CN118577086A - A flue gas separation and treatment device for roller water quenching - Google Patents

Abstract

The invention discloses a smoke separation treatment device for roller water quenching, which belongs to the field of smoke separation devices, and can obtain related evaluation signals by comprehensively analyzing and comparing an acquired data range with a preset data range, so that related components are controlled to perform compensation type operation treatment, liquid replacement can be completed without stopping, working efficiency is effectively improved, targeted drainage and conversion can be performed aiming at local abnormal environments in a cavity I or a cavity II, absorption environment and absorption efficiency in the cavity I or the cavity II are maintained, and the smoke is classified and absorbed for multiple times through linkage of structures among a pipeline I, the pipeline II and a fixed pipe and the cooperation of a filter plate, so that precise smoke treatment is performed.

Description

A fume separation treatment facility for roll water quenching

Technical Field

The invention relates to the field of flue gas separation equipment, in particular to flue gas separation treatment equipment for roller water quenching.

Background

The roller is a main working part for continuously and plastically deforming processed metal on the rolling mill, and the roller itself generally adopts a differential temperature treatment process in the production process, namely, the surface of the roller which is heated rapidly is subjected to water quenching and strong cooling, so as to prevent the transformation from austenite to martensite structure in a rapid cooling mode, and improve the mechanical indexes such as hardness and the like of the thickness required by the working layer of the roller.

However, in the process of carrying out water quenching on the roller, a large amount of smoke is generated, and because the smoke contains metal chips and organic matters besides water vapor, the components possibly pollute the environment and possibly form risks for the health of operators, so that effective smoke treatment is required by using smoke separation treatment equipment;

In the actual use process of the traditional flue gas treatment equipment, the flue gas is pumped into the equipment by an air pump, and is discharged after being filtered by a filter plate, the mode is mainly suitable for capturing particulate matters, but has poor effect on gaseous pollutants such as organic matter vapor and the like, and is easy to cause incomplete treatment to pollute the environment;

If the flue gas is directly led into an absorbent or purified water to absorb the flue gas, but bubbles are easily generated in the liquid by the flue gas, the flue gas is difficult to absorb quickly, the absorption efficiency is low, meanwhile, the liquid absorption amount has an upper limit, after the absorption upper limit is reached, the subsequent flue gas absorption failure is caused, the liquid is required to be replaced by stopping the machine, and in long-time uninterrupted processing, the working continuity is easily affected by stopping the machine, and the working efficiency is reduced;

in view of the above technical drawbacks, a solution is now proposed.

Disclosure of Invention

The invention aims to provide a flue gas separation treatment device for roller water quenching, which is used for solving the technical defects of the background technology.

The aim of the invention can be achieved by the following technical scheme: the flue gas separation treatment equipment for roller water quenching comprises a fixed box, wherein the bottom of the fixed box is fixedly provided with a partition plate, the bottom of the fixed box is divided into a first cavity and a second cavity by the partition plate, one side of the fixed box is fixedly provided with a control panel, the top of the fixed box is fixedly provided with an air inlet pipe, the first cavity is fixedly connected with a first liquid inlet pipe and a second liquid outlet pipe, and the second cavity is fixedly connected with the second liquid inlet pipe and the second liquid outlet pipe;

The fixed box is internally and movably provided with a processing assembly, the processing assembly comprises a first rotating rod, a second rotating rod and a baffle, the baffle is positioned above the first cavity and the second cavity, the first rotating rod and the second rotating rod are respectively positioned at two sides of the baffle, the fixed box is internally and fixedly provided with a filter plate, and the filter plate is positioned above the baffle;

A motor is fixedly arranged on one side of the fixed box, the output end of the motor is fixedly connected with a first rotating rod, one ends of the first rotating rod and the second rotating rod, which are close to the motor, penetrate through the fixed box and are fixedly connected with a first driving wheel, the first driving wheels are connected through belt transmission, a threaded sleeve is movably arranged on the first rotating rod and the second rotating rod through threads, and the threaded sleeve is fixedly connected with two sides of the baffle;

The processing assembly further comprises a plurality of fixed pipes, the fixed pipes are fixedly arranged at the top of the box body, a plurality of spray heads are fixedly arranged at the bottom of the fixed pipes, the first cavity is fixedly connected with the fixed pipes through a first pipeline, and the second cavity is fixedly connected with the fixed pipes through a second pipeline.

