CN220871251U - Circulating cooling water pond governing system - Google Patents

Abstract

The application provides a circulating cooling water tank adjusting system, which is applied to the adjustment of circulating cooling water, and comprises: the device comprises a first cooling water circulation, a second cooling water circulation, a water pool communication pipeline, a water area communication pipeline and a controller. The first cooling water circulation comprises a first cooling water tank, a first cooling area and a first water use area, and the second cooling water circulation comprises a second cooling water tank, a second cooling area and a second water use area. According to the circulating cooling water tank regulating system, the first cooling water tank is communicated with the second cooling water tank through the water tank communicating pipeline, the first water use area is communicated with the second water use area through the water use area communicating pipeline, under the control of the controller, accurate dynamic regulation is carried out according to the water quantity conditions of two cooling water circulation, the liquid level balance of the two cooling water circulation is maintained, the water supply stability of the cooling water is ensured, and the cooling effect is ensured.

Description

Circulating cooling water pond governing system

Technical Field

The application relates to the technical field of production cooling, in particular to a circulating cooling water tank adjusting system.

Background

In factory production, a cooling water circulation system is arranged to exchange heat of cooling water in a water use area, and the cooling water after heat exchange is cooled and recycled. For enterprises with larger cooling demands, two or more cooling water circulation systems are usually arranged, but most of the cooling water circulation systems in the related technologies have no association relationship, or a plurality of cooling water circulation systems are simply connected in series, the water quantity difference in each cooling water circulation system in the operation process is large, the cooling effect is influenced, and accurate dynamic adjustment cannot be realized.

Disclosure of utility model

The application provides a circulating cooling water pool adjusting system, which aims to solve the problems that the water quantity difference in each cooling water circulating system is large, the cooling effect is poor and the accurate dynamic adjustment of the cooling water circulating system cannot be realized.

The application provides a circulating cooling water tank adjusting system, which comprises: the device comprises a first cooling water circulation, a second cooling water circulation, a water pool communication pipeline, a water area communication pipeline and a controller;

The first cooling water circulation comprises a first cooling water tank, a first cooling area and a first water use area; the first cooling water tank is communicated with the first water area through a first pipeline so as to provide cooling water for the first water area, the first water area is communicated with the first cooling area through a second pipeline so as to discharge used cooling water to the first cooling area, and the first cooling area is configured to cool and convey the used cooling water to the first cooling water tank;

The second cooling water circulation comprises a second cooling water tank, a second cooling area and a second water using area; the second cooling water tank is communicated with the second water using area through a third pipeline to supply cooling water to the second water using area, the second water using area is communicated with the second cooling area through a fourth pipeline to discharge used cooling water to the second cooling area, and the second cooling area is configured to cool and convey the used cooling water to the second cooling water tank;

The water tank communication pipeline is respectively communicated with the first cooling water tank and the second cooling water tank, and a water tank communication control valve is arranged on the water tank communication pipeline;

the water use area communicating pipeline is respectively communicated with the first water use area and the second water use area, and a water use area communicating control valve is arranged on the water use area communicating pipeline;

The controller is respectively connected with the water tank communication control valve and the water use area communication control valve in a signal way, and the controller is used for controlling the opening and closing of the water tank communication pipeline and the water use area communication pipeline.

The first cooling water tank is provided with a first liquid level display, and the first liquid level display is used for displaying the water quantity of the cooling water in the first cooling water tank;

The second cooling water tank is provided with a second liquid level display which is used for displaying the water quantity of the cooling water in the second cooling water tank;

The controller is respectively connected with the first liquid level display and the second liquid level display in a signal way, and is used for controlling the opening and closing of the water tank communication control valve and the water use area communication control valve according to the water quantity of the cooling water in the first cooling water tank and the second cooling water tank.

The pool communication pipeline is respectively communicated with the first pipeline and the third pipeline, and the pool communication control valve is positioned between the first pipeline and the third pipeline.

