RU2163502C1 - Section of disk filter element of oil product filter - Google Patents

Abstract

FIELD: filtration technology; removal of mechanical admixtures and water from oil products. SUBSTANCE: section includes reticular structure with fluoroplastic coat enclosed between two concentric circles communicating them by means of radial members. Reticular structure is corrugated in shape; corrugations are parallel at pitch not exceeding 100 mcm partially overlapping projections of adjacent corrugations at size of cell of reticular structure not exceeding 15 mcm. EFFECT: improved quality of filtration at low cost of process. 2 dwg

Description

 The invention relates to a filtering technique, namely to grids that allow filtering out mechanical impurities and water from petroleum products.

 A known section of the disk filter element of the oil filter, including a metal mesh with a mesh size of not more than 80 microns (Technical description of the oil filter LAM 280 BN 50 AO2 company S.G.I. France, publ. 03.09.95).

 However, when filtering in this case, practically only mechanical inclusions are delayed, and water droplets penetrate through the section.

 Also known are filter sections, including fluoroplastic porous elements (K. Rybakov, Aviation Fuel Filtration, Moscow, Transport, 1973, pp. 85-88), which filter out water reliably enough, but they are difficult to manufacture and, in addition, unreliable and cannot work with viscous types of oil products.

 Closest to the claimed invention is a section of a disk filter element of an oil product filter, including a mesh structure with a fluoroplastic coating, enclosed between two concentric circles and radial elements communicating them (patent of the Russian Federation N 2035968, publ. 27.05.95, BI N 15). However, water repellent of this septum is still insufficient.

 The aim of this invention is to improve the quality of the filtration of not only mechanical impurities, but also water at low production costs.

 The technical result in this case is to improve the quality of the filter at a low cost of the process.

 The specified technical result is achieved due to the fact that the section of the disk filter element of the oil filter includes a mesh structure with a fluoroplastic coating, enclosed between two concentric circles and radial elements communicating them, and the mesh structure with a coating is made corrugated with the arrangement of corrugations parallel to each other and perpendicular to the axis of symmetry of this structure with a corrugation step not exceeding 100 microns, and a partial overlap of the projection of adjacent corrugations onto each other with an internal cell size of not more than 15 microns.

 In FIG. 1 shows a general view of a disk filter element (corrugations not shown); in FIG. 2 is an enlarged sectional view of its part along the axis of symmetry (AA in FIG. 1).

 The section of the disk filter element of the oil filter includes a mesh structure 1 with a fluoroplastic coating 2, enclosed between two concentric circles 3 and 4 and the radial elements 5 and 6 communicating with them, and the mesh structure 1 with a coating 2 is pleated with the arrangement of corrugations 7 parallel to each other and perpendicular axis of symmetry 8 (AA) of this structure 1 with a corrugation step not exceeding 100 μm and partial overlap of the projection of adjacent corrugations 7 on each other with an internal cell size d of not more than 15 km.

 The section works as follows. The contaminated oil product is fed tangentially to the plane in which the disk filter element is located (in Fig. 2, the direction is indicated by the arrow). In this case, the oil product passes into the cells of the mesh structure 1 with a coating of 2, the cells themselves delay mechanical inclusions, and the size d of the cell determines the maximum size of the mechanical inclusions that pass through the mesh structure 1 and their maximum size of 15 μm is quite acceptable under the operating conditions of almost any car - and aircraft.

 If there is water in the filtered oil products, it is pressed in the form of microdrops under pressure to the fluoroplastic coating 2 and is pressed along the corrugations 7 to the peripheral part of the section, i.e. in the direction of circle 3, while the overlapping of the corrugations 7 gives the effect of sliding the microdrops on the corrugations 7, as on flat surfaces without getting the microdrops in the corner parts between the corrugations 7, i.e. microdroplets do not linger during their movement, and the presence of a fluoroplastic coating 2 with excellent water-repellent qualities makes it possible to enhance the effect of the droplets sliding from the center to the periphery of the section in the radial direction. Experiments have shown that with a corrugation step not exceeding 100 μm, an internal cell size d of not more than 15 μm and the mentioned partial overlap of adjacent corrugations 7 with their parallel arrangement, water filtration is most effective, and the manufacture of the section is quite simple. Moreover, the results of the experiments showed that the particles of water during their passage through the corrugations 7 entrain particles of mechanical impurities (inclusions) and thereby somewhat clean the surface of the section during operation of the filter, which increases its effective life.

 The use of this section of the disk filter element allows a high degree of efficiency to filter oil products from mechanical impurities and water at a fairly low cost of the filtration process.

Claims (1)

 The section of the disk filter element of the oil filter, including a mesh structure with a fluoroplastic coating, characterized in that the mesh structure with a coating is enclosed between two concentric circles and the radial elements communicating them, is made corrugated with the arrangement of the corrugations parallel to each other with a corrugation step not exceeding 100 μm, and partial overlap of the projection of adjacent corrugations onto each other with an internal mesh size of not more than 15 microns.

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