CN216668068U - Cooling device and cooling apparatus - Google Patents

Abstract

The embodiment of the application discloses cooling device and cooling apparatus. The cooling device comprises a refrigerator, a pipeline, an air inlet pipe and a first valve; the refrigerator has delivery port and return water mouth, the pipeline has into water end and play water end, the end of intaking with the delivery port intercommunication, go out the water end with return water mouth intercommunication, intake pipe one end in first hookup location with the pipeline intercommunication, just the intake pipe has the air inlet, first valve set up in the intake pipe just is located first hookup location with between the air inlet, be used for control the intake pipe with the logical stifled of pipeline. Through setting up intake pipe and first valve, when the impurity in the pipeline is cleared up to needs, emit the liquid in the pipeline, open first valve, pour into gas into in intake pipe and the pipeline from the air inlet, when gaseous circulation in the pipeline, can take away adnexed impurity in the pipeline, and then play the effect of clean pipeline.

Description

Cooling device and cooling apparatus

Technical Field

The application relates to the field of equipment cooling, in particular to a cooling device and cooling equipment.

Background

The water circulating cooling system is a water supply system for cooling water to exchange hot water, and the hot water is cooled and recycled, and generally comprises cooling equipment, a water pump and a pipeline.

Water circulative cooling system among the correlation technique can produce some impurity, and impurity adheres to in cooling water circulation pipeline, can lead to cooling water flow to be less than the demand flow, can not reach the cooling effect of equipment demand.

SUMMERY OF THE UTILITY MODEL

The embodiment of the application provides a cooling device and cooling equipment, which can effectively remove impurities in a pipeline and ensure the cooling effect of the cooling device. The technical scheme is as follows:

in a first aspect, an embodiment of the present application provides a cooling device, including:

a refrigerator having a water outlet and a water return port;

the pipeline is provided with a water inlet end and a water outlet end, the water inlet end is communicated with the water outlet, and the water outlet end is communicated with the water return port;

one end of the air inlet pipe is communicated with the pipeline at a first connecting position, and the air inlet pipe is provided with an air inlet;

the first valve is arranged in the air inlet pipe and positioned between the first connecting position and the air inlet and used for controlling the blockage of the air inlet pipe and the pipeline.

The cooling device of this application embodiment, the lower liquid of injection temperature in refrigerator to the pipeline, the pipeline is through the portion that generates heat, liquid in the pipeline plays the cooling effect of certain degree to the portion that generates heat, liquid takes away the heat through the portion that generates heat, liquid temperature rises, flow back to the refrigerator after the refrigerator and be cooled down by the refrigerator once more, guarantee through the refrigerator that it has refrigerated liquid to be lasted by the injection pipeline, the refrigerator forms water-cooling circulation structure with the pipeline, liquid circulates between refrigerator and pipeline, can play the effect of continuously cooling to the portion that generates heat. In addition, liquid circulates in the pipeline, impurities in the liquid can be attached to the pipeline, and in the past, the impurities are accumulated more, even the liquid flow in the pipeline is lower than the required flow, and the cooling effect required by a heating part cannot be met; when the impurity in the pipeline is cleared up to needs, the liquid in the pipeline is discharged, the first valve is opened, gas is injected into the gas inlet pipe and the pipeline from the gas inlet, and when the gas circulates in the pipeline, the attached impurity in the pipeline can be taken away, so that the effect of cleaning the pipeline is achieved.

In some of these embodiments, the cooling device further comprises: a compressed gas source in communication with the gas inlet.

Based on above-mentioned embodiment, inject gas to the pipeline from the air inlet through compressed air source, the in-process of gaseous circulation plays clean effect to the pipeline.

In some of these embodiments, the cooling device further comprises:

one end of the air outlet pipe is communicated with the pipeline at a second connecting position, and the air outlet pipe and the air inlet pipe are respectively positioned at two ends of the pipeline in the extending direction;

the second valve is arranged on the air outlet pipe and used for controlling the blockage between the air outlet pipe and the pipeline;

two third valves, two the third valve set up in on the pipeline, and one the third valve is located intake end with between the first hookup location, another the third valve is located go out the water end with between the second hookup location, two the third valve is used for control the logical stifled at pipeline both ends.

