CN209861386U

CN209861386U - Big data server rack

Info

Publication number: CN209861386U
Application number: CN201920175935.1U
Authority: CN
Inventors: 杨明
Original assignee: Chongqing College of Electronic Engineering
Current assignee: Chongqing College of Electronic Engineering
Priority date: 2019-01-31
Filing date: 2019-01-31
Publication date: 2019-12-27
Anticipated expiration: 2029-01-31

Abstract

The utility model relates to a big data server cabinet, which is used for installing and storing servers of electronic commerce, big data and data generated by intellectual property rights and comprises a cabinet body, a cabinet door and a clapboard arranged in the cabinet body, water-cooling heat abstractor, thermoelectric generator and cooling water circulating device, water-cooling heat abstractor includes first water tank, first water pump and cooling tube, some settings of cooling tube are at the upper surface of baffle, thermoelectric generator's hot water entry passes through the delivery port intercommunication of cooling tube with first water tank, thermoelectric generator's hot water export and the water inlet intercommunication of first water tank, be provided with first water pump between U type calandria and the first water tank, cooling water circulating device includes second water tank and second water pump, thermoelectric generator cooling water entry passes through the delivery port intercommunication of second water pump with the second water tank, thermoelectric generator's cooling water export and the water inlet intercommunication of second water tank. The technical scheme of this application can utilize the internal used heat of cabinet to generate electricity when dispelling the heat to the cabinet is internal.

Description

Big data server rack

Technical Field

The utility model relates to a server rack technical field especially relates to a big data server rack.

Background

With the continuous development of electronic commerce, intellectual property and the like, data information is explosively increased, the operation and storage of big data are more and more emphasized, various data storage centers and computing centers are largely established for operating and storing a large amount of data, and a big data server is widely used as an important device for processing and storing big data. A plurality of servers are installed in the same server cabinet, so that the plurality of servers work cooperatively to calculate and store a large amount of data, management is facilitated, and space is saved.

However, installing multiple servers in the same server rack can result in a large amount of heat generation, which generates a large amount of heat energy. For the generated heat, in order to ensure the normal operation of the server, the heat is usually processed by air-cooled heat dissipation, water-cooled heat dissipation and other modes at present, the processing mode is single, a large amount of power resources are required to be consumed, and the energy conservation and the environmental protection are not enough.

SUMMERY OF THE UTILITY MODEL

Not enough to above-mentioned prior art, the utility model provides a big data server rack.

The utility model provides an above-mentioned technical problem's technical scheme as follows:

the utility model provides a large data server cabinet, which comprises a cabinet body, a cabinet door, a clapboard arranged in the cabinet body, a water-cooling heat dissipation device, a thermoelectric generator and a cooling water circulation device, the water-cooling heat dissipation device comprises a first water tank, a first water pump and a heat dissipation pipe, wherein one part of the heat dissipation pipe is arranged on the upper surface of the partition plate, a hot water inlet of the temperature difference generator is communicated with a water outlet of the first water tank through the radiating pipe, a hot water outlet of the thermoelectric generator is communicated with a water inlet of the first water tank, the first water pump is arranged between the radiating pipe and the first water tank, the cooling water circulating device comprises a second water tank and a second water pump, a cooling water inlet of the temperature difference generator is communicated with a water outlet of the second water tank through the second water pump, and a cooling water outlet of the temperature difference generator is communicated with a water inlet of the second water tank.

