The spacer is used in drag chain that can adapt all kinds of scenario. Details about the spacer is as follow:

Funktion:

Protection and Separation: The mainly function of the spacer is good at separation of cables, wires, and gas pipes to make them separated to avoide any tangle or messing up so that it can keep tidy, and aesthetic. Meanwhile, it can prevent the cables or pipes from friction and squeezing or any other damage of risk.

Stability enhanced: The spacer is designed by footing to keep the most important for its chucking power. It can help to enhance its stability in whole for drag chain. So that it can keep good performance during the high speed motion or any complex working environment

It is easy to install and maintain: The spacer is good at designing for some special unilateral footing or narrow footing, so that it can install or remove rapidly. Beside, it is easy to be combined with the cross bar that is easy to assemble in locked quickly. And it is convenient to install or disassemble so that simplify the procession of installation and maintainance.

Scenario of application

CNC Lathe and electrical equipment: The drag chain can be used in sensor system to protect the cables, wires, and gas pipe can be arranged in order and transmit in stable. Spacer can be used to avoid any cable messing up to improve the equipment working in stable and effective.

Automated producing line: The spacer and drag chain combined that can prevent and isolate the cable, gas pipe in high speed and voltage from twist, tangled, and aging.

Other industrial fields: spacer are also suitable for stone machinery, glass machinery, door and window machinery, injection molding machines, robotic arms, lifting and transportation equipment, and automated warehouses, providing stable and reliable cable and gas pipe management solutions for these equipment.

The application of spacer in drag chains is not only reflected in their functions and wide application scenarios, but also involves their use in special environments and continuous innovation and development.

Firstly, for some special environments and working conditions, the design of spacer will also be adjusted and optimized accordingly. For example, in high temperature, high humidity, or corrosive environments, spacer may be made of special materials that are resistant to high temperature and corrosion to ensure that they can work stably for a long time in harsh environments. In addition, for drag chains that need to withstand significant tension or pressure, isolation bars will also be reinforced to improve their load-bearing capacity and durability.

Secondly, with the continuous progress of industrial technology and the improvement of intelligence and automation levels, spacer are also constantly innovating and developing. Some new spacer may integrate intelligent devices such as sensors and monitoring systems to achieve real-time monitoring and early warning of the operation status of internal cables, air pipes, and other components of the drag chain. This can not only improve the operational efficiency of the equipment, but also timely identify and solve potential safety hazards, ensuring the smooth progress of the production process.

In addition, the application of spacer in drag chains will continue to expand to more fields. With the rapid development of new energy, environmental protection and other fields, the management requirements for drag chains, their internal cables, and air ducts are also becoming increasingly high. As an important component of the drag chain, the isolation strip’s excellent separation and protection performance will play a greater role in these fields. For example, in the fields of new energy vehicles, wind power equipment, etc., spacer can effectively manage complex cable and pneumatic systems, improving the reliability and safety of equipment.

The application of spacer in drag chains also demonstrates their high degree of customization and flexibility to meet the unique needs of different industries and specific applications.

Firstly, considering that different devices and working environments have different requirements for the arrangement and management of internal cables and air ducts in the drag chain, the isolation strip can be customized and designed according to specific needs. For example, for applications that require managing a large number of small cables, narrow dividers can be provided to more effectively utilize space and prevent cable clutter. At the same time, for cables and air ducts with special shapes or sizes, spacer can also be specially customized to ensure optimal compatibility and management effectiveness.

Secondly, the adjustability of the isolation strip also enables it to adapt to different lengths of drag chains and installation requirements. By adjusting the number and position of spacer, it is easy to adapt to different lengths of drag chains and ensure that cables and air ducts are evenly and effectively managed throughout the entire drag chain length. In addition, the combination of spacer and quick locking crossbars also provides a convenient installation and disassembly method, allowing users to flexibly adjust and manage the cables and air pipes inside the drag chain as needed.

In addition, with the continuous emergence of new materials and technologies, the design and manufacturing of spacer are also constantly innovating and upgrading. For example, spacer made of high-performance engineering plastics have higher strength and durability, and can maintain stable performance in more harsh working environments. Meanwhile, some advanced manufacturing technologies, such as 3D printing, also provide more possibilities for the customization and manufacturing of spacer.