CN112689450B - Cloud computer data center rack - Google Patents

Abstract

The invention provides a cloud computer data center cabinet, which effectively solves the problems that the traditional center cabinet has poor heat dissipation effect and cannot cool and extinguish a server in case of fire, and comprises a cabinet, a plurality of supporting plates are uniformly and fixedly installed in the cabinet from top to bottom in sequence, the left side and the right side of the upper end of each supporting plate are respectively detachably installed with a protecting box, the opposite surfaces of every two protecting boxes are respectively provided with an inlet, the front end and the rear end in each protecting box are respectively and fixedly installed with an L-shaped first chain wheel group, a fireproof door is connected between every two L-shaped first chain wheel groups, the upper end of each supporting plate is respectively and fixedly installed with a lower L-shaped rail between every two protecting boxes, and a fan plate respectively located above each supporting plate is fixedly installed in the cabinet; the device has solved traditional center rack when meetting the conflagration, can not cool down and put out a fire the problem that influences the later stage and use the server.

Description

Cloud computer data center rack

Technical Field

The invention relates to the technical field of computers, in particular to a cloud computer data center cabinet.

Background

The cloud computer is a computer with strong computing power formed by fusing a plurality of relatively low-cost computing resources by adopting a distributed system architecture completely different from a personal computer and a super computer and by means of a virtualization technology of cloud computing. The system can efficiently support various application requirements such as big data processing, high throughput rate, high security information service and the like, and the computing capacity and the storage capacity of the system can be dynamically contracted and infinitely expanded.

However, the cloud computer data center cabinet has the following problems in the practical application process:

1. the computer server generates heat after working for a long time, and conventionally, only heat dissipation holes are formed in two ends of a central cabinet, so that although a heat dissipation effect is achieved, the heat dissipation effect is poor even components inside the server are burnt when the computer server is used for a long time, and the stability of the server is influenced;

2. traditional server is deposited in corresponding central rack, when meetting the conflagration, if not in time cool down and put out a fire the server, can burn out other servers in the central rack to influence the later stage and use.

Therefore, the invention provides a cloud computer data center cabinet to solve the problem.

Disclosure of Invention

In order to overcome the defects of the prior art, the cloud computer data center cabinet provided by the invention effectively solves the problems that the traditional center cabinet is poor in heat dissipation effect and cannot cool and extinguish a server in case of a fire.

A cloud computer data center cabinet comprises a cabinet body, wherein a plurality of supporting plates are uniformly and fixedly installed in the cabinet body from top to bottom in sequence, a protecting box is detachably installed on the left side and the right side of the upper end face of each supporting plate respectively, an inlet is formed in each opposite face of each two protecting boxes on the same plane respectively, an L-shaped first chain wheel set is fixedly installed at each of the front end and the rear end in each protecting box respectively, a fireproof door is connected between each two L-shaped first chain wheel sets on the same side respectively, a lower L-shaped rail located between each two protecting boxes is fixedly installed at the upper end of each supporting plate respectively, a fan plate located above each supporting plate is fixedly installed in the cabinet body respectively, an upper L-shaped rail corresponding to each lower L-shaped rail is fixedly installed on the bottom face of each fan plate respectively, each lower L-shaped rail and each upper L-shaped rail are respectively provided with a heat insulation plate group in a sliding mode, sliding plates are respectively arranged between each protection box located on the left side and each heat insulation plate group in a left-right sliding mode, and a server is detachably arranged at the upper ends of the sliding plates.

Preferably, the left end and the right end of each heat insulation plate group are respectively and fixedly provided with a lower rack positioned above each lower L-shaped track, the rear side of the upper end of each supporting plate is rotatably provided with a second chain wheel group positioned on the left side and the right side of each lower L-shaped track, each second chain wheel group is respectively and coaxially and fixedly provided with a driving gear meshed with each lower rack, and the rear end surface of each sliding plate is respectively and fixedly provided with a sliding plate rack meshed with each driving gear.

