CN210274961U - Heat exchange cooling system - Google Patents

Abstract

The utility model provides a heat transfer cooling system, include: the heat collecting device is arranged indoors to absorb heat of indoor air, the heat radiating device is arranged outdoors and is communicated with the heat collecting device through the pipeline assembly to form a loop, the water pump is arranged on the pipeline assembly and is used for enabling water to circularly flow between the heat collecting device and the heat radiating device, and therefore the water subjected to heat exchange with the indoor air continuously flows to the outdoor to be radiated and cooled. So set up, through water as the continuous indoor heat transmission of medium to outdoor, water is circulating flow between heat collection device and heat abstractor all the time, therefore the aqueous vapor can not get into indoorly to through pipeline assembly intercommunication between heat collection device and the heat abstractor, can not have the new trend to get into in computer lab or the basic station, so outdoor dust also can not get into indoorly.

Description

Heat exchange cooling system

Technical Field

The utility model relates to a cooling system technical field, more specifically say, relate to a heat transfer cooling system.

Background

With the increase of mobile users and the improvement of communication quality, the load of a communication server is increased, at present, the problem of overhigh temperature generally exists in a communication machine room or a base station, and the reliability of the operation of electronic components in a cabinet is easily influenced due to overhigh temperature. The main working process of the system is that outdoor air passes through a water curtain, water is used as an evaporation medium, and the water absorbs heat in the evaporation process, so that the temperature of the air is reduced, and finally the cooled air is sent to the indoor space to achieve the purpose of cooling. This kind of cooling mode can lead to humidity in communication computer lab or the basic station to increase, the dust increases, and then can influence whole cooling system, leads to whole cooling system can't normally work. Therefore, how to solve the problem that the humidity in the communication room or the base station is increased and the dust is increased easily by the cooling system of the communication room or the base station in the prior art is a problem that needs to be solved urgently by those skilled in the art.

SUMMERY OF THE UTILITY MODEL

The to-be-solved technical problem of the utility model is to provide a heat transfer cooling system that can not produce moisture and dust indoor.

In order to solve the above problem, the utility model provides a heat transfer cooling system, include: the heat collecting device is arranged indoors to absorb heat of indoor air, the heat radiating device is arranged outdoors and passes through the pipeline assembly and the heat collecting device are communicated to form a loop, the water pump is arranged on the pipeline assembly and used for enabling water to flow circularly between the heat collecting device and the heat radiating device, and therefore water after heat exchange with the indoor air is enabled to flow continuously to the outdoor for heat radiation and cooling.

Preferably, the heat collecting device comprises a heat collecting water tank for containing water and a first air blowing device for enabling indoor air to exchange heat with the heat collecting water tank, the first air blowing device is provided with a first air blowing device air inlet and a first air blowing device air outlet, and the heat collecting water tank is arranged at the first air blowing device air inlet.

Preferably, the heat collecting water tank comprises a heat collecting water tank upper water chamber, a heat collecting water tank lower water chamber and heat collecting pipes, the heat collecting water tank upper water chamber is provided with a heat collecting water tank water inlet, the heat collecting water tank lower water chamber is provided with a heat collecting water tank water outlet, the heat collecting water tank upper water chamber and the heat collecting water tank lower water chamber are communicated through the heat collecting pipes, and the heat collecting water tank water inlet and the heat collecting water tank water outlet are communicated with the pipeline assembly.

Preferably, the heat dissipation device comprises a heat dissipation water tank used for containing water and a second air blowing device used for cooling the heat dissipation water tank, the second air blowing device is provided with a second air blowing device air inlet and a second air blowing device air outlet, and the heat dissipation water tank is arranged at the second air blowing device air inlet.

