Cooling Plate With Stainless Steel Pipe Copper Pipe

Product introduction

Stainless steel pipe, copper pipe cooling plate is mainly composed of high-quality stainless steel pipe or copper pipe as the core heat dissipation components, and high thermal conductivity of the metal substrate (such as aluminum alloy plate) combined. Through the well-designed internal pipeline layout, the coolant circulates in the tube to absorb the heat from the heating source, and then the heat is taken out of the cooling plate and distributed to the surrounding environment with the help of external cooling devices (such as radiators, cooling fans, etc.), so as to achieve effective cooling of the heating equipment. Its appearance is usually flat, with a certain thickness and surface area, in order to closely fit with the heating element, to ensure that the heat can be efficiently transferred to the pipeline system inside the cooling plate, to maintain the stable operation of the equipment within the appropriate operating temperature range, to ensure that the performance indicators of the equipment are not affected by high temperature, to extend the service life of the equipment, and to improve the overall operating efficiency.

Product working principle

Heat conduction: When the key components of the heating equipment are in close contact with the metal substrate surface of the cooling plate, heat is rapidly transferred from the heating source to the substrate based on the principle of heat conduction. Because the stainless steel tube and copper tube have a high thermal conductivity (the thermal conductivity of stainless steel is generally about 16-20 W/(m·K), and the thermal conductivity of copper is about 380-400 W/(m·K)), the heat can be quickly diffused in the substrate and transferred to the coolant through the tube wall, making the coolant temperature rise. Form a hot coolant. In this process, the metal substrate plays a role in evenly distributing heat, ensuring that the area in contact with each pipe can effectively transfer heat, laying the foundation for the subsequent liquid cooling cycle.

Liquid cooling cycle: The hot coolant flows along the pre-designed pipeline path under the drive of the external circulation pump, and finally flows out of the cooling plate into the external radiator. In the radiator, the coolant radiates heat through heat exchange with the air, returns to the low-temperature coolant after the temperature decreases, and is then transported back to the pipe of the cooling plate by the circulation pump to start the next round of cooling cycle. In this way, the heat generated by the heating equipment is continuously brought out and distributed to the surrounding environment, and the temperature balance inside the equipment is maintained to ensure the stable operation of the equipment.

Heat dissipation: In external radiators, large area fins and fan forced convection are usually used to accelerate heat dissipation. The fins increase the area of contact between the coolant and the air, and the fan promotes the rapid flow of air, taking away the heat on the fins, thereby improving the efficiency of heat exchange. In this way, the temperature of the coolant can be rapidly reduced to prepare for the next cycle, ensure that the cooling system can continue to work effectively, control the temperature of the equipment within a reasonable range, and avoid equipment performance degradation, failure or even damage caused by overheating.

Product features and advantages

Efficient heat dissipation performance: The copper pipe has a very high thermal conductivity and can quickly transfer heat to the coolant, while the stainless steel pipe shows good stability and heat dissipation performance in some special environments (such as occasions with high corrosion resistance requirements). Compared with the traditional air-cooled cooling method, the stainless steel tube and copper tube cooling plate can reduce the temperature of the heating element by 20-30 ℃ or more under the same heat dissipation conditions, significantly improving the heat dissipation efficiency, and can meet the heat dissipation requirements of high-power industrial equipment (such as power transformers, injection molding machines, etc.) and electronic equipment (such as server CPU, GPU, etc.). Ensure the stability and reliability of the device during high-load operation, effectively avoid problems such as crash, calculation errors, and shortened device life caused by overheating, and improve the overall performance and work efficiency of the device.

Excellent corrosion resistance: The stainless steel pipe material itself has excellent corrosion resistance, can operate stably in harsh environments such as humidity, acid and alkali for a long time, and is not easy to rust and corrosion, ensuring that the service life and performance of the cooling plate are not affected. This makes the stainless steel pipe, copper pipe cooling plate in the chemical industry, Marine engineering, food processing and other industries have a unique advantage, even when in contact with corrosive media or gas, can also reliably complete the heat dissipation task, reduce equipment maintenance costs and downtime, improve production efficiency and equipment reliability, for the production and operation of enterprises to provide a solid guarantee.

