CN210728957U - Textile auxiliary exhaust treatment device - Google Patents

Abstract

The utility model relates to a textile auxiliary waste gas treatment technical field relates to a textile auxiliary waste gas treatment device. The gas inlet end of the redox pool is communicated with the gas outlet end of the filter pool, the liquid outlet end of the alkali medicine box is communicated with the first spray pump, the first left spray tray is obliquely fixed in the redox pool, and the first left spray hole is communicated with the liquid outlet end of the first spray pump through a first spray pipe; the first right spraying discs are obliquely and symmetrically fixedly arranged in the oxidation reduction pool, and the first right spraying holes are communicated with the liquid outlet end of the first spraying pump through a first spraying pipe; the ammonia gas treatment tank is communicated with the oxidation-reduction tank, and the adsorption deodorization tank is communicated with the ammonia gas treatment tank. The utility model provides a current exhaust treatment device to the low defect of textile auxiliary waste gas treatment efficiency, improved textile auxiliary waste gas treatment efficiency, reach the purpose of high-efficient processing textile auxiliary waste gas.

Description

Textile auxiliary exhaust treatment device

Technical Field

The utility model relates to a textile auxiliary exhaust-gas treatment technical field, more specifically say, relate to a textile auxiliary exhaust-gas treatment device.

Background

Textile auxiliary preparation enterprises can produce more polluted waste gas in the production process, and the polluted waste gas discharged into the air can seriously affect the local environment and cause serious environmental protection problems. The polluted textile auxiliary waste gas generated in the production process of textile auxiliary preparation enterprises generally comprises sulfur dioxide, hydrogen sulfide, ammonia gas, methyl mercaptan, methyl sulfide and other polluted gases. Therefore, how to effectively remove the sulfur dioxide, hydrogen sulfide, ammonia gas, methyl mercaptan, methyl sulfide and other pollutant gases in the waste gas of textile auxiliary becomes an environmental protection problem which is urgently waited at present.

Patent "CN201821161931. X" discloses a exhaust treatment device relates to weaving technical field, including air inlet, the exhaust gas outlet that supplies waste gas to let in to and the purifying box of setting between air inlet and gas outlet, the top of purifying box is provided with sprays the mechanism, the bottom of purifying box is provided with retrieves the mechanism, retrieve the mechanism including being the collecting pipe that leaks hopper-shaped, set up can dismantle the filter screen of being connected at the collecting pipe top and purifying box to and the water pump that links to each other with the collecting pipe, the water pump passes through the pipeline and sprays the mechanism and link to each other. Waste gas recovery device retrieves the water that is used for absorbing impurity through retrieving the mechanism and recycles the utilization ratio in order to improve water, and the water pump is used for supplying the water of retrieving to flow back to spraying the mechanism and recycles.

This patent is used for absorbing the water of impurity through retrieving the mechanism recovery with the utilization ratio that improves water, avoids water absorption capacity saturation and reduction purifying effect after absorbing the impurity in the waste gas repeatedly. Obviously, this patent still can't effectively get rid of the gaseous pollutants such as sulfur dioxide in the textile auxiliary waste gas, causes this exhaust treatment device to be low to textile auxiliary waste gas treatment efficiency, does not reach the environmental protection requirement.

SUMMERY OF THE UTILITY MODEL

In view of this, the utility model provides a textile auxiliary exhaust treatment device to solve current exhaust treatment device to the defect that textile auxiliary exhaust treatment is inefficient.

In order to achieve the above purpose, the utility model provides a following technical scheme:

a textile auxiliary waste gas treatment device comprises a filter tank, an oxidation reduction tank, an alkali agent tank, a first spray pump, a first spray pipe, a first left spray tray, a first right spray tray, an ammonia gas treatment tank and an adsorption deodorization tank; the air inlet end of the filtering tank is communicated with an external textile auxiliary waste gas pipe, the air inlet end of the redox tank is communicated with the air outlet end of the filtering tank, the first spray pump is fixedly arranged on the redox tank, the liquid outlet end of the alkali medicine box is communicated with the liquid inlet end of the first spray pump, the first left spray tray is obliquely fixed in the redox tank, a plurality of first left spray holes are formed in the first left spray tray, and the first left spray holes are communicated with the liquid outlet end of the first spray pump through first spray pipes; the first right spray tray is obliquely and symmetrically fixedly arranged in the oxidation reduction pool, a plurality of first right spray holes are formed in the first right spray tray, and the first right spray holes are communicated with the liquid outlet end of the first spray pump through first spray pipes; the air inlet end of the ammonia gas treatment pool is communicated with the air outlet end of the oxidation and reduction pool, and the air inlet end of the adsorption and deodorization pool is communicated with the air outlet end of the ammonia gas treatment pool.