The first pipeline is provided with a first control valve and a first check valve, the first control valve is arranged close to the first cooling water tank, the first check valve is arranged close to the water tank communication control valve, and the first control valve is used for controlling the opening and closing of the first pipeline;

The third pipeline is provided with a third control valve and a second check valve, the third control valve is close to the second cooling water tank, the second check valve is close to the water tank communication control valve, and the third control valve is used for controlling the opening and closing of the third pipeline.

The first pipeline is further provided with a first water pump, and the first water pump is positioned between the first control valve and the first check valve;

And a second water pump is further arranged on the third pipeline and is positioned between the third control valve and the second check valve.

The first pipeline is further provided with a fifth control valve, the fifth control valve is located between the first check valve and the pool communication control valve, and the fifth control valve is used for controlling the first water pump on the first pipeline to open and close the pipeline between the first water area and the first water area;

The third pipeline is further provided with a sixth control valve, the sixth control valve is located between the second check valve and the pool communication control valve, and the sixth control valve is used for controlling the opening and closing of the pipeline between the second water pump on the third pipeline and the second water using area.

The second pipeline is provided with a second control valve, and the second control valve is used for controlling the opening and closing of the second pipeline;

The fourth pipeline is provided with a fourth control valve, and the fourth control valve is used for controlling the opening and closing of the fourth pipeline.

The second pipeline is also provided with a first bypass control valve, and the first bypass control valve and the second control valve are arranged in parallel;

and a second bypass control valve is further arranged on the fourth pipeline, and the second bypass control valve is connected with the fourth control valve in parallel.

The circulating cooling water tank adjusting system further comprises a first water conveying pipeline, wherein the first water conveying pipeline is communicated with the first cooling water tank and is used for conveying purified water to the first cooling water tank;

The circulating cooling water tank adjusting system further comprises a second water conveying pipeline, the second water conveying pipeline is communicated with the second cooling water tank, and the second water conveying pipeline is used for conveying purified water to the second cooling water tank.

The first water delivery pipeline is sequentially provided with a first water delivery control valve, a first water delivery pump and a first water purifier, wherein the first water delivery control valve is used for controlling the opening and closing of the first water delivery pipeline, and the first water purifier is positioned between the first water delivery pump and the first cooling water tank;

The second water delivery pipeline is sequentially provided with a second water delivery control valve, a second water delivery pump and a second water purifier, the second water delivery control valve is used for controlling the opening and closing of the second water delivery pipeline, and the second water purifier is located between the second water delivery pump and the second cooling water tank.

Compared with the prior art, the application has the following beneficial effects: according to the circulating cooling water tank regulating system, the first cooling water tank is communicated with the second cooling water tank through the water tank communicating pipeline, the first water use area is communicated with the second water use area through the water use area communicating pipeline, under the control of the controller, accurate dynamic regulation is carried out according to the water quantity conditions of two cooling water circulation, the liquid level balance of the two cooling water circulation is maintained, the water supply stability of the cooling water is ensured, and the cooling effect is ensured.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present application, the drawings that are needed in the embodiments will be briefly described below, it being understood that the following drawings only illustrate some embodiments of the present application and therefore should not be considered as limiting the scope, and other related drawings may be obtained according to these drawings without inventive effort for a person skilled in the art.

FIG. 1 is a schematic diagram of a recirculating cooling water pond conditioning system, according to an exemplary embodiment.

Fig. 2 is a schematic diagram of a first cooling water cycle shown in an embodiment.

Fig. 3 is a schematic diagram of a second cooling water cycle shown in an embodiment.

Detailed Description

For the purpose of making the objects, technical solutions and advantages of the embodiments of the present application more apparent, the technical solutions of the embodiments of the present application will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present application, and it is apparent that the described embodiments are some embodiments of the present application, but not all embodiments of the present application. All other embodiments, which can be made by those skilled in the art based on the embodiments of the application without making any inventive effort, are intended to be within the scope of the application. It should be noted that, without conflict, the embodiments of the present application and features of the embodiments may be arbitrarily combined with each other.