Preferably, every set up the mouth of blowing that is located every insulating board group left and right sides respectively on the fan board, every rotate respectively in the mouth of blowing and install the fan of blowing, be located per two of coplanar be connected with third sprocket group respectively between the pivot of fan of blowing, rotate respectively between the upper and lower of the rear end of rack and install and run through every respectively backup pad and every the first rotation post of fan board, be located the axis of rotation of every fan of blowing on the left with be connected with fourth sprocket group respectively between the first rotation post, the top fixed mounting of rack has the first motor with the coaxial fixed connection of first rotation post.

Preferably, both ends have seted up a plurality of air outlets, every respectively from last to down in proper order about the rack the exhaust fan that installs, every are rotated respectively in the air outlet respectively fixed mounting is located about the rack dust guard in both ends, every respectively fixed mounting is located every in the axis of rotation of exhaust fan the dustproof brush of dust guard one side.

Preferably, be located per two of homonymy connect fifth sprocket group respectively between the axis of rotation of exhaust fan, be located the left and right sides lower extreme coaxial fixed mounting respectively has sixth sprocket group, two in the axis of rotation of exhaust fan coaxial fixed mounting has the dwang between the below of sixth sprocket group, the left end fixed mounting of rack has the second motor with the coaxial fixed connection of dwang.

Preferably, an L-shaped upper rack is fixedly mounted on the left side surface of each upper L-shaped track, a moving motor is slidably mounted on each fan plate back and forth, a moving gear meshed with each L-shaped upper rack is coaxially and fixedly mounted on the rotating shaft of each moving motor, and a moving column is fixedly connected between each moving motor and the upper end of each heat insulation plate group.

Preferably, the heat insulation plate group is composed of a plurality of heat insulation plates, every two heat insulation plates are rotatably connected, and moving wheels positioned in each upper L-shaped track and each lower L-shaped track are rotatably installed on the upper end surface and the lower end surface of each heat insulation plate respectively.

Preferably, a driving rod is coaxially and fixedly mounted on each L-shaped first chain wheel set, driven rods meshed with the driving rods are rotatably mounted between the upper portion and the lower portion of the left side and the lower portion of the cabinet, driving motors coaxially and fixedly connected with the driven rods are fixedly mounted at the left end and the right end of the fan plate above the fan plate, and a spray head is arranged at the upper end inside each protection box.

The invention has the beneficial effects that:

by using the blowing fan and the exhaust fan in a matched manner, on one hand, the server can be cooled, on the other hand, dust adsorbed on the server can be blown, and then the dust is discharged through each exhaust fan, so that the interior of the cabinet is further cooled and dedusted, and the problem that the radiating effect is poor because the radiating holes are only formed at the two ends of the central cabinet in the traditional manner is solved; through the cooperation use between thermal-insulated board group and the guard box, prevented that the intensity of a fire from stretching, reduced corresponding loss simultaneously, when having solved traditional central rack and meetting the conflagration, can not cool down and the problem of putting out a fire to the server, the device compares traditional manual work and puts out a fire more practically, and the speed of putting out a fire is faster.

Drawings

Fig. 1 is a perspective view of the present invention.

Fig. 2 is a mounting diagram of the protection box of the present invention.

Fig. 3 is a drawing showing the installation of the sliding panel of the present invention.

FIG. 4 is an enlarged view of the present invention at A.

Fig. 5 is a mounting view of a blower fan according to the present invention.

Fig. 6 is a cross-sectional view of a perspective view of the present invention.

Fig. 7 is a view showing the installation of the head according to the present invention.

Fig. 8 is a cross-sectional view of the protective case of the present invention.

Fig. 9 is a diagram of server installation according to the present invention.

Fig. 10 is a mounting view of the moving motor of the present invention.

Figure 11 is a view of a heat shield assembly of the present invention.

