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Power Factor Table Bore Diameter: 34 1 118 112 2 214 212 3 314 4 6 Power Factor: .4 .8 1.0 1.8 3.1 4.0 4.9 7.1 8.3 12.6 28.3 Example: Estimated force needed is 900 lbs. Air pressure to be used is 80 PSI: 80 PSI x Power Factor = 900 lbs. Power Factor = 900 lbs / 80 PSI = 11.25 The power factor just above 11.25 is 12.6.

125

Bore size System Average speed [mm/s] MB, CA2 series Pressure 0.5 MPa, Load ratio 50%, Stroke 500 mm 40 50 63 80 100 1000 900 800 700 600 500 400 300 200 100 0 Vertically upward Horizontal A 1000 900 800 700 600 500 400 300 200 100 0 B 1000 900 800 700 600 500 400 300 200 100 0 C Bore size System Average speed [mm/s] CS1/CS2 series Pressure 0.5 MPa, Load ratio 50%, Stroke 300 mm 125 140 160

AF800/900

1 Large Flow Air Filter Series AF800/900 Standard Specifications F.R.L.

ITV

.-230 Ryan Way, South San Francisco, CA 94080-6370-Main Office: (650) 588-9200-Outside Local Area: (800) 258-9200-www.stevenengineering.com 900 kPa 900 Output deviation factor (% F .S.) 800 kPa IR 800 0.5 700 kPa Set pressure (kPa) 700 600 kPa VEX 600 Out 500 kPa 500 0 400 kPa AMR 400 Return 300 kPa 300 0.5 ITV 200 kPa 200 100 kPa 100 50 kPa IC 0.4 0.6 0.8 1.0 1 0 1 2 3 4 5 6 0 7 1.2 Flow

CLA

./-.P: 2 ;;; 900 (4000) !

C76

be used according to buckling strength 100.0 Nominal symbol C76 Mounting bracket diagram 32 40 (MPa) Lateral load applied to the rod end fR (N) Foot: L Rod side flange: F Head side flange: G 0.3 58 54 10.0 L C7640 44 0.5 40 W W W F 36 0.7 33 C7632 24 0.3 23 G 17 0.5 16 1.0 13 0.7 13 Clevis: C, D Rod side trunnion: U 0.3 C 0.5 W W D 0.7 0.1 (100) (100) 0.3 600 500 400 300 1000 1100 900

Pin Clamp Cylinders

Plate cylinder type (Guide pin diameter: 12) C(L)KQG50 (Guide pin diameter: 13) Clamping height LOW type HIGH type LOW type HIGH type LOW type HIGH type Clamping height H 30 100 30 100 24 54 Body thickness T 50 29 66 Body width W 50 70 66 Body length L1 127 (159) 132.5 (160) 147.5 (182.5) Overall length L2 183 (215) 253 (295) 118.5 (216) 258.5 (286) 204.5 (239.5) 234.5 (269.5) Weight [g] 900

Series 12-CY3B ø6, ø10, ø15, ø20, ø25, ø32, ø40 ø50, ø63 Magnetically Coupled Rodless Cylinder

12-CY3B6 6 300 50, 100, 150, 200 M5 x 0.8 12-CY3B10 10 500 50, 100, 150, 200, 250, 300 12-CY3B15 15 1000 50, 100, 150, 200, 250, 300, 350, 400, 450, 500 12-CY3B20 20 100, 150, 200, 250, 300, 350, 400, 450, 500, 600, 700, 800 Rc1/8 NPT1/8 G1/8 12-CY3B25 25 (Both sides) Non-lube 12-CY3B32 32 1300 Rc1/4 NPT1/4 G1/4 12-CY3B40 40 100, 150, 200, 250, 300, 350, 400, 450, 500, 600, 700, 800, 900

42

Bore size CS1, CS2 series Pressure 0.5 MPa Load ratio 50% Stroke 1000 mm MB, CA2 series Pressure 0.5 MPa Load ratio 50% Stroke 500 mm Average speed [mm/s] Series 40 50 63 80 100 125 140 160 180 200 250 1100 1000 900 800 700 600 500 400 300 200 100 0 Vertically upward Horizontal VQ4100--03 VQ4101--03 1100 1000 900 800 700 600 500 400 300 200 100 0 VQ5100--04 VQ5101--04 Values at extension

RSH

RSH20, 32 Graphq Graphw 1.0 RSH32 RSH32 RSH32 Bore size 50, 63, 80/ m =0 Bore size 50, 63, 80/ m =0.1 RSH20 RSH20 RSH20 0.9 Operating pressure : P (MPa) 1300 1300 0.8 80 0.7 1200 1200 0.6 1100 1100 0.5 1000 1000 0.4 900 900 0.3 63 80 800 800 0.2 50 Weight : W (kg) Weight : W (kg) 700 700 0.1 600 600 100 200 300 400 500 0 63 500 500 Lateral load: W (N) 50 400 400 RSH50, 63, 80 300 300 1.0

MVGQ

Built-in magnet for auto-switches CE1 CE2 Maximum Driving Speed of Cylinders ML2B 1000 1000 900 900 C J G5-S Load factor: 10% Load factor: 50% 800 800 Cylinder speed (mm/s) Cylinder speed (mm/s) 700 700 600 600 CV 500 500 400 400 MVGQ 300 300 200 200 CC 100 100 0 0 12 16 20 25 32 40 50 63 80 100 RB SYJ3000 VZ3000 VZ5000 VF3000 Bore size (mm) J Series Variations DDetailed specifications