As the preferred scheme of the utility model, first left side shower tray is the fixed setting of splayed symmetry with first right side shower tray and is in the redox pond.

As the preferred scheme of the utility model, it is provided with first brush-holder stud to rotate in the redox pond, the fixed first brush hair that is provided with of lower terminal surface of first brush-holder stud, first brush-holder stud rotates and sets up in the drive shaft of first motor.

As the preferred scheme of the utility model, oxidation reduction bottom of the pool portion is still fixed and is provided with first blow-off pipe, first blow-off pipe is fixed to be set up the below of first brush hair.

As a preferred scheme of the utility model, a second left spray tray and a second right spray tray are symmetrically and fixedly arranged in the ammonia gas treatment tank; the second left spraying plate is provided with a plurality of second left spraying holes, and the second left spraying holes are communicated with the liquid outlet end of the second spraying pump through a second spraying pipe; the second right spraying plate is provided with a plurality of second right spraying holes, and the second right spraying holes are communicated with the liquid outlet end of the second spraying pump through a second spraying pipe; and the liquid inlet end of the second spray pump is communicated with the liquid outlet end of the clear water tank.

As the utility model discloses an optimal scheme, the left side of second spray dish is the fixed setting of splayed symmetry with the right side of second spray dish and is in the ammonia treatment pond.

As the preferable proposal of the utility model, a second brush rod is rotatably arranged in the ammonia processing pool, and the lower end surface of the second brush rod is fixedly provided with second brush hairs; a second sewage discharge pipe is fixedly arranged below the second bristles in the ammonia gas treatment tank; the second brush rod is rotatably arranged on a driving shaft of the second motor.

As a preferred scheme of the utility model, a third left spray tray and a third right spray tray are symmetrically and fixedly arranged in the adsorption deodorization tank; the third left spraying plate is provided with a plurality of third left spraying holes, and the third left spraying holes are communicated with the liquid outlet end of a third spraying pump through a second spraying pipe; the third right spraying plate is provided with a plurality of third right spraying holes, and the third right spraying holes are communicated with the liquid outlet end of a third spraying pump through a third spraying pipe; and the liquid inlet end of the third spraying pump is communicated with the liquid outlet end of the deodorization medicine box.

As a preferred scheme of the utility model, a third brush rod is rotationally arranged in the adsorption deodorization tank, and third bristles are fixedly arranged on the lower end surface of the third brush rod; a third blow-off pipe is fixedly arranged below the third brush hair in the adsorption deodorization tank; the third brush bar is rotatably arranged on a driving shaft of a third motor.

As the preferred scheme of the utility model, the air inlet end of the filter tank is communicated with an external textile auxiliary waste gas pipe after passing through an air inlet pump and an air inlet pipe respectively; a flow equalizing cover is arranged in the filtering tank; the flow equalizing cover is provided with a plurality of air outlets; a plurality of filter screens are fixedly arranged below the air outlet nozzle in the filter tank; and an air outlet end communicated with the air inlet end of the oxidation-reduction pool is arranged below the filter screen of the filter pool.

The utility model has the advantages that the utility model utilizes the filtering tank to clean and filter the particles in the waste gas of textile auxiliary agent so as to reduce the content of the particles in the gas, and utilizes the oxidation-reduction tank to remove the sulfur dioxide and the hydrogen sulfide acidic gas in the waste gas of textile auxiliary agent; removing alkaline ammonia gas in the textile auxiliary waste gas by using an ammonia gas treatment tank; the adsorption deodorization tank is used for removing the odor gas of the methyl mercaptan and the methyl sulfide in the waste gas of the textile auxiliary, so that the pollution gases such as sulfur dioxide, hydrogen sulfide, ammonia gas, methyl mercaptan, methyl sulfide and the like in the waste gas of the textile auxiliary are removed in a targeted manner, the content of the pollution gases such as sulfur dioxide, hydrogen sulfide, ammonia gas, methyl mercaptan and methyl sulfide in the waste gas of the textile auxiliary is effectively reduced, the defect that the treatment efficiency of the waste gas of the textile auxiliary is low by the conventional waste gas treatment device is overcome, the waste gas treatment efficiency of the textile auxiliary is improved, and the aim of efficiently treating the waste gas of the textile auxiliary; furthermore, the utility model discloses utilize the slant symmetry to set up in the oxidation-reduction pond first left shower tray and first right shower tray spray the alkali liquid medicine to the oxidation-reduction pond in the alkali liquid medicine case for alkali liquid medicine is more fully mixed in weaving auxiliary agent waste gas under the effect of spraying of first left shower tray and first right shower tray, avoid spraying inhomogeneously and cause sulfur dioxide in the textile auxiliary agent waste gas and hydrogen sulfide acid gas's the defect of the inefficiency of cleaing away, thereby further solved the defect that current exhaust treatment device is low to textile auxiliary agent exhaust treatment efficiency, textile auxiliary agent exhaust treatment efficiency has more effectively been improved, reach the purpose of high-efficient processing textile auxiliary agent waste gas.

