CN111888928A - Imitative rock pulp motion's fabrics heat setting exhaust treatment device - Google Patents

Abstract

The invention discloses a textile heat setting waste gas treatment device simulating movement of rock pulp, which belongs to the technical field of textile industry, the scheme simulates a pocket-shaped cylinder and hydrogen peroxide into volcano and rock pulp, simulates the process of endothermic decomposition of ammonium chloride powder into crustal movement to promote the hydrogen peroxide to be sprayed out from the pocket-shaped cylinder, filters waste gas by means of hydrogen peroxide and a filtering device, can catalyze the hydrogen peroxide to be decomposed into oxygen and water by means of a hydrogen peroxide layer so as to reduce the proportion of formaldehyde in the waste gas and increase the fluidity of the waste gas, can decompose the formaldehyde by means of the hydrogen peroxide layer, stretches upwards by means of a resistance passing ball, can pass through and block an upper connecting pipeline on one hand, can further promote the decomposition of the hydrogen peroxide on the other hand, and re-enters the built-in pocket membrane after the temperature is reduced by means of the function of decomposing the hydrogen peroxide by means of manganese dioxide powder, and observing whether bubbles are generated in the built-in bag film or not so as to judge the content of the hydrogen peroxide.

Description

Imitative rock pulp motion's fabrics heat setting exhaust treatment device

Technical Field

The invention relates to the technical field of textile industry, in particular to a textile heat setting waste gas treatment device simulating magma movement.

Background

The weaving idea is a general term taken from spinning and weaving, but with the continuous development and perfection of a weaving knowledge system and a subject system, particularly, after the production of non-woven textile materials, three-dimensional compound knitting and other technologies, the textile products for clothing, industry and decoration produced by the non-woven fabric technology, the modern three-dimensional knitting technology, the modern electrostatic nano-net forming technology and the like are not only the traditional hand-made spinning and weaving, but also the non-woven fabric technology, therefore, modern textile refers to a multi-scale structure processing technology of fiber or fiber aggregate, the ancient textile and printing and dyeing technology of China has a very long history, and as early as the original society, ancient people know to use local materials to adapt to the change of climate, use natural resources as raw materials for textile and printing and dyeing, and to make simple hand-made textile tools, apparel, airbags and curtain carpets in daily life are products of textile and printing technologies.

The heat setting machine treatment is an important part of the textile pretreatment process, and during heat setting, various dye additives and coating additives on the textile are released, so that a large amount of organic gases are released at the opening of the final exhaust pipeline, wherein the organic gases mainly comprise organic gases such as formaldehyde, polyphenyl, aromatic hydrocarbons and the like.

In the prior art, the waste gas generated in the heat setting treatment process is generally introduced into water, so that the harm caused by direct discharge of the waste gas is reduced through water dissolution, but in the actual waste gas treatment process, part of the waste gas still can be not dissolved in the water, so that the harm is caused to the atmosphere.

Disclosure of Invention

1. Technical problem to be solved

Aiming at the problems in the prior art, the invention aims to provide a textile heat setting waste gas treatment device imitating the movement of rock pulp, the scheme is that a pocket-shaped cylinder and hydrogen peroxide are simulated into volcano and rock pulp, the heat absorption and decomposition process of ammonium chloride powder is simulated into crust movement, the hydrogen peroxide is promoted to be sprayed out from the pocket-shaped cylinder, waste gas is filtered by hydrogen peroxide and a filtering device, when the hydrogen peroxide is sprayed on the surface of the filtering device, the hydrogen peroxide can be catalyzed by a hydrogen peroxide enzyme layer to be decomposed into oxygen and water, so that the proportion of formaldehyde in the waste gas is reduced, meanwhile, the fluidity of the waste gas is increased, on the other hand, the formaldehyde can be decomposed by the hydrogen peroxide enzyme layer, and the ventilation and resistance ball is stretched upwards, on the one hand, the upper connecting pipeline can be ventilated, on the other hand, the decomposition of the hydrogen peroxide can be further promoted, and after the temperature is reduced, the ventilation and resistance ball enters the, and (4) observing whether bubbles are generated in the built-in pocket film or not by means of the action of decomposing hydrogen peroxide by manganese dioxide powder, so as to judge the content of the hydrogen peroxide.

