CN109600971B

CN109600971B - Server cabinet cooling device

Info

Publication number: CN109600971B
Application number: CN201811521405.4A
Authority: CN
Inventors: 朱常乐
Original assignee: Zhengzhou Yunhai Information Technology Co Ltd
Current assignee: Zhengzhou Yunhai Information Technology Co Ltd
Priority date: 2018-12-12
Filing date: 2018-12-12
Publication date: 2020-03-24
Anticipated expiration: 2038-12-12
Also published as: CN109600971A

Abstract

The invention discloses a server cabinet cooling device which structurally comprises a server cabinet body, a first transverse plate, a disc, a fan, a liquid cooling mechanism, an air cooling mechanism, a damping mechanism, L-shaped supporting rods, a three-phase asynchronous motor and a bottom plate, wherein the damping mechanism is arranged at the lower part of the first transverse plate, the liquid cooling mechanism is arranged on one side of the upper part of the first transverse plate, the air cooling mechanism is arranged on the other side of the upper part of the first transverse plate, the damping mechanism is arranged on the bottom plate, the L-shaped supporting rods are respectively arranged at two sides of the bottom plate, the three-phase asynchronous motor is arranged at the connecting end of the two L-shaped supporting rods, the disc is arranged at the tops of the liquid cooling mechanism and the air cooling mechanism, the fan is arranged at the lower central part of the disc. This cooling device combines together liquid cooling and air-cooling, can effectually cool off the server rack for the radiating rate of server rack, thereby guarantee that server equipment reaches normal operating.

Description

Server cabinet cooling device

Technical Field

The invention relates to the field of servers, in particular to a cooling device for a server cabinet.

Background

Place many server equipment in the current rack, these server equipment can produce a large amount of heats at the operation in-process, if can not timely effectual cooling, the heat of accumulation makes server equipment overheated and crash very easily, leads to network system's operation unusual, and traditional server rack cooling device radiating rate is slow, can not dispel the heat fast, and the heat is piled up and is made the server overheated, seriously influences the operation of server to influence staff's availability factor.

Disclosure of Invention

The invention aims to provide a cooling device for a server cabinet, which mainly solves the problems of slow heat dissipation and poor cooling effect of the conventional server cabinet. This cooling device combines together liquid cooling and air-cooling, can effectually cool off the server rack for the radiating rate of server rack, thereby guarantee that server equipment reaches normal operating.

The technical scheme adopted by the invention for solving the technical problems is as follows: server rack cooling device, its structure includes server rack body, first diaphragm, disc, fan, liquid cooling mechanism, forced air cooling mechanism, damper, L shape branch, three-phase asynchronous machine and bottom plate, the lower part of first diaphragm is equipped with damper, upper portion one side of first diaphragm is equipped with liquid cooling mechanism, and the opposite side is equipped with forced air cooling mechanism, damper sets up on the bottom plate, the both sides of bottom plate are equipped with L shape branch respectively, and the end of meeting of two L shape branches is equipped with three-phase asynchronous machine, the top of liquid cooling mechanism and forced air cooling mechanism is equipped with the disc, the center lower part of disc is equipped with the fan, the pivot of fan is connected with three-phase asynchronous machine's output shaft, the bottom surface of disc is equipped with two arc lugs.

Furthermore, the liquid cooling mechanism is composed of a first barrel body, a feeding pipe, a cover body, a first slide block, a first connecting rod, a first baffle plate, a second spring, a discharging pipe, a first one-way valve, a vertical pipe, a first box body, a radiating pipe, a second box body, an arc-shaped pipe, a second one-way valve and a heat conducting plate, wherein the heat conducting plate is attached to one side wall of the server cabinet body,

the top surface of the first transverse plate is fixedly connected with a first barrel body, the first transverse plate and the first barrel body form a closed space, one side wall of the first barrel body is fixedly communicated with an inlet pipe, the top end of the inlet pipe is provided with threads, the top end of the inlet pipe is in threaded connection with a cover body, a first sliding block is arranged in the first barrel body in a laminating and sliding manner, the top surface of the first sliding block is fixedly connected with a first connecting rod, the top end of the first connecting rod penetrates out of the first barrel body and is fixedly connected with a first baffle, the first connecting rod is in sliding connection with the first barrel body, a second spring is sleeved on the first connecting rod, the top end of the second spring is fixedly connected with the bottom surface of the first baffle, and the bottom end of the second spring is,

first barrel lateral wall bottom fixed intercommunication has the discharging pipe, the fixed intercommunication of the discharging pipe other end has the standpipe, the first check valve of fixedly connected with in the discharging pipe, the fixed intercommunication in standpipe top has first box, the fixed intercommunication of a first box lateral wall has many cooling tubes, and the fixed intercommunication of many cooling tube other ends has the second box, the fixed intercommunication of second box lateral wall has the arc pipe, fixedly connected with second check valve in the arc pipe.