In the description of the present application, it should also be noted that, unless explicitly specified and limited otherwise, the terms "disposed," "mounted," and "connected" are to be construed broadly, and may be, for example, fixedly connected, detachably connected, or integrally connected; may be directly connected or indirectly connected through an intermediate medium. The specific meaning of the above terms in the present application will be understood in specific cases by those of ordinary skill in the art.

The application provides a circulating cooling water tank adjusting system, which is applied to the adjustment of circulating cooling water, and comprises: the device comprises a first cooling water circulation, a second cooling water circulation, a water pool communication pipeline, a water area communication pipeline and a controller. The first cooling water circulation includes a first cooling water tank, a first cooling area, and a first water use area. The first cooling water tank is communicated with the first water area through a first pipeline so as to provide cooling water for the first water area, the first water area is communicated with the first cooling area through a second pipeline so as to discharge used cooling water to the first cooling area, and the first cooling area is used for cooling the used cooling water and conveying the cooling water to the first cooling water tank. The second cooling water circulation comprises a second cooling water tank, a second cooling area and a second water using area. The second cooling water tank is communicated with the second water using area through a third pipeline so as to provide cooling water for the second water using area, the second water using area is communicated with the second cooling area through a fourth pipeline so as to discharge used cooling water to the second cooling area, and the second cooling area is used for cooling the used cooling water and conveying the cooling water to the second cooling water tank. The water tank communicating pipeline is respectively communicated with the first cooling water tank and the second cooling water tank, and a water tank communicating control valve is arranged on the water tank communicating pipeline. The water use area communicating pipeline is respectively communicated with the first water use area and the second water use area, and a water use area communicating control valve is arranged on the water use area communicating pipeline. The controller is respectively connected with the pool communication control valve and the water consumption area communication control valve in a signal manner and is used for controlling the opening and closing of the pool communication pipeline and the water consumption area communication pipeline. The circulating cooling water pool adjusting system provided by the application is controlled by the controller to perform accurate dynamic adjustment according to the water quantity conditions of two cooling water circulation, so that the liquid level balance of the two cooling water circulation is maintained, the water supply stability of the cooling water is ensured, and the cooling effect is ensured.

According to one exemplary embodiment, as shown in fig. 1, the present application provides a circulating cooling water pond adjustment system, comprising: the water-saving type cooling device comprises a first cooling water circulation 100, a second cooling water circulation 200, a pool communication pipe 300, a water-area communication pipe 400, a first water delivery pipe 500, a second water delivery pipe 600 and a controller.

As shown in fig. 2, the first cooling water circulation 100 includes a first cooling water tank 110, a first cooling region 120, a first water region 130, a first pipe 140, and a second pipe 150. The first cooling water tank 110 is communicated with the first water region 130 through a first pipe 140 to supply cooling water to the first water region 130, the first water region 130 is communicated with the first cooling region 120 through a second pipe 150 to discharge cooling water of a higher temperature after heat exchange use to the first cooling region 120, and the first cooling region 120 is used for cooling and conveying the cooling water after use to the first cooling water tank 110 to complete circulation of the cooling water.

As shown in fig. 3, the second cooling water circulation 200 includes a second cooling water tank 210, a second cooling region 220, a second water use region 230, a third pipe 240, and a fourth pipe 250. The second cooling water tank 210 communicates with the second water usage region 230 through a third pipe 240 to supply cooling water to the second water usage region 230, and the second water usage region 230 communicates with the second cooling region 220 through a fourth pipe 250 to discharge the cooling water of a higher temperature after heat exchange use to the second cooling region 220, and the second cooling region 220 is used to cool and convey the cooling water after use to the second cooling water tank 210, completing circulation of the cooling water.

