CN114063736A - High heat dissipating's calculation rack - Google Patents

High heat dissipating's calculation rack Download PDF

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Publication number
CN114063736A
CN114063736A CN202111407240.XA CN202111407240A CN114063736A CN 114063736 A CN114063736 A CN 114063736A CN 202111407240 A CN202111407240 A CN 202111407240A CN 114063736 A CN114063736 A CN 114063736A
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China
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cavity
heat dissipation
air
pipe
cabinet
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CN202111407240.XA
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Chinese (zh)
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李晓霞
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Zibo Vocational Institute
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Zibo Vocational Institute
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Priority to CN202111407240.XA priority Critical patent/CN114063736A/en
Publication of CN114063736A publication Critical patent/CN114063736A/en
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    • GPHYSICS
    • G06COMPUTING; CALCULATING OR COUNTING
    • G06FELECTRIC DIGITAL DATA PROCESSING
    • G06F1/00Details not covered by groups G06F3/00 - G06F13/00 and G06F21/00
    • G06F1/16Constructional details or arrangements
    • G06F1/18Packaging or power distribution
    • G06F1/181Enclosures
    • GPHYSICS
    • G06COMPUTING; CALCULATING OR COUNTING
    • G06FELECTRIC DIGITAL DATA PROCESSING
    • G06F1/00Details not covered by groups G06F3/00 - G06F13/00 and G06F21/00
    • G06F1/16Constructional details or arrangements
    • G06F1/20Cooling means

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  • Engineering & Computer Science (AREA)
  • Theoretical Computer Science (AREA)
  • Human Computer Interaction (AREA)
  • Physics & Mathematics (AREA)
  • General Engineering & Computer Science (AREA)
  • General Physics & Mathematics (AREA)
  • Computer Hardware Design (AREA)
  • Power Engineering (AREA)
  • Cooling Or The Like Of Electrical Apparatus (AREA)

Abstract

The invention discloses a high-heat-dissipation calculating cabinet which comprises a heat-dissipation cabinet, wherein three mutually independent cavities I, II and III are arranged in the heat-dissipation cabinet in a separating manner through a first partition plate and a second condenser box, a component I and an adapter are arranged in the cavity I, a central processing unit is arranged in the cavity II, the cavity III is separated by a support plate to form a front cavity and a rear cavity, a component II is arranged in the front cavity, and a server is arranged in the rear cavity. The invention can reduce the heat conduction between components by arranging the plurality of cavities, solves the defects that the fan is difficult to install and disassemble, the wire harness is easy to interfere with the fan and the heat dissipation effect of the fan is poor by arranging the air pipe, the condensation box and the air blower, and has simple and reasonable structure and good practicability.