FIG. 12 is an enlarged view of the invention at B.

FIG. 13 is an enlarged view of the invention at C.

Detailed Description

The foregoing and other aspects, features and advantages of the invention will be apparent from the following more particular description of embodiments of the invention, as illustrated in the accompanying drawings in which reference is made to figures 1 to 13. The structural contents mentioned in the following embodiments are all referred to the attached drawings of the specification.

Exemplary embodiments of the present invention will be described below with reference to the accompanying drawings.

In the first embodiment, as shown in fig. 1-2, a cloud computer data center cabinet comprises a cabinet 1, a cabinet door is installed on a front end face of the cabinet 1, a plurality of support plates 2 are respectively and uniformly fixedly installed in the cabinet 1 from top to bottom in sequence, protection boxes 3 are respectively and detachably installed on left and right sides of an upper end face of each support plate 2, the protection boxes 3 are made of selectable iron materials, inlets 4 are respectively formed in opposite faces of every two protection boxes 3 located on the same plane, L-shaped first chain wheel sets 5 are respectively and fixedly installed at front and back ends in each protection box 3, as shown in fig. 3, each L-shaped first chain wheel set 5 located on the same side is respectively composed of two first chain wheels and an L-shaped first chain, wherein the two first chain wheels are respectively and rotatably installed on front and back faces in each protection box 3, the other two first chain wheels are respectively and rotatably installed on the front surface and the rear surface, close to the inlet 4, in each protection box 3, an L-shaped first chain is connected between the two first chain wheels on the same surface, and tension wheels which are tightly attached to the corners of the corresponding L-shaped first chains are respectively and rotatably installed on the front inner surface and the rear inner surface of each protection box 3;

a fireproof door 6 is connected between every two L-shaped first chains, each fireproof door 6 can be made of iron materials, a lower L-shaped rail 7 between every two protection boxes 3 is fixedly installed at the upper end of each support plate 2, a fan plate 14 above each support plate 2 is fixedly installed in the cabinet 1, an upper L-shaped rail 701 corresponding to each lower L-shaped rail 7 is fixedly installed at the bottom surface of each fan plate 14, a heat insulation plate group is slidably installed between each lower L-shaped rail 7 and each upper L-shaped rail 701, when in use, each heat insulation plate group can separate the protection boxes 3 at the left end and the right end when sliding forwards along the corresponding lower L-shaped rail 7 and the corresponding upper L-shaped rail 701, a sliding plate 8 is slidably installed between each protection box 3 at the left end and the right end and each heat insulation plate group, the upper end of each sliding plate 8 is detachably provided with a server 9, when in use, each server 9 passes through the inner end of the corresponding protection box 3 through a lead to be connected with a corresponding control device, and each control device is connected with an external power supply;

when the fire extinguisher is used, when one of the servers 9 in the cabinet 1 catches fire, the power supply of the server 9 is firstly disconnected, the corresponding heat insulation plate groups are pushed to slide forwards along the corresponding lower L-shaped rail 7 and the corresponding upper L-shaped rail 701 respectively, the servers 9 at the left end and the right end can be separated by the heat insulation plate groups, the fire spread is prevented, the sliding plates 8 are pushed to drive the corresponding servers 9 to slide into the corresponding protection boxes 3 respectively, the corresponding L-shaped first chain wheel groups 5 are rotated to drive the corresponding fire doors 6 to close the inlets 4, the fire can be extinguished in the protection boxes 3, the fire is prevented from spreading to other servers 9, unnecessary economic loss is caused, and the fire spread can be prevented through the operation.

