CN114797428A

CN114797428A - Intelligent processing waste gas treatment system

Info

Publication number: CN114797428A
Application number: CN202210549403.6A
Authority: CN
Inventors: 康小锋; 李思荣; 宋歌; 张凯; 高慧磊; 董瑞
Original assignee: Shanxi Huatai Changshun Environmental Protection Technology Co ltd
Current assignee: Shanxi Huatai Changshun Environmental Protection Technology Co ltd
Priority date: 2022-05-20
Filing date: 2022-05-20
Publication date: 2022-07-29
Anticipated expiration: 2042-05-20
Also published as: CN114797428B

Abstract

The application relates to an intelligent processing waste gas treatment system, which relates to the technical field of waste gas treatment equipment and comprises a purification tank, wherein water is preset in the purification tank, an exhaust pipe, a circulating pipe and an air inlet pipe are sequentially and fixedly arranged on the purification tank from top to bottom, and the exhaust pipe, the circulating pipe and the air inlet pipe are all communicated with the interior of the purification tank; the first check valve is arranged on the air inlet pipe, and an industrial waste gas source is arranged at one end of the air inlet pipe, which is far away from the purification tank; be provided with in the purifying tank and add the medicine subassembly, add the medicine that the medicine subassembly can be used for purifying industrial waste gas to adding in the purifying tank. This application can improve the purification efficiency of waste gas.

Description

Intelligent processing waste gas treatment system

Technical Field

The application relates to the technical field of waste gas treatment equipment, in particular to an intelligent processing waste gas treatment system.

Background

Industrial waste gas refers to a generic name of various pollutant-containing gases discharged into air during fuel combustion and production processes in a factory area of an enterprise, and since industrial waste gas contains pollutants, waste gas is required to be purified by using a waste gas treatment device before being discharged.

The waste gas treatment device comprises a purification tank, wherein water is preset in the purification tank, a medicament for purifying waste gas is added in the water, an air inlet pipe is arranged at the bottom of the purification tank, and an exhaust pipe is arranged at the top of the purification tank; when the waste gas is purified, the waste gas is input into the purification tank through the air inlet pipe, flows upwards in the mixed liquid of water and the medicament in the purification tank, flows to the outside of the purification tank through the exhaust pipe, and contacts with the medicament when the waste gas flows in the mixed liquid, so that the waste gas in the purification tank is purified.

Above-mentioned exhaust purification's in-process, the contact time of medicine is less in waste gas and the mixed liquid, probably leads to waste gas not yet to purify just being discharged outside the purifying tank for waste gas need carry out purification many times, and waste gas purification process back many times, still probably takes place the condition that is not purified, and then leads to the purification inefficiency of waste gas.

Disclosure of Invention

In order to improve the purification efficiency of waste gas, the application provides an intelligent processing exhaust treatment system.

The application provides a pair of intelligent processing exhaust treatment system adopts following technical scheme:

an intelligent processing waste gas treatment system comprises a purification tank, wherein water is preset in the purification tank, an exhaust pipe, a circulating pipe and an air inlet pipe are sequentially and fixedly arranged on the purification tank from top to bottom, and the exhaust pipe, the circulating pipe and the air inlet pipe are communicated with the interior of the purification tank; the first check valve is arranged on the air inlet pipe, and an industrial waste gas source is arranged at one end of the air inlet pipe, which is far away from the purification tank; a dosing assembly is arranged in the purification tank and comprises a medicament box, the medicament box is coaxially arranged in the purification tank and is positioned between the top end of the circulating pipe and the bottom end of the circulating pipe, the medicament box is connected with the purification tank in a sliding manner along the vertical direction and is rotatably connected with the purification tank along the axis of the medicament box, and the medicament box is always positioned between the top end of the circulating pipeline and the bottom end of the circulating pipeline; a first discharge pipe is fixedly arranged on the bottom surface of the medicament box, a medicament for purifying industrial waste gas is stored in the medicament box, and the medicament box can be used for putting the medicament into the purification tank through the first discharge pipe; the top surface of the medicament box is provided with a first communicating hole, the top surface of the medicament box is coaxially provided with a baffle plate, the baffle plate is connected with the purification tank in a sliding way along the vertical direction, and the baffle plate is connected with the medicament box in a rotating way along the axis of the baffle plate; the top surface of the baffle is provided with a second communicating hole which can be arranged opposite to the first communicating hole; be provided with the driving piece in the purifying tank, the driving piece is used for making the medicine box along vertical direction removal, and is used for making the medicine box along self axis rotation.

