CN112165838B

CN112165838B - Server rack rapid cooling equipment

Info

Publication number: CN112165838B
Application number: CN202011109433.2A
Authority: CN
Inventors: 杨杰
Original assignee: Engine Tianjin Computer Co ltd
Current assignee: Enginetech Tianjin computer Co ltd
Priority date: 2020-10-16
Filing date: 2020-10-16
Publication date: 2022-07-29
Anticipated expiration: 2040-10-16
Also published as: CN112165838A

Abstract

The invention discloses a server cabinet rapid cooling device, which comprises: a server cabinet; a fixed structure disposed on the server rack; a support structure disposed on a fixed structure; the server cabinet comprises a first heat dissipation and cooling structure, a second heat dissipation and cooling structure and a control module, wherein the first heat dissipation and cooling structure is arranged on the server cabinet and used for dissipating heat and cooling; the second heat dissipation and cooling structure is arranged on the supporting structure and used for dissipating heat and cooling; the invention relates to the field of heat dissipation and cooling of server cabinets, in particular to a bearing structure which is arranged on the side surface of a fixed structure.

Description

Server rack rapid cooling equipment

Technical Field

The invention relates to the field of heat dissipation and cooling of a server cabinet, in particular to a rapid cooling device for the server cabinet.

Background

The server cabinet is used for combining and installing a panel, a plug-in box, electronic elements, devices, mechanical parts and components to form an integral installation box. The server cabinet is composed of a frame and a cover plate (door), generally has a cuboid shape, and is placed on the ground. It provides adaptive environment and safety protection for normal operation of electronic equipment. This is next to the system level one level assembly. Cabinets without an enclosure structure are referred to as racks. The server cabinet has good technical performance. The structure of the cabinet should have good rigidity and strength and good performance of electromagnetic isolation, grounding, noise isolation, ventilation and heat dissipation, etc.

The cooling heat dissipation that present server rack adopted all cools down the heat dissipation through cooling fan, and the cooling effect is not good, and the cooling is also slow very much, and can not obtain timely cooling, and equipment in the server rack is damaged very easily, consequently in order to solve this problem, designs a server rack rapid cooling equipment very necessary.

Disclosure of Invention

Aiming at the defects of the prior art, the invention provides a quick cooling device for a server cabinet, which solves the problems that the cooling effect is poor, the cooling is extremely slow, the cooling cannot be carried out in time, and the equipment in the server cabinet is easy to damage.

In order to achieve the purpose, the invention is realized by the following technical scheme: a server cabinet rapid cooling device, comprising:

a server cabinet;

a fixed structure disposed on the server rack;

a support structure disposed on a fixed structure;

the server cabinet comprises a first heat dissipation and cooling structure, a second heat dissipation and cooling structure and a control module, wherein the first heat dissipation and cooling structure is arranged on the server cabinet and used for dissipating heat and cooling;

the second heat dissipation and cooling structure is arranged on the supporting structure and used for dissipating heat and cooling;

A bearing structure disposed on a side surface of the fixed structure;

the third heat dissipation and cooling structure is arranged on the supporting structure and used for dissipating heat and cooling;

a reflow structure disposed on the load-bearing structure;

a first dust-proof structure disposed on a support structure;

a second dust-proof structure disposed on the support structure.

Preferably, the fixing structure includes: a detachable fixing plate;

the detachable fixing plate is arranged on the server cabinet.

Preferably, the support structure comprises: a first support housing and a second support housing;

the first support shell is arranged on a server cabinet door and connected with the server cabinet door through bolts, the second support shell is arranged between detachable fixing plates and connected with the detachable fixing plates through bolts.

Preferably, the first heat dissipation and temperature reduction structure includes: the air conditioner comprises a pair of air inlets, a pair of first fixing frames, a pair of air inlet fans and a ventilation grid;

the pair of air inlets are formed in the first supporting shell, each first fixing frame is arranged at the corresponding air inlet, each air inlet fan is arranged on the corresponding first fixing frame, air is supplied to the air inlet fans, a rectangular opening is formed in a cabinet door of the server cabinet, the ventilation grids are arranged at the rectangular opening, and the ventilation grids ventilate.