Preferably, the heat dissipation water tank includes heat dissipation water tank upper header, heat dissipation water tank lower header and cooling tube, heat dissipation water tank upper header is provided with the heat dissipation water tank water inlet, heat dissipation water tank lower header is provided with the heat dissipation water tank delivery port, heat dissipation water tank upper header with the heat dissipation water tank lower header passes through the cooling tube intercommunication, the heat dissipation water tank water inlet with the heat dissipation water tank delivery port all with the pipeline assembly intercommunication.

Preferably, the pipeline assembly includes at least two connecting pipes, one end of each connecting pipe is communicated with the heat collecting device, the other end of each connecting pipe is communicated with the heat radiating device, so that the heat collecting device and the heat radiating device can form a loop, and the water pump is arranged on the connecting pipes.

Preferably, the air supply device further comprises an air supply pipeline arranged indoors, wherein the air supply pipeline comprises an air inlet and at least one air outlet, and the air inlet is communicated with the air outlet of the first air blowing device, so that air blown by the first air blowing device enters the air supply pipeline.

Preferably, the first air blowing device is a high pressure fan.

Preferably, the second air blowing device is a fan.

Preferably, each air outlet is uniformly distributed along the length direction of the air supply pipeline.

The utility model provides an among the technical scheme, a heat transfer cooling system, include: the heat collecting device is arranged indoors to absorb heat of indoor air, the heat radiating device is arranged outdoors and is communicated with the heat collecting device through the pipeline assembly to form a loop, the water pump is arranged on the pipeline assembly and is used for enabling water to circularly flow between the heat collecting device and the heat radiating device, and therefore the water subjected to heat exchange with the indoor air continuously flows to the outdoor to be radiated and cooled. So set up, the aquatic in the heat collection device is collected with the heat of indoor air to the heat collection device is in order to reduce indoor temperature, and the water pump will absorb indoor heat and the water that the temperature rises is carried outdoor heat abstractor in, will circulate out hot water and cool down, and the water after will dispelling the heat and cooling is sent indoor heat collection device under the effect of water pump again, reaches and lasts the cooling purpose. Indoor heat is continuously transmitted to the outdoor through water as a medium, water circulates between the heat collecting device and the heat radiating device all the time, therefore, water vapor cannot enter the indoor, the heat collecting device is communicated with the heat radiating device through the pipeline assembly, fresh air cannot enter a machine room or a base station, and outdoor dust cannot enter the indoor.

Drawings

In order to more clearly illustrate the embodiments of the present invention 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 invention, and for those skilled in the art, other drawings can be obtained according to these drawings without creative efforts.

FIG. 1 is a schematic structural view of a heat exchange cooling system in an embodiment of the present invention;

fig. 2 is a schematic structural view of a high pressure fan in an embodiment of the present invention;

FIG. 3 is a schematic structural view of a heat collecting water tank according to an embodiment of the present invention;

fig. 4 is a schematic structural diagram of a heat radiation water tank according to an embodiment of the present invention.

In fig. 1-4:

the heat collecting device comprises a heat collecting device-1, a heat radiating device-2, a pipeline assembly-3, a water pump-4, a heat collecting water tank-5, a heat radiating water tank-6, a first air blowing device-7, a second air blowing device-8, an air supply pipeline-9, an air inlet-10 of the first air blowing device, an air outlet 11 of the first air blowing device, an air outlet-12, a heat collecting water tank upper water chamber-13, a heat collecting water tank lower water chamber-14, a heat collecting pipe-15, a heat radiating water tank upper water chamber-16, a heat radiating water tank lower water chamber-17 and a heat radiating pipe.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention clearer, the technical solutions of the present invention will be described in detail below. It is to be understood that the embodiments described are only some embodiments of the invention, and not all embodiments. Based on the embodiments of the present invention, all other embodiments obtained by a person skilled in the art without creative efforts belong to the protection scope of the present invention.

This concrete implementation provides a heat transfer heat sink has solved among the prior art cooling system of communication computer lab or basic station and has leaded to the problem that humidity increases, dust increase in the communication computer lab or the basic station easily.

