CN112275055A

CN112275055A - Industrial oily waste gas filtration equipment

Info

Publication number: CN112275055A
Application number: CN202011115678.6A
Authority: CN
Inventors: 林晋
Original assignee: Individual
Current assignee: Individual
Priority date: 2020-10-19
Filing date: 2020-10-19
Publication date: 2021-01-29

Abstract

The invention discloses an industrial oily waste gas filtering device, belonging to the technical field of waste gas treatment, the technical scheme is that oil stains in flowing textile waste gas are absorbed by an oil absorption sponge ball, the oil absorption rubber ball is promoted to continuously expand under the absorption action of the oil absorption rubber ball on the oil stains, so that the magnetic shielding action on a moving magnet ball in the oil absorption sponge ball is relieved, the moving magnet ball is promoted to move downwards under the repulsion action of a fixed magnet ball on the moving magnet ball and drives the oil absorption rubber ball and the oil absorption sponge ball to deform in sequence, on one hand, the oil stains absorbed in the oil absorption sponge ball can be extruded by the oil absorption sponge ball, and after a rubber sealing piece is pushed open by a release round plug, the oil stains are discharged by virtue of a support pad and an auxiliary release hole, on the other hand, the filtering effect on capillary fibers in the oily waste gas is improved by virtue of the change of the surface area of the support pad in the deformation process of the oil absorption sponge ball, thereby improving the treatment efficiency of the textile waste gas containing oil.

Description

Industrial oily waste gas filtration equipment

Technical Field

The invention relates to the technical field of waste gas treatment, in particular to an industrial oily waste gas filtering device.

Background

Industrial waste gas, which is a generic term for various pollutant-containing gases discharged into the air during the combustion and production processes of fuels in plant areas of enterprises, includes: carbon dioxide, carbon disulfide, hydrogen sulfide, fluoride, nitrogen oxide, chlorine, hydrogen chloride, carbon monoxide, lead mercury sulfate (fog), beryllium compound, smoke dust and productive dust are discharged into the atmosphere and can pollute the air, the substances enter the human body through different respiratory tracts, some directly cause harm, some have an accumulation effect and can seriously harm the health of people, and different substances have different influences.

The waste gas of textile printing and dyeing industry mainly comes from two main aspects: firstly, the spinning process of chemical fiber, secondly, textile pretreatment and functional after-finishing processes, take the spinning process of viscose fiber chemical fiber as an example, raw materials are required to be made into spinning solution firstly, and a large amount of carbon disulfide is required to be added in the process of manufacturing the spinning solution, so the spinning processing process can release harmful gas substances mainly comprising hydrogen sulfide, carbon disulfide and sulfur dioxide, the treatment of a heat setting machine is an important ring of the textile pretreatment process, during heat setting, various dye auxiliaries and coating auxiliaries on the textile can be released, so a large amount of VOCs (organic volatile matters) can be released at the final exhaust pipeline port, the organic gases mainly comprise organic gases such as formaldehyde, polyphenyl and aromatic hydrocarbons, and the like, in the textile functional after-finishing process, waste gas mainly comes from two links, in the hot-melting dyeing process of polyester disperse dyes, high temperature causes sublimation of small molecular dyes to be discharged as waste gas, the non-ironing and flame-retardant finishing of the cotton fabric is carried out through a baking link, and due to the addition of some chemical additives, the phenomenon that aldehyde gases such as formaldehyde and the like and ammonia gas are released during baking can occur.

In the prior art, in the process of treating the oily textile waste gas, the waste gas contains a large amount of wool absorption fibers and oil stains, and the wool absorption fibers and the oil stains are combined and adhered with each other, so that the difficulty in treating the waste gas is increased, and the treatment efficiency of the oily textile waste gas is reduced.

Disclosure of Invention

1. Technical problem to be solved

Aiming at the problems in the prior art, the invention aims to provide industrial oily waste gas filtering equipment, the scheme absorbs oil stains in flowing textile waste gas through an oil absorption sponge ball, and promotes the oil absorption rubber ball bag to continuously expand under the absorption action of the oil absorption rubber ball bag on the oil stains, so as to relieve the magnetic shielding action on a moving magnet ball in the oil absorption sponge ball, and promotes the moving magnet ball to move downwards and drive the oil absorption rubber ball bag and the oil absorption sponge ball to sequentially deform under the repulsion action of a fixed magnet ball on the moving magnet ball, on one hand, the oil stains adsorbed in the oil absorption sponge ball can be extruded out by the oil absorption sponge ball, and after a rubber sealing sheet is pushed open by a release round plug, the oil stains are discharged by a support pad and an auxiliary release hole, on the other hand, the filtering effect on capillary fibers in the oily waste gas can be improved by the change of the surface area of the oil absorption sponge ball in the deformation process, thereby improving the treatment efficiency of the textile waste gas containing oil.

