CN212565977U - Heat conversion device applied to network equipment - Google Patents

Abstract

The application discloses a heat conversion device applied to network equipment, when in use, each network equipment is placed in each placing rack, the network equipment is positioned in a heat exchange box body, insulating cold liquid is poured into the heat exchange box body, the network equipment is completely immersed in the cold liquid, ensuring the heat dissipation of the network equipment, converting the heat generated by the network equipment during data processing into cold liquid, converting the heat into water by the cold liquid flowing through a heat exchanger through a cold liquid circulating pipe and a cold liquid circulating pump, the water temperature rises, and the water is conveyed to the heat preservation water tank through the first water circulating pipe and the water circulating pump to be used for bathing or conveyed to the building radiator to be used for heating the building, and redundant water in the heat preservation water tank and the building radiator can also return to the heat exchange box body through the second water circulating pipe, the heat exchanger and the other cold liquid circulating pipe to form a closed loop circulating mode. And further, the heat dissipation capacity of the network equipment can be improved, and the heat generated by the network equipment can be collected and converted.

Description

Heat conversion device applied to network equipment

Technical Field

The application relates to the technical field of energy conservation and environmental protection, in particular to a heat conversion device applied to network equipment.

Background

With the development of the internet industry, various network devices are also developed, and during the operation of the network devices, a large amount of heat can be generated, but the heat can be directly discharged into the air in an air cooling mode, so that the waste of the heat is caused. Meanwhile, the heat dissipation capability of the heat sink in the network device is easily affected by environmental dust, which easily causes low heat dissipation efficiency of the network device and cannot ensure normal operation of the network device. Therefore, how to convert the heat generated by various network devices in time and improve the heat dissipation effect of the network devices is a main subject of current research.

SUMMERY OF THE UTILITY MODEL

The application provides a heat conversion device for network equipment, and solves the problems that how to convert heat generated by various network settings in time and improve the heat dissipation effect of the network equipment in the prior art.

In order to solve the above technical problem, the present application provides a heat conversion device applied to a network device, including:

the heat exchange box comprises a heat exchange box body and a heat exchanger, wherein a plurality of placing frames are arranged in the heat exchange box body, network equipment is placed in the placing frames, one side of the heat exchange box body is communicated with two cold liquid circulating pipes, one cold liquid circulating pipe is far away from one end of the heat exchange box body and communicated with a cold liquid inlet of the heat exchanger through a cold liquid circulating pump, the other cold liquid circulating pipe is communicated with a cold liquid outlet of the heat exchanger, a water outlet of the heat exchanger is communicated with a first water circulating pipe, the first water circulating pipe is communicated with a heat preservation water tank and a building radiator through a water circulating pump, and a water outlet of the heat preservation water tank and a water outlet of the building radiator are communicated with a water inlet of the heat exchanger.

Preferably, the inner wall of the heat preservation water tank is made of a stainless steel heat preservation material.

Preferably, the first water circulation pipe and the second water circulation pipe are both made of polyvinyl chloride pipes or iron pipes or steel pipes.

Preferably, the rack includes grid plate and a plurality of partition panel, grid plate demountable installation in the inside wall of heat exchange box, and with the bottom surface of heat exchange box is parallel, each partition panel is fixed on the grid plate, and in grid plate mutually perpendicular, network equipment is located the partition panel with in the independent space that the grid plate formed.

Preferably, a box cover is rotatably mounted on the heat exchange box body through a hinge.

Preferably, the network device comprises an internet server, a router, a modem, a computer, a hub, a switch, a bridge, a gateway, a network interface card, a fiber optic transceiver.

Preferably, the heat exchanger comprises a space type heat exchanger, a plate type heat exchanger, an immersed coil type heat exchanger and a shell and tube type heat exchanger.

Preferably, temperature sensors are arranged in the heat exchange box body and the heat preservation water tank.