By adopting the technical scheme, the industrial waste gas is firstly input into the purification tank through the gas inlet pipe, the reagent box is started at the same time, the reagent is added into the purification tank through the first discharge pipe, and at the moment, the first communicating hole and the second communicating hole are staggered, so that the waste gas in the purification tank is positioned below the reagent box and moves towards the direction close to the reagent box, the waste gas and the reagent can be in full contact, and the waste gas can be conveniently purified by the reagent; start the driving piece after that, the driving piece drives the medicament box and moves down, it rotates along self axis to drive the medicament box simultaneously, make the waste gas of further extrusion self below of the in-process of medicament box downstream, and then make the more abundant contact of waste gas and medicament, pivoted medicament box and first discharging pipe can play the stirring effect to medicament and waste gas simultaneously, the degree of contact of waste gas and medicament has further been increased, make the medicament can play better purifying effect to waste gas, thereby industrial waste gas's purification efficiency has been improved.

Optionally, a first valve is installed on the exhaust pipe, a detection assembly is arranged on the purification tank, the detection assembly comprises a recovery pipe, a gas quality sensor and a controller, one end of the recovery pipe is fixedly connected with the exhaust pipe, and the other end of the recovery pipe is fixedly connected with the purification tank; the gas quality sensor is arranged on the exhaust pipe, and the gas quality sensor and the first valve are respectively positioned on two sides of the recovery pipe; the gas quality sensor is used for detecting the gas quality in the exhaust pipe and outputting a corresponding quality signal; the controller is installed on the purifying tank, is connected with gas mass sensor, first valve, and the controller responds to the quality signal and controls the opening and closing of first valve.

By adopting the technical scheme, when the first communication hole and the second communication hole are arranged oppositely, industrial waste gas enters the exhaust pipe above the medicament box through the first communication hole and the second communication hole, and the gas quality sensor arranged on the exhaust pipe detects the waste gas entering the exhaust pipe; when the waste gas is qualified, opening a first valve to discharge the waste gas qualified in purification out of the purification tank; when the testing result is unqualified, close first valve for waste gas continues to carry out purification treatment in the purifying tank, avoids unqualified waste gas to get into the external world, and then avoids external environment to be polluted, thereby has improved intelligent processing exhaust-gas treatment system's practicality.

Optionally, a pump and a second one-way valve are installed on the recovery pipe, and the second one-way valve is located between the pump and the purification tank; the controller is connected with the second one-way valve and the pump machine, responds to the quality signal and controls the working states of the second one-way valve and the pump machine.

Through adopting above-mentioned technical scheme, when the gas that gas quality sensor detected is unqualified, close first valve, open the second check valve, start the pump machine simultaneously, the pump machine is in with the whole purge tank that discharge of the unqualified waste gas of detection in the intake pipe, make unqualified waste gas purify once more, the setting of pump machine can avoid remaining unqualified waste gas in the blast pipe simultaneously, and then make waste gas can obtain more comprehensive purification, thereby further improved industrial waste gas's purification efficiency.

Optionally, a sliding groove is formed in the inner side wall of the purification tank along the circumferential surface of the purification tank, the sliding groove is spiral along the vertical direction, the sliding groove is located between the top end of the circulating pipe and the bottom end of the circulating pipe, and the depth of the sliding groove is gradually increased from top to bottom; the driving piece is electric telescopic handle, and electric telescopic handle radially sets up along the medicament box, electric telescopic handle stiff end and medicament box fixed connection, and the length direction slip setting of electric telescopic handle expansion end along the spout is in the spout.

Through adopting above-mentioned technical scheme, start electric telescopic handle, electric telescopic handle extends along self length direction, make electric telescopic handle slide in the spout, the medicine box moves down under electric telescopic handle's drive this moment, and rotate around purifying jar axis, make the in-process of medicine box downstream further extrude the waste gas of self below, and then make waste gas and more abundant contact of medicine, pivoted medicine box and first discharging pipe can play the stirring effect to medicine and waste gas simultaneously.

Optionally, a second discharging pipe is fixedly arranged on the medicine box, the second discharging pipe is located in the first communicating hole, and the medicine box can put medicine into the purifying tank through the second discharging pipe.

