CN220528422U - Liquid cooling container temperature regulation equipment - Google Patents

Abstract

The utility model discloses a liquid cooling container temperature regulating device, comprising: the box body can accommodate equipment devices and is configured to be in a sealing state when closed; the equipment cooling device is arranged in the box body and is communicated with a cold source device outside the box body through a pipeline, the cold source device is configured to provide low-temperature cooling liquid, and the equipment cooling device is configured to exchange heat with equipment devices; the gas cooling device is arranged in the box body and comprises a heat exchanger and a ventilation assembly, the heat exchanger is communicated with the cold source device through a pipeline and is configured to exchange heat with gas in the box body, and the ventilation assembly is configured to provide power for gas internal circulation in the box body. The liquid cooling container temperature regulating device provided by the utility model can realize the cooling of the gas in the container body and the device through the cooling liquid, does not need to exchange gas with the outside of the container body, and can effectively reduce the entry of dust or salt mist into the container.

Description

Liquid cooling container temperature regulation equipment

Technical Field

The utility model relates to the technical field of air conditioning equipment, in particular to liquid cooling container temperature regulating equipment.

Background

In the related art, an energy storage battery or a server is arranged in the container, and the energy storage battery or the server generates heat in the use process, so that air in the container is required to be cooled, and the reliable operation of equipment is ensured.

In the process of implementing the present utility model, the inventor finds that at least the following problems exist in the prior art:

at present, the container heat dissipation can adopt the direct ventilation mode, namely install big fan structure at the side of container, to the big and coastal area of sand blown by wind, the dust easily gets into inside the container, leads to influencing the contact compactness on the surface between the inside device of container, and coastal area's weather salt fog is higher, and the salt fog easily gets into inside the container, leads to the inside equipment material of container to be corroded easily to influence the life of equipment.

Disclosure of Invention

Accordingly, an object of the present utility model is to provide a temperature adjusting device for a liquid cooling container, which is used for improving the problem that dust or salt mist easily enters the container in the prior art.

In order to achieve the above object, the present utility model provides the following technical solutions:

a liquid cooled container temperature regulating apparatus comprising:

the box body can accommodate equipment devices and is configured to be in a sealing state when closed;

the equipment cooling device is arranged in the box body and is communicated with a cold source device outside the box body through a pipeline, the cold source device is configured to provide low-temperature cooling liquid, and the equipment cooling device is configured to exchange heat with the equipment device;

the gas cooling device is arranged in the box body and comprises a heat exchanger and a ventilation assembly, the heat exchanger is communicated with the cold source device through a pipeline and is configured to exchange heat with gas in the box body, and the ventilation assembly is configured to provide power for internal circulation of the gas in the box body.

Optionally, the gas cooling device set up in the top in the box, the gas cooling device still includes the casing, heat exchanger and ventilation assembly set up in the casing, the side of casing is provided with the air intake, the bottom surface of casing is provided with the air outlet.

Optionally, the ventilation assembly includes a heat exchange fan, and the heat exchange fan is mounted on the bottom surface of the shell;

and/or at least one side surface of the shell is provided with an air inlet net.

Optionally, the heat exchanger is provided with a drain pipe, and an end of the drain pipe extends out of the tank body and is used for draining condensed water on the surface of the heat exchanger.

Optionally, the device cooling device comprises a first connecting pipe, a main water pump, a main pipeline and a second connecting pipe which are sequentially connected, wherein the first connecting pipe and the second connecting pipe are both communicated with the cold source device through pipelines, and the main pipeline is also connected with a heat dissipation module of the device so as to enable cooling liquid to flow into the heat dissipation module and enable the cooling liquid to flow back to the main pipeline;

the box is provided with a first through hole, a second through hole, a water inlet pipeline penetrating through the first through hole to be connected with the water outlet end of the cold source device and a water outlet pipeline penetrating through the second through hole to be connected with the water return end of the cold source device, the water inlet ends of the first connecting pipe and the heat exchanger are communicated with the water inlet pipeline, and the water outlet ends of the second connecting pipe and the heat exchanger are communicated with the water outlet pipeline.