Preferably, a guide plate is fixedly arranged in the fixed box, the guide plate is positioned between the filter plate and the fixed pipe, and the cross section of the guide plate is trapezoid with large upper part and small lower part.

Preferably, a rotating rod III is movably arranged in the fixed box, the rotating rod III is arranged close to the bottom of the fixed box, and the rotating rod III penetrates through the cavity I and the cavity II.

Preferably, one end of the rotating rod III, which is close to the motor, penetrates through the fixing box and is fixedly provided with a driving wheel II, the driving wheel II is connected with the driving wheel I through belt transmission, the rotating rod III is fixedly provided with a fixing plate I and a fixing plate II, the fixing plate I is positioned in the cavity I, and the fixing plate II is positioned in the cavity II.

Preferably, the fixed pipes are three, the fixed pipes are uniformly distributed at intervals, the fixed pipes are mutually communicated, and the air inlet pipe is positioned between the fixed pipes.

Preferably, the first liquid inlet pipe is close to the top of the first cavity, the second liquid inlet pipe is close to the top of the second cavity, the first liquid outlet pipe and the second liquid outlet pipe are both close to the bottom of the fixed box, and the size of the baffle is matched with the sizes of the first cavity and the second cavity.

Preferably, a processor, a data acquisition module, a data analysis module and a signal execution module are arranged in the control panel;

The data acquisition module is used for acquiring temperature values Qi and dissolution concentrations Ei of liquid in the first cavity and the second cavity during the use period of the fixed box, and sending the temperature values Qi and the dissolution concentrations Ei to the data analysis module through the processor;

The data analysis module immediately analyzes the internal absorption environments of the first cavity and the second cavity after receiving the temperature value Qi and the dissolution concentration Ei, and the specific analysis steps are as follows: obtaining temperature values Qi and dissolution concentrations Ei in the first cavity and the second cavity in a time threshold, obtaining an absorption environment coefficient Vo through a formula, and retrieving a stored and recorded preset absorption environment coefficient Yo from a processor to compare and analyze the absorption environment coefficient Vo;

If the absorption environment coefficient Vo is more than or equal to the preset absorption environment coefficient Yo, judging that the absorption environment in the first cavity or the second cavity in the time threshold is abnormal, generating a regulating signal, sending the generated regulating signal to a signal execution module through a processor, and immediately controlling a motor to work after the signal execution module receives the regulating signal;

if the absorption environment coefficient Vo < the preset absorption environment coefficient Yo, no signal is generated.

The beneficial effects of the invention are as follows:

(1) According to the invention, through the cooperation of the first pipeline, the second pipeline and the fixed pipe, the baffle plate is positioned above the second cavity in an initial state, firstly, flue gas enters the fixed box through the air inlet pipe, then liquid in the first cavity is pumped into the fixed pipe through the first pipeline and atomized and sprayed out by the spray head, when the gas enters the fixed box, the gas and the liquid are fully mixed, flow onto the filter plate after mixing, solid particles in the mixture are filtered through the filter plate, the filtered liquid flows into the first cavity and is mixed with the liquid in the first cavity, the absorption efficiency is effectively improved by utilizing atomized liquid, the phenomenon of incomplete flue gas treatment is effectively avoided, the solid particles are removed through the filter plate, and the separation efficiency of the flue gas is increased;