In the second embodiment, on the basis of the first embodiment, as shown in fig. 3 to 4, the left and right ends of each heat insulation plate group are respectively and fixedly provided with a lower rack 10 located above each lower L-shaped rail 7, the rear side of the upper end of each support plate 2 is rotatably provided with a second sprocket group 11 located on the left and right sides of each lower L-shaped rail 7, each second sprocket group 11 is respectively composed of two second sprockets and a second chain, wherein the two second sprockets are respectively and rotatably mounted near the left and right ends of the corresponding lower L-shaped rail 7, the other two second sprockets are respectively and rotatably mounted far away from the left and right ends of the corresponding lower L-shaped rail 7, the second chain is connected between every two second sprockets located at the same end, and a driving gear 12 meshed with each lower rack 10 is coaxially and fixedly mounted on each second sprocket, a sliding plate rack 13 meshed with each driving gear 12 is fixedly arranged on the rear end face of each sliding plate 8;

in specific use, when one of the servers 9 in the cabinet 1 catches fire, the power supply of the server 9 is first disconnected, at this time, the corresponding heat insulation plate group is respectively pushed to slide forwards along the corresponding lower L-shaped rail 7 and the upper L-shaped rail 701, when each heat insulation plate group slides forwards, each lower rack 10 respectively engages with the driving gears 12 close to the left and right ends of the heat insulation plate group to rotate, at this time, the driving gears 12 close to the left and right ends of the heat insulation plate group respectively drive the corresponding second chain wheel group 11 to rotate, at the same time, each second chain wheel group 11 respectively drives the driving gear 12 at the other end to rotate, at this time, the two driving gears 12 positioned on the same side respectively engage with the sliding plate rack 13 to drive the corresponding sliding plate 8 and the server 9 to move towards the corresponding protection box 3, when each heat insulation plate group slides forwards to the end, at the same time, each sliding plate 8 and the server 9 respectively enter into the corresponding protection box 3, at this moment every the heat insulating board group can be to the server 9 at left and right sides both ends separately, prevents that the intensity of a fire from stretching, at this moment rotates the first sprocket group 5 of corresponding L type respectively and takes corresponding fire door 6 to close import 4, and then can put out a fire in protection box 3, prevents that the intensity of a fire from stretching to other servers 9 on, causes unnecessary economic loss, through above-mentioned operation, can prevent that the intensity of a fire from stretching, compares traditional manual fire extinguishing more practical, and the speed of putting out a fire is faster.

In a third embodiment, on the basis of the second embodiment, as shown in fig. 2 and 5, each fan plate 14 is respectively provided with air blowing openings 15 located at the left and right sides of each heat insulation plate group, each air blowing opening 15 is respectively and rotatably installed with an air blowing fan 105, when in use, each air blowing fan 105 can respectively blow air into the cabinet 1, at this time, the blown air can cool the server 9 on one hand, and can blow up dust adsorbed on the server 9 on the other hand, and then suck out the dust through a subsequent mechanism, through the above operation, the temperature and dust of a plurality of servers 9 can be cooled and removed, a third sprocket group 16 is respectively connected between the rotating shafts of every two air blowing fans 105 located on the same plane, each third sprocket group 16 is respectively composed of two third sprockets and a third chain, one of the third sprockets is respectively and coaxially and fixedly installed on the rotating shaft of each air blowing fan 105 located at the right end, the other third chain wheel is coaxially and fixedly arranged on a rotating shaft of each blowing fan 105 positioned at the left end, and a third chain is connected between every two adjacent third chain wheels;

a first rotating column 17 respectively penetrating through each supporting plate 2 and each fan plate 14 is rotatably mounted between the upper part and the lower part of the rear end of the cabinet 1, a fourth chain wheel group 18 is respectively connected between the rotating shaft of each blowing fan 105 positioned on the left side and the first rotating column 17, each fourth chain wheel group 18 is respectively composed of two fourth chain wheels and a fourth chain, one of the fourth chain wheels is respectively coaxially and fixedly mounted on the rotating shaft of each blowing fan 105 positioned on the left end, the other fourth chain wheel is respectively coaxially and fixedly mounted on the first rotating column 17, a fourth chain is respectively connected between every two fourth chain wheels, a first motor 19 coaxially and fixedly connected with the first rotating column 17 is fixedly mounted at the top end of the cabinet 1, the first motor 19 is connected with a control device, and a standby power supply is arranged outside the control device, when in use, the proper type of the first motor 19 is selected according to specific requirements;

