Cooling Capacity: Cooling Capacity: 2600/3200W, 50/60 Hz, Cooling Method: Water-cooled Refrigeration, Thread: G w/PT-G Conversion Fitting Set, Option: M [Applicable to DI Water (Deionized Water) Piping]
Cooling Capacity: 030 [Cooling Capacity: 2500/2900 W (50/60 Hz)], Pipe Thread: Rc, Option: None
Cooling Capacity: 030 [Cooling Capacity: 2500/2900 W (50/60 Hz)], Pipe Thread: NPT with PT-NPT Conversion Fitting Set, Option: None
ZP Dimensions ZP2-Z002 ZP2-Z003 40 20 0.1 0.2 A A 20 0.1 0.2 40 A A 20 40 A-A A-A w q q w 11 20 9 18 90 4 x 4 90 4 x 4 4 e e 5 5 () 12 () 4 x 2.4 1.8 1.5 4 x 2.4 1.5 0.9 20 9.4 Component Parts Component Parts Part no. Description No. ZP2-Z2A ZP2-Z2B ZP2-Z2C Material PTFE FKM Aluminum alloy Note Clear anodized Part no. Description No.
Dimensions ZP2-Z002 ZP2-Z003 40 20 0.1 0.2 A A 20 0.1 0.2 40 A A 20 40 A-A A-A w q q w 11 20 9 18 90 4 x 4 90 4 x 4 4 e e 5 5 () 12 () 4 x 2.4 1.8 1.5 4 x 2.4 1.5 0.9 20 9.4 Component Parts Component Parts Part no. Description No. ZP2-Z2A ZP2-Z2B ZP2-Z2C Material PTFE FKM Aluminum alloy Note Clear anodized Part no. Description No.
Dimensions ZP2-Z002 ZP2-Z003 40 20 0.1 0.2 A A 20 0.1 0.2 40 A A 20 40 A-A A-A w q q w 11 20 9 18 90 4 x 4 90 4 x 4 4 e e 5 5 () 12 () 4 x 2.4 1.8 1.5 4 x 2.4 1.5 0.9 20 9.4 Component Parts Component Parts Part no. Description No. ZP2-Z2A ZP2-Z2B ZP2-Z2C Material PTFE FKM Aluminum alloy Note Clear anodized Part no. Description No.
Dimensions ZP2-Z002 ZP2-Z003 40 20 0.1 0.2 A A 20 0.1 0.2 40 A A 20 40 A-A A-A w q q w 11 20 9 18 90 4 x 4 90 4 x 4 4 e e 5 5 () 12 () 4 x 2.4 1.8 1.5 4 x 2.4 1.5 0.9 20 9.4 Component Parts Component Parts Part no. Description No. ZP2-Z2A ZP2-Z2B ZP2-Z2C Material PTFE FKM Aluminum alloy Note Clear anodized Part no. Description No.
Dimensions ZP2-Z002 ZP2-Z003 40 20 0.1 0.2 A A 20 0.1 0.2 40 A A 20 40 A-A A-A w q q w 11 20 9 18 90 4 x 4 90 4 x 4 4 e e 5 5 () 12 () 4 x 2.4 1.8 1.5 4 x 2.4 1.5 0.9 20 9.4 Component Parts Component Parts Part no. Description No. ZP2-Z2A ZP2-Z2B ZP2-Z2C Material PTFE FKM Aluminum alloy Note Clear anodized Part no. Description No.
Wn Mass mn X-axis xn xa xb xc xd Y-axis yn ya yb yc yd Z-axis zn za zb zc zd X 1 mt = x (mn x xn)w Wa Wb Wc Wd ma mb mc md Y 1 mt = x (mn x yn)e D1 mt = x {mn x (A + zn)} r Z -X (n = a,b,c,d) Refer to the following sections 1 to 4 to calculate the center of gravity and the total load.
