Buried Copper Pipe Multi-Channel Tube Liquid Cold Plate

Product introduction

The liquid cooling plate of buried copper pipe multi-channel pipe is mainly composed of copper pipe with high thermal conductivity, metal cooling substrate and coolant circulation system. The copper tubes are designed with a special multi-channel design and are tightly embedded inside the metal substrate to form an intricate network of coolant channels. When the device generates heat, the heat is quickly transferred by thermal conduction to a metal substrate closely fitted with the heat source, and the substrate evenly disperses the heat to the copper tube inside. Driven by an external pump, the coolant flows into the multi-channel copper pipe, and absorbs the heat from the copper pipe with the high specific heat capacity of the coolant, making its own temperature rise and becoming a hot coolant. The hot coolant flows continuously along the copper tube channel, and eventually flows out of the cold plate and into the external radiator for heat dissipation, which dissipates heat to the surrounding environment. After cooling, the coolant is returned to the copper tube of the cold plate again, so the cycle continues to bring out the heat generated by the equipment, maintain the equipment in the appropriate working temperature range, ensure the stable and efficient operation of the equipment, and avoid the performance decline and failure caused by overheating.

Product features and advantages

Efficient heat dissipation performance: The copper tube has excellent thermal conductivity, and the multi-channel design further increases the contact area between the coolant and the copper tube, so that the heat can be transferred to the coolant more quickly and fully. Compared with the traditional single-channel liquid cooling tube or air-cooled cooling method, under the same heat dissipation conditions, the buried copper tube multi-channel liquid cooling plate can reduce the temperature of the heating element by 20-30 ° C or more, which can meet the strict requirements for heat dissipation of high-power equipment such as servers, industrial lasers, and power electronic equipment. Effectively ensure the stability and reliability of the equipment under high load operation, improve the overall performance of the equipment, extend the service life of the equipment, reduce the maintenance cost and downtime caused by overheating, and provide strong support for the efficient production and operation of the enterprise.

Accurate temperature control: Through the precise design and regulation of the pipe diameter, wall thickness, the number of channels and the flow rate and flow rate of the coolant of the copper pipe multi-channel, the accurate control of the equipment temperature can be achieved, and the temperature fluctuation can be controlled within a very small range. This is crucial for some temperature-sensitive equipment and application scenarios, such as optical modules in optical communication, precision instrumentation, biomedical equipment, etc., to ensure that the equipment works in a stable temperature environment, improve the accuracy and repeatability of measurement or experiments, ensure the stable performance of the equipment and reliable data, and provide a solid heat dissipation guarantee for the research and production in the high-tech field. It will help promote technological breakthroughs and innovative development in related fields.

Good structural adaptability: The structure design of the buried copper pipe multi-channel pipe liquid cooling plate is compact and flexible, and can be customized according to the shape, size and heat dissipation requirements of different equipment. Whether it is a miniaturized electronic device or a large industrial device, the layout and arrangement of copper pipes can be optimized to perfectly fit the internal structure of the device, make full use of limited space, improve heat dissipation efficiency, and do not affect the normal layout and functional realization of other components of the device, providing strong support for the integration and miniaturization of the device. Enhance the competitiveness and adaptability of products in different market areas to meet diversified customer needs.

High reliability and stability: The products are made of high-quality copper pipe and metal substrate materials, which have good corrosion resistance and mechanical strength, and can operate stably in complex and harsh working environments for a long time. Components such as pumps, pipes and joints in the coolant circulation system are strictly screened and tested to ensure the tightness and stability of the entire cooling system, reducing the risk of heat failure due to leakage, corrosion and other problems, improving the availability and maintenance of equipment, and reducing operating costs and maintenance workload. In addition, the structural design of the cold plate is optimized to effectively resist thermal stress and mechanical stress, avoid deformation, cracking and other problems due to long-term use, further ensure the reliability and stability of the product, provide a solid backing for the stable operation of the equipment, and ensure the continuity and stability of the production process.

FAQ

Q: What is the buried copper pipe multi-channel liquid cold plate?

A: Buried copper tube multi-channel liquid cooling plate is a liquid cooling system that uses multi-channel copper tube as the main heat transfer element, usually installed underground or under the floor for efficient heat dissipation.

Q: Why did you choose copper as the material for the cooling plate?

A: Copper has extremely high thermal conductivity and good mechanical properties, making it an ideal material for manufacturing efficient cooling plates.

Q: What is the working principle of the buried copper pipe multi-channel liquid cold plate?

A: Its working principle is through the coolant circulation in the copper tube, the heat is transferred from the heat source to the coolant, and then the cooling system releases the heat to the external environment.

Q: What are the advantages of buried copper pipe multi-channel liquid cooling plate?

A: Advantages include high thermal conductivity, fast response, ability to adapt to complex shapes, good corrosion resistance and the possibility of concealed installation.

Q: What are the production processes of buried copper pipe multi-channel liquid cold plate?

A: The production process includes key steps such as raw material stamping, cleaning, flux coating, assembly, welding, air tightness testing and surface treatment.

Q: How to ensure the sealing of buried copper pipe multi-channel liquid cold plate?

A: Strict air tightness testing is required during the production process to ensure that all connections are leak-free and high-quality sealing materials are used.