Optionally, a first sealing element for sealing the first through hole is arranged on the periphery of the water inlet pipeline, and a second sealing element for sealing the second through hole is arranged on the periphery of the water outlet pipeline.

Optionally, the device cooling apparatus further includes an expansion tank disposed in the tank, and the expansion tank is connected between the main water pump and the main pipeline, so as to maintain the pressure in the main pipeline within a preset range.

Optionally, the device cooling device further comprises a water tank, a water supplementing pump and a control valve, wherein the water supplementing pump is communicated with the water tank, the control valve is used for controlling on-off of a pipeline where the water tank and the water supplementing pump are located, and the water supplementing pump is configured to pump liquid in the water tank to the main pipeline.

Optionally, the main pipeline comprises a plurality of branches, and for any of the equipment devices, at least one branch of the main pipeline is adjacent to or attached to the main pipeline.

Optionally, a sealed space is formed in the box body, and at least one openable sealing door is arranged on the side surface of the box body.

The liquid cooling container temperature regulating device provided by the utility model has the following beneficial effects: the liquid cooling container temperature regulating device provided by the utility model does not need to exchange gas with the outside of the container body in the specific use process, and the cooling of the gas in the container body and the device components is realized through the cooling liquid, so that the sealing of the container is realized, and dust or salt mist can be reduced from entering the container. Therefore, the liquid cooling container temperature regulating device provided by the utility model can solve the problem that dust or salt mist in the prior art easily enters the container.

Drawings

In order to more clearly illustrate the embodiments of the present utility model or the technical solutions in the prior art, the drawings that are required to be used in the embodiments or the description of the prior art will be briefly described below, and it is obvious that the drawings in the following description are only embodiments of the present utility model, and that other drawings can be obtained according to the provided drawings without inventive effort for a person skilled in the art.

FIG. 1 is a schematic diagram of a specific embodiment of a liquid-cooled container temperature regulating apparatus provided by the present utility model;

FIG. 2 is a schematic diagram of the liquid cooled container temperature regulating apparatus of FIG. 1 with the housing removed;

FIG. 3 is a schematic view of the structure of the cooling device of the apparatus;

FIG. 4 is a schematic diagram of a gas cooling apparatus;

fig. 5 is a schematic diagram of a heat exchanger and related structures in a gas cooling device.

In fig. 1-5:

the device comprises a box body 1, a device cooling device 2, a power supply control cabinet 3, a pump station variable frequency control cabinet 4, a main pipeline 5, a gas cooling device 6, a battery pack or a server 7, a container side door 8, a container back door 9, a mounting frame 10, a cooling tower variable frequency control cabinet 11, an expansion tank 12, a main water pump 13, a water tank 14, a first connecting pipe 15, a second connecting pipe 16, a pump station mounting frame 17, a main device water inlet interface 18, a main device water outlet interface 19, a water supplementing pump 20, a heat exchanger water inlet pipe 21, a heat exchanger water outlet pipe 22, a heat exchanger water outlet pipe 23, a heat exchange fan 24, a heat exchanger 25, a shell 26, a heat exchanger water outlet collecting port 27, a heat exchanger water inlet collecting port 28, a heat exchanger water outlet collecting port 29, an air inlet net 30, a device 31 and a ventilation component 32.

Detailed Description

The following description of the embodiments of the present utility model 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 utility model, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the utility model without making any inventive effort, are intended to be within the scope of the utility model.

In the related art, an energy storage battery or a server is arranged in the container, and the energy storage battery or the server generates heat in the use process, so that air in the container is required to be cooled, and the reliable operation of equipment is ensured.