Based on the embodiment, the through plugs at two ends of the pipeline are controlled by the two third valves, the air outlet pipe is arranged for exhausting air, the second valve is arranged on the air outlet pipe, when the water-cooling circulation structure is used, the air outlet pipe is sealed by the second valve, so that liquid is prevented from flowing out of the air outlet pipe, and the effective operation of water-cooling circulation is guaranteed; when the impurity in the clearance pipeline, open the second valve, the gas in the pipeline of being convenient for is discharged from the outlet duct. Specifically, when water cooling circulation is required to be performed through the cooling device, the two third valves are opened, so that the refrigerating machine can conveniently inject liquid into the pipeline, and the liquid in the pipeline can conveniently flow back to the refrigerating machine, and further the liquid circulation is convenient; when the clearance pipeline, emit the back with the water in the pipeline, close two third valves, pour into compressed gas into to the pipeline from the air inlet, because of the pipeline both ends are shutoff, gaseous further compressed in the pipeline, when opening the second valve, compressed gas is from the outlet duct during discharge, gaseous high-speed circulation in the pipeline, gaseous impurity with the pipeline in the in-process is blown off at the flow, the impact force that produces is bigger when the gaseous quilt of further compression is released, also more thoroughly when the clearance pipeline, totally.

In some embodiments, the number of the air inlet pipe and the number of the air outlet pipe are one, one of the air inlet pipe and the air outlet pipe is arranged on the pipeline and close to the water inlet end, and the other of the air inlet pipe and the air outlet pipe is arranged on the pipeline and close to the water outlet end.

Based on above-mentioned embodiment, along pipeline extending direction, the both ends of pipeline are located to intake pipe and outlet duct branch, ventilate from the one end of pipeline, the other end is given vent to anger, and the compressed gas is cleared up everywhere in the pipeline as far as possible through the overwhelming place of pipeline when being released.

In some embodiments, one air inlet pipe and two air outlet pipes are arranged, at least one end of each air inlet pipe is communicated with the middle part of the pipeline, one air outlet pipe is communicated with the pipeline and is close to the water inlet end, and the other air outlet pipe is communicated with the pipeline and is close to the water outlet end;

the number of the second valves is two, and one second valve is arranged on each air outlet pipe.

Based on the embodiment, the gas inlet pipe is arranged in the middle of the pipeline, gas is injected into the pipeline through the gas inlet pipe, the gas outlet pipes are arranged at the two ends of the pipeline and used for exhausting, and the two exhaust positions are equivalently arranged, so that the gas exhaust efficiency is improved, and the pipeline cleaning efficiency is further improved; in addition, the middle part of the pipeline is ventilated, and the two ends of the pipeline are exhausted, so that compressed gas can pass through the whole section of pipeline when being released, and the cleaning of each part in the pipeline is facilitated.

In some of these embodiments, the cooling device further comprises: the slag collecting box is connected with the air outlet pipe and is provided with an air outlet hole.

Based on above-mentioned embodiment, through collection sediment box with the outlet duct intercommunication, open the second valve after, gaseous venthole from collection sediment box discharges, and the gas of circulation sweeps impurity to collection sediment box, and collection sediment box collects impurity, the centralized processing of being convenient for.

In some embodiments, the cooling device further comprises at least one check valve disposed on the conduit, and at least one check valve is disposed on the conduit proximate to the water outlet.

Based on the embodiment, the check valve is arranged on the pipeline, so that the situation that liquid loses the pushing of the refrigerating machine and overflows after flowing backwards when abnormality occurs is prevented.

In some of these embodiments, the cooling device further comprises:

a flow meter disposed on the pipeline;

and the flow regulating valve is arranged on the pipeline and used for regulating the flow of water flow in the pipeline.