2. Technical scheme

In order to solve the above problems, the present invention adopts the following technical solutions.

An industrial oily waste gas filtering device comprises a textile waste gas transmission pipeline, wherein an oil absorption sponge ball is arranged in the textile waste gas transmission pipeline, a main release hole is formed in the lower inner wall of the textile waste gas transmission pipeline in a chiseled mode, the bottom end of the oil absorption sponge ball is connected with a supporting pad, the bottom end of the supporting pad is connected with a release round plug, a plurality of auxiliary release holes which are uniformly distributed are formed in the outer end of the release round plug in a chiseled mode, a pair of mutually abutted rubber sealing pieces is connected to the inner wall of the main release hole, an oil absorption rubber ball bag is arranged in the oil absorption sponge ball, a moving magnet ball is connected in the oil absorption rubber ball bag, a fixed magnet ball is connected to the upper inner wall of the textile waste gas transmission pipeline, the fixed magnet ball and the moving magnet ball are mutually repelled, oil stains in flowing textile waste gas are absorbed through the oil absorption sponge ball, and the oil absorption rubber ball, remove the magnetic screen effect to the moving magnet ball in it with this, and under the repulsion of fixed magnet ball to the moving magnet ball, make the moving magnet ball move down and drive oil absorption rubber sacculus and oil absorption sponge ball and warp in proper order, can make oil absorption sponge ball extrude the greasy dirt of its absorption in one side, and after release round plug backs up the rubber mounting piece, discharge the greasy dirt with the help of supporting pad and vice release hole, on the other hand can be at the deformation in-process of oil absorption sponge ball, with the help of the change of its surface area, improve the filter effect to the capillary fibre in the oily waste gas, thereby improve the treatment effeciency of the textile exhaust gas of oiliness.

Further, oil absorption sponge ball outer end is connected with a pair of external swing strip, the one end that oil absorption sponge ball was kept away from to external swing strip is connected with terminal sacculus, terminal sacculus outer end inlays to establish and installs and twists reverse the magnetic ball, twist reverse the magnetic ball and move the magnetic ball inter attraction, through the inflation of oil absorption rubber sacculus, can remove the magnetic screen effect to the moving magnet ball in it to under the attraction of moving magnet ball to twisting the magnetic ball, can impel to twist reverse the magnetic ball and drive terminal sacculus and external swing strip and extrude the oil sponge ball surface, can extrude the release with the greasy dirt of absorbing in the oil absorption sponge ball on the one hand, thereby improve the collection efficiency to the greasy dirt in the oily waste gas, on the other hand can improve the filter effect to oily weaving waste gas with the help of the swing of external swing strip and terminal sacculus.

Further, main release hole inner wall is connected with first spacing ring, release round stopper outer end is connected with the second spacing ring, first spacing ring is located the second spacing ring upside, through setting up first spacing ring and second spacing ring, can reduce the possibility that appears separating between main release hole and the release round stopper.

Further, the supporting pad is made by loose material, set up the infiltration micropore of a plurality of evenly distributed and intercommunication each other in the supporting pad, through using loose material preparation supporting pad and set up the infiltration micropore in it, can improve the infiltration effect of supporting pad to improve the collection efficiency to the greasy dirt.

Further, the oil absorption rubber sacculus outer end is connected with a plurality of evenly distributed's owner and pulls the strip, the owner pulls the strip and is located the oil absorption sponge ball, the owner pulls the strip outer end and is connected with a plurality of evenly distributed's the burr of pulling, through setting up the in-process that the owner pulled the strip and can be at the shrink of oil absorption rubber sacculus, pulls the oil absorption sponge ball to make the greasy dirt of absorption in the oil absorption sponge ball release downwards, with this collection efficiency to the greasy dirt in the waste gas of weaving improves, pull the burr through setting up and can improve the effect of pulling to the oil absorption sponge ball.

Furthermore, a plurality of uniformly distributed magnetism inhibiting powder are embedded in the oil absorption rubber ball bag, the magnetism inhibiting powder is made of iron-nickel alloy materials with the nickel content of 80%, the magnetism inhibiting powder can magnetically shield the moving magnet balls in the oil absorption rubber ball bag when the oil absorption rubber ball bag contracts, and the magnetic shielding effect on the moving magnet balls in the oil absorption rubber ball bag is relieved after the oil absorption rubber ball bag expands.

