CN114040613A

CN114040613A - Cloud computing server array cabinet

Info

Publication number: CN114040613A
Application number: CN202111324252.6A
Authority: CN
Inventors: 徐军华; 余峰; 万晓敏
Original assignee: Zhejiang Haoweiyun Chain Technology Co ltd
Current assignee: Zhejiang Haoweiyun Chain Technology Co ltd
Priority date: 2021-11-10
Filing date: 2021-11-10
Publication date: 2022-02-11
Anticipated expiration: 2041-11-10
Also published as: CN114040613B

Abstract

The invention relates to the technical field of server cabinets, in particular to a cloud computing server array cabinet which comprises a plurality of cabinet mechanisms distributed in an array manner, wherein each cabinet mechanism comprises a cabinet, a bottom sealing plate is fixedly installed at the bottom of each cabinet, and a plurality of heat dissipation grooves distributed at equal intervals are formed in each bottom sealing plate; the bottom end of the bottom sealing plate is provided with a base, the top of the base is fixedly provided with a water tank, two ends of the top of the base are fixedly provided with supporting vertical plates, the upper ends of the supporting vertical plates are fixedly connected to the bottom of the bottom sealing plate, a plurality of heat exchange pipes distributed at equal intervals are arranged in the water tank, and two ends of each heat exchange pipe penetrate through the supporting vertical plates on two sides and are fixedly connected to the supporting vertical plates; the heat in the cabinet is discharged from the heat discharge groove on the bottom sealing plate and is partially absorbed by the heat exchange guide pipe, the heat exchange guide pipe flows with heat exchange liquid, meanwhile, the heat exchange liquid is filled in the water tank, the heat exchange liquid soaks the heat exchange guide pipe, so that when the temperature of the heat exchange liquid rises, the thermosensitive gas is heated to expand, and the driving strip moves downwards along the vertical direction.

Description

Cloud computing server array cabinet

Technical Field

The invention relates to the technical field of server cabinets, in particular to a cloud computing server array cabinet.

Background

With the rapid development of computer technology and the establishment of many large-scale internet data centers, the concentration degree of electronic devices is becoming higher and higher, and devices such as servers are usually directly installed in a server cabinet, and the temperature of the server cabinet will directly affect the operation performance of the servers, so how to cool the server cabinet in an internet data center with a multi-row compact design of the server cabinet is one of the important issues for ensuring the operation performance of the servers.

The existing cloud computing server array cabinet is large in heat dissipation amount, the cabinet is cooled through the arrangement of the water cooling equipment, however, the water temperature in the water cooling box changes greatly, meanwhile, the temperature of cooling water in the water cooling box can reflect the temperature of the cabinet in real time, the existing temperature monitoring is achieved through electronic equipment in many ways, the electronic equipment is expensive to counterfeit and poor in stability, and compared with the mechanical equipment, the failure rate is high, therefore, the mechanical equipment is needed to monitor the temperature of the water cooling equipment, and the cloud computing server array cabinet is provided for the reason.

Disclosure of Invention

The invention aims to solve the defect that water cooling equipment of a cloud computing server array cabinet does not have a mechanical temperature monitoring function in the prior art, and provides the cloud computing server array cabinet.

In order to achieve the purpose, the invention adopts the following technical scheme:

the cabinet comprises a cabinet body, a bottom sealing plate is fixedly installed at the bottom of the cabinet body, and a plurality of heat dissipation grooves distributed at equal intervals are formed in the bottom sealing plate.

The bottom sealing plate bottom is provided with the base, base top fixed mounting has the water tank, the equal fixed mounting in base top both ends has the support riser, the equal fixed connection in bottom sealing plate bottom in support riser upper end, be provided with the heat transfer pipe of many equidistance distributions in the water tank, the heat transfer pipe both ends all run through the support riser and the heat transfer pipe of both sides and link firmly on the support riser.

Preferably, the two ends of each heat exchange conduit are fixedly provided with a connecting ring, two adjacent cabinets are connected together, and the adjacent connecting rings on the heat exchange conduits are connected together through screws.

