CN112107939A

CN112107939A - Transmission type exhaust gas particulate matter adsorption device and use method thereof

Info

Publication number: CN112107939A
Application number: CN202010910264.6A
Authority: CN
Inventors: 刘思达
Original assignee: Individual
Current assignee: Individual
Priority date: 2020-09-02
Filing date: 2020-09-02
Publication date: 2020-12-22

Abstract

The invention discloses a transmission type exhaust gas particulate adsorption device and a use method thereof, belonging to the technical field of exhaust gas adsorption treatment, wherein a filter layer is arranged into a runway type structure, a gas distribution body moves into the filter layer along with a moving plate and consists of two symmetrically arranged gas distribution bags, gas is synchronously introduced into a pair of gas distribution bags, so that the impact force when the gas is introduced is effectively improved, the exhaust gas is effectively and uniformly distributed on the filter layer in a larger range to a certain extent, the filter layer adsorbs the particulate matters in the exhaust gas, meanwhile, the filter layer circularly transmits along with a transmission belt matched with the structure of the filter layer, the exhaust gas is effectively stirred to a certain extent, the impact force when the exhaust gas contacts with the filter layer is further improved, the adsorption effect of the filter layer on the exhaust gas treatment is enhanced, in addition, the filter layer is easy to be detached from the two groups of transmission belts, the filter layer is easy to be deeply cleaned.

Description

Transmission type exhaust gas particulate matter adsorption device and use method thereof

Technical Field

The invention relates to the technical field of waste gas adsorption treatment, in particular to a transmission type waste gas particulate matter adsorption device and a using method thereof.

Background

With the increasing development of the industrialized society, the economic benefit is brought, meanwhile, the environmental pollution brought by the industrial development is also increased, people pay more attention to whether the industrial emission exceeds the standard, a special waste gas purification device is often arranged in a plurality of factories which can generate waste gas emission, and the waste gas is treated by the waste gas purification device to achieve the emission reaching the standard so as to greatly reduce the harm of the industrial development to the environment.

Most of filtering equipment in the prior art carries out filtering treatment on particulate matters in waste gas through a filtering interception net, but after the filtering net is used for a certain period, particulate impurities in the waste gas are intercepted on the filtering net, so that the filtering net is easily blocked, technicians are required to regularly replace and clean the filtering net, and the filtering net is generally embedded in a filtering device and is inconvenient to disassemble and assemble; in addition, among the prior art, most just utilize waste gas to arrange the pipe and lead to waste gas to filter screen department, and waste gas and filter screen contact are limited and be difficult to reach fine homogeneity, and this kind of simple and easy formula of letting in also is difficult to stir waste gas, and the filter effect is relatively poor, has reduced exhaust-gas treatment efficiency to a certain extent.

Therefore, the transmission type exhaust particulate adsorption device convenient to clean is provided to effectively solve the problems in the prior art.

Disclosure of Invention

1. Technical problem to be solved

Aiming at the problems in the prior art, the invention aims to provide a transmission type exhaust gas particulate matter adsorption device and a using method thereof, wherein a filter layer is arranged into a runway type structure, a gas distribution body moves into the filter layer along with a moving plate and consists of two symmetrically arranged gas distribution bags, gas is synchronously introduced into a pair of gas distribution bags, the impact force when the gas is introduced is effectively improved, so that the exhaust gas is effectively and uniformly distributed on the filter layer in a large range to a certain extent, the filter layer adsorbs the particulate matter in the exhaust gas, meanwhile, the filter layer performs circulating transmission along with a transmission belt matched with the structure of the filter layer, the exhaust gas is effectively stirred to a certain extent, the impact force when the exhaust gas contacts the filter layer is further improved, and the adsorption effect of the filter layer on the exhaust gas is enhanced, in addition, the filter layer is easy to detach from the two groups of transmission belts, and the filter layer is easy to deeply clean.