when the multifunctional cabinet is used, when the servers work, the control device starts the first motor 19, at the moment, the first motor 19 drives the first rotating column 17 to rotate, at the moment, the first rotating column 17 drives the plurality of blowing fans 105 located at the left end to rotate through the plurality of fourth chain wheel sets 18, the plurality of blowing fans 105 located at the left end drive the plurality of blowing fans 105 located at the right end to rotate through the corresponding third chain wheel sets 16, the plurality of blowing fans 105 blow air in the plurality of cabinets 1 respectively, at the moment, dust in the cabinets 1 can be blown away, at the moment, the dust is brought to the outside of the cabinets 1 through a subsequent structure, meanwhile, the inside of the plurality of cabinets 1 is cooled, the plurality of servers 9 can be cooled and dedusted through the operation, and the service performance of each server 9 is improved.

Fourth embodiment, on the basis of the first embodiment, as shown in fig. 1, the left and right ends of the cabinet 1 are sequentially provided with air outlets 20 from top to bottom, each air outlet 20 is internally and fixedly provided with a fixing rod, each fixing rod is provided with an exhaust fan 21, the air outlets 20 are respectively and fixedly provided with dust-proof plates 22 located at the left and right ends of the cabinet 1, each dust-proof plate 22 is provided with a filtering hole, each dust-proof plate 22 can filter dust outside the cabinet 1, prevent the dust from blocking the filtering holes and affecting the heat dissipation effect in the cabinet 1, the rotating shaft of each exhaust fan 21 is respectively and fixedly provided with a dust-proof brush 23 located at the inner surface of each dust-proof plate 22, when in use, each exhaust fan 21 rotates to respectively and synchronously drive each dust-proof brush 23 to rotate, each dust-proof brush 23 can respectively clean the corresponding dust-proof plate 22, the dust-proof plate 22 is prevented from blocking the filter holes by dust.

Fifth embodiment, on the basis of fourth embodiment, as shown in fig. 2, every two that are located the homonymy connect fifth sprocket group 24 respectively between the axis of rotation of exhaust fan 21, every fifth sprocket group 24 comprises two fifth sprockets and fifth chain respectively, wherein two the fifth sprocket coaxial fixed mounting respectively is on the axis of rotation of two adjacent exhaust fans 21, another two the fifth sprocket coaxial fixed mounting respectively is on the axis of rotation of adjacent exhaust fan 21, every two connect the fifth chain respectively between the fifth sprocket, be located the left and right sides lower extreme coaxial fixed mounting respectively has sixth sprocket group 26, two coaxial fixed mounting has dwang 27 between the below of sixth sprocket group 26, every sixth sprocket group 26 comprises two sixth sprockets and sixth chain respectively, wherein two the sixth sprocket coaxial fixed mounting respectively is at two that are located the lower extreme exhaust fan 21 rotates two On the shaft, the other two sixth chain wheels are respectively and fixedly mounted on the left end and the right end of the rotating rod 27 in a coaxial manner, the left end of the cabinet 1 is fixedly mounted with a second motor 28 which is fixedly connected with the rotating rod 27 in a coaxial manner, the second motor 28 is connected with a control device, the control device is connected with an external standby power supply, and when the cabinet is used, the proper type of the second motor 28 is selected according to the requirement;

when the server 9 is used, when each server 9 works, the control device starts the first motor 19 and the second motor 28 to rotate at the same time, at this time, the first motor 19 drives the first rotating column 17 to rotate, at this time, the first rotating column 17 drives the plurality of blowing fans 105 located at the left end to rotate through the plurality of fourth chain wheel sets 18, at the same time, the plurality of blowing fans 105 located at the left end drives the plurality of blowing fans 105 located at the right end to rotate through the corresponding third chain wheel sets 16, at the same time, the plurality of blowing fans 105 blow air in the plurality of cabinets 1, and at this time, dust in the cabinets 1 is blown away;