Further, external swing strip outer end is connected with a plurality of evenly distributed's filtration burr, filters the burr through setting up, can improve the collection effect to the capillary fibre in the oily weaving waste gas to improve the filtration efficiency to oily weaving waste gas.

The use method of the industrial oily waste gas filtering equipment comprises the following steps:

s1, absorbing oil stains in the flowing textile waste gas through the oil absorption sponge ball, and promoting the oil absorption rubber ball bag to continuously expand under the absorption effect of the oil absorption rubber ball bag on the oil stains so as to relieve the magnetic shielding effect on the moving magnet ball in the oil absorption sponge ball bag;

s2, under the repulsion action of the fixed magnet balls on the moving magnet balls, the moving magnet balls are driven to move downwards and drive the oil absorption rubber ball bag and the oil absorption sponge balls to deform in sequence, so that oil stains adsorbed in the oil absorption sponge balls are extruded out by the oil absorption sponge balls, and after the rubber sealing pieces are jacked open by the release round plugs, the oil stains are discharged by means of the support pads and the auxiliary release holes;

s3, in the deformation process of the oil absorption sponge ball, the filtering effect of the capillary fibers in the oil-containing waste gas is improved by means of the change of the surface area of the oil absorption sponge ball, and therefore the treatment efficiency of the oil-containing textile waste gas is improved.

3. Advantageous effects

Compared with the prior art, the invention has the advantages that:

(1) this scheme absorbs the greasy dirt in the textile waste gas that flows through the oil absorption sponge ball, and under the absorption of oil absorption rubber sacculus to the greasy dirt, impel the oil absorption rubber sacculus to last the inflation, thereby relieve the magnetic screen effect to the moving magnet ball in it, and under the repulsion of fixed magnet ball to the moving magnet ball, impel the moving magnet ball to move down and drive oil absorption rubber sacculus and oil absorption sponge ball and warp in proper order, can make the oil absorption sponge ball extrude the greasy dirt of its internal adsorption, and after the release round plug backs up the rubber mounting, discharge the greasy dirt with the help of supporting pad and vice release hole, on the other hand can be at the deformation in-process of oil absorption sponge ball, with the help of the change of its surface area, improve the filter effect to the capillary fiber in the oily waste gas, thereby improve the treatment effeciency of oily textile waste gas.

(2) The oil absorption sponge ball outer end is connected with a pair of external swing strip, the one end that the oil absorption sponge ball was kept away from to external swing strip is connected with terminal sacculus, terminal sacculus outer end is inlayed and is installed and twist reverse the magnetic ball, twist reverse the magnetic ball and move the magnetic ball inter attraction, inflation through oil absorption rubber sacculus, can remove the magnetic screen effect to the moving magnet ball in it, and under moving magnet ball is to twisting reverse the attraction of magnetic ball, can make to twist reverse the magnetic ball and drive terminal sacculus and external swing strip and extrude the oil absorption sponge ball surface, can extrude the release with the greasy dirt of absorbing in the oil absorption sponge ball on the one hand, thereby improve the collection efficiency to the greasy dirt in the oily waste gas, on the other hand can be with the help of the swing of external swing strip and terminal sacculus, can improve the filter effect to oily weaving.

(3) The inner wall of the main release hole is connected with a first limiting ring, the outer end of the release round plug is connected with a second limiting ring, the first limiting ring is located on the upper side of the second limiting ring, and the possibility of separation between the main release hole and the release round plug can be reduced by arranging the first limiting ring and the second limiting ring.

(4) The supporting pad is made by loose material, offers the infiltration micropore of a plurality of evenly distributed and intercommunication each other in the supporting pad, through using loose material preparation supporting pad and set up the infiltration micropore in it, can improve the infiltration effect of supporting pad to improve the collection efficiency to the greasy dirt.

(5) Oil absorption rubber sacculus outer end is connected with a plurality of evenly distributed's owner and pulls the strip, it is located oil absorption sponge ball to mainly pull the strip, it is connected with a plurality of evenly distributed's the burr of pulling to mainly pull the strip outer end, through setting up the in-process that oil absorption rubber sacculus shrink, pull oil absorption sponge ball, thereby make the greasy dirt of absorption in the oil absorption sponge ball release downwards, with this collection efficiency of the greasy dirt in the improvement to weaving waste gas, pull the burr through the setting and can improve the effect of pulling oil absorption sponge ball.