Hereinafter, embodiments will be described in detail with reference to the accompanying drawings. The embodiments described below do not limit the scope of the invention described in the claims. Further, the entire contents of the configurations shown in the following embodiments are not limited to those necessary as a solution of the invention described in the claims.

Referring to fig. 1-4, in an embodiment of the present invention, a heat exchange cooling system includes: heat collecting device 1, heat abstractor 2, pipeline assembly 3 and water pump 4, all be provided with the water that is used for carrying on the heat exchange in the heat collecting device 1 and in the heat abstractor 2, heat collecting device 1 sets up the heat in order to absorb the room air indoors, heat abstractor 2 sets up outdoors and is linked together through pipeline assembly 3 and heat collecting device 1 and forms the loop, water pump 4 sets up on pipeline assembly 3, water pump 4 is used for making water circulation flow between heat collecting device 1 and heat abstractor 2, so that the water after carrying on the heat exchange with the room air constantly flows to outdoor cooling of dispelling the heat. As shown in fig. 1, optionally, the pipeline assembly 3 includes at least two connecting pipes, one end of each connecting pipe is communicated with the heat collecting device 1, and the other end is communicated with the heat dissipating device 2, so that the heat collecting device 1 and the heat dissipating device 2 can form a loop, and the water pump 4 is disposed on the connecting pipes.

So set up, heat collection device 1 collects the aquatic in heat collection device 1 with the heat of indoor air in order to reduce indoor temperature, and water pump 4 will absorb indoor heat and the water that the temperature rose carries outdoor heat abstractor 2 in and cools down, and the water after will dispelling the heat and cooling is sent indoor heat collection device 1 again, reaches and lasts the cooling purpose. Compared with the prior art, pass through the water curtain with outdoor air, regard as the evaporation medium with water, water absorbs the heat in evaporation process, thereby make the temperature of air reduce, the air after will cooling at last is sent indoor purpose that reaches the cooling to, the utility model provides a heat transfer cooling system mainly carries out the heat transfer as the medium through water, and the circulating water is continuous transmits indoor heat to outdoor purpose in order to reach the cooling, and water circulates the flow all the time between heat collection device 1 and heat abstractor 2, consequently, can not produce the aqueous vapor in communication computer lab or basic station to no new trend blows in communication computer lab or the basic station, therefore the dust also can not follow in new trend entering communication computer lab or the basic station.

As shown in fig. 1, in some embodiments, the heat collecting device 1 includes a heat collecting water tank 5 for containing water and a first air blowing device 7 for heat-exchanging indoor air with the heat collecting water tank 5, the first air blowing device 7 is provided with a first air blowing device air inlet 10 and a first air blowing device air outlet 11, and the heat collecting water tank 5 is disposed at the first air blowing device air inlet 10. On one hand, the first air blowing device 7 can enable indoor air to continuously flow, and the flowing air continuously flows through the surface of the heat collecting water tank 5 to exchange heat with the heat collecting water tank 5, so that the indoor temperature reduction speed can be accelerated; on the other hand, the first blowing means 7 can blow the air, which has been reduced in temperature by absorbing heat, near the heat collecting water tank 5 to various locations in the room. When the first air blowing device 7 is in a working state, the air flow speed at the position of the air inlet 10 of the first air blowing device is slow, relatively stable and advective, the air flow speed at the position of the air outlet 11 of the first air blowing device is fast, fluctuation is large and turbulent, and the heat collecting water tank 5 is arranged at the position of the air inlet 10 of the first air blowing device, so that on one hand, the impact of the air flow on the heat collecting water tank 5 is small, and therefore noise is low; on the other hand, the air flow can stably flow through the surface of the heat collecting water tank 5, so that the air can fully generate heat exchange with the heat collecting water tank 5, and the heat exchange effect is better. As shown in fig. 2, optionally, the first blowing device 7 is a high pressure blower. The high pressure positive blower can blow the air near the heat collecting water tank 5 which is absorbed by heat and the temperature of which is reduced to be farther than a common fan or blower, thereby increasing the cooling area of the heat exchange cooling system.