2. Technical scheme

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

A textile heat setting waste gas treatment device imitating rock slurry movement comprises a waste gas discharge pipeline, wherein a eruption type waste gas treatment device is fixedly connected between two U-shaped inner walls of the waste gas discharge pipeline, the eruption type waste gas treatment device comprises a lower connecting pipeline embedded on the lower U-shaped inner wall of the waste gas discharge pipeline, a rubber air bag is arranged in the lower connecting pipeline, the bottom end of the rubber air bag is fixedly connected with a movable abutting plate, the left end of the lower connecting pipeline is rotatably connected with the movable abutting plate positioned on the lower side of the movable abutting plate, the pipe wall of the waste gas discharge pipeline is fixedly connected with a rubber sealing sheet positioned on the left side of the movable abutting plate, the outer end of the rubber sealing sheet abuts against the inner wall of the waste gas discharge pipeline, a pocket-shaped cylinder is fixedly connected to the upper end of the lower connecting pipeline, a heat conduction plate is fixedly connected to the inner bottom end of the, ammonium chloride powder is filled between the built-in bag film and the inner wall of the bag-shaped cylinder, hydrogen peroxide is filled in the built-in bag film, the upper end of the bag-shaped cylinder is in threaded connection with an upper connecting pipeline, the upper connecting pipeline is in threaded connection with the lower U-shaped inner wall of the waste gas discharge pipeline and is communicated with the waste gas discharge pipeline, the inner wall of the waste gas discharge pipeline is fixedly connected with a pair of filtering devices which are symmetrical relative to the upper connecting pipeline and are positioned on the upper side of the upper connecting pipeline, the pipe wall of the waste gas discharge pipeline is fixedly connected with a water baffle plate positioned on the left side of the filtering devices, and heat setting waste gas is introduced into the lower pipe opening of the waste gas discharge pipeline and accumulated on the left side of the rubber sealing sheet, so that heat can be transferred to the ammonium chloride powder and can be decomposed into hydrogen chloride gas and ammonia gas along with the rising of the heat, the built-in, and through the downward inflation of rubber gasbag, can drive the activity and support the board and extrude the activity and support the board, make the activity support the board and rotate the back and pull the rubber mounting piece open to impel the waste gas of accumulation to pass the rubber mounting piece, get into the mouth of pipe on the exhaust emission pipeline, simulate pocket shape section of thick bamboo, hydrogen peroxide solution into volcano and magma, through simulating crust motion with the process that the ammonium chloride powder absorbs heat and decomposes, impel hydrogen peroxide solution to spout from pocket shape section of thick bamboo, and filter waste gas with the help of hydrogen peroxide solution and filter equipment.

Furthermore, filter equipment includes the elasticity filter, the bleeder vent that has a plurality of evenly distributed is dug to elasticity filter outer end, bleeder vent inner wall bolt has a plurality of evenly distributed's reaction ball, the reaction ball includes peroxidase layer and its inside connection ball, when hydrogen peroxide solution sprays on the filter equipment surface, can catalyze hydrogen peroxide solution and decompose into oxygen and water with the help of peroxidase layer, can increase oxygen content on the one hand to this reduces the shared proportion of formaldehyde in the waste gas, has increased the mobility of waste gas simultaneously, and on the other hand can decompose formaldehyde with the help of peroxidase layer, the formaldehyde content in the further reduction waste gas.

Furthermore, the pipe wall of the waste gas discharge pipeline is fixedly connected with an elastic rope, the bottom end of the elastic rope is fixedly connected with a resistance ball, traction ropes are fixedly connected between the elastic rope and the two filtering devices, the resistance ball comprises a magnet ball, a second filter screen fixedly connected with the elastic rope is arranged at the outer end of the magnet ball, manganese dioxide powder is filled between the magnet ball and the second filter screen, when hydrogen peroxide is decomposed, the elastic rope can be promoted to restore to a high-temperature elastic phase state due to a large amount of heat generated, so that the resistance ball is stretched upwards, on one hand, the resistance ball can be connected with the upper connecting pipeline, on the other hand, the decomposition of the hydrogen peroxide can be further promoted by virtue of the manganese dioxide powder in the resistance ball, and after the temperature is reduced, the resistance ball enters the built-in bag again, and whether bubbles are generated in the built-in the bag by virtue of the function of decomposing the hydrogen peroxide by, thus, the content of the hydrogen peroxide is judged.