(6) The oil absorption rubber saccule is embedded with a plurality of uniformly distributed magnetism inhibiting powder, the magnetism inhibiting powder is made of iron-nickel alloy material with the nickel content of 80%, the magnetism inhibiting powder can magnetically shield the moving magnet ball in the oil absorption rubber saccule when the oil absorption rubber saccule contracts, and the magnetic shielding effect on the moving magnet ball in the oil absorption rubber saccule is relieved after the oil absorption rubber saccule expands.

(7) The external swing strip outer end is connected with a plurality of evenly distributed's filtration burr, filters the burr through setting up, can improve the collection effect to the capillary fibre in the oiliness weaving waste gas to improve the filtration efficiency to oiliness weaving waste gas.

Drawings

FIG. 1 is a cross-sectional view of a textile waste gas transportation duct portion of the present invention;

FIG. 2 is a schematic view of the structure at A in FIG. 1;

FIG. 3 is a sectional view of the oil absorbing rubber balloon portion of the present invention;

FIG. 4 is a cross-sectional view of an oil absorbing sponge ball of the present invention as it is deformed;

fig. 5 is a cross-sectional view of the external swing strip of the present invention when squeezing the sponge oil-absorbing ball.

The reference numbers in the figures illustrate:

the spinning waste gas pipeline comprises a 1 spinning waste gas transmission pipeline, 2 oil absorption sponge balls, 3 main release holes, 4 supporting pads, 5 release round plugs, 6 auxiliary release holes, 7 rubber sealing sheets, 8 oil absorption rubber ball bags, 801 main pulling strips, 802 pulling burrs, 9 moving magnet balls, 10 fixed magnet balls, 11 external swinging strips, 1101 filtering burrs, 12 tail end ball bags and 13 torsion magnet balls.

Detailed Description

The drawings in the embodiments of the invention will be combined; the technical scheme in the embodiment of the invention is clearly and completely described; obviously; the described embodiments are only some of the embodiments of the invention; but not all embodiments, are based on the embodiments of the invention; all other embodiments obtained by a person skilled in the art without making any inventive step; all fall within the scope of protection of the present invention.

In the description of the present invention, it should be noted that the terms "upper", "lower", "inner", "outer", "top/bottom", and the like indicate orientations or positional relationships based on those shown in the drawings, and are only for convenience of description and simplification of description, but do not indicate or imply that the referred device or element must have a specific orientation, be constructed in a specific orientation, and be operated, and thus should not be construed as limiting the present invention. Furthermore, the terms "first" and "second" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance.

In the description of the present invention, it should be noted that, unless otherwise explicitly specified or limited, the terms "mounted," "disposed," "sleeved/connected," "connected," and the like are to be construed broadly, e.g., "connected," which may be fixedly connected, detachably connected, or integrally connected; can be mechanically or electrically connected; they may be connected directly or indirectly through intervening media, or they may be interconnected between two elements. The specific meanings of the above terms in the present invention can be understood in specific cases to those skilled in the art.

Example 1:

referring to fig. 1-5, an industrial oily waste gas filtering device comprises a textile waste gas transmission pipeline 1, an oil absorption sponge ball 2 is arranged in the textile waste gas transmission pipeline 1, a main release hole 3 is drilled on the lower inner wall of the textile waste gas transmission pipeline 1, a supporting pad 4 is connected to the bottom end of the oil absorption sponge ball 2, a release round plug 5 is connected to the bottom end of the supporting pad 4, a plurality of evenly distributed auxiliary release holes 6 are drilled on the outer end of the release round plug 5, a pair of mutually abutting rubber sealing sheets 7 is connected to the inner wall of the main release hole 3, an oil absorption rubber ball bag 8 is arranged in the oil absorption sponge ball 2, an internal moving magnet ball 9 is connected to the oil absorption rubber ball 8, a fixed magnet ball 10 is connected to the upper inner wall of the textile waste gas transmission pipeline 1, the fixed magnet ball 10 and the moving magnet ball 9 repel each other, oil stain in the flowing textile waste gas is absorbed by the oil absorption sponge ball 2, and under, promote the oil absorption rubber sacculus 8 and continue the inflation to this magnetic screen effect to the moving magnet ball 9 of its inside of relieving, and under the repulsion effect of fixed magnet ball 10 to moving magnet ball 9, promote moving magnet ball 9 and move down and drive oil absorption rubber sacculus 8 and oil absorption sponge ball 2 and warp in proper order, can make oil absorption sponge ball 2 extrude the greasy dirt of its inside absorption on the one hand, and after release round stopper 5 backs up rubber packing 7, discharge the greasy dirt with the help of supporting pad 4 and vice release hole 6, on the other hand can be at the deformation in-process of oil absorption sponge ball 2, with the help of the change of its surface area, improve the filter effect to the capillary fibre in the oily waste gas, thereby improve the treatment effeciency of oily textile waste gas.

