC-T1)IF 115.2kbps 2 15 - 4.2 (CN2SW) CC-Link (CN2SW)CC-Link (CN2SW) () PC/TB (CN2)(LEC-T1-)(LEC-W2)(LEC) (CN2SW)CC-Link (LEC) 16 - 4.3 (LEC) (LEC)(LEC-T1-) (LEC-W2)(LEC) (LEC)(LEC)(

7

, T1 = 297 5K, 0.07 bar P 0.14 bar.

Series SV

SX5000-57-6 SX3000-146-2 SX5000-138-1 SV2000-55-1SV2000-55-2A SV2000-21-1 (M3 x 30) VZ1000-11-1SV1000-69A SX7000-57-5 SX3000-146-2 SV3000-65-1 SV3000-55-1SV3000-55-2A SV3000-21-1 (M4 x 35) VZ1000-11-4SV3000-69A SX3000-57-4 SX3000-146-2 SX3000-181-1 SV1000-55-1SV1000-55-2-1 SX3000-22-2 (M2 x 24) VZ1000-11-1SV1000-69A SY9000-11-2 SX3000-146-2 SV4000-65-1 SV4000-55-1SV4000-55-2A SV2000-21-2

ZSE1/ISE1

15 Indicator light (Red, Green) 23 Indicator light (Red, Green) 23 600 (3000) 56.5 600 (3000) 49 8.5 47 47 3.5 3.5 8.5 2-3.5 Mounting hole T1: NPTF 1/8 01: R 1/8 M5 x 0.8 depth 5 Piping port M5 x 0.8 depth 5 Piping port 2-3.5 Mounting hole T1: NPTF 1/8 01: R 1/8 13 13 16-6-5

New

, T1 = 297 p5 K, 0.07 bar b $P b 0.14 bar.

240

Time [s] LEC SS-T T1 T2 T3 T4 T1 = V/a1 [s] T3 = V/a2 [s] LEC Y T2: Constant speed time can be found from the following equation.

Integrated Controller

Calculation example) T1 to T4 can be calculated as follows. L Speed: V [mm/s] a1 a2 T1 = V/a1 = 300/10 = 0.03 [s], T3 = V/a2 = 300/10 = 0.03 [s] Time T = T1 + T2 + T3 + T4 [s] [s] L 0.5 V (T1 + T3) V T1: Acceleration time and T3: Deceleration time can be found by the following equation.

Slider Type Ball Screw Drive/11-LEFS Series

Calculation example) T1 to T4 can be calculated as follows. L Speed: V [mm/s] a1 a2 T1 = V/a1 = 300/3000 = 0.1 [s], T3 = V/a2 = 300/3000 = 0.1 [s] Time [s] T = T1 + T2 + T3 + T4 [s] L 0.5 V (T1 + T3) V T1: Acceleration time and T3: Deceleration time can be obtained by the following equation.

Base Mounted Type, VQ5000 Series, 5 Port Metal Seal/Rubber Seal Solenoid Valve

Note 2) Splash proof specification is not available for F and T1.

CLQ

Bore size (mm) T1 T2 M F E D B Part no.

CLQ

YU-03 J E T1 B 2-D through 2-O counter bore (mm) Bore size (mm) B D E J M O Part no. 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.

Electric Actuator with Integrated Guide

Power supply 11) 100/110V AC (50/60Hz) 200/220V AC (50/60Hz) 21) 1) Consult SMC if the supply voltage for LC1-1HV1 will be 110V AC or more, or the supply voltage for LC1-1HV2 will be 220V AC or more. or LC1-1-T1(Teaching box) are required.