Based on the embodiment, the flow condition of the liquid in the pipeline is adjusted through the flow adjusting valve, the flow meter is used for monitoring the flow condition of the liquid in the pipeline, and the flow of the liquid in the pipeline is convenient to adjust according to the flow condition of the liquid in the monitoring pipeline.

In some of these embodiments, the cooling device further comprises: and the fourth valve is arranged on the pipeline and is respectively arranged at two sides of the flowmeter with the flow regulating valve.

Based on the embodiment, the fourth valve and the flow regulating valve are directly controlled to be closed simultaneously, so that liquid in the pipeline for removing the flow meter is prevented from flowing out, and the flow meter is convenient to remove; in addition, the fourth valve and the flow regulating valve are arranged on two sides of the flowmeter, so that the opening and closing of the fourth valve and the flow regulating valve can be conveniently controlled nearby, and the operation is convenient.

In a second aspect, an embodiment of the present application provides a cooling apparatus, including:

a heat generating portion;

in the cooling device of any of the above embodiments, the duct is in contact with the heat generating portion, and is configured to cool the heat generating portion.

Based on cooling arrangement in this application embodiment, be convenient for clear up the impurity in the pipeline, make the flow condition that the flowmeter detected be difficult for receiving the interference of impurity, and then guarantee the precision of the flow condition of monitoring liquid to be convenient for control the liquid flow in the pipeline, guarantee cooling device's cooling effect, improve equipment's heat-sinking capability.

Drawings

In order to more clearly illustrate the embodiments of the present application or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, it is obvious that the drawings in the following description are only some embodiments of the present application, and for those skilled in the art, other drawings can be obtained according to the drawings without creative efforts.

FIG. 1 is a schematic structural diagram of a cooling device provided in an embodiment of the present application;

fig. 2 is a schematic structural diagram of a cooling device according to another embodiment of the present application.

Reference numerals: 1. a cooling device; 10. a cooling device; 110. a pipeline; 111. a water inlet end; 112. a water outlet end; 120. a refrigerator; 121. a water outlet; 122. a water return port; 130. an air inlet pipe; 131. a first connection location; 132. an air inlet; 140. a first valve; 150. compressing a gas source; 160. an air outlet pipe; 161. a second connection location; 170. a second valve; 180. a third valve; 190. a slag collection box; 200. a check valve; 210. a flow meter; 220. a flow regulating valve; 230. a fourth valve; 20. a heat generating part.

Detailed Description

In order to make the objects, technical solutions and advantages of the present application more clear, embodiments of the present application will be described in further detail below with reference to the accompanying drawings.

When the following description refers to the accompanying drawings, like numbers in different drawings represent the same or similar elements unless otherwise indicated. The embodiments described in the following exemplary embodiments do not represent all embodiments consistent with the present application. Rather, they are merely examples of apparatus and methods consistent with certain aspects of the application, as detailed in the appended claims.

In the water circulation cooling system, liquid in the pipeline easily produces impurity and adheres to in the pipeline, influences the flow of liquid in the pipeline, and then probably influences cooling device's cooling effect, consequently need blow the pipeline at intervals, clears up the impurity in the pipeline. The cleaning method comprises the following steps of firstly placing a sponge with the same size as the inner diameter of a pipe in one end of the pipe, welding a blind plate at the pipe end, opening a hole and welding an air inlet pipe; compressed air is injected into an air inlet of the air inlet pipe, then pressure is gradually built in a sealing area between the sponge and the blind plate, the sponge can be blown out when the pressure reaches a certain degree, and when the sponge comes out from the other end of the pipeline, all foreign matters in the pipeline are taken out. The above-mentioned pipe cleaning operation needs to destroy the structure of the pipe itself, and the operation is very troublesome.

Referring to fig. 1 and 2, to solve the above problem, in a first aspect, an embodiment of the present application provides a cooling apparatus 10, which includes a refrigerator 120, a pipe 110, an air inlet pipe 130, and a first valve 140.