Referring to fig. 5, the outer end of the oil absorption sponge ball 2 is connected with a pair of external swing strips 11, one end of the external swing strip 11 far away from the oil absorption sponge ball 2 is connected with a tail end saccule 12, the outer end of the tail end saccule 12 is embedded with a torsion magnetic ball 13, the torsion magnetic ball 13 and the moving magnetic ball 9 attract each other, through the expansion of the oil absorption rubber saccule 8, the magnetic shielding function of the moving magnet ball 9 in the magnetic shielding device can be released, and under the attraction effect of the moving magnet ball 9 to the torsion magnet ball 13, the torsion magnetic ball 13 can be promoted to drive the tail end saccule 12 and the external swing strip 11 to extrude the surface of the oil absorption sponge ball 2, on one hand, the oil absorbed in the oil absorption sponge ball 2 can be extruded and released, thereby improve the collection efficiency to the greasy dirt in the oily waste gas, on the other hand can improve the filter effect to oily textile waste gas with the help of the swing of external swing strip 11 and terminal sacculus 12.

Please refer to fig. 2, the inner wall of the main release hole 3 is connected with a first limit ring, the outer end of the release plug 5 is connected with a second limit ring, the first limit ring is located on the upper side of the second limit ring, by setting the first limit ring and the second limit ring, the possibility of separation between the main release hole 3 and the release plug 5 can be reduced, the support pad 4 is made of loose material, a plurality of permeation micropores which are uniformly distributed and are mutually communicated are arranged in the support pad 4, the support pad 4 is made of loose material and is provided with the permeation micropores therein, the permeation effect of the support pad 4 can be improved, and thus the collection efficiency of oil stains is improved.

Referring to fig. 3-5, the outer end of the oil absorption rubber balloon 8 is connected with a plurality of uniformly distributed main pulling strips 801, the main pulling strips 801 are located in the oil absorption sponge ball 2, the outer end of the main pulling strips 801 is connected with a plurality of uniformly distributed pulling burrs 802, the oil absorption sponge ball 2 can be pulled by setting the main pulling strips 801 in the process of shrinking the oil absorption rubber balloon 8, so that the oil stain absorbed in the oil absorption sponge ball 2 is released downwards, the collection efficiency of the oil stain in the textile waste gas is improved, the pulling effect of the oil absorption sponge ball 2 can be improved by setting the pulling burrs 802, a plurality of uniformly distributed magnetic insulation powder is embedded in the oil absorption rubber balloon 8, the magnetic insulation powder is made of iron-nickel alloy material with nickel content of 80%, the magnetic insulation powder can magnetically shield the moving magnet ball 9 in the oil absorption rubber balloon 8 when the oil absorption rubber balloon 8 shrinks, and the magnetic shielding effect on the moving magnet ball 9 in the oil absorption rubber balloon is released after the oil absorption rubber balloon 8 expands, the external swing strip 11 outer end is connected with a plurality of evenly distributed's filtration burr 1101, through setting up filtration burr 1101, can improve the collection effect to the capillary fibre in the oily weaving waste gas to improve the filtration efficiency to oily weaving waste gas.

s1, absorbing oil stains in the flowing textile waste gas through the oil absorption sponge ball 2, and promoting the oil absorption rubber ball bag 8 to continuously expand under the absorption effect of the oil stains on the oil absorption rubber ball bag 8, so as to relieve the magnetic shielding effect on the moving magnet ball 9 in the oil absorption sponge ball;

s2, under the repulsion action of the fixed magnet balls 10 on the moving magnet balls 9, the moving magnet balls 9 are driven to move downwards and drive the oil absorption rubber ball bag 8 and the oil absorption sponge balls 2 to deform in sequence, so that oil stains adsorbed in the oil absorption sponge balls 2 are extruded out, and after the release round plugs 5 jack the rubber sealing pieces 7 open, the oil stains are discharged by means of the support pads 4 and the auxiliary release holes 6;

s3, in the deformation process of the oil absorption sponge ball 2, the filtering effect of the capillary fibers in the oil-containing waste gas is improved by means of the change of the surface area of the oil absorption sponge ball, and therefore the treatment efficiency of the oil-containing textile waste gas is improved.