Returning to fig. 1, the sump communication pipe 300 is respectively communicated with the first cooling sump 110 and the second cooling sump 210, and a sump communication control valve 310 is provided on the sump communication pipe 300. In this embodiment, the sump communication pipe 300 communicates with the first pipe 140 and the third pipe 240, respectively, and the sump communication control valve 310 is located between the first pipe 140 and the third pipe 240. By providing the water tank communication pipeline 300, the water amounts of the cooling water in the first cooling water tank 110 and the second cooling water tank 210 can be kept balanced, the large difference between the water amounts of the two cooling water tanks is avoided, the cooling effect of a certain cooling water circulation is affected, and when one cooling water tank fails, the normal use of the cooling water corresponding to the water use area is not affected.

The water use area communication pipeline 400 is respectively communicated with the first water use area 130 and the second water use area 230, and the water use area communication control valve 410 is arranged on the water use area communication pipeline 400, so that the water use amount balance of cooling water in the first water use area 130 and the second water use area 230 can be kept by arranging the water use area communication pipeline 400, the phenomenon that the cooling water amount of a certain water use area is insufficient to influence the normal cooling of the water use area is avoided, and the stability and the safety of the use of the cooling water in the production process are improved.

As shown in fig. 2 and 3, the first cooling water tank 110 is provided with a first liquid level display 111, the first liquid level display 111 is used for displaying the amount of cooling water in the first cooling water tank 110, the second cooling water tank 210 is provided with a second liquid level display 211, and the second liquid level display 211 is used for displaying the amount of cooling water in the second cooling water tank 210. The first liquid level display 111 and the second liquid level display 211 are respectively connected with the controller in a signal manner, by arranging the first liquid level display 111 and the second liquid level display 211, the water quantity conditions of the cooling water in the first cooling water tank 110 and the second cooling water tank 210 can be directly obtained, and the liquid levels of the two cooling water circulation are balanced by corresponding control according to the water quantity conditions. If the water quantity of the cooling water of the two cooling water circulation is insufficient, water can be fed by means of an external pipeline to supplement the water quantity of the cooling water of the two cooling water circulation.

As shown in fig. 2 and 3, the first cooling area 120 is provided with a first cooling fan 121, the first cooling fan 121 is used for cooling the used cooling water having a relatively high temperature, the second cooling area 220 is provided with a second cooling fan 221, the second cooling fan 221 is used for cooling the used cooling water having a relatively high temperature, and the cooling water is cooled to a temperature required for the cooling water by providing the first cooling fan 121 and the second cooling fan 221.

As shown in fig. 2, a first control valve 141, a first water pump 142, a first check valve 143, and a fifth control valve 144 are sequentially provided on the first pipe 140. The first control valve 141 is disposed near the first cooling water tank 110 for controlling the opening and closing of the first pipe 140. The first water pump 142 is located between the first control valve 141 and the first check valve 143 for pressurizing the cooling water at the time of delivery. A first check valve 143 is located between the first water pump 142 and the fifth control valve 144 for preventing the back flow of the cooling water. The fifth control valve 144 is located between the first check valve 143 and the pool communication control valve 310 for controlling the opening and closing of the pipe between the first water pump 142 on the first pipe 140 to the first water area 130, so as to close the corresponding pipe section when the first water pump 142 is serviced and the first check valve 143 is maintained.

As shown in fig. 3, a third control valve 241, a second water pump 242, a second check valve 243, and a sixth control valve 244 are sequentially provided on the third pipe 240. The third control valve 241 is disposed near the second cooling water tank 210 for controlling the opening and closing of the third pipe 240. The second water pump 242 is located between the third control valve 241 and the second check valve 243 for pressurizing the cooling water at the time of delivery. A second check valve 243 is located between the second water pump 242 and the sixth control valve 244 for preventing the back flow of the cooling water. A sixth control valve 244 is provided between the second check valve 243 and the pool communication control valve 310 for controlling the opening and closing of the pipes between the second water pump 242 on the third pipe 240 to the second water usage area 230, so as to close the corresponding pipe sections when the second water pump 242 is serviced and the second check valve 243 is maintained.

