HRL Q = qm x C x (T2 T1) x qv x C x iT 60 1 x 70 x 4.186 x 103 x 4.0 60 = = qm x C x (T2 T1) 860 Q = = 19535 [J/s] 19535 [W] = 19.5 [kW] x qv x 60 x C x iT 860 = Cooling capacity = Considering a safety factor of 20%, 19.5 [kW] x 1.2 = 23.4 [kW] 1 x 70 x 60 x 1.0 x 103 x 4.0 860 = Thermo-chiller T1: Outlet temperature Q: Heat generation amount 1680 [cal/h] 860 Users equipment = T = T2 T1
Q = qm x C x (T2 T1) x qv x C x iT 60 1 x 35 x 4.186 x 103 x 3.0 60 = = qm x C x (T2 T1) 860 Q = = 7325 [J/s] 7325 [W] = 7.3 [kW] x qv x 60 x C x iT 860 = Cooling capacity = Considering a safety factor of 20%, 7.3 [kW] x 1.2 = 8.8 [kW] 1 x 35 x 60 x 1.0 x 103 x 3.0 860 = Q: Heat generation T1: Outlet Thermo-chiller temperature amount Customer equipment T = T2 T1 7325 [W] = 7.3 [kW]
Q = qm x C x (T2 T1) x qv x C x iT 60 1 x 35 x 4.186 x 103 x 3.0 60 = = qm x C x (T2 T1) 860 Q = = 7325 [J/s] 7325 [W] = 7.3 [kW] x qv x 60 x C x iT 860 = Cooling capacity = Considering a safety factor of 20%, 7.3 [kW] x 1.2 = 8.8 [kW] 1 x 35 x 60 x 1.0 x 103 x 3.0 860 = Q: Heat generation amount T1: Outlet temperature Thermo-chiller Users equipment T = T2 T1 7325 [W] = 7.3 [kW] Cooling
[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 118 Cooling Capacity Calculation HRS100/150 Series 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.
1400 [W] T = T2 T1 Cooling capacity = Considering a safety factor of 20%, 1400 [W] x 1.2 = 1680 [W] T1: Outlet temperature 207 HRSE Series 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.
Q = qm x C x (T2 T1) x qv x C x iT 60 1 x 70 x 4.186 x 103 x 4.0 60 = = qm x C x (T2 T1) 860 Q = = 19535 [J/s] 19535 [W] = 19.5 [kW] x qv x 60 x C x iT 860 = Cooling capacity = Considering a safety factor of 20%, 19.5 [kW] x 1.2 = 23.4 [kW] 1 x 70 x 60 x 1.0 x 103 x 4.0 860 = Thermo-chiller T1: Outlet temperature Q: Heat generation amount 1680 [cal/h] 860 Users equipment = T = T2 T1
Q = qm x C x (T2 T1) x qv x C x iT 60 1 x 35 x 4.186 x 103 x 3.0 60 = = qm x C x (T2 T1) 860 Q = = 7325 [J/s] 7325 [W] = 7.3 [kW] x qv x 60 x C x iT 860 = Cooling capacity = Considering a safety factor of 20%, 7.3 [kW] x 1.2 = 8.8 [kW] 1 x 35 x 60 x 1.0 x 103 x 3.0 860 = Q: Heat generation amount T1: Outlet temperature Thermo-chiller Users equipment 7325 [W] = 7.3 [kW] T = T2 T1 Cooling
to origin)s signal, if sensor does not receive any signal within t1 (situation whereby the cylinder stops), this reflects homing is achieved.
If sensor does not receive any signal within t1 (situation whereby the cylinder stops), this reflects homing is not achieved. Setting of response time should take into consideration of load, mounting condition, tubing length, etc. The response time should be re-calibrated, if the operating conditions change.
LEC-OM00506 PRODUCT NAME Teaching Box for Electric actuator MODEL / Series/Product Number LEC-T1 Series Applicable models For Series LEC For Series LEC For Series LECPA (TB Ver2.1 or more) Contents Safety Instructions . 6 Changes by teaching box version. . 8 1.
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.
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
bar absolute, T1 = 297 5K, 0.07 bar P 0.14 bar.
Connector block assembly (For 9 to 17 stations (T1) terminal block) t-6 SX5000-64-8A SX3000-64-8A M3 x 30 (Matt nickel plated) SX3000-22-2 (M2 x 24) SX5000-57-6 Round head combination screw y Gasket DIN rail SX3000-57-4 VZ1000-11-1u i Refer to page 1-6-77. Note) The numbers t1 to 4 are for 24 VDC. For 12 VDC, suffix -12V to the parts no.
SET1 SET2 L L H H 15 SET1 SET2 L L H H 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 M5 x 0.8 depth 5 Piping port 2 x 3.5 Mounting hole T1: NPTF 1/8 01: R 1/8 M5 x 0.8 depth 5 Piping port 2 x 3.5 Mounting hole T1: NPTF 1/8 01: R 1/8 13 13 777
T1 Approx. Max. T1 Approx. Max. T2 Approx. Max. T2 Approx. T3 Cylinder with Bypass Piping Component Parts T1 81.4 93.3 99.8 T2 63.4 73.8 80.3 T3 57.8 67.8 74.3 TH 47.9 57.3 57.3 TP Rc, NPT, G 1/8 Rc, NPT, G 1/4 Rc, NPT, G 1/4 Description No. 1 2 3 4 Qty. 1 1 1 1 Part no.
T1 Approx. Max. T1 Approx. Max. T2 Approx. Max. T2 Approx. T3 Cylinder with by-pass piping component parts No. 1 2 3 4 Quantity 1 1 1 1 Description Part No.
Nil FKM 1349-80*1 N1 EPDM 2101-80*1 P1 Barrel Perfluoro 70W Q1 Kalrez 4079 R1 Chemraz SS592 R2 SS630 R3 SSE38 S1 VMQ 1232-70*1 T1 FKM for Plasma 3310-75*1 *1 Values at normal temperature, excluding gas permeation *2 Refer to Construction on page 5 for changed part. Number corresponds with the parts number on the construction drawing.
-A5 V V ZP3PA-T1-AG1 V V ZP3PA-T2-A12 V V ZP3PA-T2-AG2 V V ZP3PA-T2-AG3 V V p. 11 w T female thread adapter Pad diameter Part no. 20 25 35 50 Dimensions w T male thread adapter assembly w T female thread adapter ZP3PA-T1-B5 V V ZP3PA-T2-B8 V V p. 11 q Pad unit Dimensions Part no.
Bore size (mm) 32, 40 50, 63 T2 T1 M F E D B Part No.