CYLINDER, H2, 20MM CM2 KIT/ACCESSORY, .14850 lb
Air Slide Table the hexagon socket head cap screw 2 Size of the hexagon socket flat countersunk head cap screw Low thrust with high rigidity type How to Order Dimensions Metal stopper with bumper Width across hexagon socket hole C MXQB X2202 CS 12 P D Table Extension stroke end adjuster fixed from the axial direction Metal stopper with bumper E Size Width across hexagon socket hole B 8 12 16 20 M H1 F G H2
(mm) Mounting screw P L1 H2 D W1 L2 H1 W2 W3 Model (Nominal x Length) 6 4 TM-04 TM-06 TM-08 TM-10 TM-12 6 3.25 72.5 4.5 5.5 6 6.5 6.5 10 5 7.5 7.5 8 12 12 8 10 11 12 12 17 21 23 25 25 2.2 2.8 2.8 3.2 3.2 2 x 6 4.5 91.5 9.5 5.5 77.5 6 12.5 7.5 77.5 6 15 9 93 6.5 2.6 x 8 2.6 x 8 3 x 8 3 x 8 12 10 8 16.3 8.8 14.3 7.5 12 9.8 How to Use Caution 1.
www.stevenengineering.com I 2.99 ANCILLARY VALVES SERIES ASP D I M E N S I O N S ( M M) S E R I E S ASP D I M E N S I O N S (I N C H) S E R I E S ASP L4 Max Min Weight g Model d T1 T2 H1 H2 D1 D2 D3 L1 L2 L3 L5 *A1 *A2 M 39.6 34.6 32 ASP330F-01-06S 6 R(PT)1/8 M5x0.8 12 8 11.6 14.2 11.8 14 38.4 22.9 39.5 35.2 10.5 13.7 38.9 33.9 35 ASP330F-01-08S 8 R(PT)1/8 M5x0.8 12 8 15.2 14.2 11.8 15.8
DG DG Uni-wire System Uni-wire H System S-LINK System Send unit: SD-120 Send unit: SD-H2 S-LINK controller: SL-CU1 16 outputs 16 outputs 16 outputs (Type SDJ1) 8 outputs (Type SDJ2) 16 Series SQ1000 Kit (Serial Transmission Kit) S Type SDV Mitsubishi Electric Corporation CC-LINK System Type SDR1, SDR2 OMRON Corporation CompoBus/S Type SDQ DeviceNet Terminal block LED description Note
The HRW series thermo-chiller is a high-performance device for circulating a fluid at a constant temperature (Water-cooled type).? Energy saving is substantially increased by exchanging cooling water and heat directly.? The HRW can achieve reduction in power consumption as it does not have a compressor, and reduction in the amount of facility water used because heat is exchanged directly
This is a legacy product. Please contact us for the latest version.sales@ocaire.com, THERMO CHILLER, OTHERS, HRZ- THERMO CHILLER, 2X, HRZ - NO SIZE RATING, 198.41603 lb
The HRW series thermo-chiller is a high-performance device for circulating a fluid at a constant temperature (Water-cooled type). Energy saving is substantially increased by exchanging cooling water and heat directly. The HRW can achieve reduction in power consumption as it does not have a compressor, and reduction in the amount of facility water used because heat is exchanged directly
The HRW series thermo-chiller is a high-performance device for circulating a fluid at a constant temperature (Water-cooled type). Energy saving is substantially increased by exchanging cooling water and heat directly. The HRW can achieve reduction in power consumption as it does not have a compressor, and reduction in the amount of facility water used because heat is exchanged directly
D1 D2 H1 H2 H3 H4 H5 L1 L2 L3 Symbol Metric size Inch size TMH-23J TMH-01J 8.5 3.3 4.5 4.6 7.5 6 12 7.2 6.6 18 1/8J TMH-04J TMH-03J 9.4 4 5/32J TMH-06J 11.7 3.3 6.3 6.4 9.3 7.7 15.4 8.5 8.3 21 6J TMH-07J 12.1 1/4J TMH-06 13.1 4.3 7.1 7.2 11.1 10 20 11 10.6 26.5 6 TMH-07 13.5 1/4 TMH-08 TMH-09 15.5 8 5/16 TMH-10 18.8 4.3 9.5 9.6 13.5 14 28 14.2 14.6 34 10 TMH-12 21.2 12 TMH-13 22 1/
oO OUT 12,17 304 609 913 1217 1522 1765 30 IN 11 .08 277 554 831 1108 1385 1606 Note) Theoretical outpul(lbl) :: Pressure (pSI) X Piston area (IrI(:h2) Bore SlZ9 .