Drawings

The accompanying drawings are included to provide a further understanding of the invention, and are incorporated in and constitute a part of this specification, illustrate embodiments of the invention, and together with the description serve to explain the invention and not to limit the invention.

In the drawings:

FIG. 1 is an overall structure diagram of a textile auxiliary waste gas treatment device according to an embodiment of the present invention;

FIG. 2 is an enlarged view of the structure at A in FIG. 1;

in the figure: 1-a filter tank and 2-a filter screen; 3, an air inlet pipe; 4. an intake pump; 5-oxidation reduction pond; 6-alkali medicine chest; 7-a first spray pump; 8-a first shower; 9-a first left spray tray; 10-a first left spray orifice; 11-a first right spray tray; 12-a first right spray hole; 13-a first brush bar; 14-first bristles; 15-a first electric machine; 16-a first drain pipe; 17-an ammonia gas treatment tank; 18-a clear water tank; 19-a second spray pump; 20-a second spray pipe; 21-a second left shower tray; 22-a second left spray orifice; 23-a second right spray tray; 24-a second right spray hole; 25-a second brush bar; 26-second bristles; 27-a second motor; 28-a second sewage draining pipe; 29-adsorption deodorization tank; 30-a deodorizing kit; 31-a third spray pump; 32-a third shower; 33-third left shower tray; 34-a third left spray hole; 35-third right spray tray; 36-third right spray holes; 37-a third brush bar; 38-third bristles; 39-a third motor; 40-a third sewage draining pipe; 41-flow equalizing cover; 42-air outlet nozzle.

Detailed Description

The following examples are provided to illustrate the present invention in further detail, but the examples are not intended to limit the present invention in any manner.

Example 1: as shown in fig. 1, an embodiment of the present invention provides a textile auxiliary waste gas treatment device, which includes a filtering tank 1, an oxidation and reduction tank 5, an alkali medicine tank 6, a first spray pump 7, a first spray pipe 8, a first left spray tray 9, a first right spray tray 11, an ammonia gas treatment tank 17, and an adsorption deodorization tank 29; the air inlet end of the filter tank 1 is communicated with an external textile auxiliary waste gas pipe, the air inlet end of the oxidation and reduction tank 5 is communicated with the air outlet end of the filter tank 1, the first spray pump 7 is fixedly arranged on the oxidation and reduction tank 5, the liquid outlet end of the alkali medicine tank 6 is communicated with the liquid inlet end of the first spray pump 7, the first left spray tray 9 is obliquely fixed in the oxidation and reduction tank 5, the first left spray tray 9 is provided with a plurality of first left spray holes 10, and the first left spray holes 10 are communicated with the liquid outlet end of the first spray pump 7 through a first spray pipe 8; the first right spray tray 11 is obliquely and symmetrically fixedly arranged in the redox pool 5, the first right spray tray 11 is provided with a plurality of first right spray holes 12, and the first right spray holes 12 are communicated with the liquid outlet end of the first spray pump 7 through a first spray pipe 8; the air inlet end of the ammonia gas treatment pool 17 is communicated with the air outlet end of the redox pool 5, and the air inlet end of the adsorption deodorization pool 29 is communicated with the air outlet end of the ammonia gas treatment pool 17.

