CN208242090U - A kind of cooling system of modular high-density cabinet - Google Patents
A kind of cooling system of modular high-density cabinet Download PDFInfo
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- CN208242090U CN208242090U CN201820867749.XU CN201820867749U CN208242090U CN 208242090 U CN208242090 U CN 208242090U CN 201820867749 U CN201820867749 U CN 201820867749U CN 208242090 U CN208242090 U CN 208242090U
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Abstract
The utility model discloses a kind of cooling systems of modular high-density cabinet, comprising: air-conditioning, supply air duct, antistatic floor, equipment cabinet and air distribution sidecar;Antistatic floor is equipped with the second air outlet positioned at the first air outlet of equipment cabinet bottom part down and positioned at air distribution sidecar bottom part down, and the air outlet of air-conditioning is connected to the first air outlet and the second air outlet respectively by supply air duct;Air distribution sidecar include static pressure cabinet, it is multiple along static pressure cabinet short transverse be arranged at intervals at static pressure cabinet side crosswind machine and with crosswind mechatronics be used for driving side blower control module, static pressure bottom of cabinet portion is equipped with the second air inlet, and the second air inlet is mutually connected with the second air outlet;Equipment cabinet side surfaces are equipped with multiple air guide holes being spaced apart along equipment cabinet short transverse, and air guide hole is oppositely arranged one by one with crosswind machine.The utility model can meet the heat dissipation of each height equipment in high density cabinet, and radiate uniformly, and precision is high, and effect is good.
Description
Technical field
The utility model relates to data center apparatus technical field of heat dissipation more particularly to a kind of modular high-density cabinets
Cooling system.
Background technique
With the continuous development of network technology, the equipment setting of data center is more and more intensive, increasingly modularization, equipment
Arrangement is more intensive, and calorific value is concentrated, and sensible heat amount is big, and heat dissipation problem increasingly highlights, and cannot be guaranteed using existing cooling system
The good heat radiating of equipment and the demand of offer good service.
Currently, most of data center is radiated using room-level precision air conditioner, while antistatic floor can be cooperated
Plenum chamber form is formed, supply air system dynamic pressure can be reduced, increase static pressure, steady air flow, reduce airstream vibration, help equipment uniform
Heat dissipation, but, the cabinet supply air system of plenum chamber form not as expected to the heat dissipation of modular high-density cabinet generally use machine
The positive veil door of cabinet, hollow out floor or the form of cabinet air guide hole outlet air, wherein cabinet front net door, hollow out floor air-supply shape
Formula, because cold and hot channel is not isolated significantly, the case where there are energy wastes.The wherein form of cabinet air guide hole outlet air,
Although the case where selective air-supply can be carried out to cabinet, be easy to appear different height uneven air in cabinet, meeting not
The cooling capacity requirement of high density cabinet different height, especially higher-height equipment, heat dissipation effect is poor, is easily damaged.
Such as the patent document that notification number is CN102425821B, a kind of " data center's air conditioner divisional cooling supply section is disclosed
Energy system ", forms computer room space by raised flooring, indoor ceiling and wall;Common cooling supply is provided in the computer room space
Air-conditioning and accurate cooling supply air-conditioning;Wherein, the computer room space includes by space in raised flooring down space, cabinet, send, backwind tube
The accurate cooling supply space that road and precision air conditioner cooling supply are formed, and the common of outside is formed by space, common air-conditioning on raised flooring
Cooling supply space.Common cooling supply air-conditioning goes out cold wind to common refrigeration space, and flat send is put down back;Accurate cooling supply air-conditioning sends out cold wind to precision
Refrigeration space.Revolutionizing current data center's precision air conditioner cooling supply is that whole computer room area space calculating air-conditioning equipment shows cold
General power is needed with the areal calculation cooling capacity in accurate accurate cooling supply space, in this way under the premise of greatly reducing energy consumption;Subtract simultaneously
The small installed capacity and cost of air-conditioning equipment, and ensured the demand of the efficient cooling supply of equipment in cabinet.But the process of actual use
In, precision air conditioner is easy to appear uneven air, and inner space of cabinet will appear the cooling capacity that the relatively high equipment of height receives
Sometimes it is unable to satisfy its radiating requirements, is easily damaged for a long time, economic loss is generated.
Utility model content
The technical problem to be solved by the utility model is to propose that one kind can for the above-mentioned deficiency of the prior art
Meet the heat dissipation of each height equipment in modular high-density cabinet, and the modular high-density cabinet accurate, that effect is good that radiates
Cooling system.
The utility model solves its technical problem, adopts the following technical scheme that
A kind of cooling system of modular high-density cabinet, comprising: air-conditioning, supply air duct, antistatic floor, equipment cabinet with
And air distribution sidecar;The antistatic floor is equipped with positioned at the first air outlet of the equipment cabinet bottom part down and positioned at the air distribution
Second air outlet of sidecar bottom part down, the air outlet of the air-conditioning by the supply air duct respectively with first air outlet
It is connected to second air outlet;The equipment cabinet bottom is equipped with first air inlet opposite with first air outlet, described
Air distribution sidecar include static pressure cabinet, it is multiple along the static pressure cabinet short transverse be arranged at intervals at the crosswind machine of static pressure cabinet side with
And it is used to drive the control module of the crosswind machine with the crosswind mechatronics, static pressure bottom of cabinet portion is equipped with the second air inlet
Mouthful, second air inlet is mutually connected with second air outlet;The equipment cabinet side surfaces are equipped with multiple along the equipment
The air guide hole that cabinet short transverse is spaced apart, the air guide hole are oppositely arranged one by one with the crosswind machine.
Further, first air inlet is equipped with the lower blower for being evacuated into the equipment cabinet, the leeward
Machine includes motor, impeller assembly and the bellows set on the impeller assembly close to first air outlet side.
Further, the controller for blasting for controlling wind direction is equipped with above first air inlet.
Further, the controller for blasting includes that two fixed frames disposed in parallel and multiple both ends are arranged respectively
In in two fixed frames and can relative to the fixed frame rotate swing flap plate;The fixed frame level is set to described
On equipment cabinet, worm screw is equipped in the fixed frame, the worm screw is equipped with multiple spaced helical tooths, the swing flap plate one
End passes through worm gear and the spiral tooth engagement.
Further, the air distribution sidecar and the equipment cabinet split settings.
Further, there are two the air distribