CN210584386U - Integrated emergency deodorizing device - Google Patents

Abstract

The utility model provides an integrated emergency deodorization device, which comprises a fan chamber (1), an air distribution chamber (2), an ion oxidation chamber (3), a buffer zone (4), a carbon adsorption chamber (5), a spray chamber (6) and a discharge port (7); the air distribution chamber (2), the ion oxidation chamber (3), the buffer zone (4), the carbon adsorption chamber (5) and the spray chamber (6) are sequentially connected to the fan chamber (1), an air inlet is formed in the fan chamber (1), and a discharge port (7) is formed in the spray chamber (6); the peculiar smell gas flows through the air inlet through the fan chamber (1), the air distribution chamber (2), the ion oxidation chamber (3), the buffer zone (4), the carbon adsorption chamber (5) and the spray chamber (6) for deodorization and then is discharged through the discharge port (7). The utility model discloses simple structure, easy dismounting is along with adorning along with using, is convenient for remove, is applicable to the deodorization in multiple emergent places such as sewage pump station, garbage station room, local area peculiar smell gaseous distribution place.

Description

Integrated emergency deodorizing device

Technical Field

The utility model relates to an odor treatment technical field specifically relates to an emergent deodorizing device of integral type, especially an emergent deodorizing device of integral type.

Background

Along with the constantly promotion of national environmental protection control dynamics, the constantly reinforcing of enterprise's environmental protection consciousness in order to avoid the peculiar smell gas that exhaust treatment system produced in the production process to cause the influence to environment and peripheral resident, all need collect the processing to peculiar smell gas when the production operation. With the increasing requirements for the treatment of the odor generated in industrial production, the deodorizing requirements for deodorizing devices are also increasing in order to improve the quality and efficiency of the odor treatment and effectively reduce the cost of the odor treatment.

The existing methods for treating the odor mainly comprise a physical method, a chemical method and a biological method, and most of the existing deodorization devices are manufactured by only one of the three methods. The physical method mainly utilizes a substance to cover, adsorb and dilute the odor of the odor gas or convert the odor gas from a gas phase into other phases, but pollutants still exist and are not removed fundamentally, the method is only suitable for treating the odor gas with low concentration and small range, and the deodorizing device manufactured by the method has the problems of high cost, secondary pollution and the like. The chemical method mainly comprises a chemical adsorption method and a combustion method, the chemical adsorption method is suitable for treating waste gas with large gas amount and various concentrations, although the application range is wider, the requirement on a deodorizing device manufactured by the method is high, the device is easy to corrode, an absorbent needs to be replaced at regular time, the absorption efficiency is sometimes not high, and secondary pollution can be caused; the combustion method mainly utilizes the combustibility of the peculiar smell gas to gasify and combust or decompose the peculiar smell gas at high temperature to convert the peculiar smell gas into harmless substances, but some organic compounds can be converted into harmful hydrogen halide, sulfur dioxide, nitrogen dioxide and the like to bring secondary pollution, and the combustion method usually needs fuel auxiliary combustion, so that the deodorization device manufactured by the method has higher cost and more complex operation. The biological deodorization method mainly converts substances with odor through the physiological metabolism of microorganisms, so that target pollutants are effectively decomposed and removed to achieve the purpose of odor treatment, however, the deodorization device manufactured by the method needs to continuously add nutrient substances for the reproduction of the microorganisms, and meanwhile, the occupied area of the device used by the method is large, which can cause the low working economy of the device to a certain extent, and in addition, the accumulation of metabolites generated in the microbial growth and metabolism process for a long time in operation reduces the operation effect. Each method has advantages and disadvantages, and the common deodorization device is targeted for deodorization and can only be applied to the current deodorization environment or similar deodorization environments, for example, the deodorization device of the domestic sewage plant is only applied to the deodorization of the domestic sewage plant and is not applied to the deodorization of the industrial sewage plant. In addition, the existing deodorization device is not easy to move and is not suitable for emergency environment deodorization. Therefore, it is necessary to design a deodorizing device with simple structure, easy assembly and disassembly and easy maintenance.

