Cooling Plate with Pipe

Product introduction

A cooling plate with pipes is a heat exchange device that integrates a precise network of pipes, usually made of metal materials with high thermal conductivity (such as aluminum alloy, copper alloy). The core structure is the internal piping system, which is responsible for conveying the cooling medium (such as water, glycol solution or special coolant), which carries away the heat through the circulation of the liquid. The surface of the cooling plate is closely fitted with the heating part, and the heat can be quickly transmitted to the pipe wall inside the cooling plate, and then the cooling medium will bring the heat out to achieve effective cooling of the heating source.

Product working principle

Heat conduction stage: When the heating part is in contact with the surface of the cooling plate, heat will be transferred from the high temperature heat source to the body material of the cooling plate based on the principle of heat conduction. Because the cooling plate uses a metal with high thermal conductivity, the heat can be quickly and evenly diffused in the plate, making the temperature of the entire cooling plate rise.

Heat convection stage: the cooling medium circulates in the pipeline and exchanges heat with the inner wall of the pipeline. Heat is transferred from the pipe wall to the cooling medium, which increases the temperature of the cooling medium. With the continuous flow of the cooling medium, the heated cooling medium leaves the pipeline, and the new low temperature cooling medium continues to supplement, maintaining the continuous heat exchange and forming an efficient heat convection process.

Heat transfer and heat dissipation: The heated cooling medium carries heat away from the cooling plate and into the external cooling system (such as radiators, cooling towers, etc.), where the heat is dissipated to the surrounding environment through further heat exchange with the outside air or other cooling media, thus completing the entire cooling cycle, so that the cooling plate can continuously absorb heat from the heating source and dissipate it. Keep heating parts at a low temperature.

Product features and advantages

Efficient heat dissipation performance: With its optimized pipe layout and high thermal conductivity material, cooling plates with pipes enable rapid heat transfer and diffusion. For example, in the application of electronic chip heat dissipation, compared with the traditional heat sink, it can reduce the operating temperature of the chip by more than [X]℃, significantly improve the stability and performance of electronic equipment, and reduce the failure and performance decline caused by overheating.

Precise temperature control: Through the precise design of the size, shape and distribution of the pipe, as well as the precise regulation of the flow rate and temperature of the cooling medium, the precise temperature control of the heating source can be achieved to meet the needs of some applications with high temperature sensitivity, such as biomedical equipment, precision optical instruments, etc., to ensure that the equipment works in a stable temperature environment, and improve the accuracy and repeatability of the measurement or experiment.

Compact structure design: The structure of the cooling plate is compact, the space is small, and it is easy to integrate into a variety of complex equipment systems. Whether it is a small internal space of electronic equipment, or an industrial device with strict requirements for space layout, it can be well adapted, providing strong support for the miniaturization and integrated development of the equipment, while not causing too much interference to the layout of other components of the equipment.

High reliability: It is made of high-quality materials, with good corrosion resistance and mechanical strength, and can operate stably in harsh working environments for a long time. For example, in the cooling system of an automotive engine, in the face of high temperature, vibration and complex chemical environments, the cooling plate with pipes can still work reliably, reducing the risk of engine damage caused by the failure of the cooling component, and improving the overall reliability and durability of the vehicle.

Strong scalability: It can flexibly design the parameters of the pipe system and the size of the cooling plate according to different heat dissipation requirements. By increasing the number of pipes, changing the pipe diameter or optimizing the pipe arrangement, it can easily meet the heat dissipation requirements of small power to high power heating parts. It has strong adaptability and scalability, and provides customized heat dissipation solutions for different sizes and types of equipment.

Energy-saving advantages: Efficient heat dissipation performance means that the required cooling medium flow and energy consumption are relatively low under the same heat dissipation effect. In some large-scale data centers or industrial cooling systems, the use of cooling plates with pipes can effectively reduce the energy consumption of cooling pumps, so as to achieve energy-saving operation of the entire system, reduce operating costs, and meet the requirements of modern industry for energy conservation and emission reduction.

FAQ

Q: What is a cooling plate with pipes?

A: A ducted cooling plate is a cooling device that integrates an internal liquid flow channel to transfer heat through liquid circulation and is commonly used in electronic devices that require efficient thermal management.

Q: What are the advantages of ducted cooling plates over traditional radiators?

A: This cooling plate provides more uniform and efficient heat dissipation, especially for applications with high power density or space constraints.

Q: Are ducted cooling plates suitable for all types of electronic devices?

A: Most modern high-power electronic devices are compatible with ducted cooling plates, but compatibility depends on the device model and cooling plate specifications.

Q: Can the use of ducted cooling plates significantly reduce equipment temperature?

A: Yes, because of its efficient heat transfer capacity, cooling plates with pipes can significantly reduce the operating temperature of the equipment.

Q: Will ducted cooling plates increase the energy consumption of the equipment?

A: There is no direct increase in energy consumption, but additional pumps or fans are required to drive the coolant circulation, which may slightly increase the overall energy consumption.