As shown in fig. 3, the heat collecting water tank 5 includes a heat collecting water tank upper water chamber 13, a heat collecting water tank lower water chamber 14 and a heat collecting pipe 15, the heat collecting water tank upper water chamber 13 is provided with a heat collecting water tank water inlet, the heat collecting water tank lower water chamber 14 is provided with a heat collecting water tank water outlet, the heat collecting water tank upper water chamber 13 and the heat collecting water tank lower water chamber 14 are communicated through the heat collecting pipe 15, and the heat collecting water tank water inlet and the heat collecting water tank water outlet are both. Water enters the upper water chamber 13 of the heat collection water tank from the water inlet of the heat collection water tank, then enters the lower water chamber 14 of the heat collection water tank through the heat collection pipe 15, finally flows out of the water outlet of the heat collection water tank, and exchanges heat with air in the heat collection pipe 15. Preferably, the heat collecting pipe 15 is plural, so that the contact area between the heat collecting water tank 5 and the indoor air can be increased to make the heat exchange speed of the air and the heat collecting water tank 5 faster.

As shown in fig. 1, in some embodiments, the heat dissipation device 2 includes a heat dissipation water tank 6 for containing water and a second air blowing device 8 for cooling the heat dissipation water tank 6, the second air blowing device 8 is provided with a second air blowing device air inlet and a second air blowing device air outlet, and the heat dissipation water tank 6 is disposed at the second air blowing device air inlet. The second air blowing device 8 can accelerate the cooling speed of water in the heat dissipation water tank 6, when the second air blowing device 8 is in a working state, the air flow speed at the air inlet of the second air blowing device is slow and relatively stable and is advection, the air flow speed at the air outlet of the second air blowing device is fast, the fluctuation is large and is turbulent, and the heat dissipation water tank 6 is arranged at the air inlet of the second air blowing device, so that on one hand, the impact of air flow on the heat dissipation water tank 6 is small, and therefore the noise is small; on the other hand, the air flow can stably flow through the surface of the heat dissipation water tank 6, so that the air can sufficiently exchange heat with the heat dissipation water tank, and the heat exchange effect is good. Optionally, the second air blowing device 8 is a fan, which has a good heat dissipation effect and is low in cost.

As shown in fig. 4, in some embodiments, the heat sink water tank 6 includes a heat sink water tank upper water chamber 16, a heat sink water tank lower water chamber 17 and a heat dissipation pipe 18, the heat sink water tank upper water chamber 16 is provided with a heat sink water tank water inlet, the heat sink water tank lower water chamber 17 is provided with a heat sink water tank water outlet, the heat sink water tank upper water chamber 16 and the heat sink water tank lower water chamber 17 are communicated through the heat dissipation pipe 18, and the heat sink water tank water inlet and the heat sink water tank water outlet are. Water enters the upper water chamber 16 of the heat dissipation water tank from the water inlet of the heat dissipation water tank, then enters the lower water chamber 17 of the heat dissipation water tank through the heat dissipation pipe 18, and finally flows out from the water outlet of the heat dissipation water tank, and the water exchanges heat with air in the heat dissipation pipe 18. Preferably, the number of the radiating pipes 18 is plural, so that the contact area between the radiating water tank 6 and the indoor air can be increased, and the cooling speed of the water in the radiating water tank 6 is faster.

As shown in fig. 1, in some embodiments, the heat exchange cooling system further includes a supply duct 9 disposed in the room, and the supply duct 9 includes an air inlet and at least one air outlet 12, and the air inlet is communicated with the air outlet 11 of the first air blowing device, so that the air blown by the first air blowing device 7 enters the supply duct 9. Alternatively, the air outlets 12 are evenly distributed along the length of the air supply duct 9, so that the cooled air blown by the first blowing device 7 can be guided to various indoor locations. Of course, the position of the air outlet 12 may be set according to the specific position of the switch in the machine room, and various communication devices such as the switch are generally provided with a cooling fan, for example, the air outlet 12 may be set opposite to the air inlet of the cooling fan of the various communication devices such as the switch, so that the communication devices can maintain normal operating temperature.