In the embodiment of the present invention, the alkali agent tank 6 contains a sodium hydroxide aqueous solution containing 10% sodium hydroxide. Obviously, in the embodiment of the present invention, the device is provided with a filtering tank 1, an oxidation-reduction tank 5, an ammonia gas treatment tank 17 and an adsorption deodorization tank 29 from left to right in sequence; the external textile auxiliary waste gas enters the device through an external textile auxiliary waste gas pipe, then is sequentially subjected to cleaning and particulate matter filtering by a filter tank 1 under the condition of pipeline communication so as to reduce the content of the particulate matter of the gas, sulfur dioxide and hydrogen sulfide acid gas in the textile auxiliary waste gas are removed by an oxidation-reduction tank 5, ammonia alkaline gas in the textile auxiliary waste gas is removed by an ammonia gas treatment tank 17, and finally methyl mercaptan and methyl sulfide odor gas in the textile auxiliary waste gas are removed by an adsorption deodorization tank 29 so as to be discharged; after the external textile auxiliary waste gas is sequentially treated by the filter tank 1, the oxidation-reduction tank 5, the ammonia gas treatment tank 17 and the adsorption deodorization tank 29, the pollution gases and particulate matters such as sulfur dioxide, hydrogen sulfide, ammonia gas, methyl mercaptan, methyl sulfide and the like in the textile auxiliary waste gas are removed in a targeted manner, so that the textile auxiliary waste gas is discharged into the air after being removed and treated to obtain pure gas so as to avoid polluting the environment. In addition, in the embodiment of the present invention, the waste gas of the external textile auxiliary enters the filtering tank 1 from the inlet end of the upper end of the filtering tank 1 through the pipeline, and then is guided to the bottom of the oxidation-reduction tank 5 from the outlet end of the lower end of the filtering tank 1; under the action of a first spray pump 7, an alkali liquor in an alkali liquor box 6 is respectively sprayed from the top of the redox pool 5 through a first spray pipe 8 from a first left spray hole 10 on a first left spray tray 9 and a first right spray hole 12 on a first right spray tray 11 through a first spray pipe 8, so that the alkali liquor and textile auxiliary waste gas are fully mixed to remove sulfur dioxide and hydrogen sulfide acidic gas in the textile auxiliary waste gas; the first left spray tray 9 and the first right spray tray 11 are obliquely and symmetrically fixedly arranged on the inner wall of the top of the redox pool 5, and the first left spray holes 10 and the first right spray holes 12 are obliquely and symmetrically fixedly arranged. The first branch of the liquid outlet end of the first spray pump 7 is communicated with the first left spray tray 9 through the first spray pipe 8, the second branch of the liquid outlet end of the first spray pump 7 is communicated with the first right spray tray 11 through the first spray pipe 8, so that the alkali liquor in the alkali liquor box 6 enters and is sprayed in the redox pond 5 in two ways under the action of the first spray pump 7, and the alkali liquor and the textile auxiliary waste gas are fully mixed to remove sulfur dioxide and hydrogen sulfide acidic gas in the textile auxiliary waste gas.

Obviously, the embodiment of the utility model provides an utilize filtering ponds 1 clearance filtering textile auxiliary waste gas in the particulate matter so as to reduce gaseous particulate matter content, utilize redox pond 5 to remove sulfur dioxide and hydrogen sulfide acid gas in the textile auxiliary waste gas; removing alkaline ammonia gas in the textile auxiliary waste gas by using an ammonia gas treatment tank 17; the absorbing and deodorizing tank 29 is utilized to remove the odor gas of the methyl mercaptan and the methyl sulfide in the waste gas of the textile auxiliary, so as to specifically remove the sulfur dioxide, the hydrogen sulfide, the ammonia gas, the methyl mercaptan, the methyl sulfide and other pollution gases in the waste gas of the textile auxiliary, effectively reduce the content of the sulfur dioxide, the hydrogen sulfide, the ammonia gas, the methyl mercaptan and the methyl sulfide in the waste gas of the textile auxiliary, solve the defect of low treatment efficiency of the waste gas of the textile auxiliary by the conventional waste gas treatment device, improve the waste gas treatment efficiency of the textile auxiliary, and achieve the purpose of efficiently treating the waste gas of the textile auxiliary; furthermore, the utility model discloses utilize the slant symmetry to set up in redox pond 5 the first left side spray set 9 and first right side spray set 11 spray alkali liquid medicine to redox pond 5 in the alkali medicine case 6, make alkali liquid medicine spray set 9 and first right side spray set 11 spray the effect down more fully mix in weaving auxiliary agent waste gas in first left side, avoid spraying inhomogeneously and cause sulfur dioxide in the textile auxiliary agent waste gas and hydrogen sulfide acid gas's the defect of inefficiency of cleaing away, thereby further solved the defect that current exhaust treatment device is low to textile auxiliary agent waste gas treatment efficiency, textile auxiliary agent waste gas treatment efficiency has more effectively been improved, reach the purpose of high-efficient processing textile auxiliary agent waste gas.