At present, the container generally adopts a mode of installing an overhead air conditioner and installing a radiating structure of a side air conditioner, the structural form needs to maintain the air conditioner irregularly, and when the container is applied to a region with larger wind sand throughout the year, the air conditioner external circulation air port is easily blocked, so that the refrigerating capacity of the air conditioner is reduced, and the normal operation of the internal equipment of the container is influenced; or, adopt the straight wind mode, install big fan structure at the side of container promptly, to the sand blown by the wind great and coastal area, the dust easily gets into inside the container, leads to influencing the contact compactness of the surface between the inside device of container, and the weather salt fog in coastal area is higher, and the salt fog easily gets into inside the container, leads to the inside equipment material of container to be corroded easily to influence the life of equipment.

In order to solve the problems, the core of the utility model is to provide a liquid cooling container temperature regulating device, which cools equipment devices in a container body through an equipment cooling device, cools gas in the container body through a gas cooling device, and performs heat exchange through cooling liquid, thereby avoiding the arrangement of air inlet holes and air outlet holes of the container, being beneficial to realizing the sealing of the container and reducing dust or salt mist from entering the container.

Please refer to fig. 1-5.

The embodiment discloses liquid cooling container temperature regulation equipment, includes:

in the case 1, the device 31 may be accommodated in the case 1, and in general, the case 1 accommodates a plurality of device 31, and the case 1 is configured to be in a sealed state when closed, that is, when the case 1 is closed, the gas in the case 1 is not exchanged with the external gas.

The apparatus cooling device 2 is disposed in the case 1, and the apparatus cooling device 2 is in communication with a cold source device (not shown in the drawing) outside the case 1 through a pipe, the cold source device being configured to supply a low-temperature coolant, the apparatus cooling device 2 being configured to exchange heat with the apparatus device 31. Specifically, the device cooling device 2 includes a first connecting pipe 15, a main water pump 13, a main pipeline 5, and a second connecting pipe 16 that are sequentially connected, where the first connecting pipe 15 and the second connecting pipe 16 are all connected to a heat sink device outside the box 1 through pipelines, the main pipeline 5 is further connected to a heat dissipation module of the device 31, so that cooling liquid flows into the heat dissipation module and flows back to the main pipeline 5, the cooling liquid provided by the heat sink device flows through the first connecting pipe 15, the main water pump 13, the main pipeline 5, the heat dissipation module of the device 31, the main pipeline 5, and the second connecting pipe 16 sequentially, and the cooling liquid can flow back to the heat sink device from the second connecting pipe 16, so that heat of the device 31 is taken away based on heat exchange between the heat dissipation module and the corresponding device 31, and based on heat exchange between the cooling liquid and the heat dissipation module. It can be appreciated that the heat dissipation module of the device 31 may be a cold plate type liquid cooling heat dissipation structure or an immersed liquid cooling heat dissipation structure, and specific implementation may refer to the prior art, which is not repeated herein and is not limited thereto.

The gas cooling device 6 is arranged in the box body 1, the gas cooling device 6 comprises a heat exchanger 25 and a ventilation assembly 32, the heat exchanger 25 is communicated with the cold source device through a pipeline to form a circulation loop, the heat exchanger 25 is configured to exchange heat with gas in the box body 1, and the ventilation assembly 32 is configured to power the internal circulation of the gas in the box body 1.

Preferably, the gas cooling device 6 may be provided at the top inside the case 1, so that the installation space may not be preempted with the equipment device 31 to improve the space utilization.

It should be noted that, in this embodiment, the device 31 includes a power structure, a server, and the like, and is specifically determined according to the actual situation, which is not described herein. Since the device 31 needs to dissipate heat during use, the liquid cooling container temperature adjusting device provided in this embodiment is generally used for cooling the device 31 in the box 1 and reducing the temperature in the box 1.