The application No. 201711174448.5 discloses an exhaust gas deodorizing device, wherein the odor gas collected by the odor gas collecting system enters the tower body through the exhaust gas fan to the air inlet pipe between the first biological filtering device and the liquid collecting tank, the odor gas rises upwards and goes through the first biological filtering device to the chamber formed between the first biological filtering device and the second biological filtering device, the first activated sludge spraying device sprays the activated sludge water mist to deodorize the odor gas, and then the residual peculiar smell gas rises upwards again and enters a cavity formed between the spray pump and the second biological filtering device, the spray pump, the reuse water spray device and the second activated sludge spray device respectively spray water mist, high-alkalinity secondary sedimentation reuse water mist and activated sludge water mist to deodorize the peculiar smell gas, purified gas is obtained after treatment, and the purified gas is discharged through an exhaust port. The solution obtained from the bottom of the tower body is communicated to the overflow groove through the communication hole, and the solution in the overflow groove is treated by the overflow pipe to the aerobic treatment system. The scheme only adopts a biological treatment method, and has narrow application range.

SUMMERY OF THE UTILITY MODEL

To the defect among the prior art, the utility model aims at providing an emergent deodorizing device of integral type.

The integrated emergency deodorization device provided by the utility model comprises a fan chamber, an air distribution chamber, an ion oxidation chamber, a buffer zone, a carbon adsorption chamber, a spray chamber and a discharge port; the fan chamber is sequentially connected with a gas distribution chamber, an ion oxidation chamber, a buffer zone, a carbon adsorption chamber and a spray chamber, the fan chamber is provided with a gas inlet, and the spray chamber is provided with a discharge port; the peculiar smell gas flows through the fan chamber, the gas distribution chamber, the ion oxidation chamber, the buffer zone, the carbon adsorption chamber and the spray chamber through the gas inlet to be deodorized and then is discharged through the discharge port;

the utility model discloses a gas distribution plate, including gas distribution chamber, gas distribution plate open end, gas distribution plate is provided with the gas distribution plate, gas distribution plate horizontal installation is in the gas distribution chamber, and the wall that is on a parallel with the both sides of air current circulation direction at the gas distribution chamber is installed at gas distribution plate both ends promptly, the cross section of gas distribution plate is one side open-ended triangle-shaped, the gas distribution plate is arranged one row or multirow in the gas distribution chamber.

Preferably, the fan chamber, the air distribution chamber, the ion oxidation chamber, the buffer zone, the carbon adsorption chamber and the spray chamber are arranged in a shell; or the fan chamber, the air distribution chamber, the ion oxidation chamber, the buffer zone, the carbon adsorption chamber and the spray chamber are connected and then assembled into a whole.

Preferably, the fan chamber is provided with a fan, and after the fan chamber collects the odor gas, the odor gas is sent to the air distribution chamber, the ion oxidation chamber, the buffer area, the carbon adsorption chamber and the spray chamber through the fan.

Preferably, the cross-sectional area of the air distribution plates is a regular triangle with an opening on one side, and the two adjacent air distribution plates are arranged in a staggered manner, that is, the front air distribution plate and the two adjacent air distribution plates on the rear row which are closest to the front air distribution plate form an angle with the front air distribution plate as a vertex.

Preferably, the ion oxidation room is provided with the ion oxidation subassembly, ion oxidation subassembly horizontal installation is in the ion oxidation room, and the ion oxidation subassembly both ends are installed on the wall that is on a parallel with the both sides of air current circulation direction in the ion oxidation room promptly, the ion oxidation subassembly includes ion generation module, fixed strip, accepts the plug, and the ion generation module includes catalysis subassembly, ultraviolet emergence subassembly, catalysis subassembly is installed between one or many fixed strips, and the fixed strip both ends set up the ultraviolet emergence subassembly, and the ultraviolet emergence subassembly is through accepting the plug connection power.

Preferably, the buffer area comprises a flow guide assembly, the flow guide assembly comprises a flow guide plate and a movable rod, the flow guide plate is an arc-shaped curved surface, the movable rod is arranged at one end of the flow guide plate, the movable rod can adjust the angle of the flow guide plate, and the flow guide plate is locked after adjustment; the guide plate is arranged on the wall surfaces on two sides of the buffer area parallel to the air flow direction by the movable rod;

the buffer zone can provide a space for the reaction of ions generated by the ion oxidation chamber and the peculiar smell gas, and the direction of the guide plate can adjust the time for the gas to stay in the buffer zone.

Preferably, the carbon adsorption chamber includes adsorption component, adsorption component includes adsorption module fixed mounting board, metal framework, activated carbon fiber adsorption module, fastener, activated carbon fiber adsorption module passes through the fixed shape of metal framework, and the activated carbon fiber adsorption module behind the fixed shape passes through the fastener and is connected to adsorption module fixed mounting board on, and adsorption module fixed mounting board installs at the carbon adsorption chamber.

Preferably, the spray chamber includes defogging layer, nozzle, shower, packing layer, liquid level controller, spray pump, water tank, and the spray pump import passes through the shower and connects the water tank, and the spray pump export passes through the shower and connects the nozzle, and the nozzle below is provided with the packing layer, and the packing layer below sets up the water tank, and the defogging layer sets up on the position that discharge port front end exhaust passage corresponds, is provided with liquid level controller on the water tank.

Preferably, the spray pump and the water tank, the spray pipe and the spray pump, and the spray pipe and the nozzle are connected in a threaded connection mode.

Preferably, the air distribution chamber can uniformly disperse the odor gas collected by the fan chamber and then send the odor gas into the ion oxidation chamber, the ion oxidation chamber oxidizes molecules of the odor gas into odor-free gas through generated strong oxidizing ions, the buffer zone can send the odor gas which is not oxidized or not completely oxidized in the ion oxidation chamber into the carbon adsorption chamber, the carbon adsorption chamber can further adsorb and remove volatile organic compounds in the odor gas which is not oxidized or not completely oxidized in the ion oxidation chamber, and the spray chamber can remove inorganic substances in the odor gas which is not oxidized in the ion oxidation chamber and not adsorbed in the carbon adsorption chamber, so that multi-stage treatment of the odor gas is realized.

Compared with the prior art, the utility model discloses following beneficial effect has:

1. the utility model discloses simple structure, easy dismounting is along with adorning along with using, is convenient for remove, is applicable to the deodorization in multiple emergent places such as sewage pump station, garbage station room, local area peculiar smell gaseous distribution place.

2. The utility model discloses a multistage processing mode carries out multistage multiple treatment to peculiar smell gas (foul smell), adopts chemical method, physical method to combine together and handles peculiar smell gas, improves deodorization efficiency, has enlarged application scope, is applicable to the processing to various peculiar smell gases.

3. The utility model discloses can start the use after circular telegram and replenishment a small amount of water, convenient to use is swift, the energy saving.

Drawings

Other features, objects and advantages of the invention will become more apparent upon reading of the detailed description of non-limiting embodiments with reference to the following drawings:

fig. 1 is a front view of the structure of the present invention.

Fig. 2 is a schematic view of the top view structure of the present invention.

Fig. 3 is a schematic view of the gas distribution plate of the present invention.

Fig. 4 is a schematic top view of the gas distribution plate of the present invention.

Fig. 5 is a schematic view of the ion oxidation module of the present invention.

Fig. 6 is a schematic front view of the diversion assembly of the present invention.

Fig. 7 is a schematic top view of the flow guiding assembly of the present invention.

Fig. 8 is a schematic view of the adsorption assembly of the present invention.

Fig. 9 is a schematic view of the structure of the spray chamber of the present invention.

The figures show that:

Detailed Description

The present invention will be described in detail with reference to the following embodiments. The following examples will assist those skilled in the art in further understanding the present invention, but are not intended to limit the invention in any way. It should be noted that various changes and modifications can be made by one skilled in the art without departing from the spirit of the invention. These all belong to the protection scope of the present invention. In the description of the present application, it is to be understood that the terms "upper", "lower", "front", "rear", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "outer", and the like indicate orientations or positional relationships based on those shown in the drawings, and are only for convenience in describing the present application and simplifying the 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 application.