Furthermore, the outer end of the lower connecting pipeline is fixedly connected with an L-shaped limiting baffle which is positioned on the upper side of the movable abutting plate, and the L-shaped limiting baffle is arranged, so that the possibility that the movable abutting plate excessively rotates to enable the rubber sealing piece to be closed again on the right side can be reduced.

Further, a plurality of evenly distributed of heat-conducting plate bottom fixedly connected with just run through the heat conduction pole of a pocket shape section of thick bamboo, the heat conduction pole is located the rubber gasbag upside and contacts with the rubber gasbag, the heat conduction pole has the aluminium material to make, through setting up the heat conduction pole, can accelerate heat transfer to the heat-conducting plate to improve the efficiency that ammonium chloride powder is heated and decomposes.

Further, a pocket shape section of thick bamboo and built-in pocket membrane are made by transparent material, through using transparent material preparation pocket shape section of thick bamboo and built-in pocket membrane, can be convenient to the bubble volume of seeing through the inside production of a pocket shape section of thick bamboo and built-in pocket membrane to make things convenient for regular change hydrogen peroxide.

Further, a plurality of evenly distributed's of pocket shape section of thick bamboo inner wall fixedly connected with filtration barb, it is located built-in pocket membrane upside to filter the barb, through setting up the filtration barb, can filter debris wherein at the in-process of hydrogen peroxide solution backward flow.

Furthermore, the elastic rope is made of Ni-Ti memory alloy materials, the metamorphosis temperature of the elastic rope is 40 ℃, and the elastic rope can have the function of deformation at different temperatures by manufacturing the elastic rope by using the Ni-Ti memory alloy.

A use method of a heat setting waste gas treatment device for textiles imitating the movement of rock pulp comprises the following steps:

s1, simulating volcanoes and magma by the bag-shaped cylinder and hydrogen peroxide, simulating crustal movement by the process of heat absorption and decomposition of ammonium chloride powder, promoting the hydrogen peroxide to be sprayed out of the bag-shaped cylinder, and filtering waste gas by the hydrogen peroxide and a filtering device;

s2, when the hydrogen peroxide is sprayed on the surface of the filtering device, the hydrogen peroxide can be catalyzed by the hydrogen peroxide enzyme layer to be decomposed into oxygen and water;

s3, when the hydrogen peroxide is decomposed, a large amount of heat is generated, so that the elastic rope is promoted to be restored to a high-temperature elastic phase state, and the resistance passing ball is stretched upwards to pass resistance of the upper connecting pipeline.

3. Advantageous effects

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

(1) the scheme simulates a pocket-shaped cylinder and hydrogen peroxide into volcano and rock pulp, simulates the crust motion of ammonium chloride powder in the process of heat absorption and decomposition to promote the hydrogen peroxide to be sprayed out of the pocket-shaped cylinder and filter waste gas by means of hydrogen peroxide and a filter device, when the hydrogen peroxide is sprayed on the surface of the filter device, the hydrogen peroxide can be catalyzed and decomposed into oxygen and water by means of a hydrogen peroxide enzyme layer, so that the proportion of formaldehyde in the waste gas is reduced, meanwhile, the fluidity of the waste gas is increased, on the other hand, the formaldehyde can be decomposed by means of the hydrogen peroxide enzyme layer, the upper connecting pipeline can be blocked by means of the upward stretching of the blocking balls, on the other hand, the decomposition of the hydrogen peroxide can be further promoted, after the temperature is reduced, the blocking balls enter the built-in pocket again, and whether bubbles are generated in the built-in the manganese dioxide pocket or not is observed, thus, the content of the hydrogen peroxide is judged.