(2) According to the invention, after the liquid in the first cavity is absorbed and saturated, the motor is started to drive the first rotating rod and the second rotating rod to synchronously rotate, at the moment, under the action of the screw threads, the screw sleeve gradually drives the baffle to move until the baffle moves to the upper part of the first cavity, at the moment, the pipeline I is closed, the liquid in the second cavity is pumped into the fixed pipe through the pipeline II, the liquid outlet pipe I is started, the liquid in the first cavity is discharged, and new liquid is input into the first cavity through the liquid inlet pipe, in the liquid replacement process, the separation of smoke is continuously completed through the second cavity, the steps are circulated, the replacement of the liquid can be completed without stopping, and the working efficiency is effectively improved;

(3) The invention acquires temperature value and dissolution concentration by data acquisition of the absorption environment in the first cavity and the second cavity in the use period of the fixed box, and comprehensively and efficiently monitors the absorption environment in the first cavity or the second cavity in use, namely comprehensively analyzes and compares the acquired data range with the preset data range, so that related evaluation signals are obtained, and accordingly, related components are controlled to perform compensation type operation treatment, and the internal environment of the first cavity or the second cavity is blocked by matching with a baffle plate, so that the internal liquid is conveniently replaced, and the absorption environment and the absorption efficiency in the fixed box are maintained.

Drawings

The invention is further described with reference to the accompanying drawings;

FIG. 1 is a schematic diagram of the structure of the present invention;

FIG. 2 is a cross-sectional view of the present invention;

FIG. 3 is a schematic view of the structure of the fixing tube in the present invention;

FIG. 4 is a flow chart of the system of the present invention;

FIG. 5 is a schematic view of the structures of the first and second chambers in the present invention;

FIG. 6 is a schematic view of the structure of the baffle plate of the present invention;

fig. 7 is a schematic view of the structure of the third rotating rod of the present invention.

Legend description: 1. a fixed box; 101. a partition plate; 102. a first cavity; 103. a second cavity; 104. an air inlet pipe; 105. a liquid inlet pipe I; 106. a liquid outlet pipe I; 107. a liquid inlet pipe II; 108. a liquid outlet pipe II; 109. a filter plate; 110. a guide plate; 111. rotating a rod III; 112. a second driving wheel; 113. a first fixing plate; 114. a second fixing plate; 2. a control panel; 3. a processing assembly; 301. rotating the first rod; 302. a second rotating rod; 303. a baffle; 304. a motor; 305. a first driving wheel; 306. a threaded sleeve; 307. a fixed tube; 308. a spray head; 309. a first pipeline; 310. pipeline two.

Detailed Description

The following description of the embodiments of the present invention will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present invention, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.

Embodiment one: the embodiment is used for solving the problems that in the actual use process of the traditional flue gas treatment equipment, the flue gas is pumped into the equipment by the air extractor, and is discharged after being filtered by the filter plate, the mode is mainly suitable for capturing particulate matters, but the effect is poor for gaseous pollutants such as organic matter vapor and the like, and incomplete treatment is easy to occur so as to pollute the environment.

Referring to fig. 1-4, the embodiment is a flue gas separation treatment device for roller water quenching, which comprises a fixed box 1, wherein a partition plate 101 is fixedly installed at the bottom of the fixed box 1, the bottom of the fixed box 1 is divided into a first cavity 102 and a second cavity 103 by the partition plate 101, an air inlet pipe 104 is fixedly installed at the top of the fixed box 1, and flue gas enters the fixed box 1 through the air inlet pipe 104.

The first cavity 102 is fixedly connected with a first liquid inlet pipe 105 and a second liquid outlet pipe 108, the first liquid inlet pipe 105 is arranged close to the top of the first cavity 102, the second liquid inlet pipe 107 is arranged close to the top of the second cavity 103, the first liquid outlet pipe 106 and the second liquid outlet pipe 108 are both arranged close to the bottom of the fixed box 1, the size of the baffle 303 is matched with the sizes of the first cavity 102 and the second cavity 103, and the second cavity 103 is fixedly connected with the second liquid inlet pipe 107 and the second liquid outlet pipe 108.

