Possible to transfer a workpiece at low-speed. Inertial load: Ta Ta = I 2 = [rad/s2] t2 Necessary torque: T T = Ta x 10 2 x = 0.003896 x x 10 = 0.015 [Nm] 42 (t is calculated with 2s per 90.) Even for resistance load, when the load is rotated, necessary torque calculated from inertial load shall be added.
Lubrication Manual override Impact/Vibration resistance (2) Enclosure VV061 Non-locking push type 150/50 m/s2 VT325-C VV100 Dustproof Note 1) Based on dynamic performance test, JIS B 8419: 2010.
Green LED illuminates Ambient temperature Sensor section: 0 to 150C Amplifier section: 0 to 60C D-M9NJ Impact resistance Sensor section: 1000 m/s2 Amplifier section: 300 m/s2 Standard CE marking, RoHS Oilproof Heavy-duty Lead Wire Specifications (Grommet) Auto switch model D-M9NJ D-M9PJ Sheath Outside diameter [mm] 3.4 Insulator Number of cores 3 cores (Brown/Blue/Black) Outside diameter
Do not drop, bump or apply excessive impacts (300m/s2 or more for reed switches and 1000m/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.
This is a legacy product. Please contact us for the latest version.sales@ocaire.com
This is a legacy product. Please contact us for the latest version.sales@ocaire.com
This is a legacy product. Please contact us for the latest version.sales@ocaire.com
This is a legacy product. Please contact us for the latest version.sales@ocaire.com
This is a legacy product. Please contact us for the latest version.sales@ocaire.com
This is a legacy product. Please contact us for the latest version.sales@ocaire.com
This is a legacy product. Please contact us for the latest version.sales@ocaire.com
This is a legacy product. Please contact us for the latest version.sales@ocaire.com
This is a legacy product. Please contact us for the latest version.sales@ocaire.com
s2 in X, Y, Z directions, 3 times each (De-energized)?
10 to 60C (No freezing or condensation)Operating/Stored: 35 to 85% RH (No condensation)1000 VAC for 1 minute between live parts and case50 M or more between live parts and case (at 500 VDC Mega)10 to 150 Hz at whichever is smaller of 1.5 mm amplitude or 20 m/s2 acceleration, in X, Y, Z directions, for 2 hours each (Non-energized)100 m/s2 in X, Y, Z directions, 3 times each (Non-energized
10 to 60C (No freezing or condensation)Operating/Stored: 35 to 85% RH (No condensation)1000 VAC for 1 minute between live parts and case50 M or more between live parts and case (at 500 VDC Mega)10 to 150 Hz at whichever is smaller of 1.5 mm amplitude or 20 m/s2 acceleration, in X, Y, Z directions, for 2 hours each (Non-energized)100 m/s2 in X, Y, Z directions, 3 times each (Non-energized
10 to 60C (No freezing or condensation)Operating/Stored: 35 to 85% RH (No condensation)1000 VAC for 1 minute between live parts and case50 M or more between live parts and case (at 500 VDC Mega)10 to 150 Hz at whichever is smaller of 1.5 mm amplitude or 20 m/s2 acceleration, in X, Y, Z directions, for 2 hours each (Non-energized)100 m/s2 in X, Y, Z directions, 3 times each (Non-energized
s2 in X, Y, Z directions, 3 times each (De-energized)?
s2 in X, Y, Z directions, 3 times each (De-energized)?
10 to 60C (No freezing or condensation)Operating/Stored: 35 to 85% RH (No condensation)250 VAC for 1 minute between live parts and case2 M or more between live parts and case (at 50 VDC Mega)10 to 150 Hz at whichever is smaller of 1.5 mm amplitude or 20 m/s2 acceleration, in X, Y, Z directions, for 2 hours each (De-energized)100 m/s2 in X, Y, Z directions, 3 times each (De-energized)?