Description

High heat dissipating's calculation rack
Technical Field
The invention relates to the technical field of computer heat dissipation, in particular to a high-heat-dissipation computing cabinet.
Background
The large-scale computer cabinet comprises a server, a central processing unit and other various components, wherein the components generate a large amount of heat when being used for a long time, so that the components need to be cooled;
the cooling mode has the following defects: firstly, the fan is arranged at a position close to the components, but more wire harnesses are distributed around the components, and the wire harnesses easily fall into the fan to be damaged if the wire harnesses are improperly fixed in the working process, and the fixing mode is not favorable for the disassembly and replacement of the fan; secondly, in the season of higher temperature, the heat dissipation effect is not good through the fan, and good heat dissipation performance cannot be achieved, so that improvement is urgently needed.
Disclosure of Invention
The invention aims to overcome the defects of the prior art, and provides a high-heat-dissipation calculating cabinet, which overcomes the defects that a fan is difficult to mount and dismount, a wire harness is easy to interfere with the fan, and the heat dissipation effect of the fan is poor by arranging an air pipe, a condensation box and an air blower, and has a simple and reasonable structure and good practicability.
In order to achieve the purpose, the invention adopts the following technical scheme:
a high-heat-dissipation-performance computing cabinet comprises a heat dissipation cabinet, wherein three mutually independent cavities I, II and III are partitioned and arranged in the heat dissipation cabinet through a first partition plate and a second condensation box, a component I and an adapter are arranged in the cavity I, a central processor is arranged in the cavity II, the cavity III is partitioned through a support plate to form a front cavity and a rear cavity, a component II is arranged in the front cavity, and a server is arranged in the rear cavity;
the heat dissipation cabinet is internally provided with a heat dissipation device and an air blower respectively, the heat dissipation device is communicated with the air blower through a first condensation box, the heat dissipation device comprises a plurality of air pipes, the side surface of each air pipe is provided with a motor capable of opening or closing the air pipe, and the air pipes can be communicated with a first cavity, a second cavity and a third cavity respectively;
the bottom surface in the heat dissipation cabinet is provided with a first exhaust fan, the first exhaust fan can be communicated with or blocked from the cavity III, the top of the heat dissipation cabinet is provided with a second exhaust fan, and the second exhaust fan is communicated with the cavity II and can be communicated with or blocked from the cavity II; the second chamber can be closed or communicated with the first chamber, and the rear chamber can be closed or communicated with the front chamber.
A condenser pipe is arranged in the heat dissipation cabinet and comprises a first coil pipe, a second coil pipe and a third coil pipe, the first coil pipe is located in a first condensation box, the second coil pipe is located in a second condensation box, the first coil pipe and the second coil pipe are connected through a first connecting pipe, the third coil pipe is located at the lower portion of the heat dissipation cabinet and is opposite to the first row of fans, and the second coil pipe and the third coil pipe are connected through a second connecting pipe;
the electronic ice container is arranged at the bottom of the heat dissipation cabinet, the third coil pipe is connected with the electronic ice container, the circulating pump is arranged on the back face of the heat dissipation cabinet, and the circulating pump is respectively connected with the electronic ice container and the first coil pipe.
The air pipe comprises a first air pipe, a second air pipe, a third air pipe, a fourth air pipe and a fifth air pipe, the first air pipe is communicated with the first cavity, the second air pipe is communicated with the second cavity, the third air pipe and the fourth air pipe are communicated with the third cavity, the third air pipe is located above the server, the fourth air pipe is located above the second component, and the fifth air pipe is communicated with the interior of the second condensation box.
The upper portion of the second condensation box is provided with an upper air outlet which is aligned with the central processing unit, the lower portion of the second condensation box is provided with a lower air outlet, and the lower air outlet is aligned with the server and the second component respectively.
The air conditioner is characterized in that a plurality of first air outlets are arranged on the side face of the first air pipe, the first air outlets are respectively opposite to the first component and the adapter, a plurality of second air outlets are arranged on the side face of the second air pipe, the second air outlets are aligned to the central processing unit, a third air outlet is arranged on the side face of the third air pipe, the third air outlet is opposite to the server, a fourth air outlet is arranged on the side face of the fourth air pipe, and the fourth air outlet is opposite to the second component.