The integrated emergency deodorization device provided by the invention comprises a fan room 1, an air distribution room 2, an ion oxidation room 3, a buffer zone 4, a carbon adsorption room 5, a spray room 6 and a discharge port 7, as shown in fig. 1 and 2; the air distribution chamber 2, the ion oxidation chamber 3, the buffer zone 4, the carbon adsorption chamber 5 and the spray chamber 6 are sequentially connected with the fan chamber 1, an air inlet is formed in the fan chamber 1, and a discharge port 7 is formed in the spray chamber 6; the peculiar smell gas flows through a fan chamber 1, a gas distribution chamber 2, an ion oxidation chamber 3, a buffer zone 4, a carbon adsorption chamber 5 and a spray chamber 6 through a gas inlet to be deodorized and then is discharged through a discharge port 7; air distribution chamber 2 is provided with the gas distribution board, gas distribution board horizontal installation is in air distribution chamber 2, and the wall that is on a parallel with the both sides of air current circulation direction at air distribution chamber 2 is installed at the gas distribution board both ends promptly, as shown in fig. 3, fig. 4, the cross section of gas distribution board is one side open-ended triangle-shaped, the gas distribution board is arranged into one row or multirow in air distribution chamber, and the staggered distribution between adjacent two rows, the gas distribution board open end is towards discharge port one side. The fan chamber 1, the gas distribution chamber 2, the ion oxidation chamber 3, the buffer zone 4, the carbon adsorption chamber 5 and the spray chamber 6 are arranged in a shell, or the fan chamber 1, the gas distribution chamber 2, the ion oxidation chamber 3, the buffer zone 4, the carbon adsorption chamber 5 and the spray chamber 6 are connected and then assembled into a whole, and the device can be assembled and used at any time, and is convenient to move and disassemble. The air distribution chamber 2, the ion oxidation chamber 3, the buffer zone 4, the carbon adsorption chamber 5 and the spray chamber 6 are arranged in the fan chamber 1, and after the fan chamber 1 collects the peculiar smell gas, the peculiar smell gas is sent to the air distribution chamber 2, the ion oxidation chamber 3, the buffer zone 4, the carbon adsorption chamber 5 and the spray chamber 6 through the fan. The utility model is suitable for an emergency treatment of various peculiar smell gases, can start the machine after circular telegram and replenishment a small amount of water and use, the treatment effect is instant.

As shown in fig. 1, the cross-sectional area of the air distribution plates is a regular triangle with an opening on one side, and two adjacent rows of air distribution plates are arranged in a 45-degree staggered manner, that is, the former air distribution plate between the front row of air distribution plates and two adjacent rear rows of air distribution plates closest to the front row of air distribution plates is at a 45-degree angle with the vertex.

Ion oxidation chamber 3 is provided with the ion oxidation subassembly, ion oxidation subassembly horizontal installation is in ion oxidation chamber 3, and the ion oxidation subassembly both ends are installed on the wall that is on a parallel with the both sides of air current circulation direction in ion oxidation chamber 3 promptly, as shown in fig. 5, the ion oxidation subassembly includes that the ion takes place module, fixed strip 11, accepts plug 13, and the ion takes place the module and includes catalysis subassembly 10, ultraviolet emergence subassembly 12, catalysis subassembly 10 installs between one or many fixed strips 11, and fixed strip 11 both ends set up ultraviolet emergence subassembly 12, and ultraviolet emergence subassembly 12 is through accepting plug 13 connection. The ion oxidation chamber 3 is mainly a photohydrogen ion generation unit. The catalytic assembly includes a precious metal coating of Pt, Pd, Rh. The core components (the catalytic component 10 and the ultraviolet generating component 12) of the ion oxidation component of the ion oxidation chamber 3 have long service life, wherein the service life of the catalytic component 10 can reach more than 10 years under the condition of no existence of a substance component poisoning a catalyst, and the service life of the ultraviolet generating component 12 can reach 20000 hours.