2. Technical scheme

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

A transmission type exhaust gas particulate matter adsorption device comprises an operation table and a filter layer arranged at the upper end of the rear side of the operation table, wherein the two sides of the upper end of the rear side of the operation table are fixedly connected with vertical plates, two groups of vertical plates are rotatably arranged on the relative inner walls of the vertical plates, a driving motor for driving the driving gear is fixedly arranged on the end wall of the rear side of each vertical plate, the outer walls of the front end and the rear end of each filter layer are respectively wrapped with a transmission belt corresponding to the position of the driving gear, a sliding cavity corresponding to the position of the filter layer is arranged on the side wall of the upper end of the front side of the operation table, an electric sliding rail is embedded in the sliding cavity and arranged in the sliding cavity, a movable plate is fixedly connected with the electric sliding rail through an electric sliding block, a gas distributing body corresponding to the inner position of the, the inner end side wall of the moving plate is in sealing connection with the front end side wall of the filter layer, the gas distributing body extends into the filter layer, a sealing plate corresponding to the moving plate is fixedly installed on the rear end side wall of the operating platform, and the sealing plate is in sealing connection with the rear end side wall of the filter layer.

Further, the filter layer is runway type structure, the filter layer is including inlaying the outer fiber filter cotton layer of locating on a pair of drive belt inside wall, the cladding has interior filter screen to tie the layer on the interior end wall on outer fiber filter cotton layer, it has a plurality of fibre stings to distribute on the outer fiber filter cotton layer, the coating has the silica gel binder on the interior filter screen tie layer, and leading-in waste gas to the filter layer inside flows through interior filter screen tie layer, outer fiber filter cotton layer and outwards derives, and interior filter screen tie layer is effectively adsorbed with the particulate matter in the waste gas with the cladding formula stack on outer fiber filter cotton layer and is filtered.

Furthermore, it establishes the thorn to distribute on the outer end lateral wall that outer fibre filters cotton layer and drive belt correspond has a plurality ofly to inlay, it establishes the hole with a plurality of inlays that establish the thorn assorted to distribute on the inner lateral wall of drive belt, inlay and establish the thorn and inlay the cooperation of establishing the hole and inlay and establish the realization and attach the filter layer on a pair of drive belt, also convenient to detach simultaneously.

Furthermore, fixedly connected with on the lateral wall of one side bottom of the moving plate, far away from the filter layer, establishes the connecting plate with inlaying that the electronic slider position corresponds, inlay the top fixed connection who establishes connecting plate and electronic slider.

Further, the gas distribution body includes a pair of gas distribution bag, and is a pair of gas distribution bag is located the movable plate and is close to filter layer one end lateral wall department, two be connected with the cavity shunt tubes between the gas distribution bag, two the gas distribution bag links up the department respectively with the cavity shunt tubes and has all seted up the conduction mouth, and equally divide cloth on the outer end wall of two gas distribution bags and have a plurality of shunting layers, and the symmetry of a pair of gas distribution bag sets up the filter layer that is adapted to runway type structure to with waste gas outdiffusion through cavity shunt tubes and shunting layer, with the distribution area and the distribution degree of consistency of expanding gas.

Furthermore, the inner ends of the pair of air inlet pipes penetrate through the movable plate and are respectively communicated with the interiors of the two gas shunting bags, and the two gas shunting bags are respectively arranged at the upper end part and the lower end part of the inner side of the filter layer.

Further, all seted up a plurality of gas diffluence holes on cavity shunt tubes and a plurality of reposition of redundant personnel layer, the reposition of redundant personnel impact force when gas diffluence holes's setting effectively improves waste gas and derives to more be favorable to improving the effect that waste gas and filter layer contacted.