C76

Area: (800) 258-9200-www.stevenengineering.com Nominal symbol C76 Mounting bracket diagram 32 40 (MPa) Lateral load applied to the rod end fR (N) Foot: L Rod side flange: F Head side flange: G 0.3 58 54 10.0 L C7640 44 0.5 40 W W W F 36 0.7 33 C7632 24 0.3 23 G 17 0.5 16 1.0 13 0.7 13 Clevis: C, D Rod side trunnion: U 0.3 C 0.5 W W D 0.7 0.1 (100) (100) 0.3 600 500 400 300 1000 1100 900

Centering Unit

When air is supplied from the unlocking port, y the piston for locking ascends and releases the lock. 3 Centering Unit MACM Series How to Order X114 4 P 20 MACM Centering unit Made to order (Table material) X114 Stainless steel Ultra high molecular weight polyethylene Cast nylon X115 X116 Allowable load weight Symbol Allowable load weight 2 450 lbf [2 KN] 4 900 lbf [4 KN] 6 1350 lbf [6 KN

Compact 5-Port Solenoid Valve

Refer to the cylinder catalog for details. 11 Optimum Actuation Size Chart of Air Cylinder For JSY5000, A, B port: 12 EX120 EX260 EX250 EX600 EX245 Chart Valve Lead Wire D-sub Flat Ribbon Terminal Block Connector Connecting Base Horizontal Vertical (Upward) Average speed [mm/s] 0 100 200 300 400 500 600 700 800 900 1000 50 63 Plug-in Common Dimensions Made to Order Manifold Exploded View

Fluoropolymer Piping Equipment

12 19 25 3/16" 1/8" 1/4" 3/8" 1/2" 3/4" 1" 2 3 Union elbow reducing LQ1E-R LVC 4 5 LVA P.889 6 LVH 2 LVD 3 Union tee reducing LQ1T-R 4 LVQ 5 LVP P.891 6 2 LVW 3 Panel mount union reducing LQ1P-R LQ1 LQ1 4 LQ3 5 P.896 6 LVN 2 LQHB 3 Union reducing LQ1U-R TL TIL 4 5 TLM TILM P.897 6 TD TID 2 TH TIH 3 Space saving union elbow LQ1E-SS 4 5 SMC P.898 6 2 3 Space saving union tee LQ1T-S 4 5 P.900

HRL

Water Cooled substance mass m : (= x V) [kg] Cooled substance density : 1 [kg/L] Cooled substance total volume V : 250 [L] Cooled substance specific heat C : 4.186 x 103 [J/(kgK)] Cooled substance temperature when cooling begins T0 : 305 [K] (32 [C]) Cooled substance temperature after t hour Tt : 293 [K] (20 [C]) Cooling temperature difference iT : 12 [K] (= T0 Tt) Cooling time it : 900

Thermo-chiller

Water Cooled substance mass m : (= x V) [kg] Cooled substance density : 1 [kg/L] Cooled substance total volume V : 150 [L] Cooled substance specific heat C : 4.186 x 103 [J/(kgK)] Cooled substance temperature when cooling begins T0 : 303 [K] (30 [C]) Cooled substance temperature after t hour Tt : 293 [K] (20 [C]) Cooling temperature difference iT : 10 [K] (= T0 Tt) Cooling time it : 900

Thermo-chiller/Rack Mount Type

Q = m x C x (T0 Tt) it = r x V x C x iT it = 1 x 20 x 4.2 x 103 x 12 900 = 1120 [J/s] 1120 [W] Q = m x C x (T0 Tt) it x 860 = c x V x 60 x C x iT it x 860 Cooling capacity = Considering a safety factor of 20%, 1120 [W] x 1.2 = 1344 [W] = 1 x 20 x 60 x 1.0 x 103 x 12 15 x 860 1120 [W] Thermo-chiller Q x t: Heat capacity [kJ] 20C Water bath Cooling capacity = Considering a safety factor

Lightweight and Compact

HRZ x V x C x iT it m x C x (T0 Tt) it Q = = HRZD 1 x 150 x 4.186 x 103 x 10 900 = = 6977 [J/s] 7.0 [kW] m x C x (T0 Tt) it x 860 x V x 60 x C x iT it x 860 HRW Q = = Cooling capacity = Considering a safety factor of 20%, 7.0 [kW] x 1.2 = HECR 1 x 150 x 60 x 1.0 x 103 x 10 15 x 860 8.4 [kW] = HEC Q x t: Heat capacity [kJ] Thermo-chiller Water bath 6977 [W] = 7.0 [kW] 20C HEB Cooling

HRS100/150

Water Cooled substance mass m : (= x V) [kg] Cooled substance density : 1 [kg/L] Cooled substance total volume V : 150 [L] Cooled substance specific heat C : 4.186 x 103 [J/(kgK)] Cooled substance temperature when cooling begins T0 : 303 [K] (30 [C]) Cooled substance temperature after t hour Tt : 293 [K] (20 [C]) Cooling temperature difference iT : 10 [K] (= T0 Tt) Cooling time it : 900