(2) The outer end of the lower connecting pipeline is fixedly connected with an L-shaped limiting baffle which is positioned on the upper side of the movable abutting plate, and the L-shaped limiting baffle is arranged, so that the possibility that the movable abutting plate excessively rotates to enable the rubber sealing piece to be closed again on the right side can be reduced.

(3) A plurality of evenly distributed of heat-conducting plate bottom fixedly connected with just run through the heat conduction pole of a pocket shape section of thick bamboo, the heat conduction pole is located the rubber gasbag upside and contacts with the rubber gasbag, and the heat conduction pole has the aluminium material to make, through setting up the heat conduction pole, can accelerate heat transfer to the heat-conducting plate on to improve the efficiency that ammonium chloride powder is heated and decomposes.

(4) A pocket shape section of thick bamboo and built-in pocket membrane are made by transparent material, through using transparent material preparation pocket shape section of thick bamboo and built-in pocket membrane, can be convenient to the bubble volume of the inside production of a pocket shape section of thick bamboo and built-in pocket membrane of seeing through to make things convenient for regular change hydrogen peroxide.

(5) A plurality of evenly distributed's of pocket shape section of thick bamboo inner wall fixedly connected with filtration barb, filter the barb and be located built-in pocket membrane upside, through setting up the filtration barb, can filter debris wherein at the in-process of hydrogen peroxide solution backward flow.

(6) The elastic rope is made of Ni-Ti memory alloy materials, the metamorphosis temperature of the elastic rope is 40 ℃, and the elastic rope can have the function of deformation at different temperatures by manufacturing the elastic rope by using the Ni-Ti memory alloy.

Drawings

FIG. 1 is a cross-sectional view of an exhaust gas discharge pipe section of the present invention;

FIG. 2 is a cross-sectional view of the lower half of the hairspray exhaust treatment device of the present invention;

FIG. 3 is a cross-sectional view of the upper half of the hairspray exhaust treatment device of the present invention;

FIG. 4 is a cross-sectional view of a portion of the filter apparatus of the present invention;

FIG. 5 is a cross-sectional view of a portion of the pass-stop ball of the present invention;

fig. 6 is a sectional view of the exhaust gas discharge pipe of the present invention in operation.

The reference numbers in the figures illustrate:

1 exhaust emission pipeline, 2 eruption type exhaust treatment device, 3 lower connecting pipelines, 301L-shaped limit baffle, 4 rubber air bags, 5 movable resisting plates, 6 rotating deflector rods, 7 rubber sealing sheets, 8 pocket-shaped cylinders, 801 filtering barbs, 9 heat conducting plates, 10 built-in pocket membranes, 11 ammonium chloride powder, 12 hydrogen peroxide, 13 upper connecting pipelines, 14 filtering devices, 15 elastic filtering plates, 16 air vents, 17 hydrogen peroxide enzyme layers, 18 connecting balls, 19 elastic ropes, 20 through resisting balls, 21 traction ropes, 22 magnet balls, 23 second filter screens and 24 manganese dioxide powder.