A use method of a transmission type exhaust gas particulate matter adsorption device comprises the following specific operation steps:

s1, when the waste gas is treated by technicians in the field, firstly, the movable plate is driven by the electric slide rail to move towards one end of the front side of the filter layer, the inner end of the movable plate is in sealed connection with the outer side wall of the filter layer, the gas shunting body extends into the filter layer, then the pair of gas inlet pipes are communicated with an external waste gas source, and the waste gas is led into the gas shunting body through the gas inlet pipes;

s2, the waste gas led into the gas shunt body respectively overflows from the shunt layers and the shunt holes of the hollow shunt tubes, is distributed and dispersed, sequentially flows through the inner filter screen knot layer and the outer fiber filter cotton layer to be led out, and the inner filter screen knot layer and the outer fiber filter cotton layer are matched to adsorb and capture particles in the waste gas;

s3, when the waste gas is adsorbed and filtered, a plurality of transmission gears are driven to rotate through a plurality of driving motors, and a pair of transmission belts embedded on the outer side wall of the outer fiber filter cotton layer are connected in a meshed mode through two groups of transmission gears.

3. Advantageous effects

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

(1) this scheme is through setting the filter layer to runway type structure, gaseous reposition of redundant personnel removes to the filter layer along with the movable plate in, and gaseous reposition of redundant personnel comprises the gaseous reposition of redundant personnel bag that two symmetries set up, leading-in gas in to a pair of gaseous reposition of redundant personnel bag in step, impact force when effectively improving gaseous introduction, thereby effectively to a certain extent with the great scope ground evenly distributed of waste gas on the filter layer, the filter layer carries out adsorption treatment to the particulate matter in the waste gas, and simultaneously, the filter layer is along with rather than structure assorted drive belt circulation transmission, effectively play the effect of stirring to waste gas to a certain extent, thereby further improved the impact force when waste gas contacts with the filter layer, the adsorption efficiency of filter layer to exhaust-gas treatment has been strengthened, in addition, the filter layer is easily dismantled from two sets of drive belts, easily carry out degree.

(2) The filter layer is runway type structure, the filter layer is including inlaying the outer fibre filter cotton layer of locating on a pair of drive belt inside wall, the cladding has interior filter screen knot layer on the interior end wall on outer fibre filter cotton layer, it has a plurality of fibre stings to distribute on the outer fibre filter cotton layer, the coating has the silica gel binder on the interior filter screen knot layer, leading-in filter screen knot layer in flowing through to the inside waste gas of filter layer, outer fibre filter cotton layer is outwards derived, interior filter screen knot layer effectively adsorbs the filtration with the particulate matter in the cladding formula stack of outer fibre filter cotton layer in to waste gas.

(3) The outer end side wall of the outer fiber filtering cotton layer corresponding to the transmission belt is distributed with a plurality of embedding thorns, the inner end side wall of the transmission belt is distributed with embedding holes matched with the plurality of embedding thorns, the embedding thorns and the embedding holes are matched to realize the attachment of the filtering layer on the pair of transmission belts, and the disassembly is convenient.

(4) The gas distribution body includes a pair of gas shunting bag, a pair of gas shunting bag is located the movable plate and is close to filter layer one end lateral wall department, be connected with the cavity shunt tubes between two gas shunting bags, the conduction mouth has all been seted up with cavity shunt tubes looks linking department respectively to two gas shunting bags, and it has a plurality of diffluence layers all to distribute on two gas shunting bags's the outer end wall, a plurality of gas shunting holes have all been seted up on cavity shunt tubes and a plurality of diffluence layers, the reposition of redundant personnel impact force when setting up effective improvement waste gas derivation of gas shunting hole, thereby be favorable to improving the effect that waste gas and filter layer contacted, the symmetry setting of a pair of gas shunting bag is adapted to the filter layer of runway type structure, and with waste gas outdiffusion through cavity shunt tubes and diffluence.

Drawings

FIG. 1 is a perspective view of the present invention;

FIG. 2 is a perspective view of the movable plate of the present invention after separation from the filter layer;

FIG. 3 is a partial perspective view of a gas splitter of the present invention embedded within a filter layer;

FIG. 4 is an external perspective view of the present invention at the moving plate;

FIG. 5 is a perspective view of the movable plate of the present invention in combination with a gas splitter;

FIG. 6 is a perspective view of the present invention at a gas split stream;

FIG. 7 is a perspective view of the gas separation bladder of the present invention.

