CN216905763U

CN216905763U - Data center economizer

Info

Publication number: CN216905763U
Application number: CN202220036423.9U
Authority: CN
Inventors: 杨长滨; 杨晓丽
Original assignee: Shenzhen Yuanda High Tech Group Co ltd
Current assignee: Shenzhen Yuanda High Tech Group Co ltd
Priority date: 2022-01-07
Filing date: 2022-01-07
Publication date: 2022-07-05
Anticipated expiration: 2032-01-07

Abstract

The utility model provides an energy-saving device for a data center, and belongs to the technical field of network equipment. Including the frame, the equal fixed mounting in inner wall both sides of frame has the support frame, the one end fixed mounting of support frame has the stopper, be provided with the cooling tray on the support frame, symmetrical fixed mounting has the pole of placing in the cooling tray, the antiskid pole is installed to the last symmetry screw thread of cooling tray, be provided with water cooling mechanism on the cooling tray, water cooling mechanism includes first outer union coupling, first outer union coupling passes through pore fixed mounting on the lateral wall of cooling tray, the S-shaped pipe is installed to the one end intercommunication of first outer union coupling, the second outer union coupling is installed to the one end intercommunication of S-shaped pipe. The utility model can effectively prevent the host from sliding off to cause damage, effectively protect the safety of the host of the data center, improve the safety of the device in the using process, effectively carry out water-cooling on the host, improve the cooling efficiency, avoid high energy consumption and noise of the traditional air conditioner refrigeration and achieve the aim of saving energy.

Description

Data center economizer

Technical Field

The utility model relates to the technical field of network equipment, in particular to an energy-saving device of a data center.

Background

The data center is a specific equipment network of global cooperation, and is composed of countless computer hardware and used for transmitting, accelerating, displaying, calculating and storing data information on internet network infrastructure, and the generation of the data center leads the understanding of people to enter an uncertain and non-structural world from a quantitative and structural world, and the data center gradually becomes a part of modern social infrastructure like traffic and network communication, thereby having positive influence on a plurality of industries.

In the past, a room-level air conditioner and an underfloor air supply cooling mode are commonly adopted in a data center room, but the traditional room-level air conditioner cannot solve the heat dissipation problem of equipment, the cooling of the air conditioner has the problems of high cooling energy consumption, high noise, low equipment density and the like, and along with the increased competition of the data center, the pressure of the operation cost is increased, and the energy-saving research of a cooling system is urgent.

SUMMERY OF THE UTILITY MODEL

To remedy the above deficiencies, the present invention provides a data center energy saving device that overcomes or at least partially solves the above technical problems.

The utility model is realized by the following steps:

the utility model provides an energy-saving device for a data center, which comprises an outer frame, wherein support frames are fixedly arranged on two sides of the inner wall of the outer frame, one end of each support frame is fixedly provided with a limiting block, a cooling disc is arranged on each support frame, placing rods are symmetrically and fixedly arranged in the cooling disc, anti-skidding rods are symmetrically and fixedly arranged on the cooling disc through threads, a water cooling mechanism is arranged on each cooling disc and comprises a first external connecting pipe, the first external connecting pipe is fixedly arranged on the side wall of the cooling disc through a pore passage, one end of the first external connecting pipe is communicated and arranged with an S-shaped pipe, and one end of the S-shaped pipe is communicated and arranged with a second external connecting pipe.

In a preferred embodiment, the second external header is fixedly mounted on the other side wall of the cooling plate through a duct, and the first external header and the second external header both penetrate through the outer frame through the duct and extend to the outside of the outer frame.

In a preferred scheme, a circulating mechanism is arranged on the outer frame and comprises a water tank, the water tank is arranged on one side of the outer frame, a communicating pipe is communicated and installed on one side of the water tank through a pore passage, and a water pump is communicated and installed at one end of the communicating pipe.

In a preferred scheme, the output end of the water pump is communicated with and provided with a water supply pipe, the water supply pipe is communicated with and provided with a first tee joint, the output end of the first tee joint is communicated with and provided with a water supply branch pipe, and one end of the water supply branch pipe is communicated and arranged at one end of a first external connecting pipe.

In a preferred scheme, one end of the second external connecting pipe is communicated with and provided with a water return branch pipe, one end of the water return branch pipe is communicated with and provided with a second tee joint, one end of the second tee joint is communicated with and provided with a water return pipe, and the water return pipe is communicated and arranged on the water tank through a pore passage.

In a preferred scheme, the top of the water tank is fixedly provided with a fan through a pore passage, one side of the water tank is provided with a vent hole, and a waterproof filtering membrane is arranged on the vent hole.