The above; but are merely preferred embodiments of the invention; the scope of the invention is not limited thereto; any person skilled in the art is within the technical scope of the present disclosure; the technical scheme and the improved concept of the invention are equally replaced or changed; are intended to be covered by the scope of the present invention.

Claims

1. An industrial oily exhaust gas filtering device comprises (1), and is characterized in that: the textile waste gas transmission pipeline is characterized in that an oil absorption sponge ball (2) is arranged in the textile waste gas transmission pipeline (1), a main release hole (3) is formed in the lower inner wall of the textile waste gas transmission pipeline (1), a supporting pad (4) is connected to the bottom end of the oil absorption sponge ball (2), a release round plug (5) is connected to the bottom end of the supporting pad (4), a plurality of auxiliary release holes (6) which are evenly distributed are formed in the outer end of the release round plug (5), a pair of mutually-abutted rubber sealing pieces (7) is connected to the inner wall of the main release hole (3), an oil absorption rubber ball bag (8) is arranged in the oil absorption sponge ball (2), a movable magnet ball (9) is connected in the oil absorption rubber ball bag (8), a fixed magnet ball (10) is connected to the upper inner wall of the textile waste gas transmission pipeline (1), and the fixed magnet ball (10) and.

2. The industrial oily exhaust gas filtering device according to claim 1, characterized in that: the oil absorption sponge ball (2) outer end is connected with a pair of external swing strip (11), the one end that oil absorption sponge ball (2) were kept away from in external swing strip (11) is connected with terminal sacculus (12), terminal sacculus (12) outer end is inlayed and is established and install and twist reverse magnetic ball (13), twist reverse magnetic ball (13) and move magnetic ball (9) inter attraction.

3. The industrial oily exhaust gas filtering device according to claim 1, characterized in that: the inner wall of the main release hole (3) is connected with a first limiting ring, the outer end of the release round plug (5) is connected with a second limiting ring, and the first limiting ring is located on the upper side of the second limiting ring.

4. The industrial oily exhaust gas filtering device according to claim 1, characterized in that: the supporting pad (4) is made of loose materials, and a plurality of permeation micropores which are uniformly distributed and communicated with each other are formed in the supporting pad (4).

5. The industrial oily exhaust gas filtering device according to claim 1, characterized in that: oil absorption rubber sacculus (8) outer end is connected with a plurality of evenly distributed's owner and pulls strip (801), owner pulls strip (801) and is located oil absorption sponge ball (2), mainly pull strip (801) outer end and be connected with a plurality of evenly distributed pull burr (802).

6. The industrial oily exhaust gas filtering device according to claim 1, characterized in that: a plurality of uniformly distributed magnetic insulation powder is embedded in the oil absorption rubber balloon (8), and the magnetic insulation powder is made of an iron-nickel alloy material with the nickel content of 80%.

7. The industrial oily exhaust gas filtering device according to claim 2, characterized in that: the outer end of the external swing strip (11) is connected with a plurality of uniformly distributed filtering burrs (1101).

8. The use method of the industrial oily exhaust gas filtering device according to any one of claims 1 to 7, characterized in that: the method comprises the following steps:

s1, absorbing oil stains in the flowing textile waste gas through the oil absorption sponge ball (2), and promoting the oil absorption rubber ball bag (8) to continuously expand under the absorption effect of the oil absorption rubber ball bag (8) on the oil stains so as to relieve the magnetic shielding effect on the moving magnet ball (9) in the oil absorption sponge ball bag;

s2, under the repulsive action of the fixed magnet ball (10) on the moving magnet ball (9), the moving magnet ball (9) is promoted to move downwards and drives the oil absorption rubber ball bag (8) and the oil absorption sponge ball (2) to deform in sequence, so that oil stains adsorbed in the oil absorption sponge ball (2) are extruded out, and after the rubber sealing piece (7) is pushed open by the release round plug (5), the oil stains are discharged by means of the support pad (4) and the auxiliary release hole (6);

s3, in the deformation process of the oil absorption sponge ball (2), the filtering effect of the capillary fibers in the oil-containing waste gas is improved by means of the change of the surface area of the oil absorption sponge ball, and therefore the treatment efficiency of the oil-containing textile waste gas is improved.