The side that the heat dissipation cabinet is close to the bottom is equipped with a plurality of meshs, the heat dissipation cabinet openly covers and closes preceding cabinet door, preceding cabinet door is articulated with the heat dissipation cabinet, preceding cabinet door openly is equipped with display screen and operation button, the sealed lid of two fronts of cavity closes first closing plate, the heat dissipation cabinet back lid closes the back cabinet door, the back cabinet door includes the second closing plate, the sealed lid of second closing plate closes at cavity three backs.
The top of the heat dissipation cabinet is provided with a top cover plate, the second exhaust fan is positioned on the lower portion of the top cover plate, the top cover plate is provided with a dust screen, and the dust screen is opposite to the second exhaust fan.
The utility model discloses a heat dissipation cabinet, including cavity two, first baffle, cavity two, first air vent, second exhaust fan, first baffle side, first air vent, second air vent, first push pedal, second push pedal, first baffle side is equipped with first air vent, cavity one can be through first air vent intercommunication with cavity two, the inside top surface of heat dissipation cabinet is equipped with second electricity push rod, the telescopic link tip of second electricity push rod is equipped with the second push pedal, the second push pedal can be opened or the lid closes first air vent.
The backup pad is including the second venthole of intercommunication antechamber and back chamber, one side that the backup pad is located the back chamber is equipped with third electric push rod, third electric push rod tip is equipped with the third push pedal, the third push pedal can feed through or block back chamber and first exhaust fan, one side that the backup pad is located the antechamber is equipped with fourth electric push rod, the telescopic link tip of fourth electric push rod is equipped with the fourth push pedal, the fourth push pedal can be opened or the second venthole of closing of lid.
The side face of the first partition plate is provided with a plurality of wire sleeves and wire passing holes, the wire passing holes are communicated with a first cavity and a front cavity, the second air pipe and the first partition plate are sealed through a first sealing sleeve, and the third air pipe and the first partition plate are sealed through a second sealing sleeve.
The invention has the beneficial effects that:
1. the air generated by the blower is conveyed into the air pipe, and the air outlet on the air pipe can blow and cool the surface of the corresponding component, so that the defects of inconvenience in mounting and dismounting of the cooling fan, interference between fan blades and a circuit and safety accidents are overcome through the structural design; the air outlet can be positioned closer to the surface of the component, so that the air outlet can be opposite to the component, and the heat dissipation efficiency of the component is greatly improved; the air pipe is formed by bending the straight pipe, the air leakage of the air pipe is greatly reduced due to the integral structural design, the air outlet design is adopted, the air outlet is more concentrated, the air is exhausted through the air port under the condition that the air outlet quantity is the same as that of a fan, the heat dissipation efficiency is higher, the energy waste is less, and the energy is more saved; the air pipe has small volume, small occupied space and long service life, and almost does not need to be disassembled and assembled for maintenance;
2. the wind that the air-blower produced enters into the tuber pipe again after the first coil pipe cooling in the first condensing box for the wind temperature that blows out from the air outlet is lower relatively, can improve the radiating effect of components and parts.
Drawings
FIG. 1 is a schematic view of the present invention in a first view;
FIG. 2 is a schematic structural diagram of the present invention at a second viewing angle;
FIG. 3 is a schematic diagram of the internal structure of the present invention at a first viewing angle;
FIG. 4 is a schematic diagram of the internal structure of the present invention from a second perspective;
FIG. 5 is a schematic diagram of the internal structure of the present invention from a third perspective;
FIG. 6 is a schematic view of the heat sink in a first view;
FIG. 7 is a schematic diagram of the heat sink in a second view;
fig. 8 is a heat dissipation diagram of the present invention.
In the figure: the cooling cabinet 1, the first partition plate 101, the wire hole 1011, the first condensation box 102, the fan mounting part 103, the second condensation box 104, the upper air outlet 1041, the lower air outlet 1042, the water discharge pipe 1043, the second partition plate 105, the fan mounting part 106, the circulation pump mounting part 107, the mesh 108, the heat dissipation baffle 109, the third partition plate 110, the first sealing plate 111, the first electric push rod 112, the first push plate 113, the second electric push rod 114, the second push plate 115, the first air vent 116, the third electric push rod 117, the third push plate 118, the top cover plate 2, the dust screen 201, the front cabinet door 3, the display screen 301, the operation key 302, the rear cabinet door 303, the second sealing plate 304, the heat dissipation device 4, the motor 401, the first air duct 402, the first air outlet 4021, the second air duct 403, the second air outlet 4031, the third air duct 404, the third air outlet 4041, the fourth air duct 405, the fourth air outlet 4051, the fifth air duct 406, the condensation pipe 5, the electronic ice bag 501, The device comprises a circulating pump 502, a first coil pipe 503, a first connecting pipe 504, a second coil pipe 505, a second connecting pipe 506, a third coil pipe 507, a blower 6, a first exhaust fan 7, a second exhaust fan 8, a supporting plate 9, a second ventilation hole 901, a fourth electric push rod 902, a fourth push plate 903, a first component 10, an adapter 11, a server 12, a bracket 13, a central processing unit 14, a second component 15, a wire sleeve 16, a first sealing sleeve 17 and a second sealing sleeve 18.