Through adopting above-mentioned technical scheme, when first intercommunicating pore is just to setting up with the second intercommunicating pore, the waste gas of medicament box below gets into the medicament box top through first intercommunicating pore and second intercommunicating pore, starts the medicament box this moment, and the medicament box adds the medicament in to first intercommunicating pore through the second discharging pipe for waste gas further fully contacts with the medicament, makes the medicament can play better purifying effect to waste gas, thereby has further improved industrial waste gas's purification efficiency.

Optionally, a drain pipe is fixedly arranged at the bottom of the purification pipe, and a second valve is arranged on the drain pipe; the detection assembly further comprises a water quality sensor, the water quality sensor is mounted on the reagent box and used for detecting water quality information in the purification tank and outputting a corresponding water quality signal; the controller is connected with water quality sensor, medicine box, second valve, electric telescopic handle all, and the controller responds to the quality of water signal and controls medicine box, second valve, electric telescopic handle's operating condition.

Through adopting above-mentioned technical scheme, the quality of water sensor is used for detecting the quality of water information in the purifying tank, and when the water quality in the purifying tank is unqualified, opens the second valve for liquid in the purifying tank discharges, and adds the qualified water of quality in to the purifying tank through the blast pipe, makes the mixed liquid of medicament and water can play better purification effect to waste gas.

Optionally, wear to be equipped with into pencil on the purifying tank, it is the hose to advance the pencil, advances the pencil and is located the outside one end of purifying tank and be provided with the medicament source, advances the one end and the medicament box intercommunication that the pencil is located purifying tank inside.

By adopting the technical scheme, after the medicament in the medicament box is used up, the intelligent processing waste gas treatment system stops working, the medicament box needs to be taken out of the purification tank, and then the medicament is continuously added into the medicament box; the setting of advancing the pencil can make during the medicament lasts adds the medicament box, and makes intelligent processing exhaust treatment system can last the operation, carries out purification treatment to industrial waste gas's purification efficiency has further been improved.

Optionally, the purification tank is made of a heat insulating material.

Through adopting above-mentioned technical scheme, industrial waste gas self probably contains higher heat, and the operator probably causes the injury to the operator when direct and the contact of purifying tank, and the purifying tank that thermal insulation material made can play the guard action to the operator to intelligent processing exhaust treatment system's practicality has further been improved.

In summary, the present application includes at least one of the following beneficial technical effects:

1. by arranging the dosing assembly and the driving piece, the waste gas below the chemical box is further extruded in the process of moving downwards, so that the waste gas is more fully contacted with the chemical, meanwhile, the rotary chemical box and the first discharging pipe can stir the chemical and the waste gas, the contact degree of the waste gas and the chemical is further increased, the chemical can play a better purification effect on the waste gas, and the purification efficiency of industrial waste gas is improved;

2. by arranging the detection assembly, when the detection result is unqualified, the first valve is closed, so that the waste gas is continuously purified in the purification tank, the unqualified waste gas is prevented from entering the outside, the pollution to the external environment is further avoided, and the practicability of the intelligent processing waste gas treatment system is improved;

3. through setting up the second discharging pipe, the medicament box adds the medicament through the second discharging pipe in to first communicating hole for waste gas further fully contacts with the medicament, makes the medicament can play better purifying effect to waste gas, thereby has further improved industrial waste gas's purification efficiency.

Drawings

FIG. 1 is a schematic structural diagram of an embodiment of the present application;

FIG. 2 is a cross-sectional view of an embodiment of the present application;

fig. 3 is a partially enlarged view of a portion a in fig. 2.

Description of reference numerals: 1. a purification tank; 11. an exhaust pipe; 111. a first valve; 12. a circulation pipe; 13. an air inlet pipe; 131. a first check valve; 14. a blow-off pipe; 141. a second valve; 15. a chute; 2. a dosing assembly; 21. a kit of medicaments; 211. a first communication hole; 22. a first discharge pipe; 23. a second discharge pipe; 24. a baffle plate; 241. a second communication hole; 25. a medicine inlet pipe; 3. an electric telescopic rod; 31. a slider; 4. a detection component; 41. a water quality sensor; 42. a gas mass sensor; 43. a controller; 44. a recovery pipe; 441. a second one-way valve; 45. and (4) a pump machine.

Detailed Description

The present application is described in further detail below with reference to figures 1-3.