Preferably, the second heat dissipation and temperature reduction structure includes: the device comprises a first support frame, a plurality of second fixing frames, an exhaust fan matched with the second fixing frames, a plurality of rotating assemblies and a plurality of detachable sealing plates;

the second support shell is provided with a rectangular opening, the first support frame is arranged at the rectangular opening and is connected with the second support shell through bolts, the plurality of second fixing frames are arranged on the first support frame and are connected with the first support frame through bolts, each exhaust fan is arranged on the corresponding second fixing frame, the plurality of rotating assemblies are arranged on the lower surfaces of the plurality of second fixing frames, and each detachable sealing plate is arranged on the corresponding pair of rotating assemblies;

the rotating assembly includes: a pair of first fixed circular rings and a rotating circular rod;

the rotating round rod is arranged on the pair of first fixed circular rings.

Preferably, the load bearing structure comprises: a first carrier water tank and a pair of second carrier water tanks;

the first bearing water tank is arranged on one of the detachable fixing plates, a water inlet is formed in the upper surface of the first bearing water tank, a water outlet is formed in the lower surface of the first bearing water tank, a valve is arranged on the water outlet, and the pair of second bearing water tanks is arranged on the other detachable fixing plate.

Preferably, the third heat dissipation cooling structure includes: a pair of water-cooling heat dissipation cooling components;

each water-cooling heat dissipation and cooling assembly is arranged between the corresponding first bearing water tank and the corresponding second bearing water tank and communicated with the first bearing water tank and the second bearing water tank;

the water-cooling heat dissipation cooling subassembly includes: the device comprises a heat-conducting copper plate, a multi-way pipe, an electric control valve, a plurality of conveying shells and conveying pipes matched with the conveying shells;

the heat conduction copper plate is arranged on the side surface of the server cabinet, the multi-way pipe is arranged on the first bearing water tank, the electric control valve is arranged on the multi-way pipe, the plurality of conveying shells are arranged on the heat conduction copper plate and are U-shaped conveying shells, the plurality of conveying pipes are arranged on the conveying shells, and the plurality of conveying pipes are connected with the corresponding second bearing water tanks.

Preferably, the reflow structure includes: a pair of third fixing frames, a pair of water pumps and a pair of return pipes;

the rear surface of each second bearing water tank is provided with a third fixing frame, each water pump is arranged on the corresponding third fixing frame and is connected with the corresponding second bearing water tank, each return pipe is arranged on the corresponding water pump, and the other end of each pair of return pipes is connected with the first bearing water tank.

Preferably, the first dust-proof structure includes: the first detachable fixing frame and the first dust screen;

the first detachable fixing frame is arranged on the first supporting shell and connected with the first supporting shell through bolts, and the first dust screen is arranged on the first detachable fixing frame.

Preferably, the second dust-proof structure includes: the second detachable fixed frame and the second dust screen;

the second detachable fixing frame is arranged on the second supporting shell and connected with the second supporting shell through bolts, and the second dust screen is arranged on the second detachable fixing frame.

The invention has the following beneficial effects:

the invention provides a server cabinet rapid cooling device. The method has the following beneficial effects: the device dispels the heat through ventilation cooling, convulsions heat dissipation and water-cooling to can be better carry out the rapid cooling heat dissipation to the server rack, it is very convenient, it is troublesome to have reduced unnecessary, can effectual normal operating of guaranteeing the server, reduce the unnecessary loss, the effectual equipment that has prevented in the server rack is down because of high temperature, and the structure is simple relatively, convenient to use.

Drawings

Fig. 1 is a schematic structural diagram of a server cabinet rapid cooling device according to the present invention.

Fig. 2 is a side view of a server cabinet rapid cooling device according to the present invention.

Fig. 3 is a front view of a server cabinet rapid cooling device according to the present invention.

Fig. 4 is a top view of a server cabinet rapid cooling device according to the present invention.

Fig. 5 is a partial schematic view of a server cabinet rapid cooling device according to the present invention.

Fig. 6 is a partial schematic view of a second heat dissipation structure according to the present invention.

