This new energy heat dissipation chassis uses a molded cavity with higher structural strength and electromagnetic shielding performance. A channel or heat dissipation fins are machined at the bottom of the chassis, and the chassis is integrated with a water-cooled plate using friction stir welding, providing dual functionality. The chassis has good sealing performance, reaching IP67 level.
The pressure riveting heatsink is made by extruding aluminum profiles or machining aluminum plates, and then pressing the corresponding pressure riveting nuts/screws into the profiles or plates for easy installation by the end customer. This type of heatsink is lightweight and easy to install.
The power supply heatsink plate is a plate made of aluminum or copper with corresponding module mounting holes machined on it.
Superior Cooling Efficiency: The copper tube liquid cooling system offers exceptional heat dissipation capabilities, efficiently removing heat generated by your equipment and ensuring optimal performance even during demanding tasks.
Deep-hole drilling is to drill several circular waterways on aluminum plate/copper plate through corresponding drill bits, which penetrate each other to form circulating waterways.
In the fields of power electronic control, conversion, drive, signal transmission and new energy, in order to pursue high-efficiency, low-noise and low-temperature operation, and subject to space constraints, heat dissipation becomes the biggest limitation of product development idealization, and liquid cooling heat dissipation technology becomes the preferred thermal management method.
Friction welding of radiator can solve the technical bottleneck of high multiple ultra-wide profile, and two or more profiles are spliced to realize ultra-wide structure and high density profile, and the mold development cost is low, the cycle is short and the stability is high;
Efficient Heat Dissipation - Our copper-aluminum heat sink is designed to effectively dissipate heat, keeping your device cool and preventing overheating. Experience enhanced performance and reliability with our advanced cooling solution.
The dual-substrate heatsink offers a larger heat transfer area, allowing for over twice the heat transfer area compared to aluminum extrusion of the same volume.
The variable frequency drive heatsink is characterized by its high density, small gap between teeth, flexible customization of height and width, small size, and light weight. It is suitable for use in different types of spaces.
The photovoltaic energy storage heatsink is characterized by its aesthetic appearance, good heat dissipation performance, and energy-saving efficiency.
The extruded heatsink is characterized by its aesthetic appearance, light weight, good heat dissipation performance, and energy-saving efficiency.
