RU2069079C1 - Filter - Google Patents

Abstract

FIELD: cleaning of gas in various branches of industry. SUBSTANCE: filter has housing where cassettes with filtering checker are located. Cassette consists of upper and lower parts made in form of rectilinear elements located in parallel. Filtering checker is made from plied braid. Located in upper portion of filter is regeneration mechanism made in form of aerodynamic valve with flexible diaphragm and rod whose one end is secured on lower portion of cassette and other end is connected to flexible diaphragm. In course of filtration, plied braid fully fills space between upper and lower parts of cassette; in course of regeneration, braid is tightened forming vertical passages through which dust is poured into bin. EFFECT: enhanced efficiency. 2 cl, 3 dwg

Description

 The invention relates to the field of gas cleaning devices and can be used in machine and machine tools, cement production, metallurgy and other industries.

 A known filter that includes a housing, gratings and a nozzle of flexible threadlike elements placed between the gratings (see AS USSR N 323134, class B 01 D 33/16, 1970).

 A disadvantage of the known solution is the difficulty of regeneration, the need for frequent replacement of the nozzle, high consumption of filter material, large losses of time for regeneration.

 These disadvantages are partially eliminated in the filter, including the housing and the cassette with a filter nozzle located between the movable and fixed partitions (A.S. N 824516, class B 01 D 46/10, 1978).

 The disadvantages of the known filter are insufficient filtration and regeneration efficiency, design complexity, high consumption of filter materials, increased costs for electricity and operation.

 The objective of the invention is to increase the efficiency of filtration and regeneration, simplifying the design and reducing operating costs.

 The problem is solved in that in the filter, which includes a housing with a cartridge with a filter nozzle and a regeneration mechanism with a rod mounted on the bottom of the cartridge, the regeneration mechanism is made in the form of an aerodynamic valve with an elastic membrane attached to the other end of the rod, this upper part of the cartridge is rigidly connected to the housing, and the filter nozzle is made of textured waste bundle. A felt seal is placed in the upper part of the housing along its perimeter. In addition, the upper and lower parts of the cassettes can be made in the form of parallel rectilinear elements.

 The invention is illustrated by drawings, where figure 1 schematically shows the proposed filter in the filtering process, figure 2 the same, in the regeneration process, figure 3 section aa in figure 2.

 The filter contains a housing 1 with inlet 2 and outlet 3 nozzles and a cassette placed in it, consisting of a lower movable part 4 and an upper 5, rigidly fixed to the housing 1. Between parts 4 and 5 of the cartridge is fixed a filter nozzle 6 made of textured worn bundle. Parts 4 and 5 of the cartridge are made in the form of parallel rectilinear elements 7, mounted in combs 8.

 In the upper part of the filter there is a regeneration mechanism made in the form of an aerodynamic valve 9 with an elastic membrane 10 and a rod 11. One end of the rod 11 is attached to the lower part 4 of the cartridge, and the other is attached to the membrane 10. The aerodynamic valve is equipped with a discharge pipe 12 connected to the suction network fan nozzle.

 In the lower part of the filter there is a separation separator 13 and a storage hopper 14 with a gate 15.

 In the upper part of the housing 1, a felt seal 16 is placed along its perimeter.

 The proposed filter works as follows.

 When the fan is on, the cartridge is in the position shown in FIG. 2. When you turn on the fan due to the vacuum created in the aerodynamic valve 9, the elastic membrane 10 occupies the upper position, entraining the lower part 4 of the cartridge (see figure 1). The spent harness 6, increasing in volume many times by virtue of its properties, creates a filter cushion 17. Large dust particles are beaten off in the separation separator 13 and poured into the hopper 14. Fine dust is deposited in the filter cushion 17 of the nozzle 6 as the dusty air mixture passes through it. The purified air leaves the filter through the pipe 3. Felt pad 16 prevents the entrainment of dust along the walls of the filter during the filtering process.

 When you turn off the network fan, the vacuum in the aerodynamic valve 9 drops sharply and under the influence of its own weight, the lower part 4 of the cartridge drops sharply. The textured tow 6 of the filter nozzle is stretched, forming free vertical channels 18, through which dust is poured into the hopper 14 (Fig.2). Depending on the properties of the dust, the regeneration process can be repeated several times.

 The degree of gas purification can be adjusted using the lifting height of the lower part 4 of the cartridge.

 Due to the implementation of the filter nozzle from a textured wasted tow attached to two parts of 4.5 cassettes: the upper 5, rigidly connected to the housing 1, and the lower 4 movable, as well as due to the implementation of the regeneration mechanism in the form of an aerodynamic valve 9 with an elastic membrane 10, which rod 11 is connected to the lower part 4 of the cartridge, and the placement along the perimeter of the housing 1 of the felt strip 16 managed to create a filter with a high degree of air purification, with a simple, efficient and reliable regeneration mechanism, not requiring additional costs for its operation.

Claims (2)

 1. The filter comprising a housing, a cartridge with a filter nozzle and a regeneration mechanism with a rod attached at one end to the bottom of the cartridge, made movable, characterized in that the regeneration mechanism is made in the form of an aerodynamic valve with an elastic membrane attached to the other end of the rod, filtering the nozzle is made of textured wasted tow, and a seal is placed in the upper part of the housing along its perimeter.  2. The filter according to claim 1, characterized in that the upper and lower parts of the cassette are made in the form of parallel linear elements.

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