Structure Of Nylon Cable Connector
1. The heavy-duty drag chain looks like a tank chain. The nylon cable connector is composed of many unit links, and the links can rotate freely.
2. The inner height, outer height and pitch of the same series of heavy-duty drag chains are the same, and the inner width and bending radius R of the heavy-duty drag chain can be selected differently.
3. The unit chain links are composed of left and right chain plates and upper and lower cover plates. Each section of the heavy-duty drag chain can be opened, which is convenient for installation and disassembly. There is no need to thread the wires. After opening the cover plate, the cables, oil pipes, air pipes, water pipes, etc. can be put into the heavy-duty drag chain.
4. Each section of the heavy-duty drag chain can be designed to be open for easy installation and maintenance. It has low noise and wear resistance during movement and can move at high speed. Separators can also be provided to separate the space inside the chain as needed.
Basic parameters of Nylon Cable Gland:
Material: reinforced nylon, with high pressure and tensile load, good toughness, high elasticity and wear resistance, flame retardant, stable performance at high and low temperatures, and nylon cable connectors can be used outdoors.
Nylon cable connector resistance: oil resistant, salt resistant, and has certain acid and alkali resistance.
The running speed and acceleration depend on the running conditions. The result of light weight and smooth operation is that the heavy-duty drag chain can run at a higher speed over a long distance, and can accelerate and stop suddenly. Soft wire (copper stranded wire) of nylon cable connector: Enameled wire is used as nylon cable connector, and the power transmission efficiency is high. Because each enameled wire is insulated, it conducts medium-frequency and high-frequency currents, and there is no surface skin effect. Compared with other nylon cable connectors with the same cross-section, less heat is generated when the same current passes through.