Detailed Description
The invention is further described with reference to the accompanying drawings and the detailed description below:
in the description of the present specification, the terms "upper", "lower", "left", "right", and the like indicate orientations or positional relationships based on those shown in the drawings, and are only for convenience in describing the present invention and simplifying the description, but do not indicate or imply that the referred device or unit must have a specific direction, be configured and operated in a specific orientation, and thus, should not be construed as limiting the present invention.
As shown in fig. 1 to 8, a high heat dissipation performance computing cabinet includes a heat dissipation cabinet 1, the interior of the heat dissipation cabinet 1 is partitioned by a first partition plate 101 and a second condensation box 104 to form a first chamber, a second chamber and a third chamber, which are independent of each other, and specifically, the second chamber and the third chamber are located on the side surface of the first chamber, the second chamber is located above the third chamber, a first component 10 and an adapter 11 are arranged in the first chamber, a central processor 14 is arranged in the second chamber, a bracket 13 is arranged on the upper portion of the second condensation cavity 104, the central processor 14 is fixed on the bracket 13, the three chambers are separated by a support plate 9 to form a front cavity and a rear cavity, a second component 15 is arranged in the front cavity, and a server 12 is arranged in the rear cavity;
because the heat that different components and parts (components and parts one 10, adapter 11, server 12, central processing unit 14, components and parts two 15) during operation produced is different, in order to prevent the heat conduction between the components and parts, separate the components and parts of difference through setting up three independent cavities, not only can reduce the heat conduction between the different components and parts, the heat dissipation of the components and parts of being convenient for can also avoid when the components and parts break down as far as possible, influence other components and parts, simple structure is reasonable, and the practicality is good.
The heat dissipation cabinet 1 is internally provided with a heat dissipation device 4 and a blower 6 respectively, the heat dissipation device 4 and the blower 6 are communicated through a first condensation box 102, specifically, the heat dissipation device 4, the blower 6 and the first condensation box 102 are all positioned in a first cavity, a blower mounting part 103 is formed between the lower part of the first condensation box 102 and the first cavity, the blower 6 is mounted in the blower mounting part 103, the heat dissipation device 4 is mounted at the upper part of the first condensation box 102, the heat dissipation device 4 comprises a plurality of air pipes, and the air pipes can be communicated with a first cavity, a second cavity and a third cavity respectively;
when the blower 6 works, the air conveyed by the blower 6 enters the heat dissipation device 4 after passing through the first condensation box 102, and is conveyed into different cavities through corresponding air pipes, wherein a motor 401 capable of opening or closing the air pipes is arranged on the side surface of each air pipe, temperature sensing probes (not shown in the figure) are arranged around the first component 10, the adapter 11, the server 12, the central processing unit 14 and the second component 15, the temperature of the corresponding components can be monitored through the temperature sensing probes, the number of the blowers 6 is multiple, and four blowers are preferred in the invention;
through the design, under the condition of not using a variable frequency blower, the variable frequency heat dissipation function can be realized, the heat dissipation performance can be accurately and effectively controlled, the consumption of electric quantity can be reduced, the equipment cost is reduced, and the energy is saved and the environment is protected, specifically, when the first component 10, the adapter 11, the server 12, the central processing unit 14 and the second component 15 work, the temperature and the time for generating heat are different, for example, when a temperature sensing probe around the server 12 monitors that the temperature of the server 12 exceeds a set value, a motor 401 at an air pipe communicated with the server 12 works to enable the air pipe to be communicated with the blower 6, and one blower 6 works to convey wind to the server 12 through the air pipe to cool the server 12; when a plurality of components and parts all need the cooling, corresponding motor 401 work and open corresponding tuber pipe, the amount of wind that an air-blower 6 carried this moment is not enough to supply the heat dissipation of a plurality of components and parts, consequently, can open a plurality of air-blowers 6 and supply air to the components and parts that need the heat dissipation for reduce the temperature of components and parts, simple structure is reasonable, and control mode is simple, and is with low costs, and the practicality is good.