The refrigerator 120 has a water outlet 121 and a water return port 122, the pipe 110 has a water inlet end 111 and a water outlet end 112, the water inlet end 111 is communicated with the water outlet 121, the water outlet end 112 is communicated with the water return port 122, one end of the air inlet pipe 130 is communicated with the pipe 110 at a first connection position 131, the air inlet pipe 130 has an air inlet 132, and the first valve 140 is disposed in the air inlet pipe 130 and between the first connection position 131 and the air inlet 132 for controlling the connection and the blockage of the air inlet pipe 130 and the pipe 110.

In the cooling device 10 of the embodiment of the present application, the refrigerator 120 injects a liquid with a lower temperature into the pipeline 110, the pipeline 110 passes through the heat generating portion 20, the liquid in the pipeline 110 cools the heat generating portion 20, the liquid takes away heat through the heat generating portion 20, the temperature of the liquid rises, the liquid flows back to the refrigerator 120 and is cooled by the refrigerator 120 again, it is ensured that the liquid continuously cooled is injected into the pipeline 110 through the refrigerator 120, the refrigerator 120 and the pipeline 110 form a water-cooling circulation structure, the liquid circulates between the refrigerator 120 and the pipeline 110, and the effect of continuously cooling the heat generating portion 20 can be achieved. In addition, liquid circulates in the pipeline 110, impurities in the liquid may be attached to the pipeline 110, and in the past, the impurities are accumulated more and more, even the liquid flow in the pipeline 110 is lower than the required flow, so that the cooling effect required by the heating part 20 cannot be met, therefore, the air inlet pipe 130 and the first valve 140 are arranged, when the water cooling circulation structure is used, the air inlet pipe 130 is blocked by the first valve 140, the liquid is prevented from flowing out of the air inlet 132 after flowing to the air inlet pipe 130, and the effective operation of the water cooling circulation is favorably ensured; when the impurities in the pipeline 110 need to be cleaned, the liquid in the pipeline 110 is discharged, the first valve 140 is opened, the gas is injected into the gas inlet pipe 130 and the pipeline 110 from the gas inlet 132, and when the gas circulates in the pipeline 110, the impurities attached to the interior of the pipeline 110 can be taken away, so that the pipeline 110 is cleaned. Meanwhile, the pipeline 110 can be cleaned on the premise that the structure of the cooling device 10 is not damaged, and the pipeline 110 can be cleaned by directly introducing gas into the pipeline 110 from the gas inlet pipe 130, so that the cleaning efficiency of the pipeline 100 is higher, and the cleaning is more convenient and simpler.

Further, the cooling device 10 further includes a compressed air source 150, and the compressed air source 150 is communicated with the air inlet 132. The conduit 110 is filled with gas from the gas inlet 132 by the compressed gas source 150, and the conduit 110 is cleaned during the gas circulation. In another embodiment, the compressed air source 150 may be an external device, and when it is desired to introduce air into the air inlet pipe 130, the compressed air source 150 may be communicated with the air inlet 132.

Further, the cooling device 10 further includes an outlet pipe 160, a second valve 170, and two third valves 180. One end of the outlet tube 160 is communicated with the pipeline 110 at a second connecting position 161, the outlet tube 160 and the inlet tube 130 are respectively located at two ends of the pipeline 110 in the extending direction, the second valve 170 is arranged on the outlet tube 160 and used for controlling the connection and disconnection between the outlet tube 160 and the pipeline 110, the two third valves 180 are arranged on the pipeline 110, one third valve 180 is located between the water inlet end 111 and the first connecting position 131, the other third valve 180 is located between the water outlet end 112 and the second connecting position 161, and the two third valves 180 are used for controlling the connection and disconnection between two ends of the pipeline 110.