Further, the air cooling mechanism comprises a second barrel body, an air outlet pipe, a third one-way valve, an air inlet pipe, a fourth one-way valve, an air outlet, a second sliding block, a second connecting rod, a second baffle plate and a fourth spring, wherein the top surface of the first transverse plate is fixedly connected with the second barrel body, the second barrel body and the first transverse plate form a closed space, the bottom end of the side wall of the second barrel body is fixedly communicated with the air outlet pipe, the air outlet pipe is fixedly connected with the third one-way valve, the other end of the air outlet pipe is fixedly communicated with the bottom end of the side wall of the server cabinet body, the other side wall of the second barrel body is fixedly communicated with the air inlet pipe, the air inlet pipe is fixedly connected with the fourth one-way valve, the second sliding block is attached and slid in the second barrel body, the top surface of the second sliding block is fixedly connected with the second connecting rod, and the top, the second connecting rod is sleeved with a fourth spring, the bottom end of the fourth spring is fixedly connected with the top surface of the second barrel body, and the second barrel body is connected with the second connecting rod in a sliding mode.

Furthermore, the damping mechanism is composed of a cover body, a second transverse plate, a rotating block, a first threaded rod, a second threaded rod, a threaded sleeve, a third spring, a speed reducer, a motor, a dovetail groove, a dovetail block, a connecting rod, an inclined rod, a through groove, a first vertical rod and a first spring, the top surface of the second transverse plate is provided with a dovetail groove, dovetail blocks are symmetrically attached in the dovetail groove, the top surface of the second transverse plate is symmetrically provided with through grooves, a first vertical rod is fitted and slid in the through groove, the side wall of the dovetail block is fixedly connected with a connecting rod, the other end of the connecting rod penetrates into the through groove to be fixedly connected with a first spring, the connecting rod is connected with a second transverse plate in a sliding way, the other end of the first spring is fixedly connected with the side wall of the first vertical rod, the two dovetail blocks are fixedly connected through a third spring, the upper end of the inclined rod is connected with the bottom of the first transverse plate, and the lower end of the inclined rod is connected with the dovetail blocks;

the utility model discloses a cover body, including the cover body, first threaded rod, second threaded rod, first montant, cover body bottom surface fixedly connected with cover body, the embedding has rotatory piece in the cover body lateral wall, rotatory piece and cover body swivelling joint, the first threaded rod of a rotatory piece lateral wall fixedly connected with, first threaded rod other end fixedly connected with second threaded rod has the screw sleeve on second threaded rod and the first threaded rod respectively, first montant is worn out logical groove and screw sleeve top surface fixed connection, cover body fixedly connected with reduction gear is worn out to the second threaded rod other end, reduction gear other end fixedly connected with motor, cover body bottom surface fixedly connected with bottom plate, reduction gear bottom surface and bottom plate top surface fixed connection, motor and bottom plate top.

Furthermore, the thread direction of the second threaded rod is opposite to that of the first threaded rod, and the first threaded rod and the second threaded rod rotate simultaneously to drive the two threaded sleeves to move in opposite directions.

Furthermore, the second transverse plate and the cover body are connected in a welding mode.

Further, the connecting rod is made of alloy steel materials.

The invention has the beneficial effects that:

1. the server cabinet cooling device is reasonable in structure, can achieve an effective heat dissipation effect, effectively cools the server cabinet through the liquid cooling mechanism, can recycle cooling liquid, and saves cost. The server cabinet is assisted to dissipate heat through the air cooling mechanism, the cooling effect of the server cabinet is improved, and the heat dissipation rate of the server cabinet is increased, so that the server equipment can normally run, effective shock absorption can be realized, and the equipment in the server cabinet is effectively protected.

2. Because the device still is equipped with damper, through the lift of motor control damper drive first diaphragm, according to the weight difference of server rack body, adjust the height of first diaphragm to reach different shock attenuation effects, effectual protection server rack body.

Drawings

FIG. 1 is a schematic view of the apparatus according to the present invention;

FIG. 2 is a cross-sectional view A-A of the device configuration of the present invention;

FIG. 3 is a cross-sectional view of a device configuration B-B according to the present invention;

fig. 4 is a partial enlarged view of the structure of the device of the present invention.

In the figure:

the server cabinet comprises a server cabinet body 1, a first transverse plate 2, a second transverse plate 3, a dovetail groove 4, a dovetail block 5, a sliding rod 6, an inclined rod 7, a through groove 8, a first vertical rod 9, a first spring 10, an air outlet 11, a heat conducting plate 12, a first barrel 13, a feeding pipe 14, a cover body 15, a first sliding block 16, a first sliding rod 17, a first baffle plate 18, a second spring 19, a discharging pipe 20, a first one-way valve 21, a vertical pipe 22, a first box body 23, a radiating pipe 24, a second box body 25, an arc-shaped pipe 26, a second one-way valve 27, a second barrel body 28, an air outlet pipe 29, a third one-way valve 30, an air inlet pipe 31, a fourth one-way valve 32, a cover body 33, a rotating block 34, a first threaded rod 35, a second threaded rod 36, a threaded sleeve 37, a third spring 38, a speed reducer 39, a motor 40, a bottom plate 41, an L-shaped supporting rod 42, a three-phase asynchronous motor 43, a second slide bar 48, a second stop 49, a fourth spring 50.

Detailed Description

The server cabinet cooling device of the present invention will be described in detail below with reference to the accompanying drawings.

As shown in fig. 1 to 4, the server cabinet cooling device of the present invention includes a server cabinet body, a first horizontal plate 2, a disc 45, a fan 44, a liquid cooling mechanism, an air cooling mechanism, a damping mechanism, an L-shaped strut 42, a three-phase asynchronous motor 43, and a bottom plate 41, wherein the damping mechanism is disposed at the lower portion of the first horizontal plate 2, the liquid cooling mechanism is disposed at one side of the upper portion of the first horizontal plate 2, the air cooling mechanism is disposed at the other side of the upper portion of the first horizontal plate 2, the damping mechanism is disposed on the bottom plate 41, the L-shaped strut 42 is disposed at each of two sides of the bottom plate 41, the three-phase asynchronous motor 43 is disposed at the connecting end of the two L-shaped struts, the disc 45 is disposed at the top portions of the liquid cooling mechanism and the air cooling mechanism, the fan 44 is disposed at the lower center of the disc 45, the rotating shaft, the arc-shaped convex blocks have the function of knocking the first baffle plate 18 of the liquid cooling mechanism and the second baffle plate 49 of the air cooling mechanism to realize the continuous work of the liquid cooling mechanism and the air cooling mechanism.

The liquid cooling mechanism comprises a first barrel 13, a feeding pipe 14, a cover body 15, a first sliding block 16, a first connecting rod 17, a first baffle 18, a second spring 19, a discharging pipe 20, a first check valve 21, a vertical pipe 22, a first box body 23, a radiating pipe 24, a second box body 25, an arc-shaped pipe 26, a second check valve 27 and a heat conducting plate 12, wherein the heat conducting plate 12 is arranged on one side wall of the server cabinet body 1 in a laminating manner, the first barrel 13 is fixedly connected to the top surface of the first transverse plate 2, the first transverse plate 2 and the first barrel 13 form a closed space, the feeding pipe 14 is fixedly communicated with one side wall of the first barrel 13, the top end of the feeding pipe 14 is provided with threads, the cover body 15 is in threaded connection with the top end of the feeding pipe 14, the first sliding block 16 is arranged in the first barrel 13 in a laminating manner, the top surface of the first sliding block 16 is fixedly connected with the first connecting rod 17, the top end of the first connecting rod 17 penetrates through, first connecting rod 17 and first barrel 13 sliding connection, the cover has second spring 19 on the first connecting

rod

17, 19 top ends of second spring and 18 bottom surface fixed connection of first baffle, 19 bottom ends of second spring and 13 top surface fixed connection of first barrel, 13 lateral wall bottom mounting intercommunication of first barrel have discharging

pipe

20, 20 other end mounting intercommunication of discharging pipe has

standpipe

22, 20 interior first check valve 21 of fixedly connected with of discharging pipe, 22 top mounting intercommunication of standpipe have first box 23, 23 a lateral wall mounting intercommunication of first box has

many cooling tubes

24, and 24 other end mounting intercommunication of many cooling tubes have

second box

25, 25 lateral walls mounting intercommunication of second box has

arc pipe

26, 26 interior fixedly connected with second check valve 27 of arc pipe.

