Switching power supply housing hardware stamping parts are made of high-quality metal plates (such as aluminum alloy, cold-rolled steel, etc.) and are made through precision stamping and forming processes. The overall structure is adapted to the shell structure of the switching power supply. The surface can be designed with heat dissipation holes, mounting holes and other functional structures as needed, and has the dual attributes of protection and heat dissipation. It is suitable for various types of switching power supplies (such as industrial power supplies, communication power supplies, consumer electronic power supplies, etc.), provides physical protection for the internal components of the power supply, resists external impact and dust intrusion, and assists in power supply heat dissipation, ensuring the stable operation of the switching power supply under different working conditions. It is a key basic component for the hardware integration of the switching power supply.
Features | Details |
Material adaptation | Supports a variety of plates such as aluminum alloy (lightweight, excellent thermal conductivity), cold-rolled steel (high strength, low cost), etc., to match power supply application scenarios on demand (such as outdoor equipment chooses aluminum alloy for corrosion resistance) |
Excellent precision | Processed by CNC stamping equipment, dimensional tolerances are strictly controlled, and mounting holes and heat dissipation holes are precisely adapted to the internal components of the power supply and external installation requirements |
Reliable protection | The metal shell structure is sturdy, impact-resistant and deformation-resistant, effectively protecting power supply circuit boards, capacitors and other components; the heat dissipation hole design takes into account protection and blocks foreign objects from entering |
Function integration | One stamping can integrate heat dissipation, installation, grounding and other functional structures, simplify the power supply design process, and improve production and assembly efficiency |
During the design phase, we conducted an in-depth investigation of the power, heat dissipation requirements and installation environment of the switching power supply, and used simulation analysis to optimize the shell structure, such as increasing the density of heat dissipation holes for high-power power supplies, or strengthening the shell protection thickness for outdoor power supplies. The production process adopts a multi-station continuous stamping process, combined with precision molds, to achieve integrated punching, bending and forming to ensure product consistency. Surface treatment can be done by spraying, anodizing and other processes to enhance anti-corrosion and anti-rust properties, and adapt to complex environments such as humidity and dust.
In actual applications, a protective barrier is built for the switching power supply of industrial automation equipment to ensure stable operation in harsh factory environments; it helps the power dissipation of communication base stations to ensure uninterrupted signal transmission; it also improves the texture and durability of consumer electronic power supplies (such as computer power supplies). With the characteristics of "precise adaptation, strong protection, and high integration", it has become an indispensable component in the manufacturing of switching power supplies, promoting the iterative upgrade of power supply products in terms of performance and reliability, and providing solid hardware support for power supply in various industries.
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Headquarters tel.+86 134 3077 5139
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