The utility model provides an energy-saving device of a data center, which has the advantages that:

1. cold water is conveyed into the first tee joint by the water pump and the water conveying pipe and then enters the first external connecting pipe and the S-shaped pipe through the first tee joint and the water conveying branch pipe, and at the moment, the cold water in the S-shaped pipe cools the main machine under the action of thermal conduction, so that the main machine can be effectively cooled by water, the cooling efficiency is improved, high energy consumption and noise of traditional air conditioner refrigeration are avoided, and the purpose of energy conservation is achieved;

2. cold water enters the water return branch pipe through the second external connecting pipe after cooling is finished, the second tee joint is converged into the water return pipe and finally flows back into the water tank, and the water in the water tank is cooled by air cooling by the fan, so that resources can be recycled, the utilization rate of water resources is improved, the resources are saved, and the purpose of saving energy is further achieved;

3. the host computer is supported by the aid of the placing rod, the limiting block limits the cooling disc, and the anti-slip rod on the cooling disc limits the host computer, so that the host computer can be effectively prevented from being damaged due to slipping, safety of the host computer of the data center is effectively protected, and safety of the device in the using process is improved.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present invention, the drawings that are required to be used in the embodiments will be briefly described below, it should be understood that the following drawings only illustrate some embodiments of the present invention and therefore should not be considered as limiting the scope, and for those skilled in the art, other related drawings can be obtained according to the drawings without inventive efforts.

FIG. 1 is a first perspective view provided by an embodiment of the present invention;

FIG. 2 is a second perspective view provided by an embodiment of the present invention;

FIG. 3 is a schematic diagram of a front view structure provided by an embodiment of the present invention;

FIG. 4 is a top view provided by an embodiment of the present invention;

fig. 5 is a perspective view of a cooling plate according to an embodiment of the present invention.

In the figure: 100. an outer frame; 101. a support frame; 102. a limiting block; 103. a cooling pan; 104. placing a rod; 105. an anti-slip bar; 200. a circulating mechanism; 201. a water tank; 202. a communicating pipe; 203. a water pump; 204. a water supply pipe; 205. a first tee joint; 206. a water supply branch pipe; 207. a return water branch pipe; 208. a second tee joint; 209. a water return pipe; 210. a fan; 211. a water inlet plug; 212. a water outlet plug; 213. a vent hole; 300. a water cooling mechanism; 301. a first outer connecting pipe; 302. an S-shaped pipe; 303. a second extension tube.

Detailed Description

In order to make the objects, technical solutions and advantages of the embodiments of the present invention more apparent, the technical solutions of the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings of the embodiments of the present invention, and it is obvious that the described embodiments are some, but not all embodiments of the present invention. All other embodiments, which can be obtained by a person skilled in the art without any inventive step based on the embodiments of the present invention, are within the scope of the present invention.

In the description of the present invention, it should be noted that the terms "upper", "lower", "left", "right", "inner", "outer", "top/bottom", etc., indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, and are only for convenience in describing the present invention and simplifying the description, but do not indicate or imply that the device or element referred to must have a specific orientation, be constructed in a specific orientation, and be operated, and thus, should not be construed as limiting the present invention. Furthermore, the terms "first" and "second" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance.

Examples

Referring to fig. 1-5, the present invention provides a technical solution: the utility model provides a data center economizer, includes frame 100, is provided with circulation mechanism 200 on the frame 100, can circulate the resource and use, improves the utilization ratio of water resource, and resources are saved further reaches energy-conserving purpose, and circulation mechanism 200 includes water tank 201, and water tank 201 sets up in the outside of frame 100, and communicating pipe 202 is installed through the pore intercommunication in one side of water tank 201, and water pump 203 is installed to the one end intercommunication of communicating pipe 202.

In a preferred embodiment, the output end of the water pump 203 is connected with a water supply pipe 204, the water supply pipe 204 is connected with a first tee joint 205, the output end of the first tee joint 205 is connected with a water supply branch pipe 206, one end of the water supply branch pipe 206 is connected with one end of the first external connection pipe 301, the water pump 203 pumps cold water in the water tank 201 through the connection pipe 202 and sends the cold water into the first tee joint 205 through the water supply pipe 204, the first tee joint 205 divides the water and sends the water into the water supply branch pipe 206, and the cold water enters the first external connection pipe 301 and the S-shaped pipe 302 through the water supply branch pipe 206.