The two third valves 180 are used for controlling the connection and the blockage of the two ends of the pipeline 110, the air outlet pipe 160 is used for exhausting air, the second valve 170 is arranged on the air outlet pipe 160, when a water-cooling circulation structure is used, the air outlet pipe 160 is blocked by the second valve 170, liquid is prevented from flowing out of the air outlet pipe 160, and the effective operation of water-cooling circulation is favorably ensured; when the impurities in the pipe 110 are cleaned, the second valve 170 is opened, so that the gas in the pipe 110 is discharged from the gas outlet pipe 160. Specifically, when the water cooling cycle through the cooling device 10 is required, the two third valves 180 are opened, so that the refrigerator 120 can conveniently inject the liquid into the pipeline 110, and the liquid in the pipeline 110 can conveniently flow back to the refrigerator 120, so that the liquid circulation is convenient; when cleaning the pipeline 110, after discharging the water in the pipeline 110, closing the two third valves 180, injecting compressed gas into the pipeline 110 from the gas inlet 132, because the two ends of the pipeline 110 are blocked, the gas is further compressed in the pipeline 110, when opening the second valve 170, the compressed gas is discharged from the gas outlet pipe 160, the gas circulates in the pipeline 110 at a high speed, the gas blows off impurities in the pipeline 110 in the process of flowing, the impact force generated when the further compressed gas is released is larger, and the pipeline 110 is cleaned more thoroughly and cleanly.

Referring to fig. 1, it will be appreciated that the portion of the conduit 110 between the first connection location 131 and the second connection location 161 is the actual portion being purged, and therefore, the first connection location 131 and the second connection location 161 are preferably located as close as possible to the two ends of the conduit 110, and therefore, in one embodiment, one of the inlet tube 130 and the outlet tube 160 is located in the conduit 110 near the water inlet end 111, and the other of the inlet tube 130 and the outlet tube 160 is located in the conduit 110 near the water outlet end 112. Along the extending direction of the pipeline 110, the air inlet pipe 130 and the air outlet pipe 160 are respectively arranged at two ends of the pipeline 110, air is ventilated from one end of the pipeline 110, air is exhausted from the other end of the pipeline, compressed air can pass through the largest place of the pipeline 110 as far as possible when being released, and the cleaning of all parts in the pipeline 110 is facilitated.

Specifically, in one embodiment, the air inlet tube 130 is disposed in the conduit 110 near the water inlet end 111, the air outlet tube 160 is disposed in the conduit 110 near the water outlet end 112, one third valve 180 is disposed between the water inlet end 111 and the first connection position 131, and the other third valve 180 is disposed between the water outlet end 112 and the second connection position 161 (as shown in fig. 2). In another embodiment, the outlet tube 160 is disposed at the tube 110 near the water inlet end 111, and the inlet tube 130 is disposed at the tube 110 near the water outlet end 112 (not shown).

Referring to fig. 2, in another embodiment, two air inlet pipes 130 and two air outlet pipes 160 are provided, two ends of each air inlet pipe 130 are communicated with the middle part of the pipe 110, one air outlet pipe 160 is communicated with the pipe 110 near the water inlet end 111, and the other air outlet pipe 160 is communicated with the pipe 110 near the water outlet end 112; the number of the first valves 140 is two, the two first valves 140 are respectively located at two ends of the air inlet pipe 130, the two first valves 140 are respectively located at two sides of the air inlet 132, the number of the second valves 170 is also two, and each air outlet pipe 160 is provided with one second valve 170. The middle part of the pipeline 110 is provided with the air inlet pipe 130, air is simultaneously injected into the pipeline 110 through two ends of the air inlet pipe 130, the two ends of the pipeline 110 are provided with the air outlet pipes 160 for exhausting air, which is equivalent to two air inlet parts and two air exhaust parts, so that the efficiency of injecting the air into the pipeline 110 and the efficiency of exhausting the pipeline 110 are improved, and the efficiency of cleaning the pipeline 110 is further improved; in addition, the middle part of the pipeline 110 is ventilated, and the two ends are exhausted, so that the compressed gas can pass through the whole section of the pipeline 110 when being released, and the cleaning of all parts in the pipeline 110 is facilitated. The gas is compressed in the pipe 110, and when the two outlet pipes 160 are opened, the compressed gas in the pipe 110 flows to the two ends of the pipe 110 and is released from the two outlet pipes 160, and in the discharge process of the compressed gas, when the compressed gas flows in the pipe 110 at a high speed and passes through the vast majority of the pipe 110, the impurities in the pipe 110 are blown away and pass through.