The utility model discloses a big data server rack's beneficial effect is: the first water tank and the second water tank are filled with cooling water, the cooling water in the first water tank is pumped out by the first water pump, then is conveyed to the temperature difference generator through the heat dissipation pipeline, and flows back to the first water tank from the temperature difference generator, and water circulation is achieved. And cooling water in the second water tank is conveyed to the temperature difference generator through the second water pump and flows back to the second water tank from the temperature difference generator, so that water circulation is realized. The upper surface of cooling tube is set up on the baffle to the server, when server work produced heat, through the heat exchange, cooling water in the cooling tube takes away the heat, cool down the server, cooling water temperature in the cooling tube risees, get into thermoelectric generator's hot water passageway through hot water entry, the cooling water direct transport to thermoelectric generator's cooling water passageway in with the second water tank of second water pump simultaneously, form the difference in temperature in thermoelectric generator, thermoelectric generator produces the electric current through the seebeck effect, generate electricity. The technical scheme of the utility model dispel the heat to the server through water-cooling radiating's mode, guaranteed the normal operating of server to be used for the electricity generation with the heat that the server produced, realized the cyclic utilization of used heat, energy-concerving and environment-protective.

Further, the cooling tube sets up the part of baffle upper surface is the U type calandria, the U type calandria includes that many flats are spread the S type pipeline of baffle upper surface, and is adjacent S type pipeline end to end, many S type pipeline communicates the formation in proper order the U type calandria, the one end of U type calandria with thermoelectric generator the hot water entry intercommunication, the other end of U type calandria with the play water end intercommunication of first water pump, the income water end of first water pump with the delivery port intercommunication of first water tank.

The beneficial effects of the further scheme are as follows: the partial cooling tube of baffle upper surface adopts U type calandria, can increase and the server between area of contact, strengthen the heat exchange, can dispel the heat to the server better, promote the temperature that gets into the water in the thermoelectric generator hot water line simultaneously, and then improve the temperature difference, improve thermoelectric generator's generating efficiency.

Further, still include the fan, the fan sets up the top of the cabinet body, and with thermoelectric generator electricity is connected.

The beneficial effects of the further scheme are as follows: set up the fan at cabinet body top, the fan is connected with the thermoelectric generator electricity, as long as the thermoelectric generator produces the electric current, then the drive fan rotates, dispels the heat to the internal of cabinet, because only when the heat that the server produced is enough big, thermoelectric generator just can generate electricity, and the fan just can rotate and dispel the heat to the internal high temperature of cabinet needs the heat dissipation this moment. When the heat generated by the server is small, the thermoelectric generator does not generate electricity or the generated energy is small, the fan does not rotate, and the temperature in the cabinet body is low at the moment and does not need heat dissipation. Need not additionally control, just can the operation of intelligent control fan according to the heat that the server produced, it is simple convenient, intelligent high-efficient.

Further, still include rechargeable battery, rechargeable battery respectively with thermoelectric generator with the fan electricity is connected.

The beneficial effects of the further scheme are as follows: the electric energy generated by the thermoelectric generator can be stored in the rechargeable battery, and when the thermoelectric generator does not generate electricity or the generated energy is insufficient, the rechargeable battery supplies power for other electric elements such as a fan and the like.

Further, still include with temperature sensor and processing apparatus that rechargeable battery electricity is connected, temperature sensor sets up the cabinet is internal, processing apparatus respectively with first water pump, the second water pump, the fan with temperature sensor electricity is connected.

The beneficial effects of the further scheme are as follows: the temperature sensor detects the internal temperature of cabinet to transmit to processing apparatus, when the internal temperature of cabinet surpassed when predetermineeing the temperature, control first water pump, second water pump and fan operation dispel the heat to server and the internal, generate electricity through thermoelectric generator simultaneously, recycle heat energy.

Further, still include respectively with rechargeable battery electricity connect first level sensor and second level sensor, first level sensor sets up in the first water tank, the second level sensor sets up in the second water tank, first level sensor with the second level sensor respectively with processing apparatus electricity is connected.

The beneficial effects of the further scheme are as follows: the water level in the water tank is detected through the liquid level sensor, so that a user can conveniently judge whether water needs to be added, and when the cooling water in the water tank is insufficient, the user can timely supplement water.

And the display screen is arranged on the outer surface of the cabinet door and is respectively and electrically connected with the rechargeable battery and the processing device.

The beneficial effects of the further scheme are as follows: can be on the display screen direct display cabinet internal temperature, the water level in the water tank and rechargeable battery's electric quantity etc. the internal condition of cabinet is known to the user of being convenient for, when the problem appears, can in time take corresponding treatment.

