RU2023481C1 - Gas cleaner - Google Patents

Abstract

FIELD: gas cleaning. SUBSTANCE: perforated strips fixed on rods are placed inside bags and between bags; external perforated strips are half-pitch displaced from internal ones and rods of external strips are joined in pairs by means of, say, spring. Upper part of casing is covered with gas-tight flexible material and communicates with lower part; clean gas outlet pipes are provided on side walls of lower part of casing. EFFECT: enlarged functional capabilities. 7 dwg

Description

 The invention relates to gas filtration, in particular to the designs of regenerated filters from volumetric frame elements separated by filter material, and can be used for purification of process gases and air in non-ferrous metallurgy, chemical, food industries, in the building materials industry.

 A known filter for cleaning gas from dust [1], comprising a housing, a regeneration system, means for introducing and removing gas and staggered cells of clean and dirty gases made of several layers of filter material. Each cell is provided with a gas-tight base from one of the ends and is made of profile elements with flat surfaces, articulated with each other on all side surfaces and tightly pressed against each other with the help of tightening elements, forming a single block module. The design is repeatedly regenerated, reliable in operation, and ensures uniform flow of untreated and purified gases.

 A known filter for gas purification [2], comprising a housing with a hopper for collecting dust and solids, chambers for untreated and purified gases, pleated filter elements with frames and a device for regeneration. The filter element in the shape of a section is a rhombus with teeth along the perimeter and is formed by a filter material stretched over the frame. The frame is formed by upper and lower shaped flanges, which are plates in the form of rhombs with teeth along the perimeter, which are connected by studs, and the studs at the tops of the teeth are fixed and serve to combine the plates into a single unit, and the studs in the hollows of the teeth are movable and serve to tension the filter material and press it to the side surfaces of the teeth of the flanges. The fixed studs form the inner frame, and the movable studs form the outer. The filter material, sequentially bending around each hairpin, forms folds and repeats the contour of the flanges. The upper flange of the filter element is made with a central hole through which the purified gas leaves.

 The design also provides uniform movement of the streams of crude and purified gases and has a sufficiently high specific filter surface per unit volume of the filter, and, therefore, provides a sufficiently high filter performance.

 The disadvantages of this design include the complexity of manufacturing and high metal consumption.

 The purpose of the invention is the elimination of these disadvantages.

 The goal is achieved by the fact that in the filter for gas purification, comprising a housing with a hopper for collecting dust and solid inclusions and nozzles for supplying untreated and exhausting purified gases, a chamber of untreated and purified gases, a frame, corrugated filter elements and a regeneration unit, each of the filter elements made in the form of a bag with a sleeve drowned out by means of a tensioning device for communication with the pipe of the purified gas chamber at the opposite end. Inside the bags and between the bags are combs made in the form of perforated plates mounted on rods. The rods located between the bags are paired with an elastic bond, forming, together with the bag filter material stretched, a stable spatial structure. The upper part of this design is covered with a gas-tight material connected to the lower part of the housing, in one of the side walls of which are made pipes for the removal of purified gas.

 Perforated plates and rods on which they are fixed can be made of any elastic material, metal, plastic. The upper part of the housing can be made of metal, as well as any flexible gas-tight material, such as rubberized fabric.

 The essence of the invention lies in the fact that the filter element is made in the form of a bag with a comb inside and with a hermetically sealed end using a tensioner. Placing the combs on the outside of the bags in combination with combs inside the filter element made it possible to create a highly developed zigzag filter surface, the value of which can be varied widely depending on the number of perforated plates of the combs, and can several times exceed the filter surface of the known apparatus.

 The frame is made up of combs placed in and between the bags, and filter material stretched over perforated plates and is a stable spatial structure that creates a filter structure that is easy to manufacture, assemble, reliable enough to operate, and convenient to troubleshoot filter malfunctions.

 The implementation of the nozzles for the removal of purified gas in the lower part of one of the side walls in combination with a stable spatial structure of the frame allowed the upper part of the housing to be made of elastic material, which also simplified the manufacture, assembly and operation of the filter, as well as significantly reduced its metal consumption.