In another embodiment, one air inlet pipe 130 and two air outlet pipes 160 are provided, one end of the air inlet pipe 130 is communicated with the middle part of the pipeline 110, one air outlet pipe 160 is communicated with the pipeline 110 near the water inlet end 111, and the other air outlet pipe 160 is communicated with the pipeline 110 near the water outlet end 112; the number of the second valves 170 is two, the two second valves 170 are respectively disposed on the two air outlet pipes 160, one first valve 140 is disposed, the first valve 140 is disposed on the air inlet pipe 130, and an air inlet 132 is disposed at an end of the air inlet pipe 130 far away from the first connection position 131 and is used for communicating with the compressed air source 150 (not shown in the figure). One end of the gas inlet pipe 130 is communicated with the pipeline 110, gas is injected into the pipeline 110 from the gas inlet pipe 130 and is compressed in the pipeline 110, after the two gas outlet pipes 160 are opened, the compressed gas in the pipeline 110 circulates towards the two ends of the pipeline 110 and is released from the two gas outlet pipes 160, and in the compressed gas discharging process, impurities in the pipeline 110 are blown away when the compressed gas circulates at a high speed in the pipeline and passes through the vast place of the pipeline 110.

Specifically, the air inlet pipe 130 communicates with the middle portion of the duct 110 in the above two embodiments, and the expression of the middle portion of the duct 110 means any other position except for both ends of the duct 110.

Further, the cooling device 10 further includes a slag collection box 190, the slag collection box 190 is connected to the air outlet pipe 160, and the slag collection box 190 has an air outlet hole. Through collection sediment box 190 with outlet duct 160 intercommunication, open second valve 170 back, gaseous venthole from collection sediment box 190 is discharged, and the circulating gas sweeps impurity to collection sediment box 190, and collection sediment box 190 collects impurity, the centralized processing of being convenient for.

Further, the cooling device 10 further includes at least one check valve 200, the check valve 200 is disposed on the pipe 110, and the at least one check valve 200 is disposed on the pipe 110 near the water outlet 121. The check valve 200 is disposed on the pipe 110 to prevent the liquid from losing the driving force of the refrigerator 120 and overflowing after flowing backward when an abnormality occurs.

Specifically, in one embodiment, the number of check valves 200 is one, and the check valves 200 are disposed in the pipe 110 near the water outlet 121. In another embodiment, the number of the check valves 200 is multiple, wherein one check valve 200 is disposed on the pipe 110 near the water outlet 121, and the other check valves 200 are disposed on the pipe 110 at any position.

Further, the cooling device 10 further includes a flow meter 210 and a flow regulating valve 220, wherein the flow meter 210 is disposed on the pipe 110, and the flow regulating valve 220 is disposed on the pipe 110 for regulating the flow rate of the water flow in the pipe 110. The flow regulating valve 220 is used for regulating the flow condition of the liquid in the pipeline 110, and the flow meter 210 is used for monitoring the flow condition of the liquid in the pipeline 110, so that the flow of the liquid in the pipeline 110 can be conveniently regulated according to the flow condition of the liquid in the pipeline 110.

Further, the cooling device 10 further includes a fourth valve 230, and the fourth valve 230 is disposed on the pipe 110 and is disposed on two sides of the flow meter 210 separately from the flow regulating valve 220. The fourth valve 230 and the flow regulating valve 220 are directly controlled to be closed at the same time, so that the liquid in the pipeline 110 is prevented from flowing out when the flowmeter 210 is dismounted, and the flowmeter 210 is dismounted conveniently; in addition, the fourth valve 230 and the flow regulating valve 220 are disposed at two sides of the flow meter 210, so that the opening and closing of the fourth valve 230 and the flow regulating valve 220 can be controlled nearby, and the operation is convenient.

Referring to fig. 1 and 2, in a second aspect, an embodiment of the present application provides a cooling device 1, including a heat generating portion 20 and the cooling device 10 according to any of the above embodiments, wherein a duct 110 is in contact with the heat generating portion 20 for cooling the heat generating portion 20.