It should be noted that the devices or components with different functions in the above embodiments may be combined, for example, a heat exchange cooling system, which includes: heat collecting device 1, heat abstractor 2, pipeline assembly 3 and water pump 4, all be provided with the water that is used for carrying on the heat exchange in the heat collecting device 1 and in the heat abstractor 2, heat collecting device 1 sets up the heat in order to absorb the room air indoors, heat abstractor 2 sets up outdoors and is linked together through pipeline assembly 3 and heat collecting device 1 and forms the loop, water pump 4 sets up on pipeline assembly 3, water pump 4 is used for making water circulation flow between heat collecting device 1 and heat abstractor 2, so that the water after carrying on the heat exchange with the room air constantly flows to outdoor cooling of dispelling the heat. The pipeline assembly 3 comprises at least two connecting pipes, one end of each connecting pipe is communicated with the heat collecting device 1, the other end of each connecting pipe is communicated with the heat radiating device 2, so that the heat collecting device 1 and the heat radiating device 2 can form a loop, and the water pump 4 is arranged on the connecting pipes.

The heat collecting device 1 comprises a heat collecting water tank 5 used for containing water and a first air blowing device 7 used for enabling indoor air to exchange heat with the heat collecting water tank 5, the first air blowing device 7 is provided with a first air blowing device air inlet 10 and a first air blowing device air outlet 11, and the heat collecting water tank 5 is arranged at the first air blowing device air inlet 10. The heat collection water tank 5 comprises a heat collection water tank upper water chamber 13, a heat collection water tank lower water chamber 14 and a heat collection pipe 15, the heat collection water tank upper water chamber 13 is provided with a heat collection water tank water inlet, the heat collection water tank lower water chamber 14 is provided with a heat collection water tank water outlet, the heat collection water tank upper water chamber 13 and the heat collection water tank lower water chamber 14 are communicated through the heat collection pipe 15, and the heat collection water tank water inlet and the heat collection water tank water outlet are communicated with the. The first blowing device 7 is a high-pressure blower.

The heat dissipation device 2 comprises a heat dissipation water tank 6 used for containing water and a second air blowing device 8 used for cooling the heat dissipation water tank 6, the second air blowing device 8 is provided with a second air blowing device air inlet and a second air blowing device air outlet, and the heat dissipation water tank 6 is arranged at the second air blowing device air inlet. The heat dissipation water tank 6 comprises a heat dissipation water tank upper water chamber 16, a heat dissipation water tank lower water chamber 17 and a heat dissipation pipe 18, the heat dissipation water tank upper water chamber 16 is provided with a heat dissipation water tank 6 water inlet, the heat dissipation water tank lower water chamber 17 is provided with a heat dissipation water tank water outlet, the heat dissipation water tank upper water chamber 16 is communicated with the heat dissipation water tank lower water chamber 17 through the heat dissipation pipe 18, and the heat dissipation water tank water inlet and the heat dissipation water tank water outlet are communicated with the. The second blowing device 8 is a fan

The heat exchange and temperature reduction system further comprises an air supply pipeline 9 arranged indoors, the air supply pipeline 9 comprises an air inlet and at least one air outlet 12, and the air inlet is communicated with an air outlet 11 of the first air blowing device, so that air blown out by the first air blowing device 7 enters the air supply pipeline 9. The outlets 12 are evenly distributed along the length of the supply duct 9.

The previous description of the disclosed embodiments is provided to enable any person skilled in the art to make or use the present invention. Various modifications to these embodiments will be readily apparent to those skilled in the art, and the generic principles defined herein may be applied to other embodiments without departing from the spirit or scope of the invention. Thus, the present invention is not intended to be limited to the embodiments shown herein but is to be accorded the widest scope consistent with the principles and novel features disclosed herein.