 In FIG. 1 shows the proposed filter for gas purification; in FIG. 2 - section aa in figure 1; in FIG. 3 is a section BB in FIG. 2; in FIG. 4 - section bb in figure 2; in FIG. 5 - tensioner, end of the bag; in FIG. 6 - a sealed end of the bag using a tensioner; in FIG. 7 is a view D in FIG. 6.

 The filter includes a housing 1 with a hopper 2 for collecting dust and solids and nozzles for input of untreated 3 and output of purified 4 gases. Corrugated filter elements 5 with sleeves 6 are placed inside the housing for the removal of purified gas into the chamber 7 for purified gas. The filter has a regeneration unit including a switchgear (not shown) and a valve system 8a, 8b. The filter element 5 (figure 2) is made in the form of a bag, damped using a tensioner 9 with a sleeve 6 for communication with the pipe 10 of the chamber 7 for purified gas at the opposite end. The tensioner 9 (Fig. 5) can be made in the form of a flat plate with teeth 9a along the edges of the sides and positional clips 9b at the ends. Combs 11 are located inside and between the bags (Fig. 2). The combs 11a are placed inside the bags, the combs 11b between the bags and are made in the form of perforated plates 12 mounted on the rods 13. The combs 11b are placed half-offset relative to the combs 11a and are paired with an elastic bond, for example, springs 14, forming together with a stretched filter material space-stable frame. The filter material 15 sequentially with a certain tightness bends around the transverse perforated plates 12 of the inner 11a and outer 11b combs, forming folds of the filtering surface. The number of folds can be arbitrary and is determined by the number of perforated plates 12 of the combs 11a and 11b.

When assembling the rod 13 of the inner comb 11a is placed inside the bag and serves to create tension. Each filter element (bag with an internal comb 11a) is installed in the lower part of the housing 1. The sleeve 6 of each bag is connected to the corresponding pipe 10 of the chamber 7 for purified gas. Between the filter elements are placed the outer comb 11b (Fig. 2). The perforated plates 12 of the outer combs 11b are placed with a half-step offset relative to the inner combs 11a so that the zigzag surfaces of the filter elements formed by interference form through passages for untreated and purified gases and do not touch each other in places where the walls of one bag are supported by the outer combs 11b (passages for purified gas), and the walls of two adjacent bags are supported by internal combs 11a (passages for untreated gas). External combs 11b springs 14 are fastened in pairs. The sealing and tightness of each element is carried out using a tensioner 9, twisting the two walls of the end of the bag on the teeth 9A of the plate. When screwing the filter material 15 onto the teeth 9a, an interference is carried out simultaneously with sealing, with the formation of folds of a zigzag surface. After the tightness is completed, fixation is performed to prevent unwinding by bending the retainers 9b to a position of 180 ^° . Thus, a block module of filter elements is obtained, on top of which the upper part of the housing made of gas-tight material is mounted, the edges of which are hermetically connected to the lower part of the housing. The chamber 7 for purified gas is placed laterally in the lower part of one of the side walls of the housing.

 The filter works as follows.

 Dusty gas through the pipe 3 enters the housing 1 and is distributed through the channels for polluted air, passes through the filter material of the filter elements into their inner part, along the sleeve 6 and the pipe 10 through the valve 8a enters the cleaned air chamber 7, from where it is removed from the pipe 4 from filter. The regeneration of the filter elements is carried out in automatic mode, for example, by means of backflushing, while valve 8b is open and valve 8a is closed.

 Thus, while maintaining the advantages of the known apparatus - high performance, in the proposed design, you can create a more developed specific filtering surface per unit volume. In addition, the filter design is less metal consuming, easier to manufacture, assemble, operate.

 The proposed filter can be used in various sectors of the economy and can operate in low and high dust conditions.

Claims (1)

 FILTER FOR CLEANING GASES, comprising a housing with a hopper for collecting dust and solid inclusions, nozzles with chambers for supplying untreated and removing purified gases, corrugated filter elements with frames and a regeneration unit, characterized in that the filter elements are made in the form of a bag with a sleeve, damped tensioner, the filter is equipped with combs made in the form of perforated plates mounted on rods and installed inside and between the bags with an offset of half a step, while the rods of the combs, inserted between the bags, pairwise connected by an elastic connection with the formation of a filter section coated in the upper part with a gas-tight material, and the sleeves on the side of the elastic connection are made with purified gas exhaust pipes connected to the purified gas exhaust chamber.

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