simultaneously the second motor 28 rotates through the sixth sprocket group 26 of dwang 27 left and right sides both ends respectively, simultaneously every the sixth sprocket group 26 is located the left and right sides of lower extreme respectively and rotates the exhaust fan 21, every that is located the below simultaneously exhaust fan 21 takes every exhaust fan 21 to rotate through corresponding fifth sprocket group 24 respectively, at this moment every exhaust fan 21 can take the outside to the dust in rack 1, also cools down to the inside of many racks 1 simultaneously, can cool down the dust removal to a plurality of servers 9 through above-mentioned operation, has further increased server 9's performance and life-span.

Sixth embodiment, on the basis of the first embodiment, as shown in fig. 3, an L-shaped upper rack 29 is respectively and fixedly installed on a left side surface of each upper L-shaped rail 701, an L-shaped sliding hole located on a left side of the upper L-shaped rail 701 is respectively formed in each fan plate 14, a moving motor 30 is respectively and slidably installed in the L-shaped sliding hole of each fan plate 14, a suitable smoke sensor is respectively installed on each fan plate 14, each smoke sensor is respectively connected with a control device, each control device is respectively connected with a moving motor 30, the moving motor 30 is connected with the control device, the control device is connected with an external standby power supply, a suitable type of the moving motor 30 is selected according to needs when in use, a moving gear 31 engaged with each L-shaped upper rack 29 is coaxially and fixedly installed on a rotating shaft of each moving motor 30, each moving motor 30 rotates when in use, at this time, each moving motor 30 is meshed with an L-shaped upper rack 29 through a corresponding moving gear 31 to slide along an L-shaped sliding hole, and a moving column is fixedly connected between each moving motor 30 and the upper end of the heat insulation plate group;

in use, when the smoke sensor senses smoke, a signal is transmitted to each control device, each control device starts each moving motor 30, each moving motor 30 rotates, each moving motor 30 slides along the L-shaped sliding hole by meshing the L-shaped upper rack 29 with the corresponding moving gear 31, and each moving motor 30 slides along each upper L-shaped rail 701 and the lower L-shaped rail 7 by the corresponding moving column with the heat insulation plate group, so that each server 9 at the left end and the right end can be separated, and excessive loss caused in the process of firing is prevented.

Seventh embodiment, on the basis of the sixth embodiment, as shown in fig. 11, the heat insulation board group is composed of a plurality of heat insulation boards 33, each heat insulation board 33 may be made of a refractory material, every two heat insulation boards 33 are rotatably connected, a soft refractory material is connected between every two heat insulation boards 33, moving wheels 34 located in each upper L-shaped rail 701 and each lower L-shaped rail 7 are rotatably installed on the upper and lower end surfaces of each heat insulation board 33, each moving wheel 34 may respectively drive the corresponding heat insulation board 33 to slide in the corresponding upper L-shaped rail 701 and lower L-shaped rail 7 when in use, and each moving column is respectively and fixedly connected to the heat insulation board 33 located at the foremost end.