Preferably, heat exchange liquid is equipped with in the water tank, be provided with on the water tank and trade liquid mechanism, trade liquid mechanism includes first water pump, second water pump and controller, first water pump and second water pump interval set up and fixed mounting in the water tank outside, the water inlet port of first water pump and second water pump all communicates with outside water supply equipment through the water route pipe fitting, the outlet pipe of first water pump and second water pump all runs through the water tank and with the inside intercommunication of water tank, controller fixed mounting is in the water tank outside, the equal signal connection of first water pump and second water pump to controller, just the steerable first water pump of controller and the work of second water pump.

Preferably, the water tank is provided with a temperature monitoring mechanism, and the temperature monitoring mechanism can monitor the working temperature of the heat exchange liquid in the water tank in real time.

Preferably, the temperature monitoring mechanism includes the supporting seat, supporting seat fixed mounting is in the water tank outside, be provided with the piston cylinder on the supporting seat, the piston cylinder runs through the supporting seat and links firmly together with the supporting seat, the sealed cylinder board that is provided with in piston cylinder bottom, the piston cylinder internalization is provided with the piston, the piston cylinder upper end is provided with the heat-conducting plate, the heat-conducting plate links firmly at the water tank top, the sealed cylinder top that is in heat-conducting plate one end, be provided with the heat conduction piece in the piston cylinder, the heat conduction piece links firmly in the heat-conducting plate bottom, the piston cylinder intussuseption is filled with the temperature sensing gas, piston bottom fixed mounting has the drive strip, the cylinder board is run through to the drive strip lower extreme.

Preferably, the temperature monitoring mechanism still includes the curb plate that two intervals set up, two the equal fixed mounting of curb plate is in the water tank outside, two rotatable installation has first pivot between the curb plate, fixed mounting has the drive wheel in the first pivot, the drive wheel meshes with the drive strip, the curb plate is run through to first pivot one end, the tip fixed mounting of first pivot has first bevel gear.

Preferably, the temperature monitoring mechanism further comprises a supporting block, the supporting block is fixedly connected to the supporting seat, a second rotating shaft is rotatably mounted on the supporting block, the second rotating shaft penetrates through the supporting block, a second bevel gear is fixedly mounted at the bottom end of the second rotating shaft, and the second bevel gear is meshed with the first bevel gear.

Preferably, temperature monitoring mechanism still includes temperature number plate, temperature number plate fixed mounting is in the water tank outside, water tank outside fixed mounting has the rectangular block that two intervals set up, two fixed mounting has the slide between the rectangular block, two be provided with the instruction arrow point between the rectangular block, it slides and sets up in the slide to instruct arrow point one end, two rotatable the installing the lead screw between the rectangular block, the lead screw runs through the instruction arrow point, rotatable the installing connecting axle on the rectangular block, the connecting axle links firmly with the lead screw, through the belt mechanism transmission between connecting axle and the second pivot.

The cloud computing server array cabinet provided by the invention has the beneficial effects that: the heat in the cabinet is discharged from the heat discharge groove on the bottom sealing plate and is partially absorbed by the heat exchange guide pipe, the heat exchange guide pipe flows with heat exchange liquid, meanwhile, the heat exchange liquid is filled in the water tank, the heat exchange liquid soaks the heat exchange guide pipe, so that the temperature of the heat exchange guide pipe is reduced, the heat of the heat exchange liquid in the water tank is conducted to the heat conducting block through the heat conducting plate and is absorbed by the thermosensitive gas in the piston cylinder, and therefore when the temperature of the heat exchange liquid rises, the thermosensitive gas is heated and expanded, the piston is driven to move downwards, and the driving bar moves downwards along the vertical direction;

when the drive strip removes, the drive strip moves the drive wheel and rotates, drive wheel, first pivot and first bevel gear synchronous rotation to first bevel gear rotates and drives second bevel gear and rotate, second bevel gear, second pivot even as an organic whole and synchronous rotation, thereby the second pivot rotates and drives the connecting axle through belt mechanism and rotate, and the connecting axle drives the lead screw and rotates, thereby drives and instructs the arrow point and reciprocate along the slide, and the pointing temperature of instruction arrow point direction temperature number plate can show the temperature of heat transfer liquid in real time.

Drawings

Fig. 1 is a schematic structural diagram of a cloud computing server array cabinet according to the present invention.

Fig. 2 is a front view of a cloud computing server array cabinet according to the present invention.

Fig. 3 is an enlarged schematic view of a water tank of a cloud computing server array cabinet according to the present invention.