The air cooling mechanism is used for auxiliary refrigeration and comprises a second barrel body 28, an air outlet pipe 29, a third one-way valve 30, an air inlet pipe 31, a fourth one-way valve 32, an air outlet 11, a second sliding block 47, a second connecting rod 48, a second baffle 49 and a fourth spring 50, the top surface of the first transverse plate 2 is fixedly connected with the second barrel body 28, the second barrel body 28 and the first transverse plate 2 form a closed space, the bottom end of the side wall of the second barrel body 28 is fixedly communicated with the air outlet pipe 29, the inside of the air outlet pipe 29 is fixedly connected with the third one-way valve 30, the other end of the air outlet pipe 29 is fixedly communicated with the bottom end of the side wall of the server cabinet body 1, the other side wall of the second barrel body 28 is fixedly communicated with the air inlet pipe 31, the inside of the air inlet pipe 31 is fixedly connected with the fourth one-way valve 32, the inside of the second barrel body 28 is slidably connected with the second sliding block, the top end of the second connecting rod 48 penetrates through the second barrel 28 and is fixedly connected with a second baffle 49, a fourth spring 50 is sleeved on the second connecting rod 48, the bottom end of the fourth spring 50 is fixedly connected with the top surface of the second barrel 28, and the second barrel 28 is in sliding connection with the second connecting rod 48.

The damping mechanism is composed of a cover body 33, a second transverse plate 3, a rotating block 34, a first threaded rod 35, a second threaded rod 36, a threaded sleeve 37, a third spring 38, a speed reducer 39, a motor 40, a dovetail groove 4, a dovetail block 5, a connecting rod 6, an inclined rod 7, a through groove 8, a first vertical rod 9 and a first spring 10, the top surface of the second transverse plate 3 is provided with a dovetail groove 4, dovetail blocks 5 are symmetrically attached in the dovetail groove 4, the top surface of the second transverse plate 3 is symmetrically provided with through grooves 8, first vertical rods 9 are attached and slide in the through grooves 8, the side wall of the dovetail block 5 is fixedly connected with a connecting rod 6, the other end of the connecting rod 6 penetrates into the through groove 8 and is fixedly connected with a first spring 10, connecting rod 6 and second diaphragm 3 sliding connection, the first spring 10 other end and the 9 lateral walls fixed connection of first montant, through third spring 38 fixed connection between two dovetail blocks 5.

3 bottom surfaces fixedly connected with cover bodies 33 of second diaphragm, the embedding has rotatory piece 34 in the cover body 33 lateral wall, rotatory piece 34 and the cover body 33 swivelling joint, the first threaded rod 35 of rotatory piece 34 lateral wall fixedly connected with, the second threaded rod 36 of first threaded rod 35 other end fixedly connected with, the cover has threaded sleeve 37 on second threaded rod 36 and the first threaded rod 35 respectively, logical groove 8 and the 37 top surface fixed connection of threaded sleeve are worn out to first montant 9, the cover body 33 fixedly connected with reduction gear 39 is worn out to the 36 other end of second threaded rod, the 39 other end fixedly connected with motor 40 of reduction gear, the cover body 33 bottom surfaces fixedly connected with bottom plate 41, reduction gear 39 bottom surfaces and 41 top surface fixed connection of bottom plate,

motor

40 and 41 top surface fixed connection of bottom plate.

The second threaded rod 36 and the first threaded rod 35 are opposite in thread direction, and the first threaded rod and the second threaded rod rotate simultaneously to drive the two threaded sleeves to move in opposite directions. Two screw thread sleeves are close to and move during corotation, make the distance between the two shorter and shorter more, realize first diaphragm function of rising, and two screw thread sleeves are kept away from the motion during reversal, make the distance between the two more and more distant, realize first diaphragm decline function.