Applicable bore size B2 C2 d H2 SNJ-010C 10 11 12.7 M8 x 1.0 4 NTJ-010C 10 7 8.1 M4 x 0.7 3.2 Y-J016C 16 11 16.6 21 M5 x 0.8 SNJ-016C 16 14 16.2 M10 x 1.0 4 Part no. NDd9 NDH10 NX R1 U1 Y-J010C 3.30.030 0.060 3.3+0.048 0 3.2 8 10 NTJ-015C 16 8 9.2 M5 x 0.8 4 Y-J016C 50.030 0.060 5+0.048 0 6.5 12 10 * A knuckle pin and retaining rings are included.
I = m x (a2 + b2) / 12 + m x H2 I = 0.15 x (0.062 + 0.042) / 12 + 0.15 x 0.032 = 0.0002 kgm2 Moment of inertia Kinetic energy 6 Confirm that the loads kinetic energy is within the allowable value. 1/2 x I x 2 = < Allowable energy 1 / 2 x (0.0002) x (2 x ( / 2) / 0.3)2 = = 2 / t (: Terminal angular velocity) 0.01096 J < Allowable energy OK : Rotation angle (rad) t: Rotation time (s) Allowable
High-temperature type (Temperature specifications/ H0, H2, H3) 1. In models with heater (thermistor), take care not to damage the insulation components of the lead wires and connector section. 2. The setting temperature for models with heater should be established without a draft or heat insulation.
High temperature type (Model/XLA, XLC, XLD, XLF, XLG; Temperature specifications/H0, H2, H3) 1. In models with heater (thermistor), take care not to damage the insulation components of the lead wires and connector section. 2. The setting temperature for models with heater should be established without a draft or heat insulation.
High temperature type (Model/XLA, XLC, XLD, XLF, XLG; Temperature specifications/H0, H2, H3) 1. In models with heater (thermistor), take care not to damage the insulation components of the lead wires and connector section. 2. The setting temperature for models with heater should be established without a draft or heat insulation.
= m x (a2 + b2) / 12 + m x H2 = 0.4 x (0.102 + 0.062) / 12 + 0.4 x 0.042 = 0.00109 kgm2 Inertial moment Kinetic energy 6 Confirm that the load's kinetic energy is within the allowable value. 1 / 2 x x 2 allowable energy = 2 / t (: Terminal angular velocity) : Rotation angle (rad) 1/ 2 x 0.00109 x (2 x ( / 2) / 0.3)2 = 60 mJ Allowable energy OK t : Rotation time (s) Allowable kinetic
I = m x (a2 + b2) / 12 + m x H2 I = 0.15 x (0.062 + 0.042) / 12 + 0.15 x 0.032 = 0.0002 kgm2 Moment of inertia Kinetic energy 6 Confirm that the loads kinetic energy is within the allowable value. 1/2 x I x 2 = < Allowable energy 1 / 2 x (0.0002) x (2 x ( / 2) / 0.3)2 = = 2 / t (: Terminal angular velocity) 0.01096 J < Allowable energy OK : Rotation angle (rad) t: Rotation time (s) Allowable
I = m x (a2 + b2) / 12 + m x H2 I = 0.15 x (0.062 + 0.042) / 12 + 0.15 x 0.032 = 0.0002 kgm2 Moment of inertia Kinetic energy 6 Confirm that the loads kinetic energy is within the allowable value. 1/2 x I x 2 = < Allowable energy 1 / 2 x (0.0002) x (2 x ( / 2) / 0.3)2 = = 2 / t (: Terminal angular velocity) 0.01096 J < Allowable energy OK : Rotation angle (rad) t: Rotation time (s) Allowable