Specifically, as shown in fig. 3, the liquid cooling container temperature adjusting device may be provided with a main device water inlet 18 connected with the first connecting pipe 15 and a main device water outlet 19 connected with the second connecting pipe 16, wherein the other end of the main device water inlet 18 is connected with the main pipeline 5, and the other end of the main device water outlet 19 is connected with the main pipeline 5.

In the process of using the liquid cooling container temperature adjusting device provided by this embodiment, the cooling liquid provided by the cold source device flows through the first connecting pipe 15, the main water pump 13, the main pipeline 5, the heat dissipation module of the device 31, the main pipeline 5, the second connecting pipe 16 and flows back to the cold source device in sequence, and in the process of flowing through the main pipeline 5, the cooling liquid exchanges heat with the plurality of device 31 in the process of flowing through the main pipeline 5 based on the heat exchange between the heat dissipation module and the corresponding device 31 and the heat exchange between the cooling liquid and the heat dissipation module, so that heat generated by the plurality of device 31 is taken away, and the device 31 is cooled; meanwhile, part of the cooling liquid provided by the cold source device flows through the heat exchanger 25 and flows back to the cold source device, the cooling liquid exchanges heat with the gas around the heat exchanger 25 in the process of flowing through the heat exchanger 25, so that the temperature of the gas around the heat exchanger 25 is reduced, the ventilation assembly 32 provides power for the internal circulation of the gas in the box body 1, the heat exchange efficiency of the heat exchanger 25 and the surrounding gas can be effectively improved, and the temperature of the gas in the box body 1 is reduced, thereby reducing the temperature in the box body 1.

Compared with the prior art, the liquid cooling container temperature regulating device provided by the embodiment does not need to exchange gas with the outside of the container body 1 in the specific use process, realizes cooling of gas in the container body 1 and the device 31 through cooling liquid, is favorable for realizing sealing of a container, and can effectively reduce dust or salt mist from entering the container. Therefore, the liquid cooling container temperature regulating device provided by the utility model can solve the problem that dust or salt mist in the prior art easily enters the container.

In a specific embodiment, the cold source device may adopt a cooling tower (or called cooling tower), and the cooling tower is respectively connected with the equipment cooling device 2 and the gas cooling device 6 to form a circulation loop, so that low-temperature cooling liquid can be continuously provided through the cooling tower to support continuous operation of the equipment cooling device 2 and the gas cooling device 6. Of course, in other embodiments, the cold source device may also be other structures capable of providing the low-temperature cooling liquid, which is not described and limited herein.

In a specific embodiment, the gas cooling device 6 includes a housing 26, a heat exchanger 25 and a ventilation assembly 32 are disposed in the housing 26, an air inlet is disposed on a side surface of the housing 26, an air outlet is disposed on a bottom surface of the housing 26, the ventilation assembly 32 includes a heat exchange fan 24, and the heat exchange fan 24 is mounted on the bottom surface of the housing 26; and/or at least one side of the housing 26 is provided with an air intake screen 30.

As shown in fig. 5, air intake nets 30 may be provided at both front and rear sides of the housing 26, and a plurality of heat exchange fans 24 and a bottom surface of the housing 26 may be provided.

In the actual use process, the heat exchanger 25 is disposed on the housing 26, and in order to make the heat exchanger 25 fully contact with the housing 26, the housing 26 may be wrapped on the outside of the heat exchanger 25, or the heat exchanger 25 may be bent.