The second transverse plate and the cover body are connected in a welding mode. The connecting rod is made of alloy steel materials. The model of the three-phase asynchronous motor 43 adopts Y2-160M2-2/15 kW.

When the server cabinet body 1 is installed, the server cabinet body 1 is placed on the first transverse plate 2, the cover body 15 is unscrewed, cooling liquid is added from the top end of the feeding pipe 14, then the cover body 15 is screwed, the device is connected with a power supply, heat generated by the operation of the server cabinet body 1 is transferred to the heat conduction plate 12, the three-phase asynchronous motor 43 operates, the three-phase asynchronous motor 43 drives the disc 45 to rotate, the disc 45 drives the lug 46 at the lower end to rotate, the lug 46 repeatedly beats the first baffle 18, so that the first baffle 18 moves in an amplitude manner, the first baffle 18 drives the first sliding rod 17 to move, the first sliding rod 17 drives the first sliding block 16 to perform piston movement in the first barrel body 13, when the first sliding block 16 moves downwards, the first sliding block 16 extrudes the cooling liquid in the first barrel body 13 to enter the discharging pipe 20, then, the vertical pipe 22 is attached to the heat conducting plate 12 through the vertical pipe 22, the heat on the heat conducting plate 12 is brought into the first box 23 and then flows into the plurality of radiating pipes 24, meanwhile, the three-phase asynchronous motor 43 drives the fan 44 to rotate, the fan 44 rotates to blow air to the plurality of radiating pipes 24, the radiating pipes 24 with heat are cooled, then the cooling liquid enters the second box 25, when the first sliding block 16 moves upwards, the cooling liquid entering the second box 25 flows into the first barrel body 13 from the arc-shaped pipe 26, the first sliding block 16 performs piston movement to enable the cooling liquid to be recycled, the first one-way valve 21 and the second one-way valve 27 are arranged to enable the first sliding block 16 to complete piston movement, meanwhile, the bump 46 beats the second baffle 49 to enable the second baffle 49 to perform amplitude movement, the second baffle 49 drives the second sliding rod 48 to move, the second sliding rod 48 drives the second sliding block 47 to perform piston movement in the second barrel body 28, when the second sliding block 47 moves downwards, the air in the second barrel 28 is discharged into the server cabinet body 1 through the air outlet pipe 29, the equipment in the server cabinet body 1 is blown, partial heat on the equipment is taken away, the air blowing equipment takes the heat away and finally discharges the heat from the air outlet 11, the server cabinet body 1 is cooled, the normal operation of the equipment in the server cabinet body 1 is effectively protected, when the second sliding block 47 slides upwards, external air enters the second barrel 28 from the air inlet pipe 31, the second sliding block 47 performs piston movement in the second barrel 28 to indirectly blow the air in the server cabinet body 1, the cooling effect is achieved, the piston movement of the second sliding block 47 in the second barrel 28 is facilitated through the arrangement of the third check valve 30 and the fourth check valve 32, when the server cabinet body 1 is placed, due to different weights of the server cabinet body 1, the damping effect required is also different, and when a greater damping effect is required, the motor 40 is activated, so that the distance between the two threaded sleeves 37 is shortened, thereby indirectly enabling the two dovetail blocks 5 to slide relatively, increasing the angle of the inclined rod, further enabling the first transverse plate 2 to ascend, when the server cabinet body 1 is placed, a larger shock absorption effect is achieved, and when the shock absorption effect needs to be reduced, the distance between the two threaded sleeves 37 is lengthened by operating the motor 40, the angle of the inclined rod is reduced so as to indirectly lower the first transverse plate 2, and a small-amplitude shock absorption effect is achieved, after the server cabinet body 1 is placed on the first transverse plate 2, in the use, the damping effect also can be played in the setting of forked tail piece 5, slide bar 6, down tube 7, logical groove 8, first montant 9 and first spring 10 part, and 1 internal plant normal operating of effectual protection server rack body to reach the long-term purpose of using.

The server cabinet cooling device is reasonable in structure, can achieve an effective heat dissipation effect, effectively cools the server cabinet through the liquid cooling mechanism, can recycle cooling liquid, and saves cost. The server cabinet is assisted to dissipate heat through the air cooling mechanism, the cooling effect of the server cabinet is improved, and the heat dissipation rate of the server cabinet is increased, so that the server equipment can normally run, effective shock absorption can be realized, and the equipment in the server cabinet is effectively protected.