The inside movable mounting of fixed box 1 has treatment subassembly 3, treatment subassembly 3 includes a plurality of fixed pipes 307, fixed pipe 307 is provided with the three, evenly spaced distributes between the fixed pipe 307, communicate each other between the fixed pipe 307, intake pipe 104 is located between the fixed pipe 307, fixed pipe 307 fixed mounting is at the box top, fixed pipe 307 bottom fixed mounting has a plurality of shower nozzles 308, cavity one 102 passes through pipeline one 309 and fixed pipe 307 fixed connection, cavity two 103 passes through pipeline two 310 and fixed pipe 307 fixed connection, wherein shower nozzle 308 specifically is atomizer 308 for with the liquid atomizing blowout in the fixed pipe 307, increase the area of contact of liquid and flue gas.

The baffle 303 is located above the second cavity 103 in the initial state, the flue gas firstly enters the fixed box 1 through the air inlet pipe 104, then the liquid in the first cavity 102 is pumped into the fixed pipe 307 through the first pipeline 309, atomized and sprayed out through the spray nozzle 308, and fully mixed with the liquid when the gas enters the fixed box 1, flows onto the filter plate 109 after being mixed, filters solid particles in the mixture through the filter plate 109, flows into the first cavity 102 after being filtered, is mixed with the liquid in the first cavity 102, effectively improves the absorption efficiency by utilizing the atomized liquid, effectively avoids incomplete flue gas treatment, eliminates the solid particles through the filter plate 109, and increases the separation efficiency of the flue gas.

A control panel 2 is fixedly arranged on one side of the fixed box 1, and a processor, a data acquisition module, a data analysis module and a signal execution module are arranged in the control panel 2; the data acquisition module is used for acquiring a temperature value Qi and a dissolution concentration Ei in the first cavity 102 or the second cavity 103 during the use of the fixed box 1, and sending the temperature value Qi and the dissolution concentration Ei to the data analysis module through the processor; setting 10 minutes during use of the stationary box 1 as a time threshold;

It should be noted that: the temperature value Qi is expressed as a maximum value and a minimum value of the temperature of the liquid in the first cavity 102 or the second cavity 103 in a time threshold, the value of the temperature value Qi reflects the use state of the fixed box 1, the higher the value of the temperature value Qi is, the higher the heat of the smoke absorbed by the liquid in the first cavity 102 or the second cavity 103 is, the lower the cooling efficiency is, the dissolution concentration Ei is expressed as the amount of the absorbed smoke in the liquid in the first cavity 102 or the second cavity 103 in the time threshold, in addition, the temperature value Qi is acquired by a plurality of groups of temperature sensors arranged on the inner walls of the first cavity 102 and the second cavity 103, and the dissolution concentration Ei is acquired by a liquid concentration sensor arranged on the inner walls of the first cavity 102 and the second cavity 103;

The data analysis module, upon receiving the temperature value Qi and the dissolution concentration Ei, immediately analyzes the internal absorption environment of the stationary box 1, with the following specific analysis steps:

Obtaining a temperature value Qi and a dissolution concentration Ei of the inner part of the first cavity 102 or the second cavity 103 in the time threshold value through a formula Obtaining an absorption environment coefficient Vo, wherein a and b are the proportional coefficients of a temperature value Qi and a dissolution concentration Ei respectively, a is more than b is more than 0, vo is expressed as the absorption environment coefficient, and a preset absorption environment coefficient Yo which is stored and input is retrieved from a processor to be compared with the absorption environment coefficient Vo for analysis;

If the absorption environment coefficient Vo is greater than or equal to a preset absorption environment coefficient Yo, judging that the absorption environment in the first cavity 102 or the second cavity 103 in the time threshold is abnormal, generating a regulating signal, sending the generated regulating signal to a signal execution module through a processor, immediately controlling a motor 304 to work after the signal execution module receives the regulating signal, driving a first rotating rod 301 and a second rotating rod 302 to synchronously rotate, thus adjusting the position of a baffle 303, and when the first cavity 102 is abnormal, driving the baffle 303 to move towards the first cavity 102, otherwise, shielding the first cavity 102 or the second cavity 103, and continuously absorbing smoke by using an unordered part;

if the absorption environment coefficient Vo < the preset absorption environment coefficient Yo, no signal is generated.