The embodiment of the application discloses intelligent processing exhaust treatment system. Referring to fig. 1 and 2, the intelligent processing waste gas treatment system comprises a purification tank 1, wherein the purification tank 1 is vertically arranged, an exhaust pipe 11, a circulating pipe 12, an air inlet pipe 13 and a sewage discharge pipe 14 are fixedly arranged on the purification tank 1 from top to bottom in sequence, and an industrial waste gas source is arranged at one end, away from the purification tank 1, of the air inlet pipe 13; water has been preset in the purifying tank 1, is provided with in the purifying tank 1 and adds medicine subassembly 2, adds medicine subassembly 2 and can be used for purifying industrial waste's medicament to adding in the purifying tank 1.

During the use, industrial waste passes through intake pipe 13 and inputs in the purifying tank 1, starts simultaneously and adds medicine subassembly 2, adds medicine subassembly 2 to adding the medicament in the purifying tank 1 for industrial waste in the in-process of the rebound of purifying tank 1, fully contact with the medicament, the medicament of being convenient for carries out purification treatment to waste gas.

Referring to fig. 1 and 2, the purification tank 1 has a circular cross-section, and the purification tank 1 is made of a heat insulating material; the exhaust pipe 11 is vertically arranged on the top surface of the purification tank 1, the exhaust pipe 11 is communicated with the interior of the purification tank 1, and a first valve 111 is arranged on the exhaust pipe 11; the circulation pipe 12 is vertically arranged at one side of the purification tank 1, and the top end and the bottom end of the circulation pipe 12 are communicated with the interior of the purification tank 1; the intake pipe 13 level sets up in the 1 bottom of purge tank, and intake pipe 13 and the inside intercommunication of purge tank 1 install first check valve 131 on the intake pipe 13, install second valve 141 on the blow off pipe 14.

Referring to fig. 2 and 3, a chute 15 is formed in the inner side wall of the purification tank 1 along the circumferential surface of the inner side wall, the chute 15 is spiral along the vertical direction, the chute 15 is located between the top end of the circulation pipe 12 and the bottom end of the circulation pipe 12, the depth of the chute 15 is gradually increased from top to bottom, and the chute 15 is a T-shaped groove; the medicine adding assembly 2 comprises a medicine box 21, the medicine box 21 is coaxially arranged in the purification tank 1 and is positioned between the top end of the circulation pipe 12 and the bottom end of the circulation pipe 12, the medicine box 21 is in sliding connection with the purification tank 1 along the vertical direction, the medicine box 21 is in rotating connection with the purification tank 1 along the axis of the medicine box 21, and the medicine box 21 is always positioned between the top end of the circulation pipe 12 and the bottom end of the circulation pipe 12; be provided with the driving piece between medicine box 21 and the purification tank 1, the driving piece is electric telescopic handle 3, and electric telescopic handle 3 radially sets up along medicine box 21, and 3 stiff ends of electric telescopic handle are inlayed and are established on medicine box 21, and with medicine box 21 fixed connection, the fixed slider 31 that is provided with of 3 movable ends of electric telescopic handle, and slider 31 slides along the length direction of spout 15 and sets up in spout 15.

Referring to fig. 1 and 2, a first discharging pipe 22 is fixedly arranged on the bottom surface of the medicine box 21, a plurality of first discharging pipes 22 are arranged along the circumferential direction of the medicine box 21, a medicine for purifying industrial waste gas is stored in the medicine box 21, and the medicine box 21 can put the medicine into the purification tank 1 through the first discharging pipe 22; the top surface of the medicine box 21 is provided with a first communicating hole 211, the top surface of the medicine box 21 is coaxially provided with a baffle 24, the baffle 24 is connected with the purification tank 1 in a sliding way along the vertical direction, and the baffle 24 is connected with the medicine box 21 in a rotating way along the axis of the baffle 24; the top surface of the baffle plate 24 is provided with a second communicating hole 241, and the second communicating hole 241 can be opposite to the first communicating hole 211; a second discharge pipe 23 is fixedly arranged on the medicine box 21, the second discharge pipe 23 is horizontally arranged in the first communication hole 211, and the medicine box 21 can put medicine into the purification tank 1 through the second discharge pipe 23; the medicine inlet pipe 25 is fixedly arranged on the top surface of the medicine box 21, the medicine inlet pipe 25 is a hose, the medicine inlet pipe 25 coaxially penetrates through the purification tank 1, and a medicine source is arranged at one end, located outside the purification tank 1, of the medicine inlet pipe 25.