Eighth embodiment, on the basis of the second embodiment, as shown in fig. 7 to 8, a driving rod 35 is coaxially and fixedly installed on each L-shaped first sprocket set 5, a rear bevel gear is fixedly installed at a rear end of each rotating rod 35, a driven rod 36 engaged with each driving rod 35 is rotatably installed between an upper side and a lower side of a left side and a right side of the cabinet 1, a front bevel gear engaged with each rear bevel gear is fixedly installed at a rear end of each driven rod 36, a driving motor 37 coaxially and fixedly connected with each driven rod 36 is fixedly installed at a left end and a right end of the upper fan plate 14, respectively, each driving motor 37 is connected with a control device, respectively, the control device is connected with an external standby power source, when in use, according to a suitable type of driving motor 37 required, a spray head 38 is arranged at an inner upper end of each protection box 3, smoke sensors of proper types are respectively installed in each protection box 3, each smoke sensor is connected with a control device, the control device is connected with an external standby power supply and an automatic fire extinguishing device, each automatic fire extinguishing device is provided with a spray head 38, and the proper automatic fire extinguishing device is selected according to needs when the automatic fire extinguishing device is used.

The working principle is as follows: when the server 9 works normally, each blowing fan 105 and each exhaust fan 21 also rotate synchronously, each blowing fan 105 blows air into the cabinet 1 respectively, the blown air can cool the server 9 on one hand, dust adsorbed on the server 9 on the other hand can be blown up, and then the dust is discharged through each exhaust fan 21 to cool and remove dust in the cabinet 1;

when one of the servers 9 in the cabinet 1 catches fire, the control device stops supplying power to the servers 9 and the blowing fans 105, controls each exhaust fan 21 to rotate continuously, discharges the smoke in the cabinet 1 to the outside of the cabinet 1 by each exhaust fan 21, controls each moving motor 30 to rotate, drives each corresponding heat insulation plate group to slide forwards along the corresponding lower L-shaped rail 7 and the corresponding upper L-shaped rail 701 respectively through corresponding components respectively by each moving motor 30, drives each sliding plate 8 and the server 9 respectively into the corresponding protection box 3 respectively when each heat insulation plate group slides forwards to the end, controls the fire door 6 to close the inlet 4 through corresponding components, and controls the smoke sensor in each protection box 3 to sense the smoke on the server 9, at this moment corresponding smoke transducer gives corresponding controlling means with signal transmission, and controlling means starts automatic fire extinguishing device at this moment and puts out a fire to server 9 through shower nozzle 38, and then can give the fire on server 9 and go out, through the aforesaid operation, can prevent that the intensity of a fire from stretching, has also protected other servers 9 to avoid the loss simultaneously, compares traditional manual fire extinguishing speed faster, and efficiency is higher.

The invention has the beneficial effects that:

the blowing fan and the exhaust fan are matched for use, so that on one hand, the server can be cooled, on the other hand, dust adsorbed on the server can be blown, and then the dust is discharged through each exhaust fan, so that the interior of the cabinet is further cooled and dedusted, and the problem that the radiating holes are only formed at two ends of the central cabinet and the radiating effect is poor in the traditional mode is solved; through the cooperation use between thermal-insulated board group and the guard box, prevented that the intensity of a fire from stretching, reduced corresponding loss simultaneously, when having solved traditional central rack and meetting the conflagration, can not cool down and the problem of putting out a fire to the server, the device compares traditional manual work and puts out a fire more practically, and the speed of putting out a fire is faster.

Claims (8)

1. The utility model provides a cloud computer data center rack, includes rack (1), its characterized in that: from last to respectively even fixed mounting have a plurality of backup pads (2) down in proper order in rack (1), every demountable installation has guard box (3) respectively to the left and right sides of the up end of backup pad (2) be located per two of coplanar import (4), every have been seted up on the opposite face of guard box (3) respectively fixed mounting has the first sprocket group of L type (5) at both ends respectively around in guard box (3), be located per two with one side be connected with respectively between the first sprocket group of L type (5) prevent fire door (6), every fixed mounting has to be located per two respectively the upper end of backup pad (2) lower L type track (7) between guard box (3), fixed mounting has to be located every respectively in rack (1) fan plate (14) of backup pad (2) top, every respectively fixed mounting has and every the bottom surface of fan plate (14) is with every last L type track (7) that lower L type track (7) correspond The heat insulation plate comprises profile rails (701), each lower L-shaped rail (7) and each upper L-shaped rail (701) are respectively provided with a heat insulation plate group in a sliding mode, each protection box (3) located on the left side and each heat insulation plate group is respectively provided with a sliding plate (8) in a sliding mode from left to right, and the upper end of each sliding plate (8) is detachably provided with a server (9).

