Title not found I W h s i r l Black o-Y69A.Y6gB.O-Y7PV D-Y598.Y698/2 wire system l " ' . . r 6 7 7.5 I 8.5 1--&9p9!9q E!
S 100 L Flow control valve (With pressure compensation) Enables constant movement even if there are load fluctuations.
Table 7.1-1 Quality criteria for clean water (tap water) Item Unit Criterion Circulating fluid Facility water pH (at 25 oC) 6.0 to 8.0 6.5 to 8.2 Electric conductance (at 25 oC) [S/cm] 100 to 300 100 to 800 Chloride ion [mg/L] 50 or less 200 or less Standard Sulphate ion [mg/L] 50 or less 200 or less item Acid consumption (at pH 4.8) [mg/L] 50 or less 100 or less Total hardness [mg/L] 70
RSH RS1H 30 50 Z73 D L Bore size Number of auto switches 50mm 63mm 80mm 50 63 80 Thread type Nil S 2 pcs. 1 pc.
RSH RS1H 30 50 Z73 D L Bore size Number of auto switches 50mm 63mm 80mm 50 63 80 Thread type Nil S 2 pcs. 1 pc.
1 1 C G LJ1 10 S W X10 Guide type Slider guide S X10 Non-standard motor Series Limit switch Series 10 Series 20 Series 30 10 20 30 Cable entry direction Nil None B contact specification 2 pcs.
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
from bottom with CAP bolt Bolt size: MD XB WF FG XA 2-SS (Helical insert thread) Body R S HL Note 1) Note 2) HB FF Note 1) Switch rail FC D Section D-D (mm) A BA BB CC FC FE Note1) FG FH HB Note1) HL L LA LF MD R Note2) S SS WF XA XB FF Note1) Model CY3R15 CY3R20 CY3R25 CY3R32 CY3R40 18 4.5 8 4.4 4.5 7.5 14.5 38.5 35.5 53 17 8.5 M4 4.5 M4 x 0.7 14 6.5 16.5 6.5 4 45 14 62 29 14.5 M3
Vibrations on guide and moving part resistance will result when power over the allowable moment is applied. rFlatness of mounting surface should be less than 0.02mm. l l l allowable load and allowable moment. Refer to p.3.11-10 and 3.11-11 for the details.
Confirmation of allowable load weight by application Vertical downward: Press Horizontal: Chucking Vertical upward: Lifter l l m m F m F Maximum speed (mm/s) Load center of gravity position l (mm) Maximum speed (mm/s) to 300 to 500 to 700 to 300 to 500 to 100 to 200 to 300 Graph Graph Graph Graph Graph Graph Graph Graph l: The dimension for the load center of gravity position is the dimemsion
HEB Iron (Fe) [mg/L] 0.3 or less v v Copper (Cu) [mg/L] 0.1 or less v Sulfide ion (S2) [mg/L] Should not be detected. v Ammonium ion (NH4+) [mg/L] 0.1 or less v Residual chlorine (Cl) [mg/L] 0.3 or less v Free carbon (CO2) [mg/L] 4.0 or less v HED Reference item HEA Electrical Wiring Warning IDH * In the case of [Mcm], it will be 0.003 to 0.01.
(See drawing at right) L m Load center of gravity Cylinder shaft center Selection Graph (1) to (3) (Vertical mounting) Graph (3) Maximum Speed 500 (mm/s) or Less Graph (1) Maximum Speed 100 (mm/s) or Less 1 100 0.1 10 Weight m (kg) Weight m (kg) Weight m (kg) 20 16 10 0.01 6 1 20 16 10 6 0.001 0.1 20 40 0 60 80 100 20 40 60 80 100 0 Overhang L (mm) Overhang L (mm) Graph (2) Maximum Speed
Operation LED IO-Link status indicator light Operation LED Current flow rate Set value P button (DOWN) S button (SET) button (UP) button (DOWN) S button (SET) button (UP) Main display Main display Hysteresis H Flow [L/min] Connecting/Disconnecting Align the lead wire connector with the connector key groove, and insert it straight in. Turn the knurled part clockwise.
Note2) Functional options are not available for MXS L.
CY1 MY1 3.4-3 End Lock Cylinder Series CBM2 20, 25, 32, 40 How to Order L 40 150 H N CBM2 Standard L 40 150 C73 H N CDBM2 With auto switch Air cylinder with auto switch Number of auto switch Mounting 2 1 n S n Basic Axial foot Front flange Rear flange Single clevis Double clevis Front trunnion Rear trunnion B L F G C D U T Bore size 20 25 32 40 20mm 25mm 32mm 40mm Auto switch Without auto
Table 7.1-1 Quality criteria for clean water (tap water) Item Unit Criterion Circulating fluid Facility water pH (at 25 oC) 6.0 to 8.0 6.5 to 8.2 Electric conductance (at 25 oC) [S/cm] 100 to 300 100 to 800 Chloride ion [mg/L] 50 or less 200 or less Standard Sulphate ion [mg/L] 50 or less 200 or less item Acid consumption (at pH 4.8) [mg/L] 50 or less 100 or less Total hardness [mg/L] 70
S 1 p c . n n p c s . L Long leads uountng B Front Nose Mount C -Rear Pivot E -Double End K -Non-Rotating Rod R -Block Mount W-Double Rod Auto.Switch 853. D-853 Gsg D-G59 B54. D-854 K59 D-K59 864 .
Grommet: G Conduit: C Approx. 300 Approx. 280 D D Q F Q F C C G (PF) 1/2 R R E E A H 2-P Port size 2-M B B A H 2-P Port size 2-M L L K K DIN connector: D Conduit terminal: T Cable 6.8 to 10 27.5 F F Q (Q) S 34 25 U R C R C (44) G (PF) 1/2 E B A H D 2-P Port size (S) E G (PF) 1/2 B A H D 2-M 2-P Port size 2-M L L K K N.C.
axis of cylinder Dynamic Moment Moment generated by the load equivalent to impact at the stroke end We: Load equivalent to impact [N] m : Load mass [kg] U: Max. speed [mm/s] g: Gravitational acceleration [9.8m/s] We = 5 x 103 x m x g x U Pitch moment Me1 = 1/3 We(L + B) 10Yaw moment Me3 = 1/3 We(L + A) 10(mm) Average load coefficient Average load coefficient Model CYV15 CYV32 A 16.5
L S 1.0 x 101 B A 1 = m1 + m1 S 2 A2 + B2 12 A 2 Calculate the moment of inertia of the clamping jig. 2 = m2 + m2L2 D2 Arm: 1 Arm weight: m1 8 D