Firstly, industrial waste gas is input into the purification tank 1 through the gas inlet pipe 13, the chemical box 21 is started, the chemical box 21 adds chemicals into the purification tank 1 through the first discharge pipe 22, and at the moment, the first communicating hole 211 and the second communicating hole 241 are staggered, so that the waste gas in the purification tank 1 is positioned below the chemical box 21 and moves towards the direction close to the chemical box 21, the waste gas and the chemicals can be in full contact, and the chemicals can purify the waste gas conveniently; then, the electric telescopic rod 3 is started, the electric telescopic rod 3 extends along the length direction of the electric telescopic rod, the electric telescopic rod 3 slides in the sliding groove 15, at the moment, the medicine box 21 moves downwards under the driving of the electric telescopic rod 3 and rotates around the axis of the purification tank 1, waste gas below the medicine box 21 is further extruded in the downward movement process of the medicine box 21, the waste gas is in more sufficient contact with the medicine, and meanwhile, the rotating medicine box 21 and the first discharge pipe 22 can stir the medicine and the waste gas, and the waste gas is in more sufficient contact with the medicine; when the first communicating hole 211 and the second communicating hole 241 are aligned, waste gas below the medicine box 21 enters the upper part of the medicine box 21 through the first communicating hole 211 and the second communicating hole 241, at the moment, the medicine box 21 is started, and the medicine box 21 adds medicine into the first communicating hole 211 through the second discharging pipe 23, so that the waste gas is further in full contact with the medicine, and the medicine can play a better purifying effect on the waste gas; and when the first communicating hole 211 is misaligned with the second communicating hole 241 in the process that the medicine cartridge 21 moves in the vertical direction, water above the medicine cartridge 21 and water below the medicine cartridge 21 circulate through the circulation pipe 12.

Referring to fig. 1 and 2, a detection assembly 4 is disposed on the purification tank 1, the detection assembly 4 includes a recovery pipe 44, a gas quality sensor 42 and a controller 43, the gas quality sensor 42 is mounted on the exhaust pipe 11 and located below the first valve 111, and the gas quality sensor 42 is configured to detect the gas quality in the exhaust pipe 11 and output a corresponding quality signal; the recovery pipe 44 is positioned above the purification tank 1, one end of the recovery pipe 44 is fixedly connected with the exhaust pipe 11, the joint of the recovery pipe 44 and the exhaust pipe 11 is positioned between the first valve 111 and the gas mass sensor 42, and the other end of the recovery pipe 44 is fixedly connected with the purification tank 1; a pump 45 is arranged at one end of the recovery pipe 44 close to the exhaust pipe 11, and a second one-way valve 441 is arranged at one end of the recovery pipe 44 close to the purification tank 1; the controller 43 is installed on the purification tank 1, the controller 43 is connected with the gas quality sensor 42, the first valve 111 and the pump 45, and the controller 43 responds to the quality signal and controls the working state of the first valve 111 and the pump 45.

After the waste gas enters the upper part of the medicine box 21, the waste gas continues to flow upwards into the exhaust pipe 11, and at the moment, a gas mass sensor 42 arranged on the exhaust pipe 11 detects the waste gas entering the exhaust pipe 11; when the waste gas is qualified, the first valve 111 is opened, so that the waste gas qualified in purification is discharged out of the purification tank 1; when the testing result is unqualified, close first valve 111, start pump machine 45 simultaneously, pump machine 45 with the intake pipe 13 in detect unqualified waste gas all discharge into the purifying tank 1 for unqualified waste gas purifies once more, remain unqualified waste gas in can avoiding the blast pipe 11 in setting up of pump machine 45 simultaneously, and then make waste gas can obtain more comprehensive purification, thereby further improved industrial waste gas's purification efficiency.

Referring to fig. 1 and 2, a water quality sensor 41 is fixedly arranged below the chemical cartridge 21, and the water quality sensor 41 is used for detecting water quality information in the purification tank 1 and outputting a corresponding water quality signal; the controller 43 is connected with the water quality sensor 41, the reagent box 21, the second valve 141 and the electric telescopic rod 3, and the controller 43 responds to the water quality signal and controls the working states of the reagent box 21, the second valve 141 and the electric telescopic rod 3.