Further, the first left spray tray 9 and the first right spray tray 11 are symmetrically and fixedly arranged in the redox pool 5 in a splayed shape. The embodiment of the utility model provides a through being the fixed setting of splayed symmetry with first left side shower tray 9 and first right side shower tray 11 on the top inner wall of redox pond 5 for alkali liquid medicine top-down sprays and fully sets up the distribution in redox pond 5, has effectively avoided alkali liquid medicine and knits the defect that sulfur dioxide and hydrogen sulfide acid gas in the auxiliary agent waste gas mix inadequately and lead to textile auxiliary agent waste gas to clear away inefficiency with kniting auxiliary agent waste gas, thereby further solved the defect that current exhaust treatment device is low to textile auxiliary agent waste gas treatment efficiency, more effectively improved textile auxiliary agent waste gas treatment efficiency, reach the purpose of high-efficient processing textile auxiliary agent waste gas.

More specifically, a first brush bar 13 is rotatably disposed in the redox pool 5, a first bristle 14 is fixedly disposed on a lower end surface of the first brush bar 13, and the first brush bar 13 is rotatably disposed on a driving shaft of a first motor 15. The bottom of the oxidation-reduction pool 5 is also fixedly provided with a first drain pipe 16, and the first drain pipe 16 is fixedly arranged below the first bristles 14. In the embodiment of the present invention, the first motor 15 is fixedly disposed on the redox pool 5, the first brush rod 13 is disposed in the redox pool 5, and one end of the first brush rod 13 is hermetically extended out of the redox pool 5 and rotatably connected to the driving shaft of the first motor 15, and the lower end surface of the first brush rod 13 is fixedly disposed with the first brush 14. The embodiment of the utility model provides an utilize first brush-holder stud 13 of 15 drive of first motor to rotate, make inside precipitate in redox pond 5 clear away and along first blow-off pipe 16 discharge to the outside of obtaining redox pond 5 under scrubbing of first brush hair 14 on first brush-holder stud 13, effectively clear away the inside precipitate in redox pond 5 fast, effectively avoided the inside precipitate in redox pond 5 to influence alkali liquid medicine and knit auxiliary agent waste gas mixing velocity and cause alkali liquid medicine and knit auxiliary agent waste gas and mix insufficient defect, thereby further solved the defect that current exhaust treatment device is low to textile auxiliary agent waste gas treatment efficiency, textile auxiliary agent waste gas treatment efficiency has more effectively been improved, reach the mesh of high-efficient processing textile auxiliary agent waste gas.

Furthermore, a second left spray tray 21 and a second right spray tray 23 are symmetrically and fixedly arranged in the ammonia gas treatment tank 17; the second left spray disc 21 is provided with a plurality of second left spray holes 22, and the second left spray holes 22 are communicated with the liquid outlet end of the second spray pump 19 through a second spray pipe 20; the second right spray disc 23 is provided with a plurality of second right spray holes 2424, and the second right spray holes 2424 are communicated with the liquid outlet end of the second spray pump 19 through a second spray pipe 20; the liquid inlet end of the second spray pump 19 is communicated with the liquid outlet end of the clean water tank 18. In the embodiment of the present invention, the cleaning liquid in the clean water tank 18, more specifically, the cleaning liquid in the clean water tank 18 is clean water, and under the action of the second spray pump 19, the cleaning liquid is sprayed from the top of the ammonia processing tank 17 through the second spray pipe 20 and the second left spray holes 22 on the second left spray tray 21 and the second right spray holes 2424 on the second right spray tray 23 respectively so that the cleaning liquid and the textile auxiliary waste gas are fully mixed to remove the ammonia alkaline gas in the textile auxiliary waste gas; the second left spray tray 21 and the second right spray tray 23 are obliquely and symmetrically fixed on the inner wall of the top of the ammonia gas treatment tank 17, and the second left spray holes 22 and the second right spray holes 2424 are obliquely and symmetrically fixed. The first branch of the liquid outlet end of the second spray pump 19 is communicated with a second left spray tray 21 through a second spray pipe 20, and the second branch of the liquid outlet end of the second spray pump 19 is communicated with a second right spray tray 23 through the second spray pipe 20, so that the cleaning liquid in the clean water tank 18 enters and is sprayed in the ammonia treatment tank 17 in two ways under the action of the second spray pump 19, and the cleaning liquid and the textile auxiliary waste gas are fully mixed to remove the ammonia alkaline gas in the textile auxiliary waste gas.