The reference numbers in the figures illustrate:

the device comprises an operation table 1, a filter layer 2, a fiber filtering cotton layer 201 outside, a filter screen layer 202 inside, a vertical plate 3, a transmission gear 4, a transmission belt 5, a moving plate 6, a connecting plate 601 embedded in the operation table, an electric sliding rail 7, an air shunting bag 8, a shunting layer 801, a conduction opening 802, an air inlet pipe 9 and a hollow shunting pipe 10.

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. 1-3, a transmission type exhaust gas particulate adsorption device comprises an operation table 1 and a filter layer 2 installed on the upper end of the rear side of the operation table 1, wherein vertical plates 3 are fixedly connected to both sides of the upper end of the rear side of the operation table 1, transmission gears 4 are rotatably installed on the opposite inner walls of the two sets of vertical plates 3, a driving motor for driving the transmission gears 4 is fixedly installed on the rear end wall of the vertical plates 3, transmission belts 5 corresponding to the transmission gears 4 are respectively coated on the outer walls of the front and rear ends of the filter layer 2, the filter layer 2 is of a flexible structure matched with the transmission belts 5 and can be driven along with the transmission belts 5 after the transmission gears 4 are driven, a plurality of embedded thorns are distributed on the outer end side wall of the outer fiber filter cotton layer 201 corresponding to the transmission belts 5, embedded holes matched with the plurality of embedded thorns are distributed on the inner end side wall of the transmission belts 5, and the embedded thorns are matched with the embedded, and is convenient to disassemble.

A sliding cavity corresponding to the position of the filter layer 2 is arranged on the side wall of the upper end of the front side of the operating table 1, an electric sliding rail 7 is embedded in the sliding cavity, a moving plate 6 is fixedly connected onto the electric sliding rail 7 through an electric sliding block, an embedded connecting plate 601 corresponding to the position of the electric sliding block is fixedly connected onto the side wall of the bottom end of one side, far away from the filter layer 2, of the moving plate 6, the embedded connecting plate 601 is fixedly connected with the top end of the electric sliding block, a gas distributing body corresponding to the inner position of the filter layer 2 is fixedly arranged on the side wall of the inner end of the moving plate 6, a pair of air inlet pipes 9 communicated with the gas distributing body is arranged on the side wall of the outer end of the moving plate 6, the side wall of the inner end of the moving plate 6 is in sealed connection with the side wall, the closing plate links up with the rear end lateral wall of filter layer 2 in a sealing manner, when carrying out the exhaust-gas treatment operation, the technical personnel in the field drive movable plate 6 through electronic slide rail 7 and move to filter layer 2 one side, the inner of movable plate 6 and the front end lateral wall offset contact of filter layer 2, the closing plate cooperation with the rear side forms a inclosed waste gas derivation cavity with the inside of filter layer 2, and at this moment, the gas flow distribution body is arranged in this waste gas derivation cavity, utilize intake pipe 9 to leading-in pending waste gas in the gas flow distribution body, waste gas leads out even diffusion in the cavity to waste gas through the gas flow distribution body.

Please refer to fig. 3, wherein it should be emphasized that the filter layer 2 is a racetrack structure, the filter layer 2 includes an outer fiber filter cotton layer 201 embedded on the inner side walls of the pair of transmission belts 5, the inner end wall of the outer fiber filter cotton layer 201 is wrapped with an inner filter net bonding layer 202, a plurality of fiber spines are distributed on the outer fiber filter cotton layer 201, a silica gel adhesive is coated on the inner filter net bonding layer 202, the exhaust gas guided into the filter layer 2 by the gas splitter flows through the inner filter net bonding layer 202, the outer fiber filter cotton layer 201 is guided out, and the wrapped superposition of the inner filter net bonding layer 202 and the outer fiber filter cotton layer 201 effectively absorbs and filters the particulate matters in the exhaust gas.

