Industrical Hollow shaft Through Bore Slip Ring Connector 600RPM

600RPM Industrical Medium Size Through Bore Slip Ring Hole Size 25.4mm Description of H25119 Through Bore Slip Ring The H25119 series is a standard aperture conductive slip ring with a 25.4mm aperture

Brand
YUMO
Place of Origin
China

600RPM Industrical Medium Size Through Bore Slip Ring Hole Size 25.4mm

Description of H25119 Through Bore Slip Ring

The H25119 series is a standard aperture conductive slip ring with a 25.4mm aperture (suitable for any rotating device with a diameter of ≤25.4mm) and an outer diameter of 119mm. It can stably transmit 2 to 8 channels of 0~2A current or signal and can be used for any device that requires 360° rotation for conducting or transmitting various signals.

Through-Bore Slip Rings

Hollow shaft slip rings for maximum space efficiency where space is limited. Hollow shafts are rotating profiles with an open interior. As an empty tube, hollow shafts are suitable for installation on an axle or for cable feed-through. In addition, hollow shafts with a gas or liquid flowing through them are often found in hydraulic, pneumatic and media lines. To make them rotatable, the industry offers special couplings. These ensure continuous rotation through 360° without the user having to fear leakage. The hollow shaft slip rings are the ideal complement for these special kinetic profiles.

Technical Specification of H25119 Through Bore Slip Ring

Mechanical parameters
Working Life refer to slip ring grade table
Rotating speed refer to slip ring grade table
Working Temp. -30°C~80°C
Work Humidity 0~85% RH
Contact Material refer to slip ring grade table
Housing Material AL alloy
Torque 0.05N.m+0.02N.m/6 wire
IP Grade IP51
Electrical parameters
Spec. Power Signal
Voltage Range 0~690VAC/VDC 0~440VAC/VDC
Insolution Resistance ≥1000MΩ/500VDC ≥1000MΩ/500VDC
Lead wire Spec. AWG17# Silver-plated teflon AWG22# Silver-plated teflon
lead wire length standard length 300mm(can be customized)
Dielectric Strength 800VAC@50Hz,60s
Electrical Noise < 0.01Ω