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 textile heat setting waste gas treatment device simulating the movement of rock pulp comprises a waste gas discharge pipeline 1, a eruption type waste gas treatment device 2 is fixedly connected between two U-shaped inner walls of the waste gas discharge pipeline 1, the eruption type waste gas treatment device 2 comprises a lower connecting pipeline 3 embedded on the lower U-shaped inner wall of the waste gas discharge pipeline 1, a rubber air bag 4 is arranged in the lower connecting pipeline 3, the bottom end of the rubber air bag 4 is fixedly connected with a movable abutting plate 5, the left end of the lower connecting pipeline 3 is rotatably connected with a movable abutting plate 6 positioned on the lower side of the movable abutting plate 5, a rubber sealing sheet 7 positioned on the left side of the movable abutting plate 6 is fixedly connected to the pipe wall of the waste gas discharge pipeline 1, the outer end of the rubber sealing sheet 7 abuts against the inner wall of the waste gas discharge pipeline 1, a pocket-shaped cylinder 8 is fixedly connected to the upper end of the lower connecting pipeline 3, a heat conduction plate 9 is fixedly, ammonium chloride powder 11 is filled between the built-in bag film 10 and the inner wall of the bag-shaped cylinder 8, hydrogen peroxide 12 is filled in the built-in bag film 10, the upper end of the bag-shaped cylinder 8 is in threaded connection with an upper connecting pipeline 13, the upper connecting pipeline 13 is in threaded connection with the lower U-shaped inner wall of the waste gas discharge pipeline 1 and is communicated with the waste gas discharge pipeline 1, the inner wall of the waste gas discharge pipeline 1 is fixedly connected with a pair of filtering devices 14 which are symmetrical relative to the upper connecting pipeline 13 and are positioned on the upper side of the upper connecting pipeline 13, the pipe wall of the waste gas discharge pipeline 1 is fixedly connected with a water baffle plate positioned on the left side of the filtering devices 14, heat-setting waste gas is introduced into the lower pipe orifice of the waste gas discharge pipeline 1 and is accumulated on the left side of the rubber sealing sheet 7, along with the rising of heat, the heat can be transferred to the ammonium chloride powder 11 and promote the ammonium chloride powder 11 to be decomposed into hydrogen chloride gas and ammonia gas, the movable resisting plate 5 can be driven to extrude the movable resisting plate 6 through downward expansion of the rubber air bag 4, the rubber sealing piece 7 is poked after the movable resisting plate 6 rotates, accumulated waste gas is enabled to penetrate through the rubber sealing piece 7 and enter an upper pipe opening of the waste gas discharge pipeline 1, the pocket-shaped cylinder 8 and the hydrogen peroxide 12 are simulated into volcano and rock pulp, crust motion is simulated through a process of heat absorption and decomposition of the ammonium chloride powder 11, the hydrogen peroxide 12 is enabled to be sprayed out of the pocket-shaped cylinder 8, and the waste gas is filtered by means of the hydrogen peroxide 12 and the filtering device 14.

Referring to fig. 4, the filtering device 14 includes an elastic filtering plate 15, a plurality of uniformly distributed air vents 16 are cut at the outer end of the elastic filtering plate 15, a plurality of uniformly distributed reaction balls are bolted to the inner wall of the air vents 16, each reaction ball includes a peroxidase layer 17 and a connecting ball 18 inside the peroxidase layer, when hydrogen peroxide 12 is sprayed on the surface of the filtering device 14, the hydrogen peroxide 12 can be catalyzed by the peroxidase layer 17 to be decomposed into oxygen and water, on one hand, the oxygen content can be increased, so that the proportion of formaldehyde in the exhaust gas is reduced, and meanwhile, the fluidity of the exhaust gas is increased, on the other hand, formaldehyde can be decomposed by the peroxidase layer 17, and the formaldehyde content in the exhaust gas is further reduced.

Referring to fig. 1-5, an elastic rope 19 is fixedly connected to the wall of the exhaust emission pipeline 1, a resistance ball 20 is fixedly connected to the bottom end of the elastic rope 19, a pulling rope 21 is fixedly connected between the elastic rope 19 and the two filtering devices 14, the elastic filtering plate 15 can be promoted to deform by pulling the pulling rope 21 when the elastic rope 19 recovers deformation, so that sundries accumulated in the air holes 16 can be promoted to fall down and flow into the bag-shaped cylinder 8 along with the hydrogen peroxide 12, the resistance ball 20 comprises a magnet ball 22, a second filter screen 23 fixedly connected with the elastic rope 19 is arranged at the outer end of the magnet ball 22, manganese dioxide powder 24 is filled between the magnet ball 22 and the second filter screen 23, when the hydrogen peroxide 12 is decomposed, the elastic rope 19 can be promoted to recover to its high-temperature elastic phase state due to a large amount of heat generated, so as to stretch the resistance ball 20 upwards, on the one hand, the resistance ball 13 can be connected, on the other hand, the decomposition of hydrogen peroxide can be further promoted by the manganese dioxide powder 24 in the inner part, when the temperature is reduced, the resistance passing ball 20 enters the inner pocket membrane 10 again, and whether bubbles are generated in the inner pocket membrane 10 is observed by the action of the manganese dioxide powder 24 for decomposing the hydrogen peroxide, so that the content of the hydrogen peroxide can be judged.