In the figure: 1-a server cabinet; 2-a detachable fixing plate; 3-a first support housing; 4-a second support housing; 5-air inlet; 6-a first fixing frame; 7-an air intake fan; 8-a ventilation grid; 9-a first support frame; 10-a second mount; 11-an exhaust fan; 12-a removable sealing plate; 13-a first fixed circular ring; 14-rotating the round bar; 15-a first carrier water tank; 16-a second carrier tank; 17-a heat conducting copper plate; 18-a multi-pass tube; 19-an electrically controlled valve; 20-a transport housing; 21-a delivery tube; 22-a third mount; 23-a water pump; 24-a return pipe; 25-a first detachable holder; 26-a first dust screen; 27-a second detachable holder; 28-second dust screen.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Referring to fig. 1-6, the present invention provides a technical solution: a server cabinet rapid cooling device, comprising: a server cabinet 1; the fixing structure is arranged on the server cabinet 1; a support structure disposed on the fixed structure; the server cabinet 1 comprises a first heat dissipation and cooling structure, a second heat dissipation and cooling structure and a control device, wherein the first heat dissipation and cooling structure is arranged on the server cabinet 1 and used for dissipating heat and cooling; the second heat dissipation and cooling structure is arranged on the supporting structure and used for dissipating heat and cooling; the bearing structure is arranged on the side surface of the fixed structure; the third heat dissipation and cooling structure is arranged on the supporting structure and used for dissipating heat and cooling; the backflow structure is arranged on the bearing structure; the first dustproof structure is arranged on the supporting structure; and the second dustproof structure is arranged on the supporting structure.

The fixing structure includes: a detachable fixed plate 2; the detachable fixing plate 2 is arranged on the server cabinet 1.

The support structure includes: a first support housing 3 and a second support housing 4; first support casing 3 settles on 1 cabinet door of server rack, and first support casing 3 is connected through the bolt with 1 cabinet door of server rack, and second support casing 4 settles between can dismantling fixed plate 2, and second support casing 4 with can dismantling fixed plate 2 and be connected through the bolt.

First heat dissipation cooling structure includes: a pair of air inlets 5, a pair of first fixing frames 6, a pair of air inlet fans 7 and a ventilation grid 8; a pair of air intake 5 is seted up on first support housing 3, and every first mount 6 is settled in corresponding air intake 5 department, and every air intake fan 7 is settled on corresponding first mount 6, and air intake fan 7 carries out the air inlet, is equipped with the rectangle opening on the 1 cabinet door of server rack, and ventilation net 8 settles in the rectangle opening part, and ventilation net 8 ventilates.

The second heat dissipation cooling structure includes: the device comprises a first support frame 9, a plurality of second fixing frames 10, an exhaust fan 11 matched with the second fixing frames 10, a plurality of rotating assemblies and a plurality of detachable sealing plates 12; a rectangular opening is formed in the second support shell 4, the first support frame 9 is arranged at the rectangular opening, the first support frame 9 is connected with the second support shell 4 through bolts, the plurality of second fixing frames 10 are arranged on the first support frame 9, the plurality of second fixing frames 10 are connected with the first support frame 9 through bolts, each exhaust fan 11 is arranged on the corresponding second fixing frame 10, the plurality of rotating assemblies are arranged on the lower surfaces of the plurality of second fixing frames 10, and each detachable sealing plate 12 is arranged on a corresponding pair of rotating assemblies; the rotating assembly includes: a pair of first fixed rings 13 and a rotating rod 14; the rotating circular rod 14 is disposed on a pair of first fixed circular rings 13.

The bearing structure comprises: a first carrier water tank 15 and a pair of second carrier water tanks 16; the first bearing water tank 15 is arranged on one of the detachable fixing plates 2, a water inlet is formed in the upper surface of the first bearing water tank 15, a water outlet is formed in the lower surface of the first bearing water tank 15, a valve is arranged on the water outlet, and the pair of second bearing water tanks 16 is arranged on the other detachable fixing plate 2.

The third heat dissipation cooling structure includes: a pair of water-cooling heat dissipation cooling components; each water-cooling heat dissipation and cooling component is arranged between the corresponding first bearing water tank 15 and the corresponding second bearing water tank 16, and the water-cooling heat dissipation and cooling components are communicated with the first bearing water tank 15 and the second bearing water tank 16; the water-cooling heat dissipation cooling subassembly includes: the device comprises a heat-conducting copper plate 17, a multi-way pipe 18, an electric control valve 19, a plurality of conveying shells 20 and conveying pipes 21 matched with the plurality of conveying shells 20; the heat conduction copper plate 17 is arranged on the side surface of the server cabinet 1, the multi-way pipe 18 is arranged on the first water bearing tank 15, the electric control valve 19 is arranged on the multi-way pipe 18, the plurality of conveying shells 20 are arranged on the heat conduction copper plate 17, the conveying shells 20 are U-shaped conveying shells 20, the plurality of conveying pipes 21 are arranged on the conveying shells 20, and the plurality of conveying pipes 21 are connected with the corresponding second water bearing tanks 16.