As shown in fig. 2, a second control valve 151 and a first bypass control valve 152 are disposed on the second pipeline 150, the second control valve 151 is used for controlling the opening and closing of the second pipeline 150, and the first bypass control valve 152 is disposed in parallel with the second control valve 151 and is used for switching to the first bypass control valve 152 to continuously control the opening and closing of the second pipeline 150 when the second control valve 151 fails, so as to ensure the normal operation of the second pipeline 150. The second control valve 151 may be an electromagnetic proportional valve, which can continuously and proportionally control the pressure and flow of the pipeline, and the first bypass control valve 152 may be a manual valve.

As shown in fig. 3, a fourth control valve 251 and a second bypass control valve 252 are disposed on the fourth pipeline 250, the fourth control valve 251 is used for controlling the opening and closing of the fourth pipeline 250, and the second bypass control valve 252 is disposed in parallel with the fourth control valve 251 and is used for switching to the second bypass control valve 252 to continuously control the opening and closing of the fourth pipeline 250 when the fourth control valve 251 fails, so as to ensure the normal operation of the fourth pipeline 250. The fourth control valve 251 may be a solenoid proportional valve, and the second bypass control valve 252 may be a manual valve.

It should be noted that, in the present embodiment, two cooling water circulation are provided, and the structures of the first cooling water circulation 100 and the second cooling water circulation 200 are the same, but in some other embodiments, more than two cooling water circulation with the same structure may be provided, and some of the structures may have different numbers according to actual production requirements, or some of the structures may not be used, which is not limited by the present application.

Returning to fig. 1, in the present embodiment, a first water delivery line 500 is provided in communication with the first cooling water tank 110, the first water delivery line 500 being used to deliver external makeup water to the first cooling water tank 110 to replenish the amount of water lost in operation of the first cooling water cycle 100. The first water delivery pipeline 500 is provided with a first water delivery control valve 510, a first water delivery pump 520 and a first water purifier 530 in sequence. The first water delivery control valve 510 is used for controlling the opening and closing of the first water delivery pipeline 500, the first water delivery pump 520 is used for pressurizing during external supplementing water delivery, and the first water delivery pump 520 can be an electromagnetic control water delivery pump. The first water purifier 530 is disposed between the first water feed pump 520 and the first cooling water tank 110 for filtering and purifying the external makeup water, and when the external makeup water is river water or tap water, a plurality of first water purifiers 530 may be disposed in parallel to improve filtering capacity, and when the external makeup water is purified water, the first water purifiers 530 may not be disposed to reduce costs.

In the present embodiment, a second water delivery line 600 is also provided in communication with the second cooling water reservoir 210, the second water delivery line 600 being used to deliver external makeup water to the second cooling water reservoir 210 to replenish the amount of water lost in operation of the second cooling water cycle 200. The second water delivery pipeline 600 is provided with a second water delivery control valve 610, a second water delivery pump 620 and a second water purifier 630 in sequence. The arrangement and the functions of the above structures are identical to those of the first water delivery control valve 510, the first water delivery pump 520 and the first water purifier 530, and will not be repeated.

Because the two cooling water tanks can be communicated through the water tank communication pipe 300, in some other embodiments, only the first water delivery pipe 500 can be provided, and the second water delivery pipe 600 is not provided, in these embodiments, a plurality of first water delivery control valves 510 and a plurality of first water delivery pumps 520 can also be provided in parallel to promote water supplementing capability, and when one of the first water delivery pumps 520 fails, the other first water delivery pumps 520 can also be used for supplementing water, thereby ensuring the normal water supplementing of the circulating cooling water tank regulating system.