Wherein the air ducts include a first air duct 402, a second air duct 403, a third air duct 404, and a fourth air duct 405, the first ducted duct 402 communicates with chamber one, the second ducted duct 403 communicates with chamber two, the third ducted duct 404 and the fourth ducted duct 405 communicate with chamber three, the third duct 404 is located above the servers 12 and the fourth duct 405 is located above the second component 15, a plurality of first air outlets 4021 are arranged on the side surface of the first air duct 402, the first air outlets 4021 are respectively opposite to the first component 10 and the adapter 11, a plurality of second air outlets 4031 are formed in the side surface of the second air duct 403, the second air outlets 4031 are aligned with the central processing unit 14, a third air outlet 4041 is arranged on the side surface of the third air duct 404, the third air outlet 4041 faces the server 12, a fourth air outlet 4051 is formed in the side face of the fourth air duct 405, and the fourth air outlet 4051 faces the second component 15;
the air generated by the blower 6 is conveyed into the air pipe, and the air outlet on the air pipe can blow and cool the surface of the corresponding component, so that the structural design solves the defects of inconvenient installation and disassembly of the cooling fan, interference between fan blades and a circuit and safety accidents; the air outlet can be positioned closer to the surface of the component, so that the air outlet can be opposite to the component, and the heat dissipation efficiency of the component is greatly improved; the air pipe is formed by bending the straight pipe, the air leakage of the air pipe is greatly reduced due to the integral structural design, the air outlet design is adopted, the air outlet is more concentrated, the air is exhausted through the air port under the condition that the air outlet quantity is the same as that of a fan, the heat dissipation efficiency is higher, the energy waste is less, and the energy is more saved; the air pipe has small volume, small occupied space and long service life, and almost does not need to be disassembled, assembled and maintained.
The condenser pipe 5 is arranged in the heat dissipation cabinet 1, the condenser pipe 5 comprises a first coil pipe 503, the first coil pipe 503 is located in the first condensation box 102, condensed water can be led into the first coil pipe 503, when the ambient temperature is high and the temperature of the surface of the component cannot be effectively reduced due to ordinary air cooling, the condensed water can be led into the first coil pipe 503, and air generated by the air blower 6 is cooled by the first coil pipe 503 in the first condensation box 102 and then enters the air duct, so that the temperature of the air blown out from the air outlet is relatively low, and the heat dissipation effect of the component is greatly improved;
the condenser tube 5 includes a second coil 505, the second coil 505 can be filled with condensed water, the second coil 505 is located in the second condenser box 104, the air duct further includes a fifth air duct 406, the fifth air duct 406 is communicated with the inside of the second condenser box 104, an upper air outlet 1041 is arranged at the upper portion of the second condenser box 104, the upper air outlet 1041 is aligned with the central processing unit 14, a lower air outlet 1042 is arranged at the lower portion of the second condenser box 104, the lower air outlet 1042 is respectively aligned to the server 12 and the second component 15, because the temperature generated when the central processing unit 14 and the server 12 operate is higher than that generated when other components are operated, through the above structural design, when wind cooled by the first coil 503 can not effectively cool the central processing unit 14 and the server 12, the motor 401 operates, so that the first condenser box 102 is communicated with the fifth air duct 406, the air generated by the blower 6 enters the second condensation box 104 after being cooled by the first coil 503, is cooled for the second time by the second coil 505, and is blown to cool the central processing unit 14 and the server 12 through the upper air outlet 1041 and the lower air outlet 1042 respectively, so that the cooling effect is greatly improved, the service lives of the central processing unit 14 and the server 12 and the continuous working capacity of the cooling device in a hot environment are improved, the structure is simple and reasonable, and the practicability is good.
Wherein, the second coil pipe 505 is leading to the in-process of comdenstion water, the surface can produce the drop of water, in order to prevent that the drop of water from piling up and flowing out from lower air outlet 1042, consequently, lower air outlet 1042 is equipped with annular muscle (not shown in the figure) towards the inside extension of second condensing box 104, annular muscle is higher than the inside lower surface of second condensing box 104, second condensing box 104 side is equipped with drain pipe 1043, through above-mentioned structural design, the annular muscle can block the drop of water, the accumulational water in the second condensing box 104 can be discharged to drain pipe 1043, prevent components and parts that server 12 etc. are located the third chamber from damaging by the tide.
The inside bottom surface of heat dissipation cabinet 1 is equipped with first exhaust fan 7, first exhaust fan 7 can communicate or block with cavity three, is equipped with second baffle 105 in the cavity three, is equipped with fan installation department 106 between second baffle 105 and the cavity three, and first exhaust fan 7 is installed in fan installation department 106, and when first exhaust fan 7 and cavity three intercommunication, first exhaust fan 7 can be discharged the higher air of temperature in the cavity three from heat dissipation cabinet 1 bottom, heat dissipation cabinet 1 top is equipped with second exhaust fan 8, second exhaust fan 8 intercommunication cavity can communicate or block with cavity two in the lump, and when second exhaust fan 8 communicates cavity two, can be discharged the air in cavity one and the cavity two from heat dissipation cabinet 1 top.