Obviously, the second left spray tray 21 and the second right spray tray 23 are symmetrically and fixedly arranged in the ammonia gas treatment tank 17 in a splayed manner. In the embodiment of the utility model, the second left spray tray 21 and the second right spray tray 23 are symmetrically and fixedly arranged on the inner wall of the top of the ammonia gas treatment tank 17 in a splayed shape; the cleaning liquid in the clean water tank 18 is fully sprayed from top to bottom and distributed in the ammonia gas treatment pool 17, so that the defect of low cleaning efficiency of alkaline gases such as ammonia gas in the textile auxiliary waste gas due to insufficient mixing of the cleaning liquid in the clean water tank 18 and the textile auxiliary waste gas is effectively overcome, the defect of low treatment efficiency of the conventional waste gas treatment device on the textile auxiliary waste gas is further overcome, the textile auxiliary waste gas treatment efficiency is effectively improved, and the purpose of efficiently treating the textile auxiliary waste gas is achieved.

In addition, a second brush rod 25 is rotatably arranged in the ammonia gas treatment tank 17, and second bristles 26 are fixedly arranged on the lower end surface of the second brush rod 25; a second sewage discharge pipe 28 is fixedly arranged below the second brush bristles 26 in the ammonia gas treatment tank 17; the second brush bar 25 is rotatably provided on a drive shaft of a second motor 27.

In the embodiment of the present invention, the second motor 27 is fixedly disposed on the ammonia processing tank 17, the second brush rod 25 is disposed inside the ammonia processing tank 17, and one end of the second brush rod 25 is hermetically extended out of the ammonia processing tank 17 and rotatably connected to the driving shaft of the second motor 27, and the lower end face of the second brush rod 25 is fixedly disposed with the second brush bristles 26. The embodiment of the utility model provides an utilize second motor 27 drive second brush-holder stud 25 to rotate, make the inside deposit of ammonia processing pond 17 clear away and along the second blow off pipe 28 discharge to get ammonia processing pond 17 outside under scrubbing of second brush hair 26 on second brush-holder stud 25, effectively clear away the inside deposit of ammonia processing pond 17 fast, effectively avoided the inside deposit of ammonia processing pond 17 to influence the washing liquid and knit auxiliary agent waste gas mixing velocity and cause the washing liquid and knit the insufficient defect of auxiliary agent waste gas mixing, thereby further solved the defect that current exhaust-gas treatment device is low to textile auxiliary agent waste gas treatment efficiency, textile auxiliary agent waste gas treatment efficiency has more effectively been improved, reach the purpose of high-efficient processing textile auxiliary agent waste gas.

Furthermore, a third left spray tray 33 and a third right spray tray 35 are symmetrically and fixedly arranged in the adsorption deodorization tank 29; the third left spray disc 33 is provided with a plurality of third left spray holes 34, and the third left spray holes 34 are communicated with the liquid outlet end of the third spray pump 31 through the second spray pipe 20; the third right spray disc 35 is provided with a plurality of third right spray holes 36, and the third right spray holes 36 are communicated with the liquid outlet end of the third spray pump 31 through a third spray pipe 32; the liquid inlet end of the third spraying pump 31 is communicated with the liquid outlet end of the deodorization medicine box 30. A third brush rod 37 is rotatably arranged in the adsorption deodorization tank 29, and third bristles 38 are fixedly arranged on the lower end surface of the third brush rod 37; a third blow-off pipe 40 is fixedly arranged below the third brush bristles 38 in the adsorption deodorization tank 29; the third brush bar 37 is rotatably provided on a drive shaft of a third motor 39.

