The innovative shaft seal-free design of our Micro Oil Air Compressor eliminates the need for regular replacement of the shaft seal. This solution prevents wear and tear even under oil-free conditions, extending the life of the shaft seal indefinitely.
Our compressor uses the world's largest screw design and double pressure chamber mainframe. With each rotation, each screw chamber compresses twice, resulting in a volumetric efficiency of over 95%. This truly defines our compressor as energy-efficient.
The compressor is capable of operating normally in temperatures ranging from -20 to 55 degrees Celsius, with a continuous operating temperature not exceeding 92 degrees. This makes it suitable for various harsh environmental conditions.
Our high-performance mainframe requires only a small amount of compressor oil to achieve excellent sealing effects, ensuring the produced air has an oil content of less than 2ppm.
Our patented ultra-quiet air intake system design significantly reduces operational noise, making our air compressors ideal for various environments.
We equip our compressors with high-quality safety valves and minimum pressure valves to ensure safe and efficient operation.
Our precision temperature sensor accurately monitors and regulates the operating temperature of the compressor, preventing overheating and ensuring optimum performance.
The ultra-quiet centrifugal fan in our compressor provides efficient cooling while minimizing noise.
The Japanese SMC electromagnetic control valve in our compressor ensures precise control and reliable performance.
Our patented control valve allows for efficient control of the compressor, ensuring optimal performance and energy efficiency.
Our high-quality touch screen control system allows for easy and efficient operation of the compressor.
The Micro Oil Air Compressor uses a pair of main screws - the pressure screw and the rotating screw - to complete the compression process. These screws, usually made of high-strength alloy steel, have precise spiral shapes. During the intake process, the spiral shape of the pressure screw and the rotating screw forms a sealed working chamber between them. As the screws rotate, the working chamber gradually expands, allowing external air to enter the working chamber through the intake port. Once the air enters the working chamber, the rotation of the screws causes the working chamber to gradually decrease. This decrease gradually increases the compression ratio of the air, thereby increasing the pressure of the air. During this process, the air is compressed and pushed towards the outlet of the machine. The compressed air generates heat during the compression process, so a cooling system is needed to reduce the temperature. At the same time, to ensure the quality of the air, the compressed air also needs to go through a filtration system to remove potential contaminants and particles.
Many places in the textile industry use oil-free, micro-oil low-pressure compressed air.
Various glass bottles rely on low-pressure screw compressed air for molding, which not only saves energy but also blows out perfect shapes.
Certain processes in the chemical industry, such as pressure filtration and transportation, require compressed air.
During the cement transportation process, compressed air can not only complete the transportation but also prevent cement from flying around.
air compressor">Our company's full range of products has passed Germany's TUV class 0 oil-free certification, CE certification, ISO9001 certification, TS16949 certification. We are the first in the country to use water for internal cooling and lubrication of high-end screw compressors. We were also the first to launch a two-stage compression high-pressure micro-oil screw compressor with a pressure of 4.0MPa globally. We then developed the world's first 4.0MPa pressure oil-free screw compressor and the world's first 1.25MPa pressure oil-free vortex compressor.
Author: Miya
Address
Luotuo Industrial Area, Zhenhai District, Ningbo City, China
Tel
Raydafon