CRB2/CRBU2/CRB1 Static torque calculation Tf = F x L (Nm) Load . g = 9.8m/s2 F: Pressing force (N) : Angular acceleration Load .
Do not drop, bump, or apply excessive impacts (300 m/s2 or more for reed switches and 1000 m/s2 or more for solid state switches) while handling. Although the body of the switch may not be damaged, the inside of the switch could be damaged and cause a malfunction. 2. Do not carry a cylinder by the auto switch lead wires. Never carry a cylinder by its lead wires.
Movement Load : Angular acceleration F: Pressing force (N) T f = F x l (Nm) . 2 = (rad/s 2) Load Static torque calculation t 2 g = 9.8 m/s2 Ts = F x l (Nm) l : Rotation angle (rad) Lever t : Rotation time (S) Axis Rotary actuator Axis Allowable Load Application of the load on the axial direction is tolerated if no dynamic load is generated and the values are within what is shown in the
Movement Load : Angular acceleration F: Pressing force (N) T f = F x l (Nm) . 2 = (rad/s 2) Load Static torque calculation t 2 g = 9.8 m/s2 Ts = F x l (Nm) l : Rotation angle (rad) Lever t : Rotation time (S) Axis Rotary actuator Axis Allowable Load Application of the load on the axial direction is tolerated if no dynamic load is generated and the values are within what is shown in the
Do not drop, bump, or apply excessive impacts (300 m/s2 or more for reed switches and 1000 m/s2 or more for solid state switches) while handling. Although the body of the switch may not be damaged, the inside of the switch could be damaged and cause a malfunction. 2. Do not carry a cylinder by the auto switch lead wires. Never carry a cylinder by its lead wires.
Do not drop, bump, or apply excessive impacts (300 m/s2 or more for reed switches and 1000 m/s2 or more for solid state switches) while handling. Although the body of the switch may not be damaged, the inside of the switch could be damaged and cause a malfunction. 2. Do not carry a cylinder by the auto switch lead wires. Never carry a cylinder by its lead wires.
Do not drop, bump, or apply excessive impacts (300 m/s2 or more for reed switches and 1000 m/s2 or more for solid state switches) while handling. Although the body of the switch may not be damaged, the inside of the switch could be damaged and cause a malfunction. 2. Do not carry a cylinder by the auto switch lead wires. Never carry a cylinder by its lead wires.
Do not drop, bump, or apply excessive impacts (300 m/s2 or more for reed switches and 1000 m/s2 or more for solid state switches) while handling. Although the body of the switch may not be damaged, the inside of the switch could be damaged and cause a malfunction. 2. Do not carry a cylinder by the auto switch lead wires. Never carry a cylinder by its lead wires.
Do not drop, bump, or apply excessive impacts (300 m/s2 or more for reed switches and 1000 m/s2 or more for solid state switches) while handling. Although the body of the switch may not be damaged, the inside of the switch could be damaged and cause a malfunction. 2. Do not carry a cylinder by the auto switch lead wires. Never carry a cylinder by its lead wires.
Do not drop, bump, or apply excessive impacts (300 m/s2 or more for reed switches and 1000 m/s2 or more for solid state switches) while handling. Although the body of the switch may not be damaged, the inside of the switch could be damaged and cause a malfunction. 2. Do not carry a cylinder by the auto switch lead wires. Never carry a cylinder by its lead wires.
Program P1 P2 P3 P16 S1 S1 S1 S1 S2 S2 S2 S2 Step S32 S32 S32 S32 Following are CEU2s special feature: 1. Predictive Control & Learning Function (Allow High Repeatability and Precision. 0.5mm) With learning function, after every execution, brake point will be amended, according to the deviation of stopping position from setting position.
The operating time for D-J51 is 2 ms or less and for D-P4DWL is 40 ms or less. 4) 980 m/s2 for the trimmer type sensor section, 98 m/s2 for the amplifier section.
P4 is selected by the ON/OFF combination of S1 and S2.
Indicator light Standard Conforming to CE Standards Lead wire Oilproof heavy-duty vinyl cable, 6, 0.5 mm2, 2 cores, 300 mm Impact resistance Switch: 1000 m/s2, Connector: 300 m/s2 Insulation resistance 50 Mor more at 500 VDC Mega (between lead wire and case) Withstand voltage 1000 VAC for 1 minute (between lead wire and case) Ambient temperature 10 to 60C Enclosure IEC529 standard
Ambient & Fluid Temperature -10 ~ 50C A Clean Room version is available to specified Lubrication Not Required order Manual Override Non-Locking Push Type Shock Resistance/Vibration Resistance 150 / 30m/s2 Mounting Orientation Free The VQD1000 is used either on a Single SubEnclosure Dust Proof base or Manifold Mounted.
Do not drop, bump or apply excessive impact (1,000 m/s2) when handling. Even if the switch body is not damaged, the switch may suffer internal damage that will lead to malfunction. 2. Hold the product from the body side when handling. The tensile strength of the power cord is 49 N, and pulling it with a greater force can cause failure. 3.
Do not drop, bump, or apply excessive impacts (1000 m/s2) while handling. Although the body of the controller case may not be damaged, the inside of the controller could be damaged and cause a malfunction. 2. The tensile strength of the power supply/output connection cable is 50 N; that of the pressure sensor lead wire with connector is 25 N.
Operating: 0 to 50C, Stored: 10 to 60C (with no freezing and condensation) Resistance Operating or Stored: 35 to 85%RH (with no condensation) 10 to 500 Hz with a 1.5 mm amplitude or 98 m/s2 acceleration, in each X, Y, Z direction for 2 hrs., whichever is smaller.
Note 1) 25P Note 1) 26P 20P Side entry Side entry Side entry Connector entry direction Connector entry direction Connector entry direction P. 523 P. 527 P. 531 P. 535 Top entry Side entry Top entry Top entry Side entry Side entry Without cable S0 S1 S2 S3 U0 U1 U2 U3 S0 S1 S2 S3 0 1 2 3 U0 U1 U2 U3 U0 U1 U2 U3 S0 S1 S2 S3 Without cable Without cable With cable (1.5 m) With cable (3 m) With
Note 1) 25P Note 1) 26P 20P Side entry Side entry Side entry Connector entry direction Connector entry direction Connector entry direction P. 523 P. 527 P. 531 P. 535 Top entry Side entry Top entry Top entry Side entry Side entry Without cable S0 S1 S2 S3 U0 U1 U2 U3 S0 S1 S2 S3 0 1 2 3 U0 U1 U2 U3 U0 U1 U2 U3 S0 S1 S2 S3 Without cable Without cable With cable (1.5 m) With cable (3 m) With