Through Bore Slip Ring, 25.4/38.1/40/50/60/80 mm Hole Diameter

Features

• Through bore slip rings are ideally suited for applications where power and electrical signals need to be transferred under 360° rotation. The series of slip rings are designed with hollow shaft to provide electrical connections for shafts, rotary joints, pneumatic, hydraulic and other industrial instrument needed for the function of the rotating assembly.
• Use advanced precious metal cluster brush multi-point contact, ensure reliable contact under extremely low friction.
• Support 10A current, can parallel connect or customize larger current.
• Standard models are available from stock, and specifications can be customized as required.
• Can transmit video, data, analog and other signals in mix, support signal and power hybrid transmission.
• Integrated structure design, easy to install.
• Small torque, stable operation and long service life.

Specification

Note: Please contact us if you need the flange

ATO-H2586 Through Bore Slip Ring Dimension Drawing (unit:mm)

ATO-H3899 Through Bore Slip Ring Dimension Drawing (unit:mm)

ATO-H4086 Through Bore Slip Ring Dimension Drawing (unit:mm)

ATO-H50119 Through Bore Slip Ring Dimension Drawing (unit:mm)

ATO-H60119 Through Bore Slip Ring Dimension Drawing (unit:mm)

ATO-H60130 Through Bore Slip Ring Dimension Drawing (unit:mm)

ATO-H80158 Through Bore Slip Ring Dimension Drawing (unit:mm)

Color Code of Lead Wire

Through Bore Slip Ring with Anti-Rotation Tab Installation Diagram

Through Bore Slip Ring without Anti-Rotation Tab Installation Diagram

Tips: The slip ring structure and working principle.
According to the medium transmitted by slip rings, slip rings can be divided into power slip ring, hydraulic slip ring, optical slip ring, or can be collectively referred to as rotary connector or slip ring connector. The slip ring is mainly composed of two parts, rotating and stationary, and is usually installed at rotation center of the device. Rotating part connects rotating structure of the device and rotates with it, called the rotor. Static part connects fixed structure of the device, called the stator.
Design of the stator and rotor is a precise superposition of single-passage. Number of superimposed passages is set according to usage requirements. During assembly, make passages of stator in one-to-one correspondence with passages of rotor to form passages between rotor and stator. The electrical performance between each passage must be independent of each other and there should be no interference.
When a passage is formed between stator and rotor, there must be contact between the two. Their contacts are the functional part of entire slip ring and are the carrier of various performances. Therefore, selection for the material of contact portion, rational design, precise production of components, and the like constitute a stable and reliable rotary communication system. Load slip rings on rotating device, through the leads at both ends of the slip ring, then the required signals can be transmitted in a rotating state.