Drawings

Fig. 1 is a schematic structural diagram of a large data server cabinet according to an embodiment of the present invention;

fig. 2 is a schematic structural diagram of a thermoelectric generator according to an embodiment of the present invention;

fig. 3 is an electrical connection schematic diagram of a large data server cabinet according to an embodiment of the present invention.

In the drawings, the components represented by the respective reference numerals are listed below:

1. the cabinet body, 2, cabinet door, 3, baffle, 4, thermoelectric generator, 4a, hot water entry, 4b, hot water export, 4c, cooling water entry, 4d, the cooling water export, 5, first water tank, 6, first water pump, 7, cooling tube, 7a, U type calandria, 8, second water tank, 9, second water pump, 10, fan.

Detailed Description

The principles and features of the present invention are described below in conjunction with the following drawings, the examples given are only intended to illustrate the present invention and are not intended to limit the scope of the present invention.

As shown in fig. 1 and fig. 2, the big data server cabinet provided by the present invention is used for installing a plurality of big data servers, which are servers for calculating and storing big data and intellectual property data generated by electronic commerce technology, and includes a cabinet body 1, a cabinet door 2, a partition plate 3 disposed in the cabinet body 1, a water-cooling heat dissipation device, a thermoelectric generator 4, and a cooling water circulation device, wherein the water-cooling heat dissipation device includes a first water tank 5, a first water pump 6, and a heat dissipation pipe 7, a portion of the heat dissipation pipe 7 is disposed on the upper surface of the partition plate 3, a hot water inlet 4a of the thermoelectric generator 4 is communicated with a water outlet of the first water tank 5 through the heat dissipation pipe 7, a hot water outlet 4b of the thermoelectric generator 4 is communicated with a water inlet of the first water tank 5, the first water pump 6 is disposed between the heat dissipation pipe 7 and the first water tank 5, the cooling water circulation device comprises a second water tank 8 and a second water pump 9, a cooling water inlet 4c of the thermoelectric generator 4 is communicated with a water outlet of the second water tank 8 through the second water pump 9, and a cooling water outlet 4d of the thermoelectric generator 4 is communicated with a water inlet of the second water tank 8.

In this embodiment, the first water tank 5 and the second water tank 8 are filled with cooling water, the cooling water in the first water tank 5 is pumped out by the first water pump 6, and is then conveyed to the thermoelectric generator 4 through the heat dissipation pipe 7, and flows back to the first water tank 5 from the thermoelectric generator 4, so as to realize water circulation. The cooling water in the second water tank 8 is delivered to the thermoelectric generator 4 through the second water pump 9, and flows back to the second water tank 8 from the thermoelectric generator 4, so that water circulation is realized. The server sets up the upper surface of cooling tube 7 on baffle 3, when the server work produced heat, through the heat exchange, cooling water in cooling tube 7 takes away the heat, cool down the server, the cooling water temperature in cooling tube 7 risees, get into thermoelectric generator 4's hot water passageway through hot water entry 4a, the cooling water direct delivery to thermoelectric generator 4's cooling water passageway in second water tank 8 of second water pump 9 is simultaneously, form the temperature difference in thermoelectric generator 4, thermoelectric generator 4 produces the electric current through the seebeck effect, generate electricity. The technical scheme of the utility model dispel the heat to the server through water-cooling radiating's mode, guaranteed the normal operating of server to be used for the electricity generation with the heat that the server produced, realized the cyclic utilization of used heat, energy-concerving and environment-protective.

Specifically, the thermoelectric generator 4 can be a thermoelectric semiconductor generator manufactured by Jiangxi nanometer Ke thermoelectric electronics GmbH and having model number TEG200W-24V, and comprises a thermoelectric module, a hot water pipeline and a cooling water pipeline, wherein the thermoelectric module consists of 16 thermoelectric pieces with the size of 56mm multiplied by 56 mm. When the temperature of a heat source exceeds 300 ℃ and the flow of cooling water at 30 ℃ is 1.2 liters per minute, the generator can generate 200W direct current. The thermoelectric generator 4 is arranged on the side wall of the cabinet body 1, and the first water tank 5, the first water pump 6, the second water tank 8 and the second water pump 9 are all arranged at the bottom of the cabinet body 1.