Embodiment two: the embodiment is used for solving the problems that if the smoke is directly led into an absorbent or purified water to absorb the smoke, but the smoke is easy to generate bubbles in liquid, the smoke is difficult to be rapidly absorbed, the absorption efficiency is low, meanwhile, the liquid absorption amount has an upper limit, after the absorption upper limit is reached, the subsequent smoke absorption failure is caused, the liquid is required to be replaced by stopping, and the work continuity is easy to be influenced by stopping in long-time uninterrupted processing, so that the work efficiency is reduced.

Referring to fig. 5-7, the present invention further includes a first rotating rod 301, a second rotating rod 302, and a baffle 303, where the baffle 303 is located above the first cavity 102 and the second cavity 103, the first rotating rod 301 and the second rotating rod 302 are located at two sides of the baffle 303, a filter plate 109 is fixedly installed in the fixed box 1, the filter plate 109 is located above the baffle 303, and solid particles contained in the flue gas are primarily filtered through the filter plate 109.

The motor 304 is fixedly arranged on one side of the fixed box 1, the output end of the motor 304 is fixedly connected with the first rotating rod 301, one ends of the first rotating rod 301 and the second rotating rod 302, which are close to the motor 304, are fixedly connected with the first driving wheel 305 after penetrating through the fixed box 1, the first driving wheels 305 are connected through belt transmission, the first rotating rod 301 and the second rotating rod 302 are movably provided with threaded sleeves 306 through threads, the threaded sleeves 306 are fixedly connected with two sides of the baffle 303, the first rotating rod 301 and the second rotating rod 302 are screw rods, and screw rod transmission structures are formed through the threads and the threaded sleeves 306.

The guide plate 110 is fixedly installed inside the fixed box 1, the guide plate 110 is located between the filter plate 109 and the fixed pipe 307, the cross section of the guide plate 110 is trapezoid with the upper part being big and the lower part being small, the rotating rod III 111 is movably installed inside the fixed box 1, the rotating rod III 111 is arranged near the bottom of the fixed box 1, the rotating rod III 111 penetrates through the cavity I102 and the cavity II 103, and the rotating rod III 111 synchronously rotates when the motor 304 drives the rotating rod I301 and the rotating rod II 302 to rotate.

One end of the rotating rod III 111, which is close to the motor 304, penetrates through the fixed box 1 and is fixedly provided with the driving wheel II 112, the driving wheel II 112 is connected with the driving wheel I305 through belt transmission, the rotating rod III 111 is fixedly provided with the fixed plate I113 and the fixed plate II 114, the fixed plate I113 is positioned in the cavity I102, the fixed plate II 114 is positioned in the cavity II 103, the rotating rod III 111 drives the fixed plate I113 and the fixed plate II 114 to stir liquid in the cavity I102 and the cavity II 103 respectively when rotating, the fluidity of the liquid is ensured, and meanwhile, if an absorbent is added into the liquid, the sedimentation of the absorbent is avoided, and the uniformity of the liquid is ensured.

After the liquid in the first cavity 102 is absorbed and saturated, the motor 304 is started to drive the first rotating rod 301 and the second rotating rod 302 to synchronously rotate, at this time, under the action of the screw thread, the screw thread sleeve 306 gradually drives the baffle 303 to move until the baffle 303 moves to the upper part of the first cavity 102, at this time, the first pipeline 309 is closed, the liquid in the second cavity 103 is pumped into the fixed pipe 307 through the second pipeline 310, the first liquid outlet pipe 106 is started, the liquid in the first cavity 102 is discharged, new liquid is input into the first cavity 102 through the first liquid inlet pipe 105, in the liquid replacement process, the separation of smoke is continuously completed through the second cavity 103, the above steps are circulated, the replacement of the liquid can be completed without stopping, and the working efficiency is effectively improved.