Precise pipe processing technology: The use of advanced CNC processing technology, the stainless steel pipe and copper pipe precise bending, cutting and welding processing operations, to ensure that the pipe dimensional accuracy, shape accuracy and internal finish can reach a very high standard. The bending radius, Angle and spacing parameters of the pipeline can be precisely controlled within a very small tolerance range to ensure the uniformity and stability of the flow of the coolant in the pipeline, avoid the phenomenon of local flow rate too fast or too slow, thereby improving the consistency of the heat exchange efficiency, providing a reliable process guarantee for the efficient and stable operation of the cooling plate, and ensuring the stable and reliable heat dissipation effect of the equipment. Not affected by machining accuracy.

Highly customized design: It can be customized according to the specific heat dissipation requirements and structural characteristics of different industries and different equipment. Whether it is a complex shape of electronic equipment, or industrial machinery with special requirements for heat dissipation power, it can achieve a perfect match with the equipment by adjusting the layout, number, diameter of the pipe and the flow rate and temperature of the coolant. This customization ability makes stainless steel pipe, copper pipe cooling plate can be widely used in a variety of fields, to meet the diversified market demand, to provide customers with the most suitable for their equipment cooling solutions, improve the overall performance and competitiveness of the equipment, but also fully reflect the flexibility and adaptability of the product.

High reliability and stability: products in the design and manufacturing process fully consider a variety of actual conditions and potential risk factors, the use of high-quality materials and strict quality control standards to ensure that the cooling plate has good mechanical strength and stability. In the long-term operation of the equipment, it can withstand the test of various complex environmental factors such as vibration, shock, temperature changes and pressure fluctuations, and it is not easy to have pipeline rupture, leakage, deformation and other problems, which ensures the integrity and reliability of the cooling system, reduces the downtime and maintenance costs caused by heat dissipation failures, and improves the availability and production efficiency of the equipment. It provides strong support for the stable production of enterprises.

Wide application adaptability: Due to the advantages of stainless steel tube and copper tube cooling plate, such as efficient heat dissipation, strong corrosion resistance, high degree of customization and good reliability, its application field is very wide. It is not only suitable for servers, computers, communication base stations and other equipment in the electronic information industry, but also to meet the heat dissipation needs of various types of machine tools, metallurgical equipment, chemical reactors, battery management systems and motor controllers of new energy vehicles in the field of industrial manufacturing, and also plays an important role in aerospace, medical equipment, scientific research experiments and other fields with strict heat dissipation requirements. It provides key heat dissipation technical support for technological development and equipment performance improvement in different industries, and has broad market prospects and application potential.

FAQ

Q: What is a stainless steel tube cooling plate?

A: Stainless steel tube cooling plate is a water cooling system that uses stainless steel tube as the main heat transfer element, and takes away heat through the coolant circulation in the stainless steel tube.

Q: What is copper tube cooling plate?

A: Copper tube cooling plate is a water cooling system that uses copper tube as the main heat transfer element, and takes away heat through the coolant circulation in the copper tube.

Q: Why choose stainless steel as the material for the cooling plate?

A: Stainless steel has good corrosion resistance, high strength and good thermal conductivity, suitable for use in harsh environments.

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 stainless steel tube cooling plate?

A: The working principle of the stainless steel tube cooling plate is that through the coolant circulation in the stainless steel 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: How does the copper tube cooling plate work?

A: The working principle of the copper tube cooling plate is similar to that of the stainless steel tube, which realizes efficient heat transfer and dissipation through the coolant circulation in the copper tube.

Q: What are the advantages of stainless steel tube cooling plates?

A: Advantages include good corrosion resistance, high strength and the ability to adapt to harsh environments.

Q: What are the advantages of copper tube cooling plates?

A: Advantages include high thermal conductivity, quick response and the ability to adapt to complex shapes.