Large Bore Compact Cylinder Series CQ2 Large Bore Compact Cylinder Series CQ2 180, 200 Single or Double Rod Versions Switch Capable Space Saving Series CQ2 Series CQ2 180 and 200 added to CQ2 compact cylinder series.
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 CYV15 CYV32 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 to load center of gravity [mm] A, B: Distance to guide shaft [mm] g: Gravitational acceleration [9.8 m/s2] M2 M1 M3 m x g m x g Guide shaft mounting surface m x g Central axis of guide
Thus, from the total amount of the work piece and coefficient of friction, F = x m g (N) 1. Calculation of applied lateral load The lateral load F equals the total load of the workpiece. Thus, F = x m g (N) 2.
Thus, from the total amount of the work piece and coefficient of friction, F = x m g (N) 1. Calculation of applied lateral load The lateral load F equals the total load of the workpiece. Thus, F = x m g (N) 2.
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 to load center of gravity [mm] A, B : Distance to guide shaft [mm] g : Gravitational acceleration [9.8m/s] M2 M1 M3 m x g m x g Guide shaft mounting surface m x g Guide central axis
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 to load center of gravity [mm] A, B : Distance to guide shaft [mm] g : Gravitational acceleration [9.8m/s] M2 M1 M3 m x g m x g Guide shaft mounting surface m x g Guide central axis
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 to load center of gravity [mm] A, B : Distance to guide shaft [mm] g : Gravitational acceleration [9.8m/s] M2 M1 M3 m x g m x g Guide shaft mounting surface m x g Guide central axis
M5 x 0.8 Y G: M6 x 1 G: M8 x 1.25 G: M4 x 0.7 G: M5 x 0.8 D ZPY02U 2 4 6 8 Applicable tube O.
0 0 100 200 300 400 500 600 V(mm/s) 0 100 200 300 400 500 600 V(mm/s) 0 0 100 200 300 400 500 600 V (mm/s) LEFS 16 LEFS 25 LEFS 32 50 12 20 W(kg) W(kg) 10 W(kg) W(kg) W(kg) W(kg) 6 40 6 15 8 30 8 6 8 10 5 5 20 4 5 12 10 16 10 12 16 10 2 0 0 0 0 100 200 300 400 500 600 V (mm/s) 0 100 200 300 400 500 600 V(mm/s) 0 100 200 300 400 500 600 V(mm/s) -9- (1)(DC24V) LEFS40 (mm) 1) 200
Add 10 g for conduit type, 30 g for DIN terminal type, 60 g for conduit terminal type respectively.
] 45 [200] 0 0 50 100 150 200 50 100 150 200 Arm length [mm] Arm length [mm] The maximum clamping force when the arm length is 100 mm and the operating pressure is 44 psi [0.3 MPa]: With an arm length of 100 mm and an operating pressure of 44 psi [0.3 MPa], according to the graph, the maximum clamping force is 45 lbf [200 N].
amount Note 6) Eluting metal ion amount Note 6) (g/g) (ng/cm2) Length 16 m (50 ft) 33 m (100 ft) Symbol 16 33 Type Type Fluorine ion Type Al Fe Ni Na Ca Roll 0.1 or less 4.5 0.3 0.2 7.1 1.3 Eluting amount Eluting amount A 15 g piece of fluororesin tubing is cut off, washed in DI water (puer water) and immersed in 15 mL of 25% methyl alcohol extract at room temperature for 24 hours.
D M E J F C X B + Stroke L Z M A + Stroke E T 2-P (port size) I Q Metal connector Made by TAJIMI R04-J8M7.3 15.5 M14 x 1 38 (mm) G A C D E F H J K B I Bore size (mm) 32 40 50 63 Standard stroke 64 131 27 16 45 49.5 M14 x 1.5 4.5 14 90 14 50, 75, 100, 125, 150, 175, 200, 250, 300 71.5 177 27 16 52 57 M14 x 1.5 5 14 136 24 100, 125, 150, 175, 200, 250, 300, 400, 500 85.5 200, 300, 500 193 32
L plug connector, Without connector With light/surge voltage suppressor LO Coil rated voltage M plug connector, With lead wire With light/surge voltage suppressor M 1 2 3 4 5 6 9 100 VAC (50/60 Hz) 200 VAC (50/60 Hz) 110 VAC (50/60 Hz) 220 VAC (50/60 Hz) 24 VDC 12 VDC Other M plug connector, Without connector, With light/surge voltage suppressor MO G Grommet Note) Grommet: No latching type
Both Ends Actuation D Double Acting S Spring Heturn T Spring Extend 9/t6" 056 3t4" 075 1-1l16' 106 t-1/2' 150 2" 200 2-1n' 250 3' 300 4" 400 o12 025 037 050 062 075 087 100 Solid State Switch Sboke 125 150 I -t,14" 1/8. 1t4" 3/8' 1f2" 5/8' 94" 1-1f2" I /4' 200 2-1n" 300 350 400 3-1t2" 4' The siandard lead wire length is 0-5m. 'L' is add6d lor 3m. long lead wire.
Both Ends Actuation D Double Acting S Spring Heturn T Spring Extend 9/t6" 056 3t4" 075 1-1l16' 106 t-1/2' 150 2" 200 2-1n' 250 3' 300 4" 400 o12 025 037 050 062 075 087 100 Solid State Switch Sboke 125 150 I -t,14" 1/8. 1t4" 3/8' 1f2" 5/8' 94" 1-1f2" I /4' 200 2-1n" 300 350 400 3-1t2" 4' The siandard lead wire length is 0-5m. 'L' is add6d lor 3m. long lead wire.
degrees 3 turns 200 degrees 3 turns 200 degrees 200 degrees 17mA or less (when 24VDC is ON) 25mA or less (when 24VDC is ON) 17mA or less (when 24VDC is ON) Current consumption 0.2MPa {2.1kgf/cm} Max. operating pressure Note 1) When using an ejector, there is no problem if pressure of 0.5MPa {5.1kgf/cm} is applied for 1 second or less.
1/2 (Applicable cable O.D. 6.8 to 9.6) Hs Hs 49 Ht Ht 56 34 36 A B B 33 A D-A3C D-G39C/K39C D-G5/K59 D-G5W/K59W D-G5BA D-G59F/G5NT G 1/2 (Applicable cable O.D. 6.8 to 9.6) B A HW 49 Hs Hs 24.5 B A 33 36 D-F5/J59 D-F5NT D-F5W/J59W D-F5BA/F59F D-A44 G 1/2 (Applicable cable O.D. 6.8 to 11.5) Hs Hs 31.5 Ht Ht 56 A 36 B B 30 A D-A44C G 1/2 (Applicable cable O.D. 6.8 to 11.5) B A HW 49.5 Hs 36
19 kW 1 kW 300 26 kW 1 kW 20 3-phase 200 VAC (50 Hz) 3-phase 200 to 230 VAC (60 Hz) Pipe thread type Nil Rc F G (with Rc-G conversion fitting) N NPT (with Rc-NPT conversion fitting) Cooling method A Air-cooled refrigeration Specifications Model HRL100-Am-20 HRL200-Am-20 HRL300-Am-20 CH1 CH2 CH1 CH2 CH1 CH2 Cooling method Air-cooled refrigeration Refrigerant R410A (HFC) Refrigerant charge