In a preferred embodiment, one end of the second external connection pipe 303 is provided with a return branch pipe 207 in a communicating manner, one end of the return branch pipe 207 is provided with a second tee joint 208 in a communicating manner, one end of the second tee joint 208 is provided with a return pipe 209 in a communicating manner, the return pipe 209 is provided on the water tank 201 in a communicating manner through a pore passage, and after cooling is completed, cold water enters the return branch pipe 207 through the second external connection pipe 303, and is converged into the return pipe 209 through the second tee joint 208, and finally flows back into the water tank 201.

In a preferred embodiment, the top of the water tank 201 is fixedly provided with a fan 210 through a pore, one side of the water tank 201 is provided with a vent hole 213, the fan 210 performs air cooling on water in the water tank 201, so that resources can be recycled, the utilization rate of water resources is improved, resources are saved, the purpose of saving energy is further achieved, the vent hole 213 is provided with a waterproof filtering membrane, and the waterproof filtering membrane is made of a fine mesh material and prevents water from being sputtered to the outside when entering the water tank 201.

In a preferred embodiment, a water inlet plug 211 is movably installed at the top of the water tank 201 through a hole for adding cooling water into the water tank 201, and a water outlet plug 212 is movably installed at one side of the water tank 201 near the bottom through a hole for discharging the cooling water into the water tank 201.

In a preferred embodiment, support frames 101 are fixedly mounted on both sides of the inner wall of the outer frame 100, a limit block 102 is fixedly mounted at one end of each support frame 101, a cooling disc 103 is disposed on each support frame 101, placing rods 104 are symmetrically and fixedly mounted in the cooling disc 103, anti-slip rods 105 are symmetrically and threadedly mounted on the cooling disc 103, the cooling disc 103 is horizontally pushed into the outer frame 100 from the outside and placed on the support frames 101, then a host used in a data center is horizontally pushed into the outer frame 100 from the outside and placed on the placing rods 104 in the cooling disc 103, the host is supported by the placing rods 104, and the bottom of the host abuts against the S-shaped pipe 302, at this time, the limit block 102 limits the cooling disc 103, the anti-slip rods 105 on the cooling disc 103 limit the host, so that the host can be effectively prevented from sliding off and being damaged, and the safety of the host in the data center is effectively protected, the safety of the device in the using process is improved; be provided with water-cooling mechanism 300 on the cooling disc 103, can effectively must carry out the water-cooling to the host computer, cooling efficiency has been improved, and avoid the refrigerated high energy consumption of traditional air conditioner and noise, reach energy-conserving purpose, water-cooling mechanism 300 includes first outer union coupling 301, first outer union coupling 301 passes through pore fixed mounting on the lateral wall of cooling disc 103, S-shaped pipe 302 is installed to the one end intercommunication of first outer union coupling 301, the host computer is contradicted on S-shaped pipe 302, make the cold water in the S-shaped pipe 302 lower the temperature to the host computer under the effect of heating power conduction, second outer union coupling 303 is installed to the one end intercommunication of S-shaped pipe 302, first outer union coupling 301, second outer union coupling 303 is made for the copper material.

In a preferred embodiment, the second external connecting pipe 303 is fixedly installed on the other side wall of the cooling plate 103 through a hole, the first external connecting pipe 301 and the second external connecting pipe 303 both penetrate through the outer frame 100 through a hole and extend to the outside of the outer frame 100, the water feeding branch pipe 206 and the water returning branch pipe 207 are soft water pipes, so that the water feeding branch pipe 206 and the water returning branch pipe 207 are respectively sleeved on the first external connecting pipe 301 and the second external connecting pipe 303 to be communicated with each other, and cold water can continuously enter and flow out of the S-shaped pipe 302.

In a preferred embodiment, the S-shaped pipe 302 is fixedly installed on the placing rod 104 through a hole, so that the S-shaped pipe 302 can be fixed in the cooling disc 103, the S-shaped pipe 302 is made of copper material, and the main machine is abutted against the S-shaped pipe 302, so that cold water in the S-shaped pipe 302 cools the main machine under the action of thermal conduction.

