Buried Copper Pipe Water Cooling Plate Liquid Cooling Plate

Product introduction

The heat dissipation principle of the liquid cooling plate is based on the synergistic effect of heat conduction and heat convection. The core structure is made of copper plates with high thermal conductivity as the substrate, and a carefully designed copper pipe network is embedded inside. When working, the coolant circulates in the copper tube, the heat generated by the heat source is first transferred to the copper tube through thermal conduction, and then the heat is taken away by the coolant and distributed to the external environment through the heat exchanger, so as to achieve an efficient heat dissipation process.

Copper pipes are usually made of high-quality copper materials and have extremely high thermal conductivity, which can quickly conduct heat to the coolant. The layout of the copper pipe is optimized, and according to different heat dissipation requirements, a variety of arrangements such as straight row, serpentine, and cross can be used to ensure that the coolant can fully absorb heat and distribute evenly throughout the water cooling plate. The substrate not only plays the role of supporting the copper tube, but also can further spread the heat, increase the heat dissipation area, and improve the heat dissipation efficiency.

In addition, the inlet and outlet design of the water cooling plate is also very critical, and the reasonable inlet and outlet position and pipe diameter can ensure the smooth circulation of the coolant, reduce pressure loss, and thus improve the performance of the entire cooling system. At the same time, in order to prevent coolant leakage, the water-cooled plate adopts advanced sealing technology in the manufacturing process to ensure its reliability and stability in the long-term use of the process.

Product advantage

Excellent heat dissipation efficiency

Compared with the traditional air-cooled cooling method, the buried copper pipe water-cooled plate has significantly higher heat dissipation efficiency. Under the same heat dissipation conditions, it can quickly and effectively reduce the temperature of the heat source, so as to ensure the stability of the electronic equipment at high load operation. For example, in the CPU heat dissipation application of high-performance computers, the use of buried copper tube water cooled plate liquid cooled plate can control the temperature of the CPU at a low level to avoid performance degradation or even hardware damage caused by overheating, so that the computer can continue to run complex computing tasks stably and improve work efficiency.

Precise temperature control

Because the water-cooled plate can achieve efficient heat transfer and rapid temperature response, the temperature of the heating source can be accurately controlled. This is critical for temperature-sensitive electronic components and devices such as precision instruments, medical devices, and electron microscopes. By accurately adjusting the flow rate and temperature of the coolant, the operating temperature of the equipment can be maintained within a small fluctuation range, ensuring that the performance and measurement accuracy of the equipment are not affected by temperature changes, and improving the reliability and stability of the equipment.

Low noise operation

In the air-cooled cooling system, the high-speed rotation of the fan often produces a large noise, which will cause inconvenience and interference in some environments with high noise requirements, such as offices, home theaters, recording studios, etc. During the operation of the liquid cooling plate, because it does not need to rely on the fan for forced air cooling, it almost does not produce noise, providing users with a quiet and comfortable use environment. This makes it an obvious advantage in noise-sensitive application scenarios, such as server rooms, high-end audio equipment, and so on.

Adapt to complex environments

The closed structure of the water-cooled plate makes it have good dustproof and moisture-proof performance, and can adapt to various complex and harsh working environments. Whether it is in the industrial site with high temperature and high humidity, or in the outdoor environment with more dust, the buried copper pipe water cooled plate can operate reliably and effectively protect the internal electronic components from the influence of external environmental factors. This greatly broadens its application range, enabling it to play an important role in industrial automation, power electronics, communication base stations and other fields.

Strong scalability

The liquid cooling plate can be flexibly designed and expanded according to different heat dissipation requirements. By increasing the area of the water cooling plate, optimizing the layout of the copper pipe, and improving the flow rate of the coolant, the heat dissipation requirements of the higher power heating source can be easily met. At the same time, multiple water-cooled plates can also be used in series or parallel to build a larger scale heat dissipation system to adapt to the heat dissipation needs of large equipment or system integration. This scalability allows it to be continuously upgraded and improved with the development of electronic devices, always maintaining its competitiveness in the field of heat dissipation.

Product manufacturing process

The manufacturing process of the liquid cooled plate is strict and involves many precision processing links. First of all, the processing of copper pipes requires high-precision cutting, bending and welding technologies to ensure the dimensional accuracy of copper pipes and the tightness of the connection. When bending the copper pipe, advanced CNC bending equipment is used to accurately control the bending Angle and radius, avoid deformation and rupture of the copper pipe, and ensure the smooth circulation of the coolant.

The processing of the substrate usually uses a CNC machining center to mill, drill, boring and other operations on the copper plate to form grooves and mounting holes that match the copper pipe. After the copper tube is embedded in the groove of the substrate, the copper tube and the substrate are firmly bonded together by welding processes such as brazing or diffusion welding to ensure good thermal conductivity.

During the manufacturing process, strict quality testing is also required, including appearance inspection, dimensional measurement, pressure testing, sealing testing, etc., to ensure that each piece of water-cooled plate meets high quality standards. For some high-end applications of water-cooled plates, vacuum brazing, electron beam welding and other advanced processes will be used to further improve welding quality and product performance.

FAQ

Q: What is the buried copper pipe water cooling plate liquid cooling plate?

A: Buried copper pipe water cooling plate Liquid cooling plate is a kind of efficient cooling system that uses copper pipe as a heat conduction medium, buried in the ground, and absorbs and takes away heat by circulating cooling liquid (usually water or antifreeze).

Q: What are the advantages of buried copper pipe water cooling plate?

A: The liquid cooling plate has a very high heat transfer efficiency, which can quickly and effectively transfer heat from the heat source to the underground soil; At the same time, due to its buried design, it does not occupy the ground space, and has little impact on the environment, and the operation is quiet and noiseless.

Q: How to install buried copper pipe water cooling plate liquid cooling plate?

A: Geological investigation must be carried out before installation to ensure that the soil conditions are suitable for burial; Then trenches are dug, insulation and waterproof layers are laid, copper pipes are laid and connected to circulation pumps and cooling systems, and soil is backfilled and compacted.

Q: What is the impact of the liquid cooling plate on the environment?

A: The system is environmentally friendly because it takes advantage of the underground constant temperature for natural cooling, reducing reliance on traditional cooling towers or fans, thereby reducing energy consumption and carbon emissions.

Q: How to deal with the freezing problem of the buried copper pipe water cooling plate in winter?

A: An appropriate amount of antifreeze is usually added to the coolant to prevent the liquid in the pipeline from freezing and expanding causing damage. At the same time, the system design should consider drainage and air isolation measures to avoid the risk of freezing.

Q: What factors affect the cooling effect of the liquid cooling plate of the buried copper pipe?

A: It is mainly affected by factors such as soil thermal conductivity, groundwater level, pipeline layout, coolant flow and temperature difference.