A controller (not shown) is respectively signal-connected to the pool communication control valve 310 and the water area communication control valve 410 for controlling the opening and closing of the pool communication pipe 300 and the water area communication pipe 400. The controller can be used for controlling the water quantity of the two cooling water circulation to perform accurate dynamic adjustment and maintain the liquid level balance of the two cooling water circulation. For example, when the cooling water amount of the second cooling water tank 210 is insufficient or the second cooling water tank 210 fails, the controller may control the communication control valve 310 to open, and transfer a part of the cooling water of the first cooling water tank 110 to the second water use area 230 for use. For example, when the second cooling fan 221 cannot cool in time due to the large amount of used cooling water generated in the second water usage area 230, the water usage area communication control valve 410 may be controlled to be opened to transfer a part of the used cooling water generated in the second water usage area 230 to the first cooling area 120, and the cooling water is commonly cooled by the first cooling fan 121.

In the embodiment, the controller can select a PLC control system (Programmable Logic Controller), and the PLC control system has the advantages of high reliability, easy programming, flexible configuration and the like. The controller is in signal connection with the first liquid level display 111 and the second liquid level display 211, and is also in signal connection with the first control valve 141, the first water pump 142, the fifth control valve 144, the second control valve 151, the third control valve 241, the second water pump 242, the sixth control valve 244, the fourth control valve 251, the first water delivery control valve 510, the first water delivery pump 520, the second water delivery control valve 610 and the second water delivery pump 620 respectively, so as to realize the water quantity adjustment of the cooling water in the system according to the circulating cooling water pool, control the water supplementing quantity of the water delivery pipeline and control the circulating cooling water quantity of the cooling water circulation, and ensure the water quantity balance of the circulating cooling water pool adjustment system.

In summary, according to the circulating cooling water tank adjusting system, the water quantity condition of the cooling water tank is monitored through the liquid level display, when the water quantity and the liquid level of a certain cooling water tank are too low or too high, the controller is used for controlling the opening and closing of the corresponding valve to increase or reduce the water quantity of cooling water flowing back to the cooling water tank, so that the water quantity of the cooling water tank is stable, manual adjustment of a large-scale system such as the circulating cooling water tank by an operator is not needed, the labor intensity is reduced, the adjustment is more accurate, dynamic adjustment is realized, and the cooling effect is ensured.

Finally, it should be noted that: the above embodiments are only for illustrating the technical scheme of the present application, and are not limited thereto. Although the application has been described in detail with reference to the foregoing embodiments, it will be understood by those of ordinary skill in the art that: the technical scheme described in the foregoing embodiments can be modified or some technical features thereof can be replaced by equivalents; such modifications and substitutions do not depart from the spirit of the corresponding technical solutions from the scope of the technical solutions of the embodiments of the present disclosure.

Claims (10)

1. A recirculating cooling water tank adjustment system, comprising: the device comprises a first cooling water circulation, a second cooling water circulation, a water pool communication pipeline, a water area communication pipeline and a controller;

The first cooling water circulation comprises a first cooling water tank, a first cooling area and a first water use area; the first cooling water tank is communicated with the first water area through a first pipeline so as to provide cooling water for the first water area, the first water area is communicated with the first cooling area through a second pipeline so as to discharge used cooling water to the first cooling area, and the first cooling area is configured to cool and convey the used cooling water to the first cooling water tank;

The second cooling water circulation comprises a second cooling water tank, a second cooling area and a second water using area; the second cooling water tank is communicated with the second water using area through a third pipeline to supply cooling water to the second water using area, the second water using area is communicated with the second cooling area through a fourth pipeline to discharge used cooling water to the second cooling area, and the second cooling area is configured to cool and convey the used cooling water to the second cooling water tank;

The water tank communication pipeline is respectively communicated with the first cooling water tank and the second cooling water tank, and a water tank communication control valve is arranged on the water tank communication pipeline;

the water use area communicating pipeline is respectively communicated with the first water use area and the second water use area, and a water use area communicating control valve is arranged on the water use area communicating pipeline;

The controller is respectively connected with the water tank communication control valve and the water use area communication control valve in a signal way, and the controller is used for controlling the opening and closing of the water tank communication pipeline and the water use area communication pipeline.