The buffer area 4 comprises a flow guide assembly, as shown in fig. 6 and 7, the flow guide assembly comprises a flow guide plate 14 and a movable rod 15, the flow guide plate 14 is an arc-shaped curved surface, the movable rod 15 is arranged at one end of the flow guide plate 14, the movable rod 15 can adjust the angle of the flow guide plate 14, and the flow guide plate 14 is locked after adjustment; the guide plate 14 is arranged on the wall surfaces on two sides of the buffer area 4 parallel to the airflow flowing direction by the movable rod 15; buffer 4 can provide the space for the ion that ion oxidation chamber 3 produced and the reaction of peculiar smell gas, the direction of guide plate 14 can adjust the time that gas stops in buffer 4, adjusts the gaseous dwell time in buffer 4 according to ion and the gaseous reaction time adjustment of peculiar smell, and the chord length direction of guide plate 14 arc curved surface is the less with the contained angle (acute angle) of vertical direction, and the time that the air current flows through buffer 4 is slower. The buffer zone 4 is mainly of a cavity structure, one or more arc-shaped guide plates 14 are arranged in the buffer zone, and the buffer zone 4 is used as a reaction cavity of ions and peculiar smell gases and guides the direction of the gas flow to the carbon adsorption chamber 5.

Carbon adsorption chamber 5 includes adsorption element, as shown in fig. 8, adsorption element includes adsorption module fixed mounting board 16, metal framework 17, activated carbon fiber adsorption module 18, fastener 19, activated carbon fiber adsorption module 18 passes through the fixed shape of metal framework 17, and activated carbon fiber adsorption module 18 after the fixed shape is connected to adsorption module fixed mounting board 16 through fastener 19 on, and adsorption module fixed mounting board 16 installs in carbon adsorption chamber 5. The metal framework 17 is used for fixing the activated carbon fiber adsorption module 18 in a set shape to prevent the activated carbon fiber adsorption module 18 from deforming. The adsorption unit adopts the modularized design, and is convenient and fast to replace, and the adsorption module fixing and mounting plate 16 and the activated carbon fiber adsorption module 18 are fixed by the fastener 19, so that quick disassembly and replacement can be realized. Preferably, the fastener 19 is a stainless steel wing nut. The utility model discloses it is few to need to change the part, and only activated carbon fiber adsorbs module 18 and need regularly change in the carbon adsorption chamber 5, and activated carbon fiber adsorbs module 18 live time long, can reach more than 3000 hours.

As shown in fig. 9, the spray chamber 6 includes a demisting layer 20, a nozzle 21, a spray pipe 22, a packing layer 23, a liquid level controller 24, a spray pump 25 and a water tank 26, an inlet of the spray pump 25 is connected with the water tank 26 through the spray pipe 22, an outlet of the spray pump 25 is connected with the nozzle 21 through the spray pipe 22, the packing layer 23 is arranged below the nozzle 21, the water tank 26 is arranged below the packing layer 23, the demisting layer 20 is arranged at a position corresponding to an exhaust passage at the front end of the discharge port 7, and the liquid level controller 24 is arranged on the water tank 26. The spray pump 25 and the water tank 26, the spray pipe 22 and the spray pump 25, and the spray pipe 22 and the nozzle 21 are all connected in a threaded connection mode. The water sprayed from the nozzle 21 passes through the packing layer 23 and is recycled by the water tank 26. Preferably, the direction of the gas flow is the same as the direction of the spray as the gas passes through the region where the layer of packing 23 is located.