Compared with the prior art, the heat conversion device applied to the network equipment provided by the application comprises a heat exchange box body and a heat exchanger, a plurality of placing frames are arranged in the heat exchange box body, the network equipment is placed in the placing frames, one side of the heat exchange box body is communicated with two cold liquid circulating pipes, one end, far away from the heat exchange box body, of one cold liquid circulating pipe is communicated with a cold liquid inlet of the heat exchanger through a cold liquid circulating pump, the other cold liquid circulating pipe is communicated with a cold liquid outlet of the heat exchanger, a water outlet of the heat exchanger is communicated with a first water circulating pipe, the first water circulating pipe is communicated with a heat preservation water tank and a building radiator through a water circulating pump respectively, and water outlets of the heat preservation water tank and the building radiator are communicated with a water inlet.

Therefore, when the device is used, all network equipment is placed in all placing racks, the network equipment is located in a heat exchange box, insulating cold liquid is poured into the heat exchange box, the network equipment is completely immersed in the cold liquid, the heat dissipation of the network equipment is guaranteed, heat generated by the network equipment during data processing is converted into the cold liquid, the cold liquid flows through a heat exchanger through a cold liquid circulating pipe and a cold liquid circulating pump to convert the heat into water, the water temperature rises, the cold liquid is conveyed into a heat preservation water tank through a first water circulating pipe and a water circulating pump to supply bathing water or conveyed into a building radiator to supply heat to a building, and redundant water in the heat preservation water tank and the building radiator can also return into the heat exchange box through a second water circulating pipe, the heat exchanger and the other cold liquid circulating pipe to form a closed-loop circulation mode. The heat is converted into water by a liquid cooling circulation mode, so that the heat dissipation capacity of the network equipment is obviously improved, and a good environment is provided for the high-efficiency operation of the network equipment; meanwhile, the network equipment is immersed in the cold liquid, so that the network equipment is prevented from being corroded by air and accumulated with dust, the service life of the network equipment can be prolonged, and the maintenance is convenient; the heat emitted by the network equipment is collected and reused to provide heating requirements or bath water.

Drawings

In order to more clearly explain the technical solution of the present application, the drawings needed to be used in the embodiments are briefly described below, and it is obvious to those skilled in the art that other drawings can be obtained according to the drawings without making any inventive changes.

Fig. 1 is a schematic structural diagram of a heat conversion device applied to a network device according to an embodiment of the present invention;

fig. 2 is a schematic structural view of a heat exchange box according to an embodiment of the present invention;

in the figure, 1 is a heat exchange box body, 2 is a heat exchanger, 3 is a network device, 4 is a cold liquid circulating pipe, 5 is a cold liquid circulating pump, 6 is a first water circulating pipe, 7 is a water circulating pump, 8 is a heat preservation water tank, 9 is a building radiator, 10 is a second water circulating pipe, 11 is a first baffle plate, and 12 is a second baffle plate.

Detailed Description

In order to make those skilled in the art better understand the technical solutions in the present application, the technical solutions in the embodiments of the present application will be described clearly and completely with reference to the accompanying drawings.

The core of the application is to provide a heat conversion device applied to network equipment, which can solve the problem that how to convert heat generated by various network settings in time and improve the heat dissipation effect of the network equipment in the prior art.

Fig. 1 is a schematic structural view of a heat conversion device applied to a network device provided in an embodiment of the present invention, fig. 2 is a schematic structural view of a heat exchange box provided in an embodiment of the present invention, as shown in fig. 1 to fig. 2, the device includes:

heat exchange box 1 and heat exchanger 2, be provided with a plurality of racks in the heat exchange box 1, network equipment 3 has been placed in the rack, one side intercommunication of heat exchange box 1 has two cold liquid circulating pipes 4, the one end that heat exchange box 1 was kept away from to one cold liquid circulating pipe 4 is through the cold liquid import intercommunication of cold liquid circulating pump 5 with heat exchanger 2, another cold liquid circulating pipe 4 and the cold liquid export intercommunication of heat exchanger 2, the delivery port intercommunication of heat exchanger 2 has first water circulating pipe 6, first water circulating pipe 6 passes through water circulating pump 7 and communicates with heat preservation water tank 8 and building radiator 9 respectively, the delivery port of heat preservation water tank 8 and building radiator 9 all communicates with the water inlet of heat exchanger 2 through second water circulating pipe 10.

