In the vast picture of technology and life, there is a silent hero behind the scenes – air compressor. It has no gorgeous appearance, but with its unique “air” quality, it plays a pivotal role in countless fields.
Imagine that from busy industrial production lines to quiet rural fields, from precision electronic equipment maintenance to fun entertainment activities, air compressors are an indispensable part. So, how does it transform ordinary air into a powerful source of power? And what are the wide range of application scenarios? Now, let us explore in depth and unveil the mystery of air compressors.
The principle of air compressor: four steps, easy to get the principle of air compressor is not complicated. It is mainly divided into four steps: suction, compression, cooling, and exhaust. Let’s take a look step by step.
Step 1:
Inhale Imagine that you take a deep breath and are ready to start running. The air compressor does the same, but it does not inhale a breath, but a lot of air. The air is sucked in through the air inlet and then passes through a filter, just like we wear a mask, to filter out impurities and particulate matter in the air, ensuring that the air entering the machine is clean.
Step 2:
Compression The inhaled air will then be “squeezed”. This process is done by a rotor or piston. Imagine that you use your palm to press a balloon, and the air in the balloon is compressed. The rotor or piston in the air compressor is like this palm. They keep moving, gradually compressing the air, reducing its volume, and increasing the collisions between gas molecules, so that the air is compressed into high-pressure gas.
Step 3:
Cooling the compressed air is not an easy task, and a lot of heat is generated in the process. Just like you sweat after running, the air compressor also needs to dissipate heat. Therefore, it is usually equipped with a cooling system, such as a fan or water cooling device, to reduce the temperature of the compressed air and prevent the equipment from overheating and damage.
Step 4: Exhaust After the “baptism” of the previous three steps, high-pressure gas is finally born. At this time, the exhaust valve will open and release the compressed air to supply other equipment, or be used in various occasions such as industrial production and construction.