While the foregoing is directed to the principles of the present invention, other and further embodiments of the invention may be devised without departing from the basic scope thereof, and the scope thereof is determined by the claims that follow.

Other technical features than those described in the specification are known to those skilled in the art.

Claims

1. The cooling device of the server cabinet comprises a server cabinet body and is characterized by further comprising a first transverse plate, a disc, a fan, a liquid cooling mechanism, an air cooling mechanism, a damping mechanism, an L-shaped supporting rod, a three-phase asynchronous motor and a bottom plate, wherein the damping mechanism is arranged at the lower part of the first transverse plate, the liquid cooling mechanism is arranged on one side of the upper part of the first transverse plate, the air cooling mechanism is arranged on the other side of the upper part of the first transverse plate, the damping mechanism is arranged on the bottom plate, the L-shaped supporting rod is respectively arranged at two sides of the bottom plate, the three-phase asynchronous motor is arranged at the connecting end of the two L-shaped supporting rods, the disc is arranged at the top parts of the liquid cooling mechanism and the air cooling mechanism, the fan is arranged at the;

the liquid cooling mechanism consists of a first barrel body, a feeding pipe, a cover body, a first sliding block, a first connecting rod, a first baffle, a second spring, a discharging pipe, a first check valve, a vertical pipe, a first box body, a radiating pipe, a second box body, an arc-shaped pipe, a second check valve and a heat conducting plate, wherein the heat conducting plate is attached to one side wall of the server cabinet body,

2. The server cabinet cooling device according to claim 1, wherein the air cooling mechanism is composed of a second cabinet, an air outlet pipe, a third check valve, an air inlet pipe, a fourth check valve, an air outlet, a second slider, a second connecting rod, a second baffle plate and a fourth spring, the top surface of the first horizontal plate is fixedly connected with the second cabinet, the second cabinet and the first horizontal plate form a closed space, the bottom end of the side wall of the second cabinet is fixedly communicated with the air outlet pipe, the air outlet pipe is fixedly connected with the third check valve, the other end of the air outlet pipe is fixedly communicated with the bottom end of the side wall of the server cabinet body, the other side wall of the second cabinet is fixedly communicated with the air inlet pipe, the air inlet pipe is fixedly connected with the fourth check valve, the second slider is attached and slid in the second cabinet, the top surface of the second slider is fixedly connected with the second connecting rod, the top end of the second connecting rod penetrates through the second baffle plate, the second connecting rod is sleeved with a fourth spring, the bottom end of the fourth spring is fixedly connected with the top surface of the second barrel body, and the second barrel body is connected with the second connecting rod in a sliding mode.

3. The server cabinet cooling device according to claim 1, wherein the damping mechanism is composed of a cover body, a second transverse plate, a rotating block, a first threaded rod, a second threaded rod, a threaded sleeve, a third spring, a speed reducer, a motor, a dovetail groove, a dovetail block, a connecting rod, a diagonal rod, a through groove, a first vertical rod and a first spring, the dovetail groove is formed in the top surface of the second transverse plate, the dovetail block is symmetrically attached to the inside of the dovetail groove, the through groove is symmetrically formed in the top surface of the second transverse plate, the first vertical rod is attached to and slides in the through groove, the side wall of the dovetail block is fixedly connected with the connecting rod, the other end of the connecting rod penetrates through the through groove and is fixedly connected with the first spring, the connecting rod is slidably connected with the second transverse plate, the other end of the first spring is fixedly connected with the side wall of the first vertical rod, and the two, the upper end of the diagonal rod is connected with the bottom of the first transverse plate, the lower end of the diagonal rod is connected with the dovetail block,

4. The server cabinet cooling device of claim 3, wherein the second threaded rod is threaded in an opposite direction to the first threaded rod, and wherein simultaneous rotation of the first threaded rod and the second threaded rod causes the two threaded sleeves to move in opposite directions.

5. The server cabinet cooling device of claim 3, wherein the second cross plate is welded to the cover.

6. The server cabinet cooling arrangement of claim 3, wherein the connecting rod is fabricated from a steel alloy material.