Referring to fig. 1-2, the outer end of the lower connecting pipe 3 is fixedly connected with an L-shaped limiting baffle 301, the L-shaped limiting baffle 301 is located on the upper side of the movable supporting plate 6, the L-shaped limiting baffle 301 can reduce the possibility that the movable supporting plate 6 rotates excessively to re-close the rubber sealing sheet 7 on the right side, the bottom end of the heat conducting plate 9 is fixedly connected with a plurality of heat conducting rods which are uniformly distributed and penetrate through the pocket-shaped cylinder 8, the heat conducting rods are located on the upper side of the rubber air bag 4 and are in contact with the rubber air bag 4, the heat conducting rods are made of aluminum, the heat transfer to the heat conducting plate 9 can be accelerated by the arrangement of the heat conducting rods, so that the efficiency of decomposing the ammonium chloride powder 11 by heating is improved, the pocket-shaped cylinder 8 and the built-in pocket film 10 are both made of transparent materials, and the pocket-shaped cylinder 8 and the built-in pocket film 10 are made of, thereby facilitating the regular replacement of hydrogen peroxide.

Referring to fig. 3-6, the inner wall of the bag-shaped cylinder 8 is fixedly connected with a plurality of uniformly distributed filtering barbs 801, the filtering barbs 801 are positioned on the upper side of the built-in bag film 10, impurities in the hydrogen peroxide solution 12 can be filtered in the backflow process by arranging the filtering barbs 801, the elastic rope 19 is made of a Ni-Ti memory alloy material, the metamorphosis temperature of the elastic rope 19 is 40 ℃, and the elastic rope 19 can have a deformation function at different temperatures by manufacturing the elastic rope 19 by using the Ni-Ti memory alloy.

A use method of a heat setting waste gas treatment device for textiles imitating the movement of rock pulp comprises the following steps:

s1, simulating volcanoes and magma by the pocket-shaped cylinder 8 and the hydrogen peroxide 12, simulating crustal movement by the heat absorption and decomposition process of the ammonium chloride powder 11, promoting the hydrogen peroxide 12 to be sprayed out of the pocket-shaped cylinder 8, and filtering the waste gas by the hydrogen peroxide 12 and the filtering device 14;

s2, when the hydrogen peroxide 12 is sprayed on the surface of the filtering device 14, the hydrogen peroxide 12 can be catalyzed by the hydrogen peroxide enzyme layer 17 to be decomposed into oxygen and water;

s3, when the hydrogen peroxide solution 12 is decomposed, a large amount of heat is generated to promote the elastic string 19 to return to its high-temperature elastic phase, thereby stretching the resistance ball 20 upward and blocking the upper connecting pipe 13.

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 (9)

1. The utility model provides a imitative rock pulp motion's fabrics heat setting exhaust treatment device, includes exhaust emission pipeline (1), its characterized in that: fixedly connected with eruption formula exhaust treatment device (2) between two U-shaped inner walls of exhaust emission pipeline (1), eruption formula exhaust treatment device (2) is including inlaying lower connecting tube (3) of establishing on the U-shaped inner wall under exhaust emission pipeline (1), be equipped with rubber gasbag (4) in connecting tube (3) down, rubber gasbag (4) bottom fixed connection activity is supported board (5), connecting tube (3) left end is rotated and is connected with activity to board (6) that is located activity to board (5) downside down, exhaust emission pipeline (1) pipe wall fixedly connected with is located the left rubber mounting (7) of activity to board (6), rubber mounting (7) outer end offsets with exhaust emission pipeline (1) inner wall, connecting tube (3) upper end fixedly connected with pocket shape section of thick bamboo (8) down, pocket shape section of thick bamboo (8) inner bottom end fixedly connected with heat-conducting plate (9), pocket shape section of thick bamboo (8) inner wall fixedly connected with is located built-in pocket membrane (10) of heat-conducting plate (9) upside, it has ammonium chloride powder (11) to fill between built-in pocket membrane (10) and pocket shape section of thick bamboo (8) inner wall, built-in pocket membrane (10) intussuseption is filled with hydrogen peroxide solution (12), there is connecting tube (13) pocket shape section of thick bamboo (8) upper end threaded connection, go up connecting tube (13) and exhaust emission pipeline (1) lower U-shaped inner wall threaded connection and be linked together with exhaust emission pipeline (1), exhaust emission pipeline (1) inner wall fixedly connected with is a pair of about last connecting tube (13) symmetry and all be located filter equipment (14) of connecting tube (13) upside, the pipe wall fixedly connected with of exhaust emission pipeline (1) is located the left breakwater of filter equipment (14).