When the temperature of the central processing unit 14 is not very high, the second exhaust fan 8 is communicated with the second cavity, the central processing unit 14 can be cooled through the second exhaust fan 8, the upper air outlet 1041 and the second air outlet 4031, and when the temperature of the server 12 is not very high, the first exhaust fan 7 is communicated with the third cavity, and the server 12 is cooled through the first exhaust fan 7, the lower air outlet 1042 and the third air outlet 4041.
Further, in the present invention, a closed environment may be formed between the second cavity and the rear cavity to facilitate heat dissipation of the central processing unit 14 and the server 12, specifically, a first electric push rod 112 is disposed on a side of the second cavity far away from the opening, a first push plate 113 is disposed at an end of a telescopic rod of the first electric push rod 112, the first push plate 113 may communicate or block the second exhaust fan 8 and the second cavity, a third electric push rod 117 is disposed on one side of the rear cavity of the support plate 9, a third push plate 118 is disposed at an end of the third electric push rod 117, the third push plate 118 may communicate or block the rear cavity and the first exhaust fan 7, the first sealing plate 111 is hermetically covered on a front surface of the second cavity, the rear cabinet door 303 is covered on a rear surface of the heat dissipation cabinet 1, the rear cabinet door 303 includes a second sealing plate 304, and the second sealing plate 304 is hermetically covered on a third rear surface of the cavity;
when the heating temperature of the central processing unit 14 is high, the first push rod 112 is started to drive the first push plate 113 to move, and the second exhaust fan 8 and the second chamber are isolated, so that the second chamber forms a relatively closed environment, and at the moment, the upper air outlet 1041 and the second air outlet 4031 blow cold air towards the second chamber, so that the cooling speed of the second chamber is greatly increased, the cooling speed of the central processing unit 14 is increased, and the temperature of the central processing unit 14 is effectively reduced; when the server 12 generates heat and has a higher temperature, the third electric push rod 117 is started to drive the third push plate 118 to move, the first exhaust fan 7 and the rear cavity are isolated, so that the rear cavity forms a relatively closed environment, at the moment, the lower air outlet 1042 and the third air outlet 4041 blow cold air opposite to the rear cavity, the cooling speed of the rear cavity is greatly improved, the cooling speed of the server 12 is improved, the temperature of the server 12 is effectively reduced, the continuous work of a computer is facilitated, and the service life of the computer is greatly prolonged.
Further, a second chamber can be communicated with the first chamber, the rear chamber can be communicated with the front chamber, specifically, a first vent hole 116 is formed in the side face of the first partition plate 101, the first chamber and the second chamber can be communicated through the first vent hole 116, a second electric push rod 114 is arranged on the top face of the interior of the heat dissipation cabinet 1, a second push plate 115 is arranged at the end portion of a telescopic rod of the second electric push rod 114, and the second push plate 115 can open or cover the first vent hole 116; the supporting plate 9 comprises a second vent 901 communicating the front cavity with the rear cavity, a fourth electric push rod 902 is arranged on one side of the supporting plate 9 positioned in the front cavity, a fourth push plate 903 is arranged at the end part of a telescopic rod of the fourth electric push rod 902, and the fourth push plate 903 can open or cover the second vent 901;
when the second chamber and the rear chamber are both in a closed environment, the first vent hole 116 is closed through the second push plate 115, the second vent hole 901 is closed through the fourth push plate 903, when the temperature of the central processing unit 14 is reduced to a set value, the second electric push rod 114 works to drive the second push plate 115 to move, so that the first vent hole 116 is opened, at the moment, the second chamber is communicated with the first chamber, and cold air in the second chamber can enter the first chamber through the first vent hole 116 to cool components in the first chamber; when the temperature of the server 12 is reduced to a set value, the fourth electric push rod 904 works to drive the fourth push plate 903 to move and open the second vent hole 901, at this time, the rear cavity is communicated with the front cavity, and cold air in the rear cavity can enter the front cavity through the second vent hole 901 to cool components in the front cavity; through the design, the waste of the cold air is effectively reduced, the utilization rate of the cold air is improved, the structure is simple and reasonable, and the practicability is good.