As shown in fig. 5, the shell 26 is provided with a heat exchanger water outlet collector 27, a heat exchanger water inlet collector 28 and a heat exchanger water discharge collector 29, as shown in fig. 4, the liquid cooling container temperature regulating device is further provided with a heat exchanger water inlet pipe 21 connected with the heat exchanger water inlet collector 28, a heat exchanger water outlet pipe 22 connected with the heat exchanger water outlet collector 27 and a heat exchanger water discharge pipe 23 connected with the heat exchanger water discharge collector 29, in the specific use process, cooling liquid provided by a cold source device outside the box 1 enters the heat exchanger 25 through the heat exchanger water inlet pipe 21 and the heat exchanger water inlet collector 28, and exchanges heat with gas around the heat exchanger 25 in the heat exchanger 25 to reduce the temperature of the gas around the heat exchanger 25, and the cooling liquid after absorbing heat flows back to the cold source device through the heat exchanger water outlet collector 27 and the heat exchanger water outlet pipe 22; because the temperature of the surface of the heat exchanger 25 is low, the water vapor is easy to condense and liquefy on the surface of the heat exchanger 25, and the liquefied liquid on the surface of the heat exchanger 25 flows out of the box body 1 through the heat exchanger drainage collecting port 29 and the heat exchanger drainage pipe 23; in the box body 1, gas enters the shell 26 from the air inlet net and approaches the heat exchanger 25, and after heat exchange with the heat exchanger 25 is completed, the gas is discharged into the box body 1 from the position of the bottom surface heat exchange fan 24 of the shell 26, so that the temperature in the box body 1 is reduced, and the effect of assisting in cooling can be achieved. It will be appreciated that a pump may be provided in the heat exchanger inlet conduit 21 to provide additional flow power to the coolant flowing through the heat exchanger 25.

In a specific embodiment, a first through hole, a second through hole, a water inlet pipeline penetrating through the first through hole and connected with the water outlet end of the cold source device, and a water outlet pipeline penetrating through the second through hole and connected with the water return end of the cold source device may be arranged on the box body 1, the water inlet ends of the first connecting pipe 15 and the heat exchanger 25 are all communicated with the water inlet pipeline, and the water outlet ends of the second connecting pipe 16 and the heat exchanger 25 are all communicated with the water outlet pipeline.

Preferably, only one water outlet pipeline and one water inlet pipeline are arranged, so that the water inlet ends of the first connecting pipe 15 and the heat exchanger 25 are connected to the water inlet pipeline, the water outlet ends of the second connecting pipe 16 and the heat exchanger 25 are connected to the water outlet pipeline, and the heat exchanger 25 is connected in parallel with the pipeline formed by the first connecting pipe 15, the main water pump 13, the main pipeline 5 and the second connecting pipe 16 in the equipment cooling device 2; the number of the holes on the box body 1 is reduced, and the sealing arrangement of the box body 1 is facilitated.

Specifically, a first sealing member for sealing the first through hole may be disposed on the outer periphery of the water inlet pipe, and a second sealing member for sealing the second through hole may be disposed on the outer periphery of the water outlet pipe.

As shown in fig. 3, the apparatus cooling device 2 further includes an expansion tank 12 disposed in the tank 1, the expansion tank 12 is connected to a circulation loop formed by connecting a first connecting pipe 15, a main water pump 13, a main pipeline 5, and a second connecting pipe 16, specifically, the expansion tank 12 is connected between the main water pump 13 and the main pipeline 5, and the expansion tank 12 is filled with a pressure-stabilizing gas, so that the pressure in the main pipeline 5 is maintained within a preset range.

In the specific use process, the first connecting pipe 15, the main water pump 13, the main pipeline 5, the second connecting pipe 16 and the cold source device outside the box body 1 form a circulation loop, when the pressure in the circulation loop is lost, the gas in the expansion tank 12 automatically expands, the cooling liquid in the expansion tank 12 is pressed into the circulation loop formed by the first connecting pipe 15, the main water pump 13, the main pipeline 5, the second connecting pipe 16 and the cold source device outside the box body 1, when the pressure in the circulation loop formed by the first connecting pipe 15, the main water pump 13, the main pipeline 5, the second connecting pipe 16 and the cold source device outside the box body 1 is increased, the cooling liquid in the circulation loop enters the expansion tank 12, the pressure in the pipeline of the circulation loop is kept within a preset range all the time, and the bottom interface of the expansion tank 12 is connected with the water outlet end of the main pipeline 5 through a hose.