Specifically, the working process or working principle of the energy-saving device for the data center is as follows: when the cooling device is used, the cooling disc 103 is horizontally pushed into the outer frame 100 from the outside and is placed on the support frame 101, then a host used in the data center is horizontally pushed into the outer frame 100 from the outside and is placed on the placing rod 104 in the cooling disc 103, the host is supported by the placing rod 104, the bottom of the host props against the S-shaped pipe 302, the cooling disc 103 is limited by the limiting block 102 at the moment, and the host is limited by the anti-skid rod 105 on the cooling disc 103, so that the host can be effectively prevented from being damaged due to slipping, the safety of the host in the data center is effectively protected, and the safety of the device in the using process is improved; then the first external connecting pipe 301 and the second external connecting pipe 303 are respectively communicated with the water supply branch pipe 206 and the water return branch pipe 207, in the process of using the host machine, the water pump 203 is started, the water pump 203 pumps cold water in the water tank 201 through the communicating pipe 202 and conveys the cold water into the first tee joint 205 through the water supply pipe 204, the first tee joint 205 divides the water and conveys the water into the water supply branch pipe 206, the cold water enters the first external connecting pipe 301 and the S-shaped pipe 302 through the water supply branch pipe 206, and at the moment, the cold water in the S-shaped pipe 302 cools the host machine under the action of thermal conduction, so that the water cooling of the host machine can be effectively carried out, the cooling efficiency is improved, high energy consumption and noise of the refrigeration of the traditional air conditioner are avoided, and the purpose of saving energy is achieved; cold water enters the water return branch pipe 207 through the second external connecting pipe 303 after cooling is completed, and converges into the water return pipe 209 through the second tee joint 208, finally flows back into the water tank 201, the fan 210 is started at the moment, and the fan 210 performs air cooling on the water in the water tank 201, so that resources can be recycled, the utilization rate of water resources is improved, the resources are saved, and the purpose of saving energy is further achieved.

It should be noted that the water pump 203 and the fan 210 are devices or apparatuses existing in the prior art or devices or apparatuses that can be realized by the prior art, and power supply, specific components and principles thereof are clear to those skilled in the art, and therefore detailed descriptions thereof are omitted.

The present invention is not limited to the above-described preferred embodiments, but various modifications and changes can be made by those skilled in the art. Any modification, equivalent replacement, or improvement made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims

1. An energy-saving device of a data center comprises an outer frame (100), and is characterized in that two sides of the inner wall of the outer frame (100) are fixedly provided with supporting frames (101), one end of the supporting frame (101) is fixedly provided with a limiting block (102), the supporting frame (101) is provided with a cooling disc (103), the cooling plate (103) is symmetrically and fixedly provided with placing rods (104), the cooling plate (103) is symmetrically and threadedly provided with anti-skid rods (105), the cooling disc (103) is provided with a water cooling mechanism (300), the water cooling mechanism (300) comprises a first external connecting pipe (301), the first outer connecting pipe (301) is fixedly arranged on the side wall of the cooling disc (103) through a pore canal, one end of the first external connecting pipe (301) is communicated with and provided with an S-shaped pipe (302), one end of the S-shaped pipe (302) is communicated with and provided with a second external connecting pipe (303).

2. The energy-saving device for the data center according to claim 1, wherein the second external connecting pipe (303) is fixedly installed on the other side wall of the cooling plate (103) through a duct, and the first external connecting pipe (301) and the second external connecting pipe (303) both penetrate through the outer frame (100) through a duct and extend to the outside of the outer frame (100).

3. The data center energy saving device of claim 2, wherein the S-shaped pipe (302) is fixedly installed on the placing rod (104) through a duct, and the S-shaped pipe (302) is made of copper material.

4. The energy-saving device for the data center according to claim 1, wherein a circulating mechanism (200) is arranged on the outer frame (100), the circulating mechanism (200) comprises a water tank (201), the water tank (201) is arranged on one side of the outer frame (100), a communicating pipe (202) is arranged on one side of the water tank (201) through a pore channel in a communicating manner, and a water pump (203) is arranged at one end of the communicating pipe (202) in a communicating manner.

5. The energy-saving device for the data center according to claim 4, wherein the output end of the water pump (203) is provided with a water supply pipe (204) in a communicating manner, the water supply pipe (204) is provided with a first tee joint (205) in a communicating manner, the output end of the first tee joint (205) is provided with a water supply branch pipe (206) in a communicating manner, and one end of the water supply branch pipe (206) is provided with one end of a first external connection pipe (301) in a communicating manner.

6. The energy-saving device for the data center according to claim 5, wherein one end of the second external connection pipe (303) is provided with a water return branch pipe (207) in a communicating manner, one end of the water return branch pipe (207) is provided with a second tee joint (208) in a communicating manner, one end of the second tee joint (208) is provided with a water return pipe (209) in a communicating manner, and the water return pipe (209) is arranged on the water tank (201) in a communicating manner through a pore passage.

7. The energy-saving device for the data center according to claim 6, wherein a fan (210) is fixedly installed at the top of the water tank (201) through a hole, a vent hole (213) is formed in one side of the water tank (201), and a waterproof filter membrane is arranged on the vent hole (213).

8. The energy-saving device for the data center according to claim 7, wherein a water inlet plug (211) is movably installed at the top of the water tank (201) through a hole, and a water outlet plug (212) is movably installed at one side of the water tank (201) close to the bottom through a hole.