As can be seen from the combination of the first embodiment and the second embodiment, the temperature value and the dissolution concentration can be obtained by collecting the data of the internal absorption environment of the first cavity 102 or the second cavity 103 in the use period of the fixed box 1, and the overall and efficient supervision of the internal absorption environment of the first cavity 102 or the second cavity 103 before and during fumigation is performed, that is, the collected data range is comprehensively analyzed and compared with the preset data range, so as to obtain relevant evaluation signals, and accordingly, relevant components are controlled to perform the compensation operation treatment, so that the baffle 303 is matched to partition the internal environment of the first cavity 102 or the second cavity 103, the replacement of liquid can be completed without stopping, the working efficiency is effectively improved, the specific extraction and the drainage and the conversion are performed for the local abnormal environment in the first cavity 102 or the second cavity 1035, the absorption environment and the absorption efficiency in the first cavity 102 or the second cavity 103 are maintained, and the smoke is accurately and carefully treated by classifying and absorbing the smoke through the structure between the first pipeline 309, the second pipeline 310 and the fixed pipe 307 and the filter plate 109.

The foregoing is merely illustrative of the structures of this invention and various modifications, additions and substitutions for those skilled in the art can be made to the described embodiments without departing from the scope of the invention or from the scope of the invention as defined in the accompanying claims.

In the description of the present specification, the descriptions of the terms "one embodiment," "example," "specific example," and the like, mean that a particular feature, structure, material, or characteristic described in connection with the embodiment or example is included in at least one embodiment or example of the present invention. In this specification, schematic representations of the above terms do not necessarily refer to the same embodiments or examples. Furthermore, the particular features, structures, materials, or characteristics described may be combined in any suitable manner in any one or more embodiments or examples.

The preferred embodiments of the invention disclosed above are intended only to assist in the explanation of the invention. The preferred embodiments are not intended to be exhaustive or to limit the invention to the precise form disclosed. Obviously, many modifications and variations are possible in light of the above teaching. The embodiments were chosen and described in order to best explain the principles of the invention and the practical application, to thereby enable others skilled in the art to best understand and utilize the invention. The invention is limited only by the claims and the full scope and equivalents thereof.

Claims (8)

1. The utility model provides a flue gas separation treatment facility for roll water quenching, includes fixed case (1), fixed case (1) bottom fixed mounting has division board (101), separates into first cavity (102) and second cavity (103) with fixed case (1) bottom through division board (101), fixed case (1) one side fixed mounting has control panel (2), a serial communication port, fixed case (1) top fixed mounting has intake pipe (104), first cavity (102) fixedly connected with feed liquor pipe (105) and drain pipe (106), second cavity (103) fixedly connected with feed liquor pipe (107) and drain pipe (108);

The device is characterized in that a processing assembly (3) is movably mounted in the fixed box (1), the processing assembly (3) comprises a first rotating rod (301), a second rotating rod (302) and a baffle (303), the baffle (303) is located above the first cavity (102) and the second cavity (103), the first rotating rod (301) and the second rotating rod (302) are located on two sides of the baffle (303) respectively, a filter plate (109) is fixedly mounted in the fixed box (1), and the filter plate (109) is located above the baffle (303);

The novel anti-theft device is characterized in that a motor (304) is fixedly arranged on one side of the fixed box (1), the output end of the motor (304) is fixedly connected with a first rotating rod (301), one ends of the first rotating rod (301) and a second rotating rod (302) close to the motor (304) penetrate through a first driving wheel (305) fixedly connected with the fixed box (1), the first driving wheels (305) are connected through belt transmission, threaded sleeves (306) are movably arranged on the first rotating rod (301) and the second rotating rod (302) through threads, and the threaded sleeves (306) are fixedly connected with two sides of the baffle plate (303).