Referring to fig. 4-7, specifically, the gas distribution body includes a pair of gas distribution bags 8, the pair of gas distribution bags 8 are located at a side wall of the moving plate 6 near one end of the filter layer 2, a hollow distribution pipe 10 is connected between the two gas distribution bags 8, the joints of the two gas distribution bags 8 and the hollow distribution pipe 10 are respectively provided with a conduction opening 802, the outer end walls of the two gas distribution bags 8 are uniformly distributed with a plurality of distribution layers 801, inner ends of a pair of air inlet pipes 9 penetrate through the moving plate 6 and are respectively communicated with the insides of the two gas distribution bags 8, the two gas distribution bags 8 are respectively arranged at the upper and lower end parts of the inner side of the filter layer 2, the hollow distribution pipe 10 and the plurality of distribution layers 801 are respectively provided with a plurality of gas distribution holes, the arrangement of the gas distribution holes effectively improves the distribution impact force when the exhaust gas is led out, the symmetrical arrangement of the pair of gas shunting bags 8 is adapted to the filtering layer 2 of the runway-type structure, and the waste gas is diffused outwards through the hollow shunting pipes 10 and the shunting layer 801 to enlarge the distribution area and the distribution uniformity of the gas.

s1, when the waste gas is treated by technicians in the field, firstly, the movable plate 6 is driven by the electric slide rail 7 to move towards one end of the front side of the filter layer 2, the inner end of the movable plate 6 is in sealed connection with the outer side wall of the filter layer 2, the gas shunting body extends into the filter layer 2, then the pair of air inlet pipes 9 are communicated with an external waste gas source, and the waste gas is led into the gas shunting body through the air inlet pipes 9;

s2, the waste gas led into the gas shunt body respectively overflows from the shunt layers 801 and the shunt holes of the hollow shunt tubes 10, is distributed and dispersed, sequentially flows through the inner filter screen knot layer 202 and the outer fiber filter cotton layer 201 and is led out, and the cooperation of the inner filter screen knot layer 202 and the outer fiber filter cotton layer 201 adsorbs and captures particles in the waste gas;

s3, when the waste gas is adsorbed and filtered, the plurality of transmission gears 4 are driven to rotate by the plurality of driving motors, and the pair of transmission belts 5 embedded on the outer side wall of the outer fiber filtering cotton layer 201 are distributed on the two groups of transmission gears 4 to be meshed and connected, so that the transmission directions of the plurality of transmission gears 4 are consistent, the pair of transmission belts 5 drive the filter layer 2 with the runway-type structure to rotate in a runway mode, and the improvement of the contact uniformity of the waste gas and the filter layer 2 is facilitated.

The components used in the present invention are all standard components or components known to those skilled in the art, and the structure and principle thereof can be known to those skilled in the art through technical manuals or through routine experiments.

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. The utility model provides a transmission type exhaust gas particulate matter adsorption equipment, includes operation panel (1) and installs in filter layer (2) of operation panel (1) rear side upper end, its characterized in that: the gas distribution device is characterized in that risers (3) are fixedly connected to two sides of the upper end of the rear side of the operating table (1), two sets of the risers (3) are rotatably installed on the relative inner walls of the risers (3), driving motors for driving the driving gears (4) are fixedly installed on the end wall of the rear side of the risers (3), driving belts (5) corresponding to the positions of the driving gears (4) are wrapped on the outer walls of the front end and the rear end of the filter layer (2), sliding cavities corresponding to the positions of the filter layer (2) are formed in the side wall of the upper end of the front side of the operating table (1), electric sliding rails (7) are installed in the sliding cavities in an embedded mode, moving plates (6) are fixedly connected to the electric sliding rails (7) through electric sliding blocks, gas distribution bodies corresponding to the inner positions of the moving plates (2) are fixedly installed on the side wall of the inner end of the operating table (6), a pair of gas inlet pipes, the inner side wall of the moving plate (6) is connected with the front end side wall of the filter layer (2) in a sealing mode, the gas flow dividing body extends to the inside of the filter layer (2), a sealing plate corresponding to the position of the moving plate (6) is fixedly mounted on the rear end side wall of the operating table (1), and the sealing plate is connected with the rear end side wall of the filter layer (2) in a sealing mode.