Based on cooling arrangement 1 in the embodiment of this application, be convenient for clear up the impurity in pipeline 110, make the flow condition that flowmeter 210 detected not easily receive the interference of impurity, and then guarantee the precision of the flow condition of monitoring liquid to be convenient for control the liquid flow in the pipeline 110, guarantee cooling device 10's cooling effect, improve equipment 1's heat-sinking capability.

In the description of the present application, it is to be understood that the terms "first," "second," and the like are used for descriptive purposes only and are not to be construed as indicating or implying relative importance. The specific meaning of the above terms in the present application can be understood in a specific case by those of ordinary skill in the art. Further, in the description of the present application, "a plurality" means two or more unless otherwise specified. "and/or" describes the association relationship of the associated objects, meaning that there may be three relationships, e.g., a and/or B, which may mean: a exists alone, A and B exist simultaneously, and B exists alone. The character "/" generally indicates that the former and latter associated objects are in an "or" relationship.

The above disclosure is only for the purpose of illustrating the preferred embodiments of the present application and is not to be construed as limiting the scope of the present application, so that the present application is not limited thereto, and all equivalent variations and modifications can be made to the present application.

Claims (10)

1. A cooling apparatus, comprising:

the refrigerator is provided with a water outlet and a water return port;

the pipeline is provided with a water inlet end and a water outlet end, the water inlet end is communicated with the water outlet, and the water outlet end is communicated with the water return port;

one end of the air inlet pipe is communicated with the pipeline at a first connecting position, and the air inlet pipe is provided with an air inlet;

the first valve is arranged in the air inlet pipe and positioned between the first connecting position and the air inlet and used for controlling the blockage of the air inlet pipe and the pipeline.

2. The cooling apparatus according to claim 1, characterized in that the cooling apparatus further comprises:

a compressed gas source in communication with the gas inlet.

3. The cooling apparatus according to claim 1, characterized in that the cooling apparatus further comprises:

one end of the air outlet pipe is communicated with the pipeline at a second connecting position, and the air outlet pipe and the air inlet pipe are respectively positioned at two ends of the pipeline in the extending direction;

The second valve is arranged on the air outlet pipe and used for controlling the blockage between the air outlet pipe and the pipeline;

two third valves, two the third valve set up in on the pipeline, and one the third valve is located intake end with between the first hookup location, another the third valve is located go out the water end with between the second hookup location, two the third valve is used for control the logical stifled at pipeline both ends.

4. The cooling device as claimed in claim 3, wherein the inlet pipe and the outlet pipe are both provided in one piece, one of the inlet pipe and the outlet pipe is provided to the duct near the water inlet end, and the other of the inlet pipe and the outlet pipe is provided to the duct near the water outlet end.

5. The cooling device as claimed in claim 3, wherein one of the air inlet pipes is provided, and two of the air outlet pipes are provided, at least one end of the air inlet pipe is communicated with the middle part of the pipeline, one of the air outlet pipes is communicated with the pipeline and is close to the water inlet end, and the other air outlet pipe is communicated with the pipeline and is close to the water outlet end;

The number of the second valves is two, and one second valve is arranged on each air outlet pipe.

6. The cooling apparatus according to claim 3, characterized in that the cooling apparatus further comprises:

the slag collecting box is connected with the air outlet pipe and is provided with an air outlet hole.

7. The cooling device of claim 3, further comprising at least one check valve disposed on the conduit, wherein the at least one check valve is disposed in the conduit proximate the water outlet.

8. The cooling apparatus according to claim 1, characterized in that the cooling apparatus further comprises:

a flow meter disposed on the pipeline;

and the flow regulating valve is arranged on the pipeline and used for regulating the flow of water flow in the pipeline.

9. The cooling apparatus of claim 8, further comprising:

and the fourth valve is arranged on the pipeline and is respectively arranged at two sides of the flowmeter with the flow regulating valve.

10. A cooling apparatus, comprising:

A heat generating portion;

a cooling device according to any one of claims 6-9, said duct being in contact with said heat-generating portion for cooling said heat-generating portion.

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