Preferably, the radiating pipe 7 is disposed on the upper surface of the partition plate 3, and the U-shaped pipe 7a includes a plurality of S-shaped pipes flatly laid on the upper surface of the partition plate 3, and the adjacent S-shaped pipes are connected end to end, and the plurality of S-shaped pipes are sequentially communicated to form the U-shaped pipe 7a, one end of the U-shaped pipe 7a is communicated with the hot water inlet 4a of the thermoelectric generator 4, the other end of the U-shaped pipe 7a is communicated with the water outlet of the first water pump 6, and the water inlet of the first water pump 6 is communicated with the water outlet of the first water tank 5.

Specifically, U type calandria 7a can adopt current aluminium calandria, and the partial cooling tube 7 of 3 upper surfaces of baffle adopts U type calandria 7a, can increase and the server between area of contact, strengthen heat exchange, can dispel the heat to the server better, promote the temperature that gets into the water in the 4 hot water pipes of thermoelectric generator simultaneously, and then improve the temperature difference, improve thermoelectric generator 4's generating efficiency.

Preferably, the water inlet end of the second water pump 9 is communicated with the water outlet of the second water tank 8, and the water outlet end of the second water pump 9 is communicated with the cooling water inlet 4c of the thermoelectric generator 4.

Preferably, the temperature difference generator further comprises a fan 10, wherein the fan 10 is arranged at the top of the cabinet body 1 and is electrically connected with the temperature difference generator 4.

Specifically, set up fan 10 at cabinet body 1 top, fan 10 is connected with thermoelectric generator 4 electricity, as long as thermoelectric generator 4 produces electric current, then drive fan 10 rotates, dispels the heat to cabinet body 1 is interior, because only when the heat that the server produced is enough big, thermoelectric generator 4 could generate electricity, and fan 10 just can rotate and dispel the heat to the high heat dissipation that needs of cabinet body 1 internal temperature this moment. When the heat generated by the server is small, the thermoelectric generator 4 does not generate electricity or generates a small amount of electricity, the fan 10 does not rotate, and the temperature in the cabinet 1 is low and heat dissipation is not needed. The operation of the fan 10 can be intelligently controlled according to the heat generated by the server without extra control, and the intelligent control system is simple, convenient, intelligent and efficient.

Preferably, a rechargeable battery is further included, and the rechargeable battery is electrically connected to the thermoelectric generator 4 and the fan 10, respectively.

Specifically, the electric energy generated by the thermoelectric generator 4 can be stored in the rechargeable battery, and when the thermoelectric generator 4 does not generate electricity or the amount of generated electricity is insufficient, power is supplied to other electric elements such as the fan 10.

Preferably, as shown in fig. 3, the electric water heater further comprises a temperature sensor and a processing device, wherein the temperature sensor is electrically connected with the rechargeable battery, the temperature sensor is arranged in the cabinet body 1, and the processing device is electrically connected with the first water pump 6, the second water pump 9, the fan 10 and the temperature sensor respectively.

Specifically, temperature sensor detects the temperature in the cabinet body 1 to transmit to processing apparatus, when the temperature in the cabinet body 1 surpassed preset temperature, control first water pump 6, second water pump 9 and fan 10 operation dispel the heat in server and the cabinet body 1, generate electricity through thermoelectric generator 4 simultaneously, recycle heat energy.

Preferably, the system further comprises a first liquid level sensor and a second liquid level sensor which are respectively electrically connected with the rechargeable battery, wherein the first liquid level sensor is arranged in the first water tank 5, the second liquid level sensor is arranged in the second water tank 8, and the first liquid level sensor and the second liquid level sensor are respectively electrically connected with the processing device. The rechargeable battery is used for supplying power to electrical devices such as the water pump 6, the second water pump 9, the fan 10, the first liquid level sensor and the second liquid level sensor.

