What is the thermal noise control strategy for industrial computer cases?
Release Time : 2025-01-20
The heat dissipation and noise control strategy of industrial computer case is a comprehensive consideration, which aims to ensure the stable operation of the hardware inside the industrial computer case while reducing noise pollution.
The silent radiator significantly reduces the noise generated when the fan rotates by increasing the fan speed, increasing the fan diameter, widening the air duct and increasing the wind receiving area of the radiator, while enhancing the heat dissipation effect.
Optimizing the fan shape of the industrial computer case heat sink, such as adopting a drainage design to avoid forced air flow, can reduce the noise generated by air flow. At the same time, choosing a fan with good quality and low noise is also the key to reducing noise.
Installing shock-absorbing pads inside the industrial computer case can effectively reduce the vibration and noise generated by mechanical parts such as hard drives and optical drives during operation.
By optimizing the software and adjusting the system configuration reasonably to avoid unnecessary hardware resource usage, the load on the hardware can be reduced, thereby reducing the noise generated.
Regularly clean the dust on the radiator and keep the radiator well ventilated to help reduce noise. At the same time, check and replace aged silicone grease to improve heat dissipation and further reduce noise.
For special working environments with extremely high noise requirements, such as scientific research sites and office spaces, you can consider using an embedded industrial computer with a fanless design. This type of industrial computer achieves near-zero noise operation through centralized heating and heat dissipation.
In actual applications, it is often necessary to comprehensively consider the heat dissipation effect and noise control, and achieve the best balance between heat dissipation and noise control through various means such as adjusting the fan speed, optimizing the air duct design, and using high-performance heat dissipation materials.