Fig. 4 is an enlarged schematic view of an internal structure of a water tank of a cloud computing server array cabinet according to the present invention.

Fig. 5 is an enlarged schematic view of a temperature monitoring mechanism of a cloud computing server array cabinet according to the present invention.

Fig. 6 is an enlarged cross-sectional view of a piston cylinder of a cloud computing server array cabinet according to the present invention.

Fig. 7 is an enlarged schematic view of a partial structure of a temperature monitoring mechanism of a cloud computing server array cabinet according to the present invention.

In the figure: the heat exchanger comprises a cabinet 1, a bottom sealing plate 2, a heat exhaust groove 3, a base 4, a water tank 5, a supporting vertical plate 6, a heat exchange conduit 7, a connecting ring 8, a first water pump 9, a second water pump 10, a controller 11, a supporting seat 12, a piston cylinder 13, a cylinder plate 14, a piston 15, a heat conducting plate 16, a heat conducting block 17, a driving strip 18, a side plate 19, a first rotating shaft 20, a driving wheel 21, a first bevel gear 22, a supporting block 23, a second rotating shaft 24, a second bevel gear 25, a temperature indicator plate 26, a rectangular block 27, a slide way 28, an indication arrow 29, a screw rod 30, a connecting shaft 31 and a belt mechanism 32.

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.

Example 1:

referring to fig. 1-7, a cloud computing server array cabinet comprises a plurality of cabinet mechanisms distributed in an array manner, each cabinet mechanism comprises a cabinet 1, a bottom sealing plate 2 is fixedly installed at the bottom of each cabinet 1, and a plurality of heat extraction grooves 3 distributed at equal intervals are formed in each bottom sealing plate 2. Bottom seal plate 2 bottom is provided with base 4, and 4 top fixed mounting of base have water tank 5, and the equal fixed mounting in 4 top both ends of base has support riser 6, and the equal fixed connection in bottom seal plate 2 bottom in 6 upper ends of support riser is provided with many equidistance distribution's heat transfer pipe 7 in the water tank 5, and heat transfer pipe 7 both ends all run through on support riser 6 and the heat transfer pipe 7 of both sides link firmly support riser 6. The two ends of each heat exchange conduit 7 are fixedly provided with connecting circular rings 8, the two adjacent cabinets 1 are connected together, and the connecting circular rings 8 on the adjacent heat exchange conduits 7 are connected together through screws. Heat exchange liquid is equipped with in the water tank 5, be provided with on the water tank 5 and trade liquid mechanism, trade liquid mechanism and include first water pump 9, second water pump 10 and controller 11, first water pump 9 and second water pump 10 interval set up and fixed mounting in the water tank 5 outside, the port of intaking of first water pump 9 and second water pump 10 all communicates with outside water supply equipment through water route pipe fitting, the outlet pipe of first water pump 9 and second water pump 10 all run through the water tank 5 and with the inside intercommunication of

water tank

5, 11 fixed mounting in the water tank 5 outsides of controller, the equal signal connection of first water pump 9 and second water pump 10 is to controller 11, and 11 steerable first water pump 9 of controller and the work of second water pump 10.

The water tank 5 is provided with a temperature monitoring mechanism which can monitor the working temperature of the heat exchange liquid in the water tank 5 in real time. Temperature monitoring mechanism includes supporting seat 12, supporting seat 12 fixed mounting is in the 5 outsides of water tank, be provided with piston cylinder 13 on the supporting seat 12, piston cylinder 13 runs through supporting seat 12 and links firmly together with supporting seat 12, piston cylinder 13 bottom seal is provided with cylinder plate 14, piston cylinder 13 internalization is provided with piston 15, piston cylinder 13 upper end is provided with heat-conducting plate 16, heat-conducting plate 16 links firmly at 5 tops of water tank, 16 one end seal of heat-conducting plate is at 13 tops of piston cylinder, be provided with heat-conducting block 17 in the piston cylinder 13, heat-conducting block 17 links firmly in 16 bottoms of heat-conducting plate, 13 intussuseptions of piston cylinder are filled with the temperature sensing gas, 15 bottom fixed mounting of piston has