Specifically, the heat exchange box 1 is a box without a cover, and when the heat exchange box is used, the heat exchange box is flatly placed, the size and the shape of the heat exchange box 1 can be determined according to actual conditions, as a preferred embodiment, a box cover is further rotatably installed on the heat exchange box 1 through a hinge, the box cover is not shown in the drawing, the box cover is arranged to prevent dust from falling into cold liquid in the heat exchange box 1, and the network device 3 is completely immersed in the cold liquid in the heat exchange box 1, so that the network device 3 can conduct heat to the cold liquid in time when in operation. Be provided with a plurality of racks in heat exchange box 1, the setting of rack can play the supporting role to network equipment 3, consider the convenience of setting, preferably, the rack includes grid plate 11 and a plurality of partition panel 12, grid plate 11 demountable installation is in heat exchange box 1's inside wall, and is parallel with heat exchange box 1's bottom surface, each partition panel 12 is fixed on grid plate 11, and in grid plate 11 mutually perpendicular, network equipment 3 is located the independent space that partition panel 12 and grid plate 11 formed. The grid plate 11 is provided with a plurality of grid holes. Two through holes are formed in one side of the heat exchange box body 1 and located below the grid plate 11, two cold liquid circulating pipes 4 are communicated with the two through holes, one cold liquid circulating pipe 4 is used for conveying cold liquid into the heat exchanger 2, and the other cold liquid circulating pipe 4 is used for enabling water in the heat exchanger 2 to flow back.

The heat exchanger 2 is a device for exchanging heat in the cold liquid to water to separate the cold liquid from the water, and the heat exchanger 2 includes a space type heat exchanger, a plate type heat exchanger, an immersion type serpentine tube heat exchanger, and a shell-and-tube type heat exchanger as a preferred embodiment. The heat exchanger 6 is provided with four inlets and outlets, namely a cold liquid inlet, a cold liquid outlet, a water inlet and a water outlet. The specific type of the heat exchanger 6 can be determined according to actual conditions. The cold liquid circulating pump 5 is a power source for circulating cold liquid, and the type of the cold liquid circulating pump 5 can be determined according to the size, the heat supply area, the pipeline length and the cold liquid property of the network equipment 3. The cold liquid circulating pipe 4 is a connecting pipeline of a cold liquid circulating loop and is responsible for connecting a loop pipeline among the heat exchange box body 1, the cold liquid circulating pump 5 and the heat exchanger 2, and the cold liquid flows to the heat exchange box body 1, the cold liquid circulating pump 5 and the heat exchanger 2 and finally flows back to the heat exchange box body 1. The first water circulation pipe 6 and the second water circulation pipe 10 are pipes through which water flows circulate, and it is preferable that each of the first water circulation pipe 6 and the second water circulation pipe 10 is a polyvinyl chloride pipe or an iron pipe or a steel pipe. The water flow direction is from the water outlet of the heat exchanger 2, the first water circulation pipe 6, the water circulation pump 7, the heat preservation water tank 8 or the building radiator 9, and then from the second water circulation pipe 10 to the water inlet of the heat exchanger 2.

Preferably, the inner wall of the heat-preservation water tank 8 is made of stainless steel heat-preservation materials. Of course, the heat preservation water tank 8 is also provided with a heat preservation layer, can preserve heat of the heated water and is used for bathing water, and the heat preservation water tank 8 is also provided with a water level display and a water adding port, so that water can be added when the water level is low. Preferably, the network device 3 comprises an internet server, a router, a modem, a computer, a hub, a switch, a bridge, a gateway, a network interface card, a fiber optic transceiver. Of course, the network device 3 is not limited to the above-mentioned ones, and may also include various electronic devices for data calculation, super calculation, data storage, and the like, and the larger the amount of heat generation, the better the effect. Preferably, temperature sensors are installed in the heat exchange box body 1 and the heat preservation water tank 8, and the water temperature in the heat exchange box body 1 and the heat preservation water tank 8 can be detected.

In practical use, cold liquid is required to be poured into the heat exchange box body 1, the cold liquid refers to insulating non-corrosive liquid, and more commonly used liquids with good insulating and heat-conducting properties, such as white oil, transformer oil, mineral oil, deionized water and fluorinated liquid, are used as the cold liquid. The first and second baffles 11 and 12, the first and second water circulation pipes 6 and 10 are named according to the habit and preference and have no other special meanings.

