Wingle manufactures the following types of filter elements:
Hydraulic, designed to equip pressurized filters, filter drain and other hydraulic systems.
Oil intended for lubricating systems, filters, complete machines and mechanisms in various industries.
Fuel intended for the complete fuel filters vehicle engines.
Aircraft designed for air filter assembly vehicle engines and compressors.
Filter elements are manufactured with a nominal fineness of filtration:
- Paper - 05,10,25 and 40 microns
- Net - 40, 80.120 and 160 microns
Filter elements provide the highest degree of filtration efficiency for industrial, mobile, and process applications. Our filter elements are composed of micro-glass media, the most recent innovation in high performance filtration technology. Micro-glass media is inert, inorganic, and far exceeds any paper or cellulose filter element performance. Water or chemicals, which cause softening, swelling, and degradation in conventional cellulose or pleated paper filters, do not affect micro-glass media.
The advantages of making filter element:
Filter elements and filters manufactured have a high technical specification through a number of structural and technological features, chief among them the use of modern materials quality, reliability and stability of the design process.
The use of modern filter materials:
Effective is the one filter element, which not only removes dirt but keeps them securely for the duration of the service. Depending on the material of the filter elements are divided into two main groups: surface and volume. use of filter material has been a very stable structure. Enhanced binding of the fibers provides a stable bond between the fibers and increases the strength of the material under the influence of load versus load fluctuations of pressure and flow rate, temperature and aging. With this filter elements maintain its high performance during its entire life.
The filter material is the most important component of the "filter" system with respect to prolonged life and wear protection of the system. Decisive criteria for the selection are the necessary degree of cleanliness of the operating medium, the initial pressure differential and the contamination retention capacity.