2. The device for heat-setting waste gas treatment of textiles with simulated pulp movement according to claim 1, characterized in that: the filter device (14) comprises an elastic filter plate (15), a plurality of uniformly distributed air holes (16) are cut at the outer end of the elastic filter plate (15), a plurality of uniformly distributed reaction balls are bolted to the inner wall of the air holes (16), and each reaction ball comprises a hydrogen peroxide enzyme layer (17) and a connecting ball (18) inside the hydrogen peroxide enzyme layer.

3. The device for heat-setting waste gas treatment of textiles with simulated pulp movement according to claim 1, characterized in that: waste gas emission pipeline (1) pipe wall fixed connection has elasticity rope (19), elasticity rope (19) bottom fixed connection leads to hinders ball (20), equal fixedly connected with haulage rope (21) between elasticity rope (19) and two filter equipment (14) lead to hinder ball (20) and include magnet ball (22), magnet ball (22) outer end be equipped with elasticity rope (19) fixed connection's second filter screen (23), it has manganese dioxide powder (24) to fill between magnet ball (22) and second filter screen (23).

4. The device for heat-setting waste gas treatment of textiles with simulated pulp movement according to claim 1, characterized in that: the outer end of the lower connecting pipeline (3) is fixedly connected with an L-shaped limiting baffle (301), and the L-shaped limiting baffle (301) is located on the upper side of the movable abutting plate (6).

5. The device for heat-setting waste gas treatment of textiles with simulated pulp movement according to claim 1, characterized in that: the heat-conducting plate (9) bottom fixedly connected with a plurality of evenly distributed just run through the heat conduction pole of a pocket shape section of thick bamboo (8), the heat conduction pole is located rubber gasbag (4) upside and contacts with rubber gasbag (4), the heat conduction pole has the aluminium material to make.

6. The device for heat-setting waste gas treatment of textiles with simulated pulp movement according to claim 1, characterized in that: the pocket-shaped cylinder (8) and the built-in pocket membrane (10) are both made of transparent materials.

7. The device for heat-setting waste gas treatment of textiles with simulated pulp movement according to claim 1, characterized in that: pocket shape section of thick bamboo (8) inner wall fixedly connected with a plurality of evenly distributed's filtration barb (801), filtration barb (801) are located built-in pocket membrane (10) upside.

8. The device for heat-setting waste gas treatment of textiles with simulated pulp movement according to claim 3, characterized in that: the elastic rope (19) is made of Ni-Ti memory alloy materials, and the metamorphosis temperature of the elastic rope (19) is 40 ℃.

9. The use method of the textile heat-setting waste gas treatment device imitating the movement of rock pulp according to the claims 1 to 8 is characterized in that: the method comprises the following steps:

s1, simulating volcanoes and magma by the aid of the pocket-shaped cylinder (8) and hydrogen peroxide (12), simulating crustal movement by the aid of a heat absorption decomposition process of the ammonium chloride powder (11), promoting the hydrogen peroxide (12) to be sprayed out of the pocket-shaped cylinder (8), and filtering waste gas by the aid of the hydrogen peroxide (12) and a filtering device (14);

s2, when the hydrogen peroxide (12) is sprayed on the surface of the filtering device (14), the hydrogen peroxide (12) can be catalyzed by the hydrogen peroxide enzyme layer (17) to be decomposed into oxygen and water;

s3, when the hydrogen peroxide (12) is decomposed, a large amount of heat is generated, so that the elastic rope (19) is promoted to restore to the high-temperature elastic phase state, and the through-resistance ball (20) is stretched upwards and is subjected to through-resistance on the upper connecting pipeline (13).

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