2. The flue gas separation treatment device for roller water quenching according to claim 1, wherein the treatment assembly (3) further comprises a plurality of fixed pipes (307), the fixed pipes (307) are fixedly arranged at the top of the box body, a plurality of spray heads (308) are fixedly arranged at the bottom of the fixed pipes (307), the first cavity (102) is fixedly connected with the fixed pipes (307) through a first pipeline (309), and the second cavity (103) is fixedly connected with the fixed pipes (307) through a second pipeline (310).

3. The flue gas separation treatment device for roller water quenching according to claim 1, wherein a guide plate (110) is fixedly installed inside the fixed box (1), the guide plate (110) is located between the filter plate (109) and the fixed pipe (307), and the cross section of the guide plate (110) is trapezoid with a large upper part and a small lower part.

4. A flue gas separation treatment device for roller water quenching according to claim 3, wherein a rotating rod III (111) is movably installed in the fixed box (1), the rotating rod III (111) is arranged near the bottom of the fixed box (1), and the rotating rod III (111) penetrates through the first cavity (102) and the second cavity (103).

5. The flue gas separation treatment device for roller water quenching according to claim 4, wherein a transmission wheel two (112) is fixedly arranged at one end, close to a motor (304), of the rotation rod three (111) after penetrating through the fixing box (1), the transmission wheel two (112) is connected with the transmission wheel one (305) through belt transmission, a fixing plate one (113) and a fixing plate two (114) are fixedly arranged on the rotation rod three (111), the fixing plate one (113) is located in the cavity one (102), and the fixing plate two (114) is located in the cavity two (103).

6. A flue gas separation treatment device for roll water quenching according to claim 2, wherein three fixing pipes (307) are provided, the fixing pipes (307) are uniformly spaced apart, the fixing pipes (307) are communicated with each other, and the air inlet pipe (104) is positioned between the fixing pipes (307).

7. The flue gas separation treatment device for roller water quenching according to claim 6, wherein the first liquid inlet pipe (105) is arranged near the top of the first cavity (102), the second liquid inlet pipe (107) is arranged near the top of the second cavity (103), the first liquid outlet pipe (106) and the second liquid outlet pipe (108) are both arranged near the bottom of the fixed box (1), and the size of the baffle (303) is matched with the sizes of the first cavity (102) and the second cavity (103).

8. The flue gas separation treatment device for roller water quenching according to claim 1, wherein a processor, a data acquisition module, a data analysis module and a signal execution module are arranged inside the control panel (2);

The data acquisition module is used for acquiring temperature values Qi and dissolution concentrations Ei of liquid in the first cavity (102) and the second cavity (103) during the use of the fixed box (1), and sending the temperature values Qi and the dissolution concentrations Ei to the data analysis module through the processor;

the data analysis module immediately analyzes the internal absorption environments of the first cavity (102) and the second cavity (103) after receiving the temperature value Qi and the dissolution concentration Ei, and the specific analysis steps are as follows: obtaining temperature values Qi and dissolution concentrations Ei in a first cavity (102) and a second cavity (103) within a time threshold, obtaining an absorption environment coefficient Vo through a formula, and retrieving a stored and entered preset absorption environment coefficient Yo from a processor to compare and analyze the absorption environment coefficient Vo;

If the absorption environment coefficient Vo is more than or equal to the preset absorption environment coefficient Yo, judging that the absorption environment in the first cavity (102) or the second cavity (103) in the time threshold is abnormal, generating a regulating signal, sending the generated regulating signal to a signal executing module through a processor, and immediately controlling a motor (304) to work after the signal executing module receives the regulating signal;

if the absorption environment coefficient Vo < the preset absorption environment coefficient Yo, no signal is generated.