2. The cooling water circulation tank adjusting system according to claim 1, wherein,

The first cooling water tank is provided with a first liquid level display which is used for displaying the water quantity of the cooling water in the first cooling water tank;

The second cooling water tank is provided with a second liquid level display which is used for displaying the water quantity of the cooling water in the second cooling water tank;

The controller is respectively connected with the first liquid level display and the second liquid level display in a signal way, and is used for controlling the opening and closing of the water tank communication control valve and the water use area communication control valve according to the water quantity of the cooling water in the first cooling water tank and the second cooling water tank.

3. The cooling water circulation tank adjusting system according to claim 1, wherein,

The pool communication pipeline is respectively communicated with the first pipeline and the third pipeline, and the pool communication control valve is positioned between the first pipeline and the third pipeline.

4. The cooling water circulation tank adjusting system according to claim 3, wherein,

The first pipeline is provided with a first control valve and a first check valve, the first control valve is arranged close to the first cooling water tank, the first check valve is arranged close to the water tank communication control valve, and the first control valve is used for controlling the opening and closing of the first pipeline;

The third pipeline is provided with a third control valve and a second check valve, the third control valve is close to the second cooling water tank, the second check valve is close to the water tank communication control valve, and the third control valve is used for controlling the opening and closing of the third pipeline.

5. The cooling water circulation tank adjusting system according to claim 4, wherein,

The first pipeline is also provided with a first water pump, and the first water pump is positioned between the first control valve and the first check valve;

And a second water pump is further arranged on the third pipeline and is positioned between the third control valve and the second check valve.

6. The cooling water circulation tank adjusting system according to claim 5, wherein,

A fifth control valve is further arranged on the first pipeline and is positioned between the first check valve and the pool communication control valve, and the fifth control valve is used for controlling the first water pump on the first pipeline to open and close the pipeline between the first water area and the first water area;

The third pipeline is further provided with a sixth control valve, the sixth control valve is located between the second check valve and the pool communication control valve, and the sixth control valve is used for controlling the opening and closing of the pipeline between the second water pump on the third pipeline and the second water using area.

7. The cooling water circulation tank adjusting system according to claim 1, wherein,

The second pipeline is provided with a second control valve which is used for controlling the opening and closing of the second pipeline;

The fourth pipeline is provided with a fourth control valve, and the fourth control valve is used for controlling the opening and closing of the fourth pipeline.

8. The cooling water circulation tank adjusting system according to claim 7, wherein,

The second pipeline is also provided with a first bypass control valve, and the first bypass control valve and the second control valve are arranged in parallel;

and a second bypass control valve is further arranged on the fourth pipeline, and the second bypass control valve is connected with the fourth control valve in parallel.

9. The cooling water circulation tank adjusting system according to claim 1, wherein,

The circulating cooling water tank adjusting system further comprises a first water conveying pipeline, wherein the first water conveying pipeline is communicated with the first cooling water tank and is used for conveying purified water to the first cooling water tank;

The circulating cooling water tank adjusting system further comprises a second water conveying pipeline, the second water conveying pipeline is communicated with the second cooling water tank, and the second water conveying pipeline is used for conveying purified water to the second cooling water tank.

10. The cooling water circulation tank adjusting system according to claim 9, wherein,

The first water delivery pipeline is sequentially provided with a first water delivery control valve, a first water delivery pump and a first water purifier, wherein the first water delivery control valve is used for controlling the opening and closing of the first water delivery pipeline, and the first water purifier is positioned between the first water delivery pump and the first cooling water tank;

The second water delivery pipeline is sequentially provided with a second water delivery control valve, a second water delivery pump and a second water purifier, the second water delivery control valve is used for controlling the opening and closing of the second water delivery pipeline, and the second water purifier is located between the second water delivery pump and the second cooling water tank.