The reflow structure includes: a pair of third fixing frames 22, a pair of water pumps 23 and a pair of return pipes 24; the rear surface of each second carrier water tank 16 is provided with a third fixing frame 22, each water pump 23 is arranged on the corresponding third fixing frame 22, each water pump 23 is connected with the corresponding second carrier water tank 16, each return pipe 24 is arranged on the corresponding water pump 23, and the other end of each pair of return pipes 24 is connected with the first carrier water tank 15.

The first dustproof structure includes: a first detachable holder 25 and a first dust screen 26; the first detachable holder 25 is disposed on the first support housing 3, the first detachable holder 25 is connected to the first support housing 3 by bolts, and the first dust screen 26 is disposed on the first detachable holder 25.

The second dustproof structure includes: a second detachable fixing frame 27 and a second dust screen 28; the second detachable holder 27 is disposed on the second support housing 4, the second detachable holder 27 is connected to the second support housing 4 by bolts, and the second dust screen 28 is disposed on the second detachable holder 27.

Example (b): the fixing structure on the server cabinet 1 is used for fixing, the supporting structure on the fixing structure is used for supporting, the first heat dissipation and cooling structure on the server cabinet 1 is used for heat dissipation and cooling, the second heat dissipation and cooling structure on the supporting structure is used for heat dissipation and cooling, the bearing structure on the side surface of the fixing structure is used for bearing, the third heat dissipation and cooling structure on the supporting structure is used for heat dissipation and cooling, the backflow structure on the bearing structure is used for backflow, the first dustproof structure on the supporting structure is used for dust prevention, the second dustproof structure on the supporting structure is used for dust prevention, firstly, all the structures are installed, then, a control button and a power supply interface are installed at an idle position, then, water is injected into the backflow structure through a water inlet on the first bearing water tank 15, when the temperature does not need to be reduced, an air inlet fan 7 on the first fixing frame 6 on the air inlet 5 is opened, and the air inlet fan 7 on the first fixing frame 6 starts to enter air, wind enters the server cabinet 1 from the ventilation grid 8 to cool and dissipate heat, when the temperature is too high, the exhaust fan 11 on the second fixing frame 10 on the first supporting frame 9 is opened to exhaust air to perform rapid cooling and dissipating heat, meanwhile, the electric control valve 19 on the multi-way pipe 18 is opened, water flows into the conveying shell 20 along the multi-way pipe 18 and contacts with the heat-conducting copper plate 17 to realize cooling and dissipating heat, meanwhile, the water flows into the second bearing water tank 16 through the conveying pipe 21 on the conveying shell 20, the water pump 23 on the third fixing frame 22 is opened at the same time, the water flowing into the second bearing water tank 16 enters the water pump 23 and flows back into the first bearing water tank 15 through the return pipe 24 on the water pump 23 to be recycled, the first dustproof net 26 on the first detachable fixing frame 25 on the first supporting shell 3 is used for dust prevention, the second dustproof net 28 on the second detachable fixing frame 27 on the second supporting shell 4 is used for dust prevention, the first detachable fixing frame 25 and the second detachable fixing frame 27 facilitate replacement and updating of the first dust-proof net 26 and the second dust-proof net 28, which is very convenient.

It is noted that, herein, relational terms such as first and second, and the like may be used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Also, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus. Without further limitation. The use of the phrase "comprising one of the elements does not exclude the presence of other like elements in the process, method, article, or apparatus that comprises the element.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims

1. The utility model provides a server rack rapid cooling equipment which characterized in that includes:

a server cabinet (1);

a fixed structure disposed on the server cabinet (1);

the fixing structure includes: a detachable fixed plate (2);

the detachable fixing plate (2) is arranged on the server cabinet (1);

a support structure disposed on a fixed structure;

the server cabinet comprises a first heat dissipation and cooling structure, a second heat dissipation and cooling structure and a control device, wherein the first heat dissipation and cooling structure is arranged on the server cabinet (1) and used for dissipating heat and cooling;

a bearing structure disposed on a side surface of the fixed structure;

the load bearing structure comprises: a first carrier water tank (15) and a pair of second carrier water tanks (16);

the first bearing water tank (15) is arranged on one of the detachable fixing plates (2), a water inlet is formed in the upper surface of the first bearing water tank (15), a water outlet is formed in the lower surface of the first bearing water tank (15), a valve is arranged on the water outlet, and the pair of second bearing water tanks (16) is arranged on the other detachable fixing plate (2);

the third heat dissipation cooling structure includes: a pair of water-cooling heat dissipation cooling components;

