Rodless Cylinder for Vacuum Series CYV ø15, ø32 1 P (Port size) Operation P (Port size) Model CYV15 CYV32 Caution 5/16-24 UNF 7/16-20 UNF 1. The maximum operating pressure for the vacuum rodless cylinder is 0.3 MPa.
Refer to the detailed dimensions for mounting of the slide table and end unit, which are included with the SA (straight type) dimensions. 7 3-Dimensional Transfer Single Unit Type Series MF MF -180 15 32 A (cylinder tube center) A (cylinder tube center) A (cylinder tube center) C C C Y 180 180 180 Y F Note 1) Y H I B H B I B F Note 1) F Note 1) F Note 1) D D D F Note 1) F Note 1) I I I I
Dimensions 45 2-6 Driver 149 160 6 A B 130 Driver input/output signal list (CN-1/F connector ) Driver dimensions Signal description Command pulse input Command pulse input Command code input Command code input Deviation counter clear input Deviation counter clear input Brake interlock signal output Pin no. 14 15 16 17 18 32 33 34 35 36 Signal PULS PULS SIGN SIGN CLR CLR BK COIN SG P-IN Signal
Symbol Symbol Applicable tubing size (mm) 4 x 3 3 x 2 6 x 4 4 x 3 3 x 2 6 x 4 4 x 3 3 x 2 10 x 8 8 x 6 6 x 4 10 x 8 8 x 6 6 x 4 4 x 3 3 x 2 10 x 8 8 x 6 12 x 10 10 x 8 12 x 10 10 x 8 8 x 6 6 x 4 3 x 2 12 x 10 19 x 16 12 x 10 19 x 16 12 x 10 10 x 8 6 x 4 19 x 16 19 x 16 25 x 22 19 x 16 25 x 22 19 x 16 12 x 10 25 x 22 Applicable tubing size (inch) 1/8" x 0.086" 1/4" x 5/32" 3/16" x 1/8" 1/8
Rubber back of the belt is softened and sticky. f . Crack on the back of the belt 16. Check the specifications for the minimum speed of each actuator. Otherwise, unexpected malfunctions, such as knocking, may occur. 17.
G1,Symbol N: NPT1) Tank drain port Rc3/4 (Symbol F: G3/4,Symbol N: NPT3/4 Supply side pressure range MPa 0.2 to 0.5 Automatic fluid fill function (Standard) Supply side fluid temp. range 5 to 35 Automatic fluid fill port size Rc1/2 (Symbol F: G1/2, Symbol N: NPT1/2) Over flow port size Rc1 (Symbol F: G1, Symbol N: NPT1) Stainless steel, Copper (Brazing filler metal for the heat exchanger
Ball bushing O-ring NBR Snap ring Nickel plated Carbon tool steel Rod end nut Nickel plated Steel Mounting nut Steel 12 Series MQM Dimensions Basic type: MQMLB 6 Mounting nut M12 x 1 Rod end nut 2-M5 x 0.8 15 M4 x 0.7 13 4 11 16 15 8 21 4.5 11 66 + Stroke 27.5 93.5 + Stroke 10, 16, 20, 25 Mounting nut Rod end nut G1 G2 NN 2-P I NA D J N2 N1 MM A F F S + Stroke H ZZ + Stroke (mm) P Bore
15, 30, 45, 60 Grommet L plug connector M plug connector Bore size 10 16 10 mm 16 mm S Z R U Mounting style B L F Basic style Axial foot style Rod side flange style Type R, U: DC only In the case of AC, since the rectifier prevents the production of surge voltage, there is no type S.
Calculation of applied lateral load The lateral load F equals the total load of the work piece. Thus, F = x m g (N) 1. Calculation of applied lateral load F The lateral load F equals the coefficient between the work piece and the conveyor. Thus, from the total amount of the work piece and coefficient of friction, F = x m g (N) 2.