2. The cloud computer data center cabinet of claim 1, wherein: the left end and the right end of each heat insulation plate group are respectively and fixedly provided with a lower rack (10) located above each lower L-shaped track (7), the rear side of the upper end of each supporting plate (2) is rotatably provided with a second chain wheel group (11) located on the left side and the right side of each lower L-shaped track (7), each second chain wheel group (11) is respectively and coaxially and fixedly provided with a driving gear (12) meshed with each lower rack (10), and each sliding plate (8) is respectively and fixedly provided with a sliding plate rack (13) meshed with the driving gear (12).

3. The cloud computer data center cabinet of claim 2, wherein: every offer respectively on fan plate (14) and be located every insulating board group left and right sides mouth of blowing (15), every rotate respectively in the mouth of blowing (15) and install fan of blowing (105), be located per two of coplanar be connected with third sprocket group (16) respectively between the pivot of fan of blowing (105), rotate respectively between the upper and lower of the rear end of rack (1) and install and run through every respectively backup pad (2) and every the first rotation post (17) of fan plate (14), the axis of rotation that is located left every fan of blowing (105) with be connected with fourth sprocket group (18) respectively between first rotation post (17), the top fixed mounting of rack (1) has first motor (19) with the coaxial fixed connection of first rotation post (17).

4. The cloud computer data center cabinet of claim 1, wherein: both ends have seted up a plurality of air outlets (20) respectively from last to down in proper order about rack (1), every rotate exhaust fan (21) that install respectively in air outlet (20), every on air outlet (20) respectively fixed mounting be located dust guard (22) in both ends about rack (1), every fixed mounting is located every in the axis of rotation of exhaust fan (21) respectively dust brush (23) of dust guard (22) one side.

5. The cloud computer data center cabinet of claim 4, wherein: be located per two of homonymy connect fifth sprocket group (24) respectively between the axis of rotation of exhaust fan (21), be located the left and right sides lower extreme coaxial fixed mounting respectively has sixth sprocket group (26), two in the axis of rotation of exhaust fan (21) coaxial fixed mounting has dwang (27) between the below of sixth sprocket group (26), the left end fixed mounting of rack (1) has second motor (28) with dwang (27) coaxial fixed connection.

6. The cloud computer data center cabinet of claim 1, wherein: an L-shaped upper rack (29) is fixedly mounted on the left side face of each upper L-shaped track (701) respectively, a moving motor (30) is mounted on each fan plate (14) in a front-back sliding mode respectively, a moving gear (31) meshed with each L-shaped upper rack (29) is coaxially and fixedly mounted on a rotating shaft of each moving motor (30) respectively, and a moving column is fixedly connected between each moving motor (30) and the upper end of each heat insulation plate group.

7. The cloud computer data center cabinet of claim 6, wherein: the heat insulation plate group is composed of a plurality of heat insulation plates (33), every two heat insulation plates (33) are connected in a rotating mode, and moving wheels (34) located in every upper L-shaped rail (701) and every lower L-shaped rail (7) are respectively installed on the upper end face and the lower end face of each heat insulation plate (33) in a rotating mode.

8. The cloud computer data center cabinet of claim 2, wherein: every coaxial fixed mounting respectively has drive lever (35) on the first sprocket group of L type (5), rotate respectively between the upper and lower of the left and right sides of rack (1) install respectively with every driven lever (36) that drive lever (35) meshed are located the top fan board (14) about on both ends respectively fixed mounting respectively with every driven lever (36) coaxial fixed connection's initiative motor (37), every the inside upper end of guard box (3) is provided with shower nozzle (38) respectively.

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