The air distribution chamber 2 can uniformly disperse the odor gas collected by the fan chamber 1 and then send the odor gas into the ion oxidation chamber 3, the ion oxidation chamber 3 oxidizes molecules of the odor gas into odor-free gas through generated strong oxidizing ions, the buffer area 4 can send the odor gas which is not oxidized or not completely oxidized in the ion oxidation chamber 3 into the carbon adsorption chamber 5, the carbon adsorption chamber 5 can further adsorb and remove volatile organic compounds in the odor gas which is not oxidized or not completely oxidized in the ion oxidation chamber 3, and the spray chamber 6 can remove inorganic substances in the odor gas which is not oxidized in the ion oxidation chamber 3 and not adsorbed in the carbon adsorption chamber 5, so that multi-stage treatment of the odor gas is realized.

Based on the utility model discloses a further improvement, the utility model discloses handle the gaseous flow of peculiar smell as follows:

after being collected by a fan of a fan chamber 1, the peculiar smell gas firstly enters an air distribution chamber 2 to enable the air flow to be uniformly dispersed to an ion oxidation chamber 3, molecules of the peculiar smell gas are oxidized into peculiar smell-free gas through strong oxidizing ions generated in the ion oxidation chamber 3, and organic pollutants which are not oxidized or are not completely oxidized in the ion oxidation chamber 3 pass through a buffer zone 4 and then enter a carbon adsorption chamber 5 to further remove some volatile organic compounds in the peculiar smell gas; the peculiar smell gas treated by the carbon adsorption chamber 5 enters the spraying chamber 6 again to remove certain inorganic substances which cannot be oxidized and adsorbed, and the peculiar smell-free gas after multi-stage treatment is discharged to the atmospheric environment through the discharge port 7.

The foregoing description of the specific embodiments of the invention has been presented. It is to be understood that the present invention is not limited to the specific embodiments described above, and that various changes or modifications may be made by those skilled in the art within the scope of the appended claims without departing from the spirit of the invention. The embodiments and features of the embodiments of the present application may be combined with each other arbitrarily without conflict.

Claims (10)

1. An integrated emergency deodorization device is characterized by comprising a fan chamber (1), an air distribution chamber (2), an ion oxidation chamber (3), a buffer zone (4), a carbon adsorption chamber (5), a spray chamber (6) and a discharge port (7); the air distribution chamber (2), the ion oxidation chamber (3), the buffer zone (4), the carbon adsorption chamber (5) and the spray chamber (6) are sequentially connected to the fan chamber (1), an air inlet is formed in the fan chamber (1), and a discharge port (7) is formed in the spray chamber (6); the peculiar smell gas flows through the air inlet through the fan chamber (1), the air distribution chamber (2), the ion oxidation chamber (3), the buffer zone (4), the carbon adsorption chamber (5) and the spray chamber (6) for deodorization and then is discharged through the discharge port (7);

air distribution chamber (2) are provided with the gas distribution board, gas distribution board horizontal installation is in air distribution chamber (2), and the wall that is on a parallel with the both sides of air current circulation direction at air distribution chamber (2) is installed at the gas distribution board both ends promptly, the cross section of gas distribution board is one side open-ended triangle-shaped, the gas distribution board is arranged one row or multirow in the air distribution chamber, and the staggered distribution between adjacent two rows, gas distribution board open end is towards discharge port one side.

2. The integrated emergency deodorization device according to claim 1, wherein the fan chamber (1), the air distribution chamber (2), the ion oxidation chamber (3), the buffer zone (4), the carbon adsorption chamber (5) and the spray chamber (6) are arranged in a shell; or the fan room (1), the air distribution room (2), the ion oxidation room (3), the buffer area (4), the carbon adsorption room (5) and the spray room (6) are connected and then assembled into a whole.

3. The integrated emergency deodorization device according to claim 1, wherein the fan chamber (1) is provided with a fan, and after the odor gas is collected by the fan chamber (1), the odor gas is sent to the air distribution chamber (2), the ion oxidation chamber (3), the buffer zone (4), the carbon adsorption chamber (5) and the spray chamber (6) through the fan.

4. The integrated emergency deodorizing device according to claim 1, wherein the cross-sectional area of the air distribution plates is a regular triangle with an opening at one side, and two adjacent air distribution plates are arranged in a 45-degree staggered manner, that is, the front air distribution plate and two adjacent air distribution plates on the rear row, which are closest to the front air distribution plate, are arranged at an angle of 45 degrees with the vertex of the front air distribution plate.