When the heat conversion device applied to the network equipment is used, the network equipment is placed in the placing racks, the network equipment is positioned in the heat exchange box body, the insulating cold liquid is poured into the heat exchange box body, the network equipment is completely immersed in the cold liquid, ensuring the heat dissipation of the network equipment, converting the heat generated by the network equipment during data processing into cold liquid, converting the heat into water by the cold liquid flowing through a heat exchanger through a cold liquid circulating pipe and a cold liquid circulating pump, the water temperature rises, and the water is conveyed to the heat preservation water tank through the first water circulating pipe and the water circulating pump to be used for bathing or conveyed to the building radiator to be used for heating the building, and redundant water in the heat preservation water tank and the building radiator can also return to the heat exchange box body through the second water circulating pipe, the heat exchanger and the other cold liquid circulating pipe to form a closed loop circulating mode. The heat is converted into water by a liquid cooling circulation mode, so that the heat dissipation capacity of the network equipment is obviously improved, and a good environment is provided for the high-efficiency operation of the network equipment; meanwhile, the network equipment is immersed in the cold liquid, so that the network equipment is prevented from being corroded by air and accumulated with dust, the service life of the network equipment can be prolonged, and the maintenance is convenient; the heat emitted by the network equipment is collected and reused to provide heating requirements or bath water.

Other embodiments of the present application will be apparent to those skilled in the art from consideration of the specification and practice of the application disclosed herein. This application is intended to cover any variations, uses, or adaptations of the invention following, in general, the principles of the application and including such departures from the present disclosure as come within known or customary practice in the art to which the invention pertains. It is intended that the specification and examples be considered as exemplary only, with a true scope of the disclosure being indicated by the following claims.

It will be understood that the present application is not limited to the precise arrangements described above and shown in the drawings and that various modifications and changes may be made without departing from the scope thereof. The above-described embodiments of the present application do not limit the scope of the present application.

Claims (8)

1. A heat conversion device for use in a network device, comprising:

the heat exchange box comprises a heat exchange box body and a heat exchanger, wherein a plurality of placing frames are arranged in the heat exchange box body, network equipment is placed in the placing frames, one side of the heat exchange box body is communicated with two cold liquid circulating pipes, one cold liquid circulating pipe is far away from one end of the heat exchange box body and communicated with a cold liquid inlet of the heat exchanger through a cold liquid circulating pump, the other cold liquid circulating pipe is communicated with a cold liquid outlet of the heat exchanger, a water outlet of the heat exchanger is communicated with a first water circulating pipe, the first water circulating pipe is communicated with a heat preservation water tank and a building radiator through a water circulating pump, and a water outlet of the heat preservation water tank and a water outlet of the building radiator are communicated with a water inlet of the heat exchanger.

2. The heat conversion device applied to the network equipment according to claim 1, wherein the inner wall of the heat-insulating water tank is made of a stainless steel heat-insulating material.

3. The heat conversion device applied to the network equipment according to claim 1, wherein the first water circulation pipe and the second water circulation pipe are both made of polyvinyl chloride pipe or iron pipe or steel pipe.

4. The heat conversion device applied to the network equipment according to claim 1, wherein the rack comprises a grid plate and a plurality of partition plates, the grid plate is detachably mounted on the inner side wall of the heat exchange box body and is parallel to the bottom surface of the heat exchange box body, each partition plate is fixed on the grid plate and is perpendicular to the grid plate, and the network equipment is located in an independent space formed by the partition plates and the grid plate.

5. The heat conversion device applied to the network equipment according to claim 1, wherein a box cover is rotatably mounted on the heat exchange box body through a hinge.

6. The heat conversion device applied to the network equipment according to claim 1, wherein the network equipment comprises an internet server, a router, a modem, a computer, a hub, a switch, a bridge, a gateway, a network interface card, and a fiber transceiver.

7. The heat conversion device applied to the network equipment according to any one of claims 1 to 6, wherein the heat exchanger includes a space type heat exchanger, a plate type heat exchanger, a submerged type serpentine tube heat exchanger and a shell-and-tube type heat exchanger.

8. The heat conversion device applied to the network equipment according to any one of claims 1 to 6, wherein a temperature sensor is installed in each of the heat exchange box body and the heat preservation water tank.

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