The water quality sensor 41 is used for detecting the water quality information in the purification tank 1, and when the water quality in the purification tank 1 is unqualified, the second valve 141 is opened, so that the liquid in the purification tank 1 is discharged, and qualified water is added into the purification tank 1 through the exhaust pipe 11, so that the mixed liquid of the medicament and the water can play a better purification role on the waste gas.

The implementation principle of an intelligent processing exhaust treatment system of the embodiment of the application is as follows: firstly, industrial waste gas is input into the purification tank 1 through the gas inlet pipe 13, the chemical box 21 is started, the chemical box 21 adds chemicals into the purification tank 1 through the first discharge pipe 22, and at the moment, the first communicating hole 211 and the second communicating hole 241 are staggered, so that the waste gas in the purification tank 1 is positioned below the chemical box 21 and moves towards the direction close to the chemical box 21, the waste gas and the chemicals can be in full contact, and the chemicals can purify the waste gas conveniently; then, the electric telescopic rod 3 is started, the electric telescopic rod 3 extends along the length direction of the electric telescopic rod, the electric telescopic rod 3 slides in the sliding groove 15, at the moment, the medicine box 21 moves downwards under the driving of the electric telescopic rod 3 and rotates around the axis of the purification tank 1, waste gas below the medicine box 21 is further extruded in the downward movement process of the medicine box 21, the waste gas is in more sufficient contact with the medicine, and meanwhile, the rotating medicine box 21 and the first discharge pipe 22 can stir the medicine and the waste gas, and the waste gas is in more sufficient contact with the medicine; when the first communicating hole 211 and the second communicating hole 241 are aligned, waste gas below the medicine box 21 enters the upper part of the medicine box 21 through the first communicating hole 211 and the second communicating hole 241, at the moment, the medicine box 21 is started, and the medicine box 21 adds medicine into the first communicating hole 211 through the second discharging pipe 23, so that the waste gas is further in full contact with the medicine, and the medicine can play a better purifying effect on the waste gas; in addition, when the first communicating hole 211 and the second communicating hole 241 are dislocated in the process that the medicine box 21 moves along the vertical direction, water above the medicine box 21 and below the medicine box 21 circulates through the circulating pipe 12; after the waste gas enters the upper part of the medicine box 21, the waste gas continues to flow upwards into the exhaust pipe 11, and at the moment, a gas mass sensor 42 arranged on the exhaust pipe 11 detects the waste gas entering the exhaust pipe 11; when the waste gas is qualified, the first valve 111 is opened, so that the waste gas qualified in purification is discharged out of the purification tank 1; when the testing result is unqualified, close first valve 111, start pump machine 45 simultaneously, pump machine 45 with the intake pipe 13 in detect unqualified waste gas all discharge into the purifying tank 1 for unqualified waste gas purifies once more, remain unqualified waste gas in can avoiding the blast pipe 11 in setting up of pump machine 45 simultaneously, and then make waste gas can obtain more comprehensive purification, thereby further improved industrial waste gas's purification efficiency.

The above embodiments are preferred embodiments of the present application, and the protection scope of the present application is not limited by the above embodiments, so: all equivalent changes made according to the structure, shape and principle of the present application shall be covered by the protection scope of the present application.

Claims

1. The utility model provides an intelligent processing exhaust treatment system which characterized in that: the water purification device comprises a purification tank (1), wherein water is preset in the purification tank (1), an exhaust pipe (11), a circulating pipe (12) and an air inlet pipe (13) are fixedly arranged on the purification tank (1) from top to bottom in sequence, and the exhaust pipe (11), the circulating pipe (12) and the air inlet pipe (13) are communicated with the interior of the purification tank (1); a first one-way valve (131) is arranged on the air inlet pipe (13), and an industrial waste gas source is arranged at one end of the air inlet pipe (13) far away from the purification tank (1); a medicine adding assembly (2) is arranged in the purification tank (1), the medicine adding assembly (2) comprises a medicine box (21), the medicine box (21) is coaxially arranged in the purification tank (1) and is positioned between the top end of the circulating pipe (12) and the bottom end of the circulating pipe (12), the medicine box (21) is in sliding connection with the purification tank (1) along the vertical direction, the medicine box (21) is rotatably connected with the purification tank (1) along the axis of the medicine box (21), and the medicine box (21) is always positioned between the top end of the circulating pipe (12) and the bottom end of the circulating pipe (12); a first discharge pipe (22) is fixedly arranged on the bottom surface of the medicament box (21), a medicament for purifying industrial waste gas is stored in the medicament box (21), and the medicament box (21) can be put into the purification tank (1) through the first discharge pipe (22); the top surface of the medicine box (21) is provided with a first communicating hole (211), the top surface of the medicine box (21) is coaxially provided with a baffle (24), the baffle (24) is in sliding connection with the purification tank (1) along the vertical direction, and the baffle (24) is in rotating connection with the medicine box (21) along the self axis; the top surface of the baffle (24) is provided with a second communicating hole (241), and the second communicating hole (241) can be arranged opposite to the first communicating hole (211); be provided with the driving piece in purification can (1), the driving piece is used for making medicine box (21) to remove along vertical direction, and is used for making medicine box (21) to rotate along self axis.