The top of the heat dissipation cabinet 1 is provided with a top cover plate 2, the second exhaust fan 8 is positioned at the lower part of the top cover plate 2, the top cover plate 2 is provided with a dust screen 201, and the dust screen 201 is opposite to the second exhaust fan 8; in the invention, the air of the blower 6 is sucked from the bottom of the heat radiation cabinet 1, the second exhaust fan 8 is arranged on the top for the exhaust operation, and the structure design of the position has more advantages: firstly, when the second exhaust fan 8 exhausts air, dust adhered to the dust screen 201 can be blown off at the same time, so that the dust screen 201 is prevented from being blocked by the dust, and the effect of automatically cleaning dust can be achieved; secondly, the temperature of air-out is higher, and the position of air-out is higher than the position of air-in, and when second exhaust fan 8 exhausts, the higher air of exhaust temperature is in the in-process that rises, can not have the interference with the air of air-in, improves air-in quality.
Condenser pipe 5 includes third coil 507, third coil 507 is located radiating cabinet 1 lower part and just to first exhaust fan 7, first exhaust fan 7 can be aired exhaust to hotter air in the cavity three, because the mounted position of first exhaust fan 7 is nearer with the position of air-blower 6, in order to prevent that hot-blast air that first exhaust fan 7 blew out from influencing the air-blower 6's air inlet, consequently, set up third coil 507 below first exhaust fan 7, make first exhaust fan 7 exhaust hot-blast discharge outside after appropriate cooling, reduce the influence to air-blower 6 inspiratory wind, wherein, radiating cabinet 1 lower part is equipped with third baffle 110, through third baffle 110, can prevent that the direct air-blower that first exhaust fan 7 discharged from entering 6 from radiating cabinet 1 bottom, moreover, the steam generator is simple and reasonable in structure, and good in practicability.
The first coil 503 and the second coil 505 are connected through a first connecting pipe 504, the second coil 505 and the third coil 507 are connected through a second connecting pipe 506, the electronic ice liner 501 is arranged at the bottom of the heat dissipation cabinet 1, the third coil 507 is connected with the electronic ice liner 501, the circulating pump 502 is arranged on the back of the heat dissipation cabinet 1, specifically, the circulating pump mounting part 107 is arranged at the lower part of the first condensation tank 102, the circulating pump mounting part 107 is isolated from the fan mounting part 103, the circulating pump 502 is mounted in the circulating pump mounting part 107, and the circulating pump 502 is respectively connected with the electronic ice liner 501 and the first coil 503; the water in the condensation pipe 5 circulates through the circulating pump 502, after passing through the electronic ice liner 501, the water in the condensation pipe is refrigerated, and the refrigerated water sequentially passes through the first coil 503, the first connecting pipe 504, the second coil 505, the second connecting pipe 506 and the third coil 507, and then enters the electronic ice liner 501 through the circulating pump 502 to circulate; through the structural design, water in the condensation pipe 5 can flow circularly for refrigeration, so that the refrigeration effect of the water is improved, the temperature in the heat dissipation cabinet 1 can be reduced to a certain extent, and the cooling of components is facilitated, so that the water-cooling and air-cooling heat dissipation structure of the heat dissipation cabinet 1 is realized, the heat dissipation effect is improved, the continuous working capacity of the water-cooling and air-cooling heat dissipation cabinet is greatly improved, more benefits can be generated for enterprises, the structure is simple and reasonable, and the practicability is good.
A plurality of meshes 108 are arranged on the side surface of the heat dissipation cabinet 1 close to the bottom, and the air exhausted by the first exhaust fan 7 is dispersed and exhausted to the outside from the meshes 108; outside air is sucked into the blower 6 through the mesh 108.
The side face of the heat dissipation cabinet 1 is provided with the heat dissipation baffle 109, so that the heat dissipation effect of the heat dissipation cabinet 1 can be improved through the heat dissipation baffle 109, and external dust can be reduced from entering the interior of the heat dissipation cabinet 1.
The front cover of the heat dissipation cabinet 1 is provided with a front cabinet door 3, the front cabinet door 3 is hinged to the heat dissipation cabinet 1, the front cabinet door 3 is provided with a display screen 301 and an operation key 302 in front, various parameters of components can be checked through the display screen 301, and the operation can be performed through the operation key 302.
First baffle 101 side is equipped with a plurality of line cover 16 and wiring hole 1011, second tuber pipe 403 is sealed through first seal cover 17 with first baffle 101, third tuber pipe 404 is sealed through second seal cover 18 with first baffle 101 for the pencil of connecting components and parts in component and the cavity two in the cavity one, the pencil that is used for connecting components and parts in component and the rear chamber all need to run through line cover 16 in the cavity one, through setting up line cover 16, first seal cover 17 and second seal cover 18, has improved the seal of cavity two and rear chamber greatly, reduces revealing of air conditioning 1011, wiring hole intercommunication cavity one and front chamber, through setting up wiring hole 1011 be convenient for being connected of components and parts of cavity one and front chamber.
The above description is only for the purpose of illustrating the preferred embodiments of the present invention and is not to be construed as limiting the invention, and any modifications, equivalents, improvements and the like that fall within the spirit and principle of the present invention are intended to be included therein.