The device cooling apparatus 2 further comprises a water tank 14, a water supplementing pump 20 connected with the water tank 14, and a control valve, wherein the control valve is used for controlling on-off of the water tank 14 and a pipeline where the water supplementing pump 20 is located, and the water supplementing pump 20 is configured to pump liquid in the water tank 14 to the main pipeline 5.

The water tank 14, the water supplementing pump 20 connected with the water tank 14 and the control valve form a fluid supplementing system, which is used for supplementing fluid into a circulating loop formed by the first connecting pipe 15, the main water pump 13, the main pipeline 5, the second connecting pipe 16 and a cold source device outside the tank body 1 so as to ensure that the circulating loop stably operates.

As shown in fig. 3, the equipment cooling device 2 is provided with a pump station mounting frame 17, the water tank 14, the water supplementing pump 20, the main water pump 13, the pump station variable frequency control cabinet 4 and the like are all arranged on the pump station mounting frame 17, the pump station variable frequency control cabinet 4 can be set as a PLC controller, a plurality of sensors for detecting relevant data such as temperature and humidity are arranged in the box body 1, the pump station variable frequency control cabinet 4 can realize automatic monitoring of each sensor, control normal operation of each electromechanical unit, and transmit monitoring information to a client monitoring system through communication, so as to provide power and control signal support for the cooling tower control cabinet.

Preferably, a plurality of branches may be provided in the main pipeline 5, and for any equipment device 31, at least one branch of the main pipeline 5 is adjacent to or attached to the main pipeline, so as to realize cooling of all equipment devices 31. According to the different heat dissipation capacities of different equipment devices 31 in the working process, the area or the branch number of the main pipeline 5 contacted with the equipment devices 31 can be set according to the requirements, and the specific determination is according to the actual situation.

In a specific embodiment, a sealed space is formed in the box body 1, and at least one openable sealing door is arranged on the side surface of the box body 1; as shown in fig. 1, a container side door 8 is provided at one side of the case 1, and a container rear door 9 is provided at the rear end of the case 1. In the closed state of the container side door 8 and the container rear door 9, the inside of the container body 1 is in a sealed state.

The case 1 may be a container, or may be other case 1 structures that meet the requirements.

As shown in fig. 1 and 2, the liquid cooling container temperature adjusting device comprises a power supply control cabinet 3, a battery pack or a server 7 and a cooling tower variable frequency control cabinet 11 which are arranged in a box body 1, wherein the battery pack or the server 7 is arranged in a mounting frame 10 in the box body 1; the power supply control cabinet 3 is mainly responsible for supplying power to the high-performance computing power unit, connecting a network, detecting the state of the total electric energy, summarizing and outputting the current and the like; the cooling tower variable frequency control cabinet 11 is mainly responsible for controlling the operation of the cooling tower fan and the spray pump, is connected with each sensor signal and transmits the sensor signal to the main control cabinet control unit.

The terms "first" and "second" in the first through hole and the second through hole in this specification are merely for distinguishing between different positions, and are not sequentially distinguished.

In the present specification, each embodiment is described in a progressive manner, and each embodiment is mainly described in a different point from other embodiments, and identical and similar parts between the embodiments are all enough to refer to each other. Any combination of all the embodiments provided in the present utility model is within the protection scope of the present utility model, and will not be described herein.

The liquid cooling container temperature regulating device provided by the utility model is described in detail above. The principles and embodiments of the present utility model have been described herein with reference to specific examples, the description of which is intended only to facilitate an understanding of the method of the present utility model and its core ideas. It should be noted that it will be apparent to those skilled in the art that various modifications and adaptations of the utility model can be made without departing from the principles of the utility model and these modifications and adaptations are intended to be within the scope of the utility model as defined in the following claims.

