MGF + Stroke B + Stroke Dimensions (mm) A B GB Bore size 40 63 100 58 48.5 36.5 GB 73 61.5 38 78 66.5 38 Dimensions not listed above are the same as the standard model.
() A B C() Rc1/81/4 Rc1/81/4 NPT1/81/4 NPT1/81/4 13 11 17 13 11 17 G1/8 G1/8 G1/4 17 15 21 G1/4 17 15 21 -73No.PF-OMJ0005CN-I PFM7-C4/C6/C8/N7--X694 PFM7S-C4/C6/C8/N7--X694 A B A B C4 4(5/32) 10.1 36.1 C4 4(5/32) 10.1 8.1 C6 6 10.3 36.3 C6 6 10.3 8.3 C8 8(5/16) 12 37 C8 8(5/16) 12 10 N7 1/4 10.3 36.3 N7 1/4 10.3 8.3 PFM7-01/02--X694 PFM7S-01/02--X694 A B C() A B C() Rc1/81/4 Rc1/81/4
PF2A5--2 (With voltage output type) PF2A511, 521, 551 B Wiring 116 23 1.6 76.2 Brown (1) DC(+) Main circuit Black (4) OUT (Output for display unit) White (2) NC/Analog output 54 44 34 Blue (3) DC() Use this sensor by connecting it to a P/A remote type display unit Series PF2A2/3. 4-4.5 2-Port size 30 40 50 Connector pin numbers 2 1 (44.2) A 4 3 (mm) A B Output specification Pin no.
B C 1 V 1.5 V 5 V 4 mA 6 mA 20 mA (PF3W711) A B C 1 V 1.4 V 5 V 4 mA 5.6 mA 20 mA (PF3W721) A B C 1 V 1.5 V 5 V 4 mA 5.9 mA 20 mA [L/min] PF3W504 0.5 4 PF3W520 2 16 PF3W540 5 40 PF3W511 10 100 PF3W521 30 250 -69No.PF-OMN0011CN-C / A B C D 0.6 V 1 V 5 V 5.4 V 2.4 mA 4 mA 20 mA 21.6 mA -70No.PF-OMN0011CN-C -71No.PF-OMN0011CN-C 0.58 mm(0.56 mm) (ZS-40-W) -72No.PF-OMN0011CN-C Revision
Auto Switch Proper Mounting Position (Detection at Stroke End) Electrical entry direction: Inward Electrical entry direction: Outward D B A C B D-Z7Z8, D-Y7W D-Y5, D-Y7 D-Y6, D-Y7V D-Y7WV D-Y7BA Bore size (mm) A C 16.5 (15) 23.5 (22) 34 (32.5) 46 (44.5) 46 (44.5) 56 (54.5) D 0.5 (1) 3.5 (2) 0.5 (1) 3 (1.5) 5 (3.5) 5 (3.5) C 18 25 35.5 48 48 58 D 2 5 2 4.5 6.5 6.5 C 10.5 17.5 28 40 40 50 D
Operation < Valve opened > When the coil u is energized the opened pilot A closes, the pressure in the pressure action chamber B rises and the main valve C closes. < Valve closed > When the coil u is not energized, the closed pilot valve A opens, the pressure in the pressure action chamber B drops and the main valve C opens.
Rod end nut L1 Double clevis type/CBQ2D, CDBQ2D (mm) Double clevis type CT 4N Cap bolt With rear lock With front lock Bore size (mm) CD CT CU CD hole H10 Shaft d9 A B CL A B CL 102.5 65.5 92.5 95 58 85 10 5 14 32 114 75 104 103.5 64.5 93.5 10 6 14 40 121.5 75.5 111.5 111.5 65.5 101.5 14 7 20 50 RR CW CU CX + 0.4 + 0.2 129 77 115 123 71 109 14 8 20 63 L B + Stroke CL + Stroke A + Stroke CZ
-BGJMT] Model HRS012-A HRS012-W HRS018-A HRS018-W HRS024-A HRS024-W -20-BGJMT -20-BGJMT -20-BGJMT -20-BGJMT -20-BGJMT -20-BGJMT Air-Cooled Water-Cooled Air-Cooled Water-Cooled Air-Cooled Water-Cooled Cooling method refrigerated refrigerated refrigerated refrigerated refrigerated refrigerated type type type type type type Refrigerant R407C(HFC) Quantity of refrigerant kg 0.35 0.3 0.36 0.31
5 CYP32 (Nm) M1 M2 M1 0.3 3 M2 0.6 4 M3 0.3 3 Model CYP15 CYP32 m m Static moment Moment generated by the work piece weight even when the cylinder is stopped M Pich moment M1 = m x g x (L + B) x 103 M Yaw moment M3 = m x g x (L + A) x 103 M Roll moment M2 = m x g x (L + B) x 103 (mm) Model CYP15 CYP32 A 16.5 27.0 B 25.5 48.0 L B L B L A M1, 2, 3 : Moment [Nm] m : Load mass [kg] L : Distance
5 CYP32 (Nm) M1 M2 M1 0.3 3 M2 0.6 4 M3 0.3 3 Model CYP15 CYP32 m m Static moment Moment generated by the work piece weight even when the cylinder is stopped M Pich moment M1 = m x g x (L + B) x 103 M Yaw moment M3 = m x g x (L + A) x 103 M Roll moment M2 = m x g x (L + B) x 103 (mm) Model CYP15 CYP32 A 16.5 27.0 B 25.5 48.0 L B L B L A M1, 2, 3 : Moment [Nm] m : Load mass [kg] L : Distance
The number of sampling locations NL = (A) 0.5 Evaluation method using a simple sampling Number of sampling w Unidirectional airflow: at least two locations Smaller value between NL=A/2.32 and NL=A x 64/(10M) 0.5 locations At least one location 2 litters or a sufficient volume of air that a minimum of 20 particles could be counted if the particle concentration were at the class limit.