In the embodiment of the present invention, the deodorization liquid in the deodorization medicine box 30, more specifically, the deodorization liquid in the deodorization medicine box 30 is any one of the existing natural plant deodorizers, which is atomized by the deodorization device to form a mist shape, and the radius of the liquid drops diffused in the space is less than or equal to 0.04 mm. The liquid drop has large specific surface area and large surface energy, which is about tens of kilocalories per mole on average, and the energy of this order is 1/3-1/4 which is the bonding energy of many elements. The surface of the solution can effectively absorb peculiar smell molecules in the air, and simultaneously can change the spatial configuration of the absorbed peculiar smell molecules, weaken chemical bonds in the peculiar smell molecules, increase the instability of the peculiar smell molecules, easily perform chemical reaction with other molecules and an acid buffer solution in plant liquid, and finally generate tasteless and nontoxic substances. For example, hydrogen sulfide reacts under the action of plant liquid to generate sulfate ions and water; under the action of the plant liquid, ammonia generates nitrogen and water, and methyl mercaptan and methyl sulfide odor gas react under the action of the plant liquid to generate sulfate ions and water. The deodorant liquid in the deodorant medicine box 30 is sprayed from a third left spraying hole 34 on a third left spraying disc 33 and a third right spraying hole 36 on a third right spraying disc 35 from the top of the adsorption deodorant pool 29 through a third spraying pipe 32 under the action of a third spraying pump 31 respectively, so that the deodorant liquid in the deodorant medicine box 30 is fully mixed with the textile auxiliary waste gas to remove methyl mercaptan and methyl thioether odor gas in the textile auxiliary waste gas; wherein, the third left spray tray 33 and the third right spray tray 35 are symmetrically and obliquely fixed on the inner wall of the top of the adsorption and deodorization tank 29, and the third left spray hole 34 and the third right spray hole 36 are symmetrically and obliquely fixed. The first branch of the liquid outlet end of the third spray pump 31 is communicated with a third left spray tray 33 through a third spray pipe 32, and the second branch of the liquid outlet end of the third spray pump 31 is communicated with a third right spray tray 35 through the third spray pipe 32, so that the deodorant in the deodorant medicine box 30 enters and is sprayed into the adsorption deodorant pool 29 in two ways under the action of the third spray pump 31, and the deodorant and the textile auxiliary waste gas are fully mixed to remove methyl mercaptan and methyl thioether odor in the textile auxiliary waste gas. The embodiment of the utility model provides an utilize third motor 39 drive third brush-holder stud 37 to rotate, make and adsorb the inside deposit in deodorization pond 29 and clear away and discharge to the outside of adsorption deodorization pond 29 along third blow off pipe 40 under scrubbing of third brush hair 38 on third brush-holder stud 37, effectively clear away the inside deposit in adsorption deodorization pond 29 fast, effectively avoided adsorbing the inside deposit in deodorization pond 29 to influence deodorant liquid and knit auxiliary agent waste gas mixing velocity and cause deodorant liquid and knit the insufficient defect of auxiliary agent waste gas mixing, thereby further solved the defect that current exhaust-gas treatment device is low to textile agent waste gas treatment efficiency, textile agent waste gas treatment efficiency has more effectively been improved, reach the mesh of high-efficient handling textile agent waste gas.

Example 2: as shown in fig. 2, the textile auxiliary waste gas treatment device further comprises an air inlet pump 4, wherein the air inlet end of the filter tank 1 is communicated with an external textile auxiliary waste gas pipe after passing through the air inlet pump 4 and an air inlet pipe 3 respectively; a flow equalizing cover 41 is arranged in the filtering tank 1; the flow equalizing cover 41 is provided with a plurality of air outlet nozzles 42; a plurality of filter screens 2 are fixedly arranged below the air outlet nozzle 42 of the filter tank 1; and an air outlet end communicated with the air inlet end of the oxidation-reduction pool 5 is arranged below the filter screen 2 in the filter pool 1. The embodiment of the utility model provides an utilize the integrated configuration of cover 41 and tuyere 42 that flow equalizes to effectively slow down the air velocity of textile auxiliary waste gas, make textile auxiliary waste gas through a plurality of filter screens 2's filtration back, effectively got rid of the particulate matter in the textile auxiliary waste gas, the particulate matter volume of remaining in the textile auxiliary waste gas has been reduced, thereby further solved current exhaust-gas treatment device to the low defect of textile auxiliary waste gas treatment efficiency, textile auxiliary waste gas treatment efficiency has more effectively been improved, reach the purpose of high-efficient processing textile auxiliary waste gas.

The previous description of the disclosed embodiments is provided to enable any person skilled in the art to make or use the present invention. Various modifications to these embodiments will be readily apparent to those skilled in the art, and the generic principles defined herein may be applied to other embodiments without departing from the spirit or scope of the disclosure. Thus, the present invention is not intended to be limited to the embodiments shown herein but is to be accorded the widest scope consistent with the principles and novel features disclosed herein.