each water-cooling heat dissipation and cooling assembly is arranged between the corresponding first bearing water tank (15) and the corresponding second bearing water tank (16), and the water-cooling heat dissipation and cooling assemblies are communicated with the first bearing water tank (15) and the second bearing water tank (16);

the water-cooling heat dissipation cooling subassembly includes: the device comprises a heat-conducting copper plate (17), a multi-way pipe (18), an electric control valve (19), a plurality of conveying shells (20) and conveying pipes (21) matched with the conveying shells (20);

the heat-conducting copper plate (17) is arranged on the side surface of the server cabinet (1), the multi-way pipe (18) is arranged on the first bearing water tank (15), the electric control valve (19) is arranged on the multi-way pipe (18), the plurality of conveying shells (20) are arranged on the heat-conducting copper plate (17), the conveying shells (20) are U-shaped conveying shells (20), the plurality of conveying pipes (21) are arranged on the conveying shells (20), and the plurality of conveying pipes (21) are connected with the corresponding second bearing water tanks (16);

a reflow structure disposed on the load-bearing structure;

A first dust prevention structure disposed on a support structure;

a second dust prevention structure disposed on the support structure.

2. The server cabinet rapid cooling device of claim 1, wherein the support structure comprises: a first support housing (3) and a second support housing (4);

the first supporting shell (3) is arranged on a cabinet door of the server cabinet (1), the first supporting shell (3) is connected with the cabinet door of the server cabinet (1) through bolts, the second supporting shell (4) is arranged between the detachable fixing plates (2), and the second supporting shell (4) is connected with the detachable fixing plates (2) through bolts.

3. The server cabinet rapid cooling device of claim 2, wherein the first heat dissipation and cooling structure comprises: the air conditioner comprises a pair of air inlets (5), a pair of first fixing frames (6), a pair of air inlet fans (7) and a ventilation grid (8);

the pair of air inlets (5) are arranged on the first supporting shell (3), each first fixing frame (6) is arranged at the corresponding air inlet (5), each air inlet fan (7) is arranged on the corresponding first fixing frame (6), the air inlet fans (7) supply air, rectangular openings are formed in cabinet doors of the server cabinet (1), the ventilation grids (8) are arranged at the rectangular openings, and the ventilation grids (8) ventilate.

4. The rapid cooling device for server cabinets of claim 2, wherein the second heat dissipation and cooling structure comprises: the device comprises a first supporting frame (9), a plurality of second fixing frames (10), an exhaust fan (11) matched with the second fixing frames (10), a plurality of rotating assemblies and a plurality of detachable sealing plates (12);

the second supporting shell (4) is provided with a rectangular opening, the first supporting frame (9) is arranged at the rectangular opening, the first supporting frame (9) is connected with the second supporting shell (4) through bolts, the plurality of second fixing frames (10) are arranged on the first supporting frame (9), the plurality of second fixing frames (10) are connected with the first supporting frame (9) through bolts, each exhaust fan (11) is arranged on the corresponding second fixing frame (10), the plurality of rotating assemblies are arranged on the lower surfaces of the plurality of second fixing frames (10), and each detachable sealing plate (12) is arranged on the corresponding pair of rotating assemblies;

the rotating assembly includes: a pair of first fixed rings (13) and a rotating rod (14);

the rotating round bar (14) is arranged on a pair of the first fixed rings (13).

5. The server cabinet rapid cooling device of claim 1, wherein the backflow structure comprises: a pair of third fixing frames (22), a pair of water pumps (23) and a pair of return pipes (24);

A third fixing frame (22) is arranged on the rear surface of each second bearing water tank (16), each water pump (23) is arranged on the corresponding third fixing frame (22), each water pump (23) is connected with the corresponding second bearing water tank (16), each return pipe (24) is arranged on the corresponding water pump (23), and the other end of each pair of return pipes (24) is connected with the first bearing water tank (15).

6. The server cabinet rapid cooling device of claim 2, wherein the first dustproof structure comprises: a first detachable fixing frame (25) and a first dust screen (26);

the first detachable fixing frame (25) is arranged on the first supporting shell (3), the first detachable fixing frame (25) is connected with the first supporting shell (3) through bolts, and the first dust screen (26) is arranged on the first detachable fixing frame (25).

7. The server cabinet rapid cooling device of claim 2, wherein the second dustproof structure comprises: a second detachable fixed mount (27) and a second dust screen (28);

the second detachable fixing frame (27) is arranged on the second supporting shell (4), the second detachable fixing frame (27) is connected with the second supporting shell (4) through bolts, and the second dust screen (28) is arranged on the second detachable fixing frame (27).