5 CYP32 (Nm) M1 M2 Model CYP15 CYP32 M1 0.3 3 M2 0.6 4 M3 0.3 3 m m Static moment Moment generated by the work piece weight even when the cylinder is stopped Pich moment M1 = m x g x (L + B) x 103 Yaw moment M3 = m x g x (L + A) x 103 Roll moment M2 = m x g x (L + B) x 103 (mm) Model CYP15 CYP32 A 16.5 27.0 B 25.5 48.0 L B L B L A M1, 2, 3 : Moment [Nm] m : Load mass [kg] L : Distance
: D-M9BV, D-M9NV, D-M9PV, D-F9WV (mm) B E B Stroke Model Stroke A 100 75 50 30 20 10 100 75 50 30 20 10 MXF8 13.5 6 1 6 14 9 14 MXF12 16 25.1 9.1 9.1 33.1 17.1 17.1 MXF16 21.2 42.3 21.8 11.8 50.8 29.8 19.8 MXF20 23.4 66.7 42.2 18.7 16.7 74.7 50.2 26.7 24.7 ( ): Denotes the values of D-A93.
In-line type AS1001F AS2001F AS2051F AS3001F AS4001F 6 to 20 20 to 32 20 to 40 40 to 63 63 to 100 Dual speed controller ASD230F ASD330F ASD430F ASD530F ASD530F ASD630F 6 to 20 20 to 32 20 to 40 20 to 40 40 to 63 63 to 100 M5 1/8 1/4 1/4 3/8 1/2 Applicable cylinder bore size (mm) Piping side port size Cylinder side port size Model AS1200 AS2200 AS3200 AS4200 M5 1 2 1/8 1/4 3/8 1/2 3/4 1 1
For driving air operated valves for fluid control N.C N.O N.C N.C Air operated style fluid control valve Vacuum valve Vacuum pad A, B 1(P) A, B 1(P) A, B 1(P) A, B 3(P) 3(R) 3(R) 3(R) 1(R) Vacuum releasing air Atmospheric pressure or micro pressure The characteristic values shown in the catalog are representative values, not warranting the performance. 4-3-1 2 Series SY100 Precautions Be
250 L/min ) [cm] -38No.PF-OMN0009CN-F PF3W504S PF3W520S [] [] P: P: PF3W540S [] P: -39No.PF-OMN0009CN-F () (PF3W504/520/540) A B C 1 V 1.5 V 5 V 4 mA 6 mA 20 mA (PF3W511) A B C 1 V 1.4 V 5 V 4 mA 5.6 mA 20 mA (PF3W521-12/14) A B C 1 V 1.8 V 5 V 4 mA 7.2 mA 20 mA (PF3W521-U30) A B C 1 V 1.48 V 5 V 4 mA 5.92 mA 20 mA [L/min] PF3W504 0.5 4 PF3W520 2 16 PF3W540 5 40 PF3W511 10 100 PF3W521
Power supply output VI: 20 [kVA] Q = P = V x I x Power factor In this example, using a power factor of 0.85: = 20 [kVA] x 0.85 = 17 [kW] Cooling capacity = Considering a safety factor of 20%, 17 [kW] x 1.2 = W Efficiency Q = P = In this example, using an efficiency of 0.7: 13 0.7 = = 18.6 [kW] Cooling capacity = Considering a safety factor of 20%, 18.6 [kW] x 1.2 = 22.3 [kW] 20.4 [kW] *1
Model Exhaust Piping/Port location Port size Applicable P R 1 A,B P It A,B Valve NWsF5-20Common Side /Base Side/Base fop/ Valve %NPrF I %flPlf LNPIF %NPIF NVFSO20 DXT 156-20-1TA EXH relocation spacer NVV5F5-20 156-19-14 NW5F5-20 " Spacer is used when it is nscessary to exhaust from certain valves individually.
An ideal air cylinder for lifting and pressing operations Air pressure supplied from A operates on surfaces 1 and 2. (extension) A B Air pressure supplied from B operates on surface 3. (retraction) A B Mounting accuracy improved Positioning holes are provided on the work piece mounting surface for easy alignment.
sealing method Options Flat gasket (D.O.E) 1 N/A Bracket Quick plug Nil B P Note) Specity seal material in place of "" (N for NBR or V for FPM). 4.