Claims (10)

1. A heat exchange cooling system is characterized by comprising: heat collection device (1), heat abstractor (2), pipeline assembly (3) and water pump (4), in heat collection device (1) with all be provided with the water that is used for carrying out the heat exchange in heat abstractor (2), heat abstractor (1) sets up in indoor heat in order to absorb the room air, heat abstractor (2) set up in outdoor and pass through pipeline assembly (3) with heat abstractor (1) is linked together and forms the loop, water pump (4) set up in on the pipeline assembly (3), water pump (4) are used for making water be in heat abstractor (1) with circulation flow between heat abstractor (2) to make the water after carrying out the heat exchange with the room air constantly flow to outdoor cooling of dispelling the heat.

2. The heat exchange and temperature reduction system according to claim 1, wherein the heat collecting device (1) comprises a heat collecting water tank (5) for containing water and a first air blowing device (7) for making indoor air exchange heat with the heat collecting water tank (5), the first air blowing device (7) is provided with a first air blowing device air inlet (10) and a first air blowing device air outlet (11), and the heat collecting water tank (5) is arranged at the first air blowing device air inlet (10).

3. The heat exchange and temperature reduction system according to claim 2, wherein the heat collection water tank (5) comprises a heat collection water tank upper water chamber (13), a heat collection water tank lower water chamber (14) and a heat collection pipe (15), the heat collection water tank upper water chamber (13) is provided with a heat collection water tank water inlet, the heat collection water tank lower water chamber (14) is provided with a heat collection water tank water outlet, the heat collection water tank upper water chamber (13) and the heat collection water tank lower water chamber (14) are communicated through the heat collection pipe (15), and the heat collection water tank water inlet and the heat collection water tank water outlet are both communicated with the pipeline assembly (3).

4. The heat exchange cooling system according to claim 1, wherein the heat sink (2) comprises a heat sink water tank (6) for containing water and a second air blower (8) for cooling the heat sink water tank (6), the second air blower (8) is provided with a second air blower air inlet and a second air blower air outlet, and the heat sink water tank (6) is disposed at the second air blower air inlet.

5. The heat exchange cooling system according to claim 4, wherein the heat dissipation water tank (6) comprises a heat dissipation water tank upper water chamber (16), a heat dissipation water tank lower water chamber (17) and a heat dissipation pipe (18), the heat dissipation water tank upper water chamber (16) is provided with a heat dissipation water tank water inlet, the heat dissipation water tank lower water chamber (17) is provided with a heat dissipation water tank water outlet, the heat dissipation water tank upper water chamber (16) and the heat dissipation water tank lower water chamber (17) are communicated through the heat dissipation pipe (18), and the heat dissipation water tank water inlet and the heat dissipation water tank water outlet are communicated with the pipeline assembly (3).

6. The heat exchange and temperature reduction system according to claim 1, wherein the pipeline assembly (3) comprises at least two connecting pipes, one end of each connecting pipe is communicated with the heat collection device (1), the other end of each connecting pipe is communicated with the heat dissipation device (2), so that the heat collection device (1) and the heat dissipation device (2) can form a loop, and the water pump (4) is arranged on the connecting pipes.

7. The heat exchange cooling system according to claim 2, further comprising a supply duct (9) disposed indoors, wherein the supply duct (9) includes an air inlet and at least one air outlet (12), and the air inlet is communicated with the first air blowing device air outlet (11) to allow air blown by the first air blowing device (7) to enter the supply duct (9).

8. The heat exchange cooling system according to claim 2, wherein the first air blowing device (7) is a high-pressure air blower.

9. The heat exchange cooling system according to claim 4, wherein the second air blowing device (8) is a fan.

10. The heat exchange cooling system according to claim 7, wherein each air outlet (12) is uniformly distributed along the length direction of the air supply duct (9).

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