Claims (10)

1. A textile auxiliary waste gas treatment device is characterized by comprising a filter tank, an oxidation and reduction tank, an alkali medicine tank, a first spray pump, a first spray pipe, a first left spray tray, a first right spray tray, an ammonia gas treatment tank and an adsorption deodorization tank; the air inlet end of the filtering tank is communicated with an external textile auxiliary waste gas pipe, the air inlet end of the redox tank is communicated with the air outlet end of the filtering tank, the first spray pump is fixedly arranged on the redox tank, the liquid outlet end of the alkali medicine box is communicated with the liquid inlet end of the first spray pump, the first left spray tray is obliquely fixed in the redox tank, a plurality of first left spray holes are formed in the first left spray tray, and the first left spray holes are communicated with the liquid outlet end of the first spray pump through first spray pipes; the first right spray tray is obliquely and symmetrically fixedly arranged in the oxidation reduction pool, a plurality of first right spray holes are formed in the first right spray tray, and the first right spray holes are communicated with the liquid outlet end of the first spray pump through first spray pipes; the air inlet end of the ammonia gas treatment pool is communicated with the air outlet end of the oxidation and reduction pool, and the air inlet end of the adsorption and deodorization pool is communicated with the air outlet end of the ammonia gas treatment pool.

2. The textile auxiliary waste gas treatment device of claim 1, wherein the first left spray tray and the first right spray tray are symmetrically and fixedly arranged in the redox flow tank in a splayed shape.

3. The textile auxiliary waste gas treatment device of claim 2, wherein a first brush rod is rotatably arranged in the oxidation-reduction tank, first bristles are fixedly arranged on the lower end face of the first brush rod, and the first brush rod is rotatably arranged on a driving shaft of a first motor.

4. The textile auxiliary waste gas treatment device of claim 3, wherein a first drain pipe is fixedly arranged at the bottom of the oxidation-reduction pool and is fixedly arranged below the first bristles.

5. The textile auxiliary waste gas treatment device according to claim 1, wherein a second left spray tray and a second right spray tray are symmetrically and fixedly arranged in the ammonia gas treatment tank; the second left spraying plate is provided with a plurality of second left spraying holes, and the second left spraying holes are communicated with the liquid outlet end of the second spraying pump through a second spraying pipe; the second right spraying plate is provided with a plurality of second right spraying holes, and the second right spraying holes are communicated with the liquid outlet end of the second spraying pump through a second spraying pipe; and the liquid inlet end of the second spray pump is communicated with the liquid outlet end of the clear water tank.

6. The textile auxiliary waste gas treatment device of claim 5, wherein the second left spray tray and the second right spray tray are symmetrically and fixedly arranged in the ammonia gas treatment tank in a splayed manner.

7. The textile auxiliary waste gas treatment device as claimed in claim 6, wherein a second brush rod is rotatably arranged in the ammonia gas treatment tank, and second bristles are fixedly arranged on the lower end face of the second brush rod; a second sewage discharge pipe is fixedly arranged below the second bristles in the ammonia gas treatment tank; the second brush rod is rotatably arranged on a driving shaft of the second motor.

8. The textile auxiliary waste gas treatment device according to claim 1, wherein a third left spray tray and a third right spray tray are symmetrically and fixedly arranged in the adsorption deodorization tank; the third left spraying plate is provided with a plurality of third left spraying holes, and the third left spraying holes are communicated with the liquid outlet end of a third spraying pump through a second spraying pipe; the third right spraying plate is provided with a plurality of third right spraying holes, and the third right spraying holes are communicated with the liquid outlet end of a third spraying pump through a third spraying pipe; and the liquid inlet end of the third spraying pump is communicated with the liquid outlet end of the deodorization medicine box.

9. The textile auxiliary waste gas treatment device according to claim 8, wherein a third brush rod is rotatably arranged in the adsorption deodorization tank, and third bristles are fixedly arranged on the lower end face of the third brush rod; a third blow-off pipe is fixedly arranged below the third brush hair in the adsorption deodorization tank; the third brush bar is rotatably arranged on a driving shaft of a third motor.

10. The textile auxiliary waste gas treatment device according to any one of claims 1 to 9, wherein the air inlet end of the filter tank is communicated with an external textile auxiliary waste gas pipe after passing through an air inlet pump and an air inlet pipe respectively; a flow equalizing cover is arranged in the filtering tank; the flow equalizing cover is provided with a plurality of air outlets; a plurality of filter screens are fixedly arranged below the air outlet nozzle in the filter tank; and an air outlet end communicated with the air inlet end of the oxidation-reduction pool is arranged below the filter screen of the filter pool.

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