2. The driven-type exhaust particulate matter adsorption device according to claim 1, characterized in that: filter layer (2) are runway type structure, filter layer (2) are including inlaying outer fiber filter cotton layer (201) of locating on a pair of drive belt (5) inside wall, the cladding has interior filter screen knot layer (202) on the interior end wall of outer fiber filter cotton layer (201), it has a plurality of fibre thorns to distribute on outer fiber filter cotton layer (201), the coating has the silica gel binder on interior filter screen knot layer (202).

3. The driven-type exhaust particulate matter adsorption device according to claim 2, characterized in that: the outer fiber filtering cotton layer (201) and the outer end side wall corresponding to the transmission belt (5) are distributed with a plurality of embedded thorns, and the inner end side wall of the transmission belt (5) is distributed with embedded holes matched with the plurality of embedded thorns.

4. The driven-type exhaust particulate matter adsorption device according to claim 1, characterized in that: fixedly connected with on the lateral wall of one side bottom of moving plate (6) keep away from filter layer (2) inlays of establishing connecting plate (601) with electronic slider position correspondence, inlay the top fixed connection who establishes connecting plate (601) and electronic slider.

5. The driven-type exhaust particulate matter adsorption device according to claim 1, characterized in that: gas distribution body includes a pair of gas distribution bag (8), and is a pair of gas distribution bag (8) are located movable plate (6) and are close to filter layer (2) one end lateral wall department, two be connected with cavity shunt tubes (10) between gas distribution bag (8), two gas distribution bag (8) link up the department respectively with cavity shunt tubes (10) and have all seted up conduction mouth (802), and equally divide on the outer end wall of two gas distribution bags (8) and distribute a plurality of shunting layer (801).

6. The driven-type exhaust particulate matter adsorption device according to claim 5, characterized in that: the inner ends of the air inlet pipes (9) penetrate through the moving plate (6) and are respectively communicated with the insides of the two gas shunting bags (8), and the two gas shunting bags (8) are respectively arranged at the upper end part and the lower end part of the inner side of the filter layer (2).

7. The driven-type exhaust particulate matter adsorption device according to claim 6, characterized in that: a plurality of gas shunting holes are formed in the hollow shunting pipe (10) and the plurality of shunting layers (801).

8. The use method of a driven exhaust particulate matter adsorption device according to any one of claims 1 to 7, characterized by: the specific operation steps are as follows:

s1, when the waste gas is treated by technicians in the field, firstly, the movable plate (6) is driven by the electric slide rail (7) to move towards one end of the front side of the filter layer (2), the inner end of the movable plate (6) is in sealed connection with the outer side wall of the filter layer (2), the gas flow dividing body extends to the inside of the filter layer (2), then the pair of air inlet pipes (9) are communicated with an external waste gas source, and waste gas is introduced into the gas flow dividing body through the air inlet pipes (9);

s2, the waste gas led into the gas shunt body respectively overflows from the shunt holes of the multiple shunt layers (801) and the hollow shunt tubes (10), is distributed and dispersed, flows through the inner filter screen knot layer (202) and the outer fiber filter cotton layer (201) in sequence and is led out, and the inner filter screen knot layer (202) and the outer fiber filter cotton layer (201) are matched to adsorb and capture particles in the waste gas;

s3, when the waste gas adsorbs filtration, drive a plurality of drive gear (4) through a plurality of driving motor and rotate, because a pair of drive belt (5) of inlaying on outer fibre filter cotton layer (201) lateral wall distributes and connects in two sets of drive gear (4) meshing, need emphasizing here, the transmission direction of a plurality of drive gear (4) is unanimous, in order to realize that a pair of drive belt (5) drive the rotation of filter layer (2) runway formula of runway type structure, thereby be more favorable to improving the contact degree of consistency of waste gas and filter layer (2).