HRX-OM-W004-H Operation Manual Communication function Thermo-chiller Air-Cooled Water-Cooled refrigerated type refrigerated type HRR010-A-10HRR012-A-10HRR018-A-10HRR010-A-20HRR012-A-20HRR018-A-20HRR024-A-20HRR030-A-20HRR050-A-20HRR050-A-40HRR010-W-10HRR012-W-10HRR018-W-10HRR010-W-20HRR012-W-20HRR018-W-20HRR024-W-20HRR030-W-20HRR050-W-20HRR050-W-40Keep this manual available whenever necessary
-(BJMTWZ) . 9-5 9.3.2 HRS040-W-20-(BJMTW) . 9-6 9.4 Cooling capacity . 9-7 9.4.1 HRS040--20-(BJMTWZ). 9-7 9.5 Heating capacity . 9-7 9.5.1 HRS040-A-20-(BJMTWZ) . 9-7 9.5.2 HRS040-W-20-(BJMTW) . 9-7 9.6 Pump capacity. 9-8 9.6.1 HRS040--20-(BJMWZ) . 9-8 9.6.2 HRS040--20-T,-MT . 9-8 HRS Series HRX-OM-W038 Contents 9.7 Required facility water flow (For water-cooled type) . 9-9 9.8 Compliance
MT-S16 16 Weights MT-S20 20 (g) MT-S25 25 End lock additional weight 50 157 222 400 547 1,000 1,533 Standard stroke (mm) MT-S32 32 Model 200 699 912 1,495 2,208 25 52 138 186 350 487 918 1,420 175 649 851 1,412 2,095 5 36 150 599 790 1,330 1,983 10 40 125 549 729 1,247 1,870 15 44 100 194 294 500 669 1,165 1,758 20 48 75 175 258 450 608 1,083 1,645 30 56 MT-S40 40 MTS8 MTS12 MTS16 MTS20
Dimensions ZP2-Z002 ZP2-Z003 40 20 0.1 0.2 A A 20 0.1 0.2 40 A A 20 40 A-A A-A w q q w 11 20 9 18 90 4 x 4 90 4 x 4 4 e e 5 5 () 12 () 4 x 2.4 1.8 1.5 4 x 2.4 1.5 0.9 20 9.4 Component Parts Component Parts Part no. Description No. ZP2-Z2A ZP2-Z2B ZP2-Z2C Material PTFE FKM Aluminum alloy Note Clear anodized Part no. Description No.
MGPM, MGPL Common dimensions With double side scrapers Dimensions AW, EW, MT, DS (mm) (mm) For cylinder with double side scraper MT DS Bore size (mm) Bore size (mm) B FB AW FT EW MGPM 17 21 26 26 31 31 36 44 MGPL 15 19 21 21 26 26 31 36 20 25 32 40 50 63 80 100 20 25 32 40 50 63 80 100 63 63.5 69.5 76 82 87 106.5 126 16 16 20 20 22 22 28 35 74 74.5 82.5 89 95 100 120.5 143 5 5 6 6 6 6 6
m s'' s ' m s-2 m2 kg N a,F,1-6,e.p A,S v v a) J F G = kg ' rn's'2 9.80665 m's-2 N Impulse Ns Newton Second w E , W E , W M P Work Potential energy Kinetic energy Torque Power Joule = Newton meter Joule Joule Joule Watt J J t ' J w = kg . m2's-2 0.5-m-i = J's-l 3.
resred lIr) flor. l{rn/rytle (lloloq l{0. tt odell OEtl l ,5lllx l 20 25.0 0.3.3.J 260 126,000 t3,000 19 58 2,890 0.9 lR0tl.5lltxl 20 25.0 0.08-t.3 260 t26,000 13,000 49 68 6,660 0.9 Offll.5Xtx2 20 50.0 0.3-3.5 520 167.000 t3,000 JI 68 2,890 1.0 tR0tXll.5ltlx2 20 50.0 0.08-1.3 520 1o,000 r3,000 49 80 6,660 L0 0tlSl.5flr3 20 75.0 0.3-3.5 7S0 201,000 ,000 32 80 2,890 1.2 0IIlt2.0tltx2 30 50.0
m s'' s ' m s-2 m2 kg N a,F,1-6,e.p A,S v v a) J F G = kg ' rn's'2 9.80665 m's-2 N Impulse Ns Newton Second w E , W E , W M P Work Potential energy Kinetic energy Torque Power Joule = Newton meter Joule Joule Joule Watt J J t ' J w = kg . m2's-2 0.5-m-i = J's-l 3.
(Nm) ML2B/M1 (Pitch moment) ML2B/M2 (Roll moment) ML2B/M3 (Yaw moment) Pitch moment M1/M1e 10 20 40 Roll moment M2 1.2 2.4 4.8 Yaw moment M3/M3e 3.0 6.0 12 MI W S 40 Model 20 30 YES 20 5 4 3 10 ML2B25 ML2B32 ML2B40 CEP1 If speed or load changes, stopping time may vary and positioning accuracy may be compromised.
ML2B40 ML2B40 ML2B32 ML2B32 ML2B32 ML2B25 ML2B25 ML2B25 0.2 0.2 0.5 ML2B25 ML2B25 ML2B25 ML2B25 ML2B25 ML2B25 0.1 0.1 0.1 100 200 300 400 500 1000 1500 100 200 300400500 10001500 100 200 300400500 10001500 RS Q G Piston speed (mm/s) Piston speed (mm/s) Piston speed (mm/s) Piston speed (mm/s) RS H A RZQ ML2B/M1 (Pitch moment) ML2B/M2 (Roll moment) ML2B/M3 (Yaw moment) MI W S 40 20 30 20 5
(Nm) ML2B/M1 (Pitch moment) ML2B/M2 (Roll moment) ML2B/M3 (Yaw moment) Pitch moment M1/M1e 10 20 40 Roll moment M2 1.2 2.4 4.8 Yaw moment M3/M3e 3.0 6.0 12 MI W S 40 Model 20 30 YES 20 5 4 3 10 ML2B25 ML2B32 ML2B40 CEP1 If speed or load changes, stopping time may vary and positioning accuracy may be compromised.