drive strip

18, 18 lower extremes of drive strip run through cylinder plate 14. The heat in the cabinet 1 is discharged from the heat discharge groove 3 on the bottom sealing plate 2 and is partially absorbed by the heat exchange conduit 7, the heat exchange conduit 7 flows with heat exchange liquid, meanwhile, the heat exchange liquid is arranged in the water tank 5 and soaks the heat exchange conduit 7, so that the temperature of the heat exchange conduit 7 is reduced, the heat of the heat exchange liquid in the water tank 5 is conducted to the heat conducting block 17 through the heat conducting plate 16 and is absorbed by the heat sensitive gas in the piston cylinder 13, and therefore when the temperature of the heat exchange liquid rises, the heat sensitive gas is heated and expands, the piston 15 is driven to move downwards, and the driving strip 18 moves downwards along the vertical direction.

Example 2:

referring to fig. 1-7, as another preferred embodiment of the present invention, the difference from embodiment 1 is that the temperature monitoring mechanism further includes two side plates 19 disposed at an interval, both the two side plates 19 are fixedly mounted on the outer side of the water tank 5, a first rotating shaft 20 is rotatably mounted between the two side plates 19, a driving wheel 21 is fixedly mounted on the first rotating shaft 20, the driving wheel 21 is engaged with the driving bar 18, one end of the first rotating shaft 20 penetrates through the side plates 19, and a first bevel gear 22 is fixedly mounted on the end of the first rotating shaft 20. The temperature monitoring mechanism further comprises a supporting block 23, the supporting block 23 is fixedly connected to the supporting base 12, a second rotating shaft 24 is rotatably mounted on the supporting block 23, the second rotating shaft 24 penetrates through the supporting block 23, a second bevel gear 25 is fixedly mounted at the bottom end of the second rotating shaft 24, and the second bevel gear 25 is meshed with the first bevel gear 22. Temperature monitoring mechanism still includes temperature number plate 26, temperature number plate 26 fixed mounting is in the 5 outsides of water tank, 5 outside fixed mounting of water tank has two rectangular blocks 27 that the interval set up, fixed mounting has slide 28 between two rectangular blocks 27, be provided with between two rectangular blocks 27 and instruct arrow 29, it slides and sets up in slide 28 to instruct arrow 29 one end, rotatable lead screw 30 of installing between two rectangular blocks 27, lead screw 30 runs through and instructs arrow 29, rotatable connecting axle 31 of installing on the rectangular block 27, connecting axle 31 links firmly with lead screw 30, through belt mechanism 32 transmission between connecting axle 31 and the second pivot 24. When the driving bar 18 moves, the driving bar 18 drives the driving wheel 21 to rotate, the driving wheel 21, the first rotating shaft 20 and the first bevel gear 22 rotate synchronously, so that the first bevel gear 22 rotates and drives the second bevel gear 25 to rotate, the second bevel gear 25 and the second rotating shaft 24 are connected into a whole and rotate synchronously, so that the second rotating shaft 24 rotates and drives the connecting shaft 31 to rotate through the belt mechanism 32, the connecting shaft 31 drives the screw rod 30 to rotate, the indicating arrow 29 is driven to move up and down along the slide way 28, and the temperature of the heat exchange liquid can be displayed in real time when the indicating arrow 29 points to the temperature indicating plate 26.

The above description is only for the preferred embodiment of the present invention, but the scope of the present invention is not limited thereto, and any person skilled in the art should be considered to be within the technical scope of the present invention, and the technical solutions and the inventive concepts thereof according to the present invention should be equivalent or changed within the scope of the present invention.

Claims

1. The cloud computing server array cabinet is characterized by comprising a plurality of cabinet mechanisms distributed in an array manner, wherein each cabinet mechanism comprises a cabinet (1), a bottom sealing plate (2) is fixedly installed at the bottom of each cabinet (1), and a plurality of heat dissipation grooves (3) distributed at equal intervals are formed in each bottom sealing plate (2);

bottom seal plate (2) bottom is provided with base (4), base (4) top fixed mounting has water tank (5), the equal fixed mounting in base (4) top both ends has support riser (6), the equal fixed connection in bottom seal plate (2) bottom in support riser (6) upper end, be provided with many heat transfer pipes (7) that the equidistance distributes in water tank (5), support riser (6) and heat transfer pipe (7) that heat transfer pipe (7) both ends all run through both sides link firmly on support riser (6).

2. The cloud computing server array cabinet according to claim 1, wherein two ends of each heat exchange conduit (7) are fixedly provided with a connecting ring (8), two adjacent cabinets (1) are connected together, and the connecting rings (8) on the adjacent heat exchange conduits (7) are connected together through screws.

3. The cloud computing server array cabinet according to claim 1, wherein the water tank (5) is filled with heat exchange liquid, the water tank (5) is provided with a liquid exchange mechanism, the liquid exchange mechanism comprises a first water pump (9), a second water pump (10) and a controller (11), the first water pump (9) and the second water pump (10) are arranged at intervals and fixedly installed on the outer side of the water tank (5), water inlet ports of the first water pump (9) and the second water pump (10) are communicated with external water supply equipment through water pipe fittings, water outlet pipes of the first water pump (9) and the second water pump (10) penetrate through the water tank (5) and are communicated with the inside of the water tank (5), the controller (11) is fixedly installed on the outer side of the water tank (5), and the first water pump (9) and the second water pump (10) are in signal connection with the controller (11), and the controller (11) can control the first water pump (9) and the second water pump (10) to work.

4. A cloud computing server array cabinet according to claim 1, wherein the water tank (5) is provided with a temperature monitoring mechanism, and the temperature monitoring mechanism can monitor the working temperature of the heat exchange liquid in the water tank (5) in real time.

5. The cloud computing server array cabinet according to claim 4, wherein the temperature monitoring mechanism comprises a support seat (12), the support seat (12) is fixedly installed outside the water tank (5), a piston cylinder (13) is arranged on the support seat (12), the piston cylinder (13) penetrates through the support seat (12) and is fixedly connected with the support seat (12), a cylinder plate (14) is arranged at the bottom of the piston cylinder (13) in a sealing manner, a piston (15) is movably arranged in the piston cylinder (13), a heat conducting plate (16) is arranged at the upper end of the piston cylinder (13), the heat conducting plate (16) is fixedly connected at the top of the water tank (5), one end of the heat conducting plate (16) is sealed at the top of the piston cylinder (13), a heat conducting block (17) is arranged in the piston cylinder (13), and the heat conducting block (17) is fixedly connected at the bottom of the heat conducting plate (16), the piston cylinder (13) is filled with thermosensitive gas, the bottom of the piston (15) is fixedly provided with a driving strip (18), and the lower end of the driving strip (18) penetrates through the cylinder plate (14).

6. The cloud computing server array cabinet according to claim 5, wherein the temperature monitoring mechanism further comprises two side plates (19) arranged at intervals, the two side plates (19) are both fixedly mounted on the outer side of the water tank (5), a first rotating shaft (20) is rotatably mounted between the two side plates (19), a driving wheel (21) is fixedly mounted on the first rotating shaft (20), the driving wheel (21) is meshed with the driving strip (18), one end of the first rotating shaft (20) penetrates through the side plates (19), and a first bevel gear (22) is fixedly mounted at the end of the first rotating shaft (20).

7. The cloud computing server array cabinet according to claim 6, wherein the temperature monitoring mechanism further comprises a supporting block (23), the supporting block (23) is fixedly connected to the supporting base (12), a second rotating shaft (24) is rotatably installed on the supporting block (23), the second rotating shaft (24) penetrates through the supporting block (23), a second bevel gear (25) is fixedly installed at a bottom end of the second rotating shaft (24), and the second bevel gear (25) is meshed with the first bevel gear (22).

8. The cloud computing server array cabinet of claim 7, the temperature monitoring mechanism also comprises a temperature display plate (26), the temperature display plate (26) is fixedly arranged on the outer side of the water tank (5), two rectangular blocks (27) arranged at intervals are fixedly arranged on the outer side of the water tank (5), a slide way (28) is fixedly arranged between the two rectangular blocks (27), an indicating arrow (29) is arranged between the two rectangular blocks (27), one end of the indicating arrow (29) is arranged in the slide way (28) in a sliding way, a screw rod (30) is rotatably arranged between the two rectangular blocks (27), the screw rod (30) penetrates through an indication arrow (29), a connecting shaft (31) is rotatably arranged on the rectangular block (27), the connecting shaft (31) is fixedly connected with the screw rod (30), and the connecting shaft (31) and the second rotating shaft (24) are driven by a belt mechanism (32).