2. The intelligent process exhaust treatment system of claim 1, wherein: the gas purification device is characterized in that a first valve (111) is installed on the exhaust pipe (11), a detection assembly (4) is arranged on the purification tank (1), the detection assembly (4) comprises a recovery pipe (44), a gas quality sensor (42) and a controller (43), one end of the recovery pipe (44) is fixedly connected with the exhaust pipe (11), and the other end of the recovery pipe (44) is fixedly connected with the purification tank (1); the gas quality sensor (42) is arranged on the exhaust pipe (11), and the gas quality sensor (42) and the first valve (111) are respectively positioned at two sides of the recovery pipe (44); the gas quality sensor (42) is used for detecting the gas quality in the exhaust pipe (11) and outputting a corresponding quality signal; the controller (43) is installed on the purification tank (1), the controller (43) is connected with the gas quality sensor (42) and the first valve (111), and the controller (43) responds to the quality signal and controls the opening and closing of the first valve (111).

3. The intelligent process exhaust treatment system of claim 2, wherein: the recovery pipe (44) is provided with a pump (45) and a second one-way valve (441), and the second one-way valve (441) is positioned between the pump (45) and the purification tank (1); the controller (43) is connected with the second one-way valve (441) and the pump (45), and the controller (43) responds to the quality signal and controls the working states of the second one-way valve (441) and the pump (45).

4. The intelligent process exhaust treatment system of claim 1, wherein: the inner side wall of the purification tank (1) is provided with a sliding chute (15) along the peripheral surface of the inner side wall, the sliding chute (15) is spiral along the vertical direction, the sliding chute (15) is positioned between the top end of the circulating pipe (12) and the bottom end of the circulating pipe (12), and the depth of the sliding chute (15) is gradually increased from top to bottom; the driving piece is electric telescopic handle (3), and electric telescopic handle (3) radially set up along medicine box (21), and electric telescopic handle (3) stiff end and medicine box (21) fixed connection, electric telescopic handle (3) expansion end slide along the length direction of spout (15) and set up in spout (15).

5. The intelligent process exhaust treatment system of claim 1, wherein: the medicine box (21) is fixedly provided with a second discharging pipe (23), the second discharging pipe (23) is located in the first communicating hole (211), and the medicine box (21) can be used for putting medicine into the purifying tank (1) through the second discharging pipe (23).

6. The intelligent process exhaust treatment system of claim 2, wherein: a sewage discharge pipe (14) is fixedly arranged at the bottom of the purification tank (1), and a second valve (141) is arranged on the sewage discharge pipe (14); the detection assembly (4) further comprises a water quality sensor (41), the water quality sensor (41) is installed on the reagent box (21), and the water quality sensor (41) is used for detecting water quality information in the purification tank (1) and outputting a corresponding water quality signal; the controller (43) is connected with the water quality sensor (41), the reagent box (21), the second valve (141) and the electric telescopic rod (3), and the controller (43) responds to the water quality signal and controls the working states of the reagent box (21), the second valve (141) and the electric telescopic rod (3).

7. The intelligent process exhaust treatment system of claim 1, wherein: the medicine inlet pipe (25) is arranged on the purification tank (1) in a penetrating mode, the medicine inlet pipe (25) is a hose, a medicine source is arranged at one end, located outside the purification tank (1), of the medicine inlet pipe (25), and one end, located inside the purification tank (1), of the medicine inlet pipe (25) is communicated with the medicine box (21).

8. The intelligent process exhaust treatment system of claim 1, wherein: the purification tank (1) is made of heat insulation materials.