5. The emergency deodorization device of claim 1, wherein the ion oxidation chamber (3) is provided with an ion oxidation assembly, the ion oxidation assembly is horizontally installed in the ion oxidation chamber (3), that is, two ends of the ion oxidation assembly are installed on the wall surfaces of two sides of the ion oxidation chamber (3) parallel to the flowing direction of the air flow, the ion oxidation assembly comprises an ion generation module, fixing strips (11) and a receiving plug (13), the ion generation module comprises a catalytic assembly (10) and an ultraviolet generation assembly (12), the catalytic assembly (10) is installed between one or more fixing strips (11), the ultraviolet generation assembly (12) is arranged at two ends of each fixing strip (11), and the ultraviolet generation assembly (12) is connected with a power supply through the receiving plug (13).

6. The integrated emergency deodorizing device according to claim 1, wherein the buffer area (4) comprises a flow guide assembly, the flow guide assembly comprises a flow guide plate (14) and a movable rod (15), the flow guide plate (14) is an arc-shaped curved surface, the movable rod (15) is arranged at one end of the flow guide plate (14), the movable rod (15) can adjust the angle of the flow guide plate (14), and the flow guide plate (14) is locked after adjustment; the guide plate (14) is arranged on the wall surfaces on two sides of the buffer area (4) parallel to the air flow flowing direction by the movable rod (15);

the buffer area (4) can provide a space for the reaction of ions generated by the ion oxidation chamber (3) and the odor gas, and the direction of the guide plate (14) can adjust the time for the gas to stay in the buffer area (4).

7. The integrated emergency deodorizing device according to claim 1, wherein the carbon adsorption chamber (5) comprises an adsorption component, the adsorption component comprises an adsorption module fixing mounting plate (16), a metal framework (17), an activated carbon fiber adsorption module (18) and a fastening piece (19), the activated carbon fiber adsorption module (18) is fixed in shape through the metal framework (17), the activated carbon fiber adsorption module (18) after being fixed in shape is connected to the adsorption module fixing mounting plate (16) through the fastening piece (19), and the adsorption module fixing mounting plate (16) is installed in the carbon adsorption chamber (5).

8. The integrated emergency deodorization device according to claim 1, wherein the spray chamber (6) comprises a demisting layer (20), a nozzle (21), a spray pipe (22), a packing layer (23), a liquid level controller (24), a spray pump (25) and a water tank (26), an inlet of the spray pump (25) is connected with the water tank (26) through the spray pipe (22), an outlet of the spray pump (25) is connected with the nozzle (21) through the spray pipe (22), the packing layer (23) is arranged below the nozzle (21), the water tank (26) is arranged below the packing layer (23), the demisting layer (20) is arranged at a position corresponding to an exhaust passage at the front end of the discharge port (7), and the liquid level controller (24) is arranged on the water tank (26).

9. The integrated emergency deodorizing device according to claim 8, wherein the spray pump (25) and the water tank (26), the spray pipe (22) and the spray pump (25), and the spray pipe (22) and the spray nozzle (21) are connected by screw threads.

10. The integrated emergency deodorization device according to claim 1, wherein the air distribution chamber (2) can uniformly disperse the odor gas collected by the fan chamber (1) and then send the odor gas into the ion oxidation chamber (3), the ion oxidation chamber (3) oxidizes peculiar smell gas molecules into peculiar smell-free gas through the generated strong oxidizing ions, the buffer zone (4) can send the odor gas which is not oxidized or not completely oxidized in the ion oxidation chamber (3) into the carbon adsorption chamber (5), the carbon adsorption chamber (5) can further adsorb and remove volatile organic compounds in the odor gas which is not oxidized or not completely oxidized in the ion oxidation chamber (3), the spray chamber (6) can remove inorganic substances in the odor gas which cannot be oxidized in the ion oxidation chamber (3) and cannot be adsorbed in the carbon adsorption chamber (5), so that multi-stage treatment of the odor gas is realized.

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