Claims (10)

1. A liquid cooled container temperature regulating apparatus comprising:

a case (1) in which an apparatus device (31) can be housed, and which case (1) is configured to be in a sealed state when closed;

the equipment cooling device (2) is arranged in the box body (1), the equipment cooling device (2) is communicated with a cold source device outside the box body (1) through a pipeline, the cold source device is configured to provide low-temperature cooling liquid, and the equipment cooling device (2) is configured to exchange heat with the equipment device (31);

the gas cooling device (6) is arranged in the box body (1), the gas cooling device (6) comprises a heat exchanger (25) and a ventilation assembly (32), the heat exchanger (25) is communicated with the cold source device through a pipeline, the heat exchanger (25) is configured to exchange heat with gas in the box body (1), and the ventilation assembly (32) is configured to provide power for gas internal circulation in the box body (1).

2. The liquid cooling container temperature regulating device according to claim 1, wherein the gas cooling device (6) is arranged at the top in the container body (1), the gas cooling device (6) further comprises a shell (26), the heat exchanger (25) and the ventilation assembly (32) are arranged in the shell (26), an air inlet is arranged on the side face of the shell (26), and an air outlet is arranged on the bottom face of the shell (26).

3. The liquid cooled container temperature regulating device of claim 2, wherein the ventilation assembly (32) comprises a heat exchange fan (24), the heat exchange fan (24) being mounted to a bottom surface of the housing (26);

and/or at least one side of the shell (26) is provided with an air inlet net (30).

4. The liquid cooled container temperature regulating device according to claim 2, characterized in that the heat exchanger (25) is provided with a drain pipe, the end of which extends out of the tank (1) for draining condensate water from the surface of the heat exchanger (25).

5. The liquid cooling container temperature regulating device according to claim 1, wherein the device cooling device (2) comprises a first connecting pipe (15), a main water pump (13), a main pipeline (5) and a second connecting pipe (16) which are sequentially connected, the first connecting pipe (15) and the second connecting pipe (16) are communicated with the cold source device through pipelines, and the main pipeline (5) is also connected with a heat dissipation module of the device (31) so as to enable cooling liquid to flow into the heat dissipation module and enable cooling liquid flow to flow back to the main pipeline (5);

be provided with first through-hole, second through-hole, pass on box (1) first through-hole is connected the water inlet pipeline of cold source device's play water end and pass the second through-hole is connected the outlet pipe way of cold source device's return water end, first connecting pipe (15) with the water inlet end of heat exchanger (25) all with water inlet pipeline intercommunication, second connecting pipe (16) with the water outlet end of heat exchanger (25) all with outlet pipeline intercommunication.

6. The liquid cooling container temperature regulating apparatus according to claim 5, wherein the outer periphery of the water inlet pipe is provided with a first seal for sealing the first through hole, and the outer periphery of the water outlet pipe is provided with a second seal for sealing the second through hole.

7. The liquid cooled container temperature regulating device according to claim 5, characterized in that the device cooling means (2) further comprises an expansion tank (12) arranged in the tank (1), the expansion tank (12) being connected between the main water pump (13) and the main pipe (5) to maintain the pressure in the main pipe (5) within a preset range.

8. The liquid cooling container temperature regulating device according to claim 7, wherein the device cooling device (2) further comprises a water tank (14), a water supplementing pump (20) communicated with the water tank (14), and a control valve, wherein the control valve is used for controlling on-off of the water tank (14) and a pipeline where the water supplementing pump (20) is located, and the water supplementing pump (20) is configured to pump liquid in the water tank (14) to the main pipeline (5).

9. The liquid cooled container temperature regulating device according to claim 7, characterized in that the main conduit (5) comprises a plurality of branches, for any of the device elements (31) there is at least one branch of the main conduit (5) adjacent or abutting thereto.

10. The liquid cooled container temperature regulating device according to any of claims 1-9, characterized in that the tank (1) is provided with at least one openable and closable sealing door.