Accelerating torque calculation (Example) (Example) Friction coefficient Ta = I x (Nm) Mass m F = mg Clamp F F I : Inertial moment Static torque calculation Movement Load Refer to features page 5. : Angular acceleration = (rad/s) Tf = F x l (Nm) g = 9.8m / s F: Pressing force (N) l l Static torque calculation 2 Load t2 Ts = F x l (Nm) Lever : Rotation angle (rad) t : Rotation time
Description AC servomotor Lead screw High rigidity direct acting guide Coupling Bearing R Bearing F Body A Table Housing A Housing B Top cover Aluminum alloy Aluminum alloy 12 13 14 15 16 17 18 19 20 21 22 Aluminum alloy Aluminum alloy Aluminum alloy Aluminum alloy Aluminum alloy IIR PC PC PC PC PC Rare earth magnet 135 Series LJ1H Construction LJ1H30 A A Section AA With brake Material
EB A + Stroke EA 20, 25 (mm) With auto switch HA OA Without auto switch A 31.5 Bore size (mm) Stroke range (mm) EB F HB IA IB NN NN EA A 26.5 B 17 B 22 12 16 20 25 M4 x 0.7 8-32UNC 4-40UNC M3 x 0.5 25 24 5 3 32 31.5 5 to 30 4-40UNC M4 x 0.7 8-32UNC M3 x 0.5 5 to 30 26.5 17 31.5 22 29 28 5 3 38 37 1/4-20UNC M4 x 0.7 6-32UNC M6 x 1.0 5 to 50 32 19.5 42 29.5 36 34 5.5 4 47 45.5 5 to 50 1/
The length (Dimension S) is 25.5 when any of the following grommet type auto switches are used: D-R73/R80/S79/S7P/T79 The length (Dimension S) is 34.5 when any of the following connector type auto switches are used: D-R73/R80/T79 (mm) A B C D E (g6) F (h9) G H K L M N R S1 S2 T U V W X Y Z Model CDRBU2W15-D 5 0.004 0.012 6 0.004 0.012 8 0.005 0.014 12 0 0.043 14 0 0.043 16 0 0.043 34 25 29
+ 15 PP 10 PULSE F 16 PG 11 10 m or less NP 35 17 PULSE R + S/S NG 36 4 LA 18 PULSE R A phase pulse detector (Differential line driver) 9 PG0 LZ 8 5 LAR PG0 COM 10 LZR 9 6 LB B phase pulse detector (Differential line driver) LG 3 7 LBR Control common SD Plate 34 LG Control common 10 m or less Note 5) 33 OP Z phase pulse detector (Open collector) 1 P15R Plate SD 10 m or less 2 m or less
Double acting only 250 PSt (17.5 I PSI -4 -300"F (-202 -20 inch/sec No cushion available Double end. Front nose, Rear Pivot HolII TO ORDER Sbd( Sirofe Lbt n"u@ Ex.) NCUB 075-040GXBG ---EHiqh temperature Aulo-sryitch capable not available. . Low temperature down to -22"F. .
Table displacement due to pitch moment load (marked with the arrow) Table displacement due to yaw moment load (marked with the arrow) Table displacement due to roll moment load (marked with A) F A F F L L Distance L [mm] Model LEPS6 LEPS10 Stroke [mm] 25 50 25 50 Distance L [mm] 53.0 77.0 59.5 82.0 LEPS6 LEPS6 LEPS6 0.30 0.30 0.10 0.25 0.25 Displacement [mm] Displacement [mm] Displacement
-24UNF 1.57 0.43 4.50 3.39 3.43 1.93 1.46 0.43 1.38 0.24 0.39 3.15 1/4-28UNF 5/16-24UNF 1.97 0.71 5.00 3.94 3.98 2.24 1.51 0.43 1.65 0.28 Note 1) Dimension F provides a clearance of 0.04 inch between the body and the floating joint, but does not consider dead weight deflection of the cylinder tube, etc.
Calculation of applied lateral load The lateral load F equals the total load of the workpiece. Thus, F= 5 x 0.05 x 9.8 = 2.5 (N) 1. Calculation of applied lateral load F F = N m g (N) = 0.2 x 10 x 0.1 x 9.8 = 2.1 (N) CC 70 Lateral load F (N) RB 60 0.4 MPa 50 J 40 2.
Calculation of applied lateral load F The lateral load F equals the coefficient between the work piece and the conveyor. 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 work piece. Thus, F = x m g (N) 2.
XT661-2A: F = f x (1/t) = 0.8 x (1/2) = 0.4 N XT661-4A: F = f x (1/t) = 3.8 x (1/2) = 1.9 N XT661-6A: F = f x (1/t) = 5.9 x (1/2) = 2.95 N XT661-8A: F = f x (1/t) = 7.5 x (1/2) = 3.75 N XT661-10A: F = f x (1/t) = 14.4 x (1/2) = 7.2 N 9700 g 9700 x 9.8/1000 = 95.06 N XT661-10A: Temporary lifting force 11.2 N < Workpiece mass 9700 g (95.06 N) 3) Confirm the relationship temporary lifting force