Specifically, the water level in the water tank is detected through the liquid level sensor, so that a user can conveniently judge whether water needs to be added, and when the cooling water in the water tank is insufficient, the user can timely supplement water.

Preferably, the cabinet further comprises a display screen, wherein the display screen is arranged on the outer surface of the cabinet door 2 and is respectively and electrically connected with the rechargeable battery and the processing device.

Specifically, can directly show the temperature in the cabinet body 1 and rechargeable battery's electric quantity etc. on the display screen, the user of being convenient for knows the condition in the cabinet body 1, when going wrong, can in time take corresponding treatment.

The above description is only for the preferred embodiment of the present invention, and is not intended to limit the present invention, and any modifications, equivalent replacements, improvements, etc. made within the spirit and principle of the present invention should be included within the protection scope of the present invention.

Claims

1. The big data server cabinet comprises a cabinet body (1), a cabinet door (2) and a partition plate (3) arranged in the cabinet body, and is characterized by further comprising a water-cooling heat dissipation device, a thermoelectric generator (4) and a cooling water circulation device, wherein the water-cooling heat dissipation device comprises a first water tank (5), a first water pump (6) and a heat dissipation pipe (7), one part of the heat dissipation pipe (7) is arranged on the upper surface of the partition plate (3), a hot water inlet (4a) of the thermoelectric generator (4) is communicated with a water outlet of the first water tank (5) through the heat dissipation pipe (7), a hot water outlet (4b) of the thermoelectric generator (4) is communicated with a water inlet of the first water tank (5), the first water pump (6) is arranged between the heat dissipation pipe (7) and the first water tank (5), the cooling water circulation device comprises a second water tank (8) and a second water pump (9), and a cooling water inlet (4c) of the temperature difference generator (4) is communicated with a water outlet of the second water tank (8) through the second water pump (9), and a cooling water outlet (4d) of the temperature difference generator (4) is communicated with a water inlet of the second water tank (8).

2. The big data server cabinet as claimed in claim 1, wherein the portion of the heat dissipation pipe (7) disposed on the upper surface of the partition (3) is a U-shaped pipe (7a), the U-shaped pipe (7a) comprises a plurality of S-shaped pipes tiled on the upper surface of the partition, the adjacent S-shaped pipes are connected end to end, the plurality of S-shaped pipes are sequentially connected to form the U-shaped pipe (7a), one end of the U-shaped pipe (7a) is connected to the hot water inlet (4a) of the thermoelectric generator (4), the other end of the U-shaped pipe (7a) is connected to the water outlet of the first water pump (6), and the water inlet of the first water pump (6) is connected to the water outlet of the first water tank (5).

3. The big data server cabinet according to claim 1, further comprising a fan (10), wherein the fan (10) is disposed on top of the cabinet body (1) and electrically connected to the thermoelectric generator (4).

4. The big data server cabinet according to claim 3, further comprising a rechargeable battery electrically connected to the thermoelectric generator (4) and the fan (10), respectively.

5. The big data server cabinet according to claim 4, further comprising a temperature sensor electrically connected to the rechargeable battery and a processing device, wherein the temperature sensor is disposed in the cabinet body (1), and the processing device is electrically connected to the first water pump (6), the second water pump (9), the fan (10) and the temperature sensor, respectively.

6. The big data server cabinet according to claim 5, further comprising a first liquid level sensor and a second liquid level sensor electrically connected to the rechargeable battery, respectively, the first liquid level sensor being disposed in the first water tank (5), the second liquid level sensor being disposed in the second water tank (8), the first liquid level sensor and the second liquid level sensor being electrically connected to the processing device, respectively.

7. The big data server cabinet according to claim 5 or 6, further comprising a display screen disposed on an outer surface of the cabinet door (2) and electrically connected to the rechargeable battery and the processing device, respectively.