Claims (10)

1. The utility model provides a high heat dissipating's calculation rack which characterized in that: the heat dissipation cabinet comprises a heat dissipation cabinet (1), wherein a first cavity, a second cavity and a third cavity which are independent of each other are arranged in the heat dissipation cabinet (1) in a separated mode through a first partition plate (101) and a second condensation box (104), a first component (10) and an adapter (11) are arranged in the first cavity, a central processing unit (14) is arranged in the second cavity, the third cavity is separated through a supporting plate (9) to form a front cavity and a rear cavity, a second component (15) is arranged in the front cavity, and a server (12) is arranged in the rear cavity;
the heat dissipation cabinet (1) is internally provided with a heat dissipation device (4) and an air blower (6) respectively, the heat dissipation device (4) and the air blower (6) are communicated through a first condensation box (102), the heat dissipation device (4) comprises a plurality of air pipes, a motor (401) capable of opening or closing the air pipes is arranged on the side surface of each air pipe, and the air pipes can be communicated with a first cavity, a second cavity and a third cavity respectively;
a first exhaust fan (7) is arranged on the bottom surface inside the heat dissipation cabinet (1), the first exhaust fan (7) can be communicated with or blocked from the cavity III, a second exhaust fan (8) is arranged on the top of the heat dissipation cabinet (1), and the second exhaust fan (8) is communicated with the cavity and can be communicated with or blocked from the cavity II; the second chamber can be closed or communicated with the first chamber, and the rear chamber can be closed or communicated with the front chamber.
2. The high heat dissipation computing rack of claim 1, wherein: a condenser pipe (5) is arranged in the heat dissipation cabinet (1), the condenser pipe (5) comprises a first coil pipe (503), a second coil pipe (505) and a third coil pipe (507), the first coil pipe (503) is located in the first condensation box (102), the second coil pipe (505) is located in the second condensation box (104), the first coil pipe (503) and the second coil pipe (505) are connected through a first connecting pipe (504), the third coil pipe (507) is located at the lower part of the heat dissipation cabinet (1) and is opposite to the first row of fans (7), and the second coil pipe (505) and the third coil pipe (507) are connected through a second connecting pipe (506);
the electronic ice container (501) is arranged at the bottom of the heat dissipation cabinet (1), the third coil pipe (507) is connected with the electronic ice container (501), the circulating pump (502) is arranged on the back of the heat dissipation cabinet (1), and the circulating pump (502) is respectively connected with the electronic ice container (501) and the first coil pipe (503).
3. The high heat dissipation computing rack of claim 1, wherein: the air pipes comprise a first air pipe (402), a second air pipe (403), a third air pipe (404), a fourth air pipe (405) and a fifth air pipe (406), the first air pipe (402) is communicated with the first chamber, the second air pipe (403) is communicated with the second chamber, the third air pipe (404) and the fourth air pipe (405) are communicated with the third chamber, the third air pipe (404) is positioned above the server (12) and the fourth air pipe (405) is positioned above the second component (15), and the fifth air pipe (406) is communicated with the interior of the second condensation box (104).
4. The high heat dissipation computing rack of claim 3, wherein: an upper air outlet (1041) is formed in the upper portion of the second condensation box (104), the upper air outlet (1041) is aligned to the central processing unit (14), a lower air outlet (1042) is formed in the lower portion of the second condensation box (104), and the lower air outlet (1042) is respectively aligned to the server (12) and the second component (15).
5. The high heat dissipation computing rack of claim 3, wherein: first tuber pipe (402) side is equipped with a plurality of first air outlets (4021), first air outlet (4021) are just to components and parts (10) and adapter (11) respectively, second tuber pipe (403) side is equipped with a plurality of second air outlets (4031), second air outlet (4031) is just to central processing unit (14), third tuber pipe (404) side is equipped with third air outlet (4041), third air outlet (4041) are just to server (12), fourth tuber pipe (405) side is equipped with fourth air outlet (4051), fourth air outlet (4051) are just to components and parts two (15).
6. The high heat dissipation computing rack of claim 1, wherein: the side that heat dissipation cabinet (1) is close to the bottom is equipped with a plurality of meshs (108), heat dissipation cabinet (1) openly lid has closed preceding cabinet door (3), preceding cabinet door (3) are articulated with heat dissipation cabinet (1), preceding cabinet door (3) openly are equipped with display screen (301) and operation button (302), two openly sealed lids of cavity have closed first closing plate (111), heat dissipation cabinet (1) back lid has closed back cabinet door (303), back cabinet door (303) include second closing plate (304), second closing plate (304) sealed lid closes at the three backs of cavity.
7. The high heat dissipation computing rack of claim 1, wherein: the heat dissipation cabinet (1) top is equipped with lamina tecti (2), second exhaust fan (8) are located lamina tecti (2) lower part, lamina tecti (2) are equipped with dust screen (201), dust screen (201) just to second exhaust fan (8).
8. The high heat dissipation computing rack of claim 1, wherein: the one side that the open-ended was kept away from to cavity two is equipped with first electric push rod (112), first electric push rod (112) telescopic link tip is equipped with first push pedal (113), first push pedal (113) can communicate or block second exhaust fan (8) and cavity two, first baffle (101) side is equipped with first air vent (116), cavity one can communicate through first air vent (116) with cavity two, the inside top surface of radiating cabinet (1) is equipped with second electric push rod (114), the telescopic link tip of second electric push rod (114) is equipped with second push pedal (115), second push pedal (115) can be opened or the lid closes first air vent (116).
9. The high heat dissipation computing rack of claim 1, wherein: the utility model discloses a fan, including the backup pad, the backup pad is characterized in that backup pad (9) is including second venthole (901) of intercommunication front chamber and back chamber, one side that backup pad (9) are located the back chamber is equipped with third electric push rod (117), third electric push rod (117) tip is equipped with third push pedal (118), third push pedal (118) can communicate or block back chamber and first exhaust fan (7), one side that backup pad (9) are located the front chamber is equipped with fourth electric push rod (902), the telescopic link tip of fourth electric push rod (902) is equipped with fourth push pedal (903), fourth push pedal (903) can be opened or closed second venthole (901).
10. The high heat dissipation computing rack of claim 3, wherein: first baffle (101) side is equipped with a plurality of line cover (16) and wiring hole (1011), wiring hole (1011) intercommunication cavity one and antechamber, second tuber pipe (403) are sealed through first seal cover (17) with first baffle (101), third tuber pipe (404) are sealed through second seal cover (18) with first baffle (101).
CN202111407240.XA 2021-11-24 2021-11-24 High heat dissipating's calculation rack Withdrawn CN114063736A (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
CN202111407240.XA CN114063736A (en) 2021-11-24 2021-11-24 High heat dissipating's calculation rack

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
CN202111407240.XA CN114063736A (en) 2021-11-24 2021-11-24 High heat dissipating's calculation rack

Publications (1)

Publication Number Publication Date
CN114063736A true CN114063736A (en) 2022-02-18

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Family Applications (1)

Application Number Title Priority Date Filing Date
CN202111407240.XA Withdrawn CN114063736A (en) 2021-11-24 2021-11-24 High heat dissipating's calculation rack

Country Status (1)

Country Link
CN (1) CN114063736A (en)

Cited By (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN116382443A (en) * 2023-06-02 2023-07-04 无锡量子感知技术有限公司 Control method and system of chassis, chassis and computer readable storage medium

Cited By (2)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN116382443A (en) * 2023-06-02 2023-07-04 无锡量子感知技术有限公司 Control method and system of chassis, chassis and computer readable storage medium
CN116382443B (en) * 2023-06-02 2023-08-22 无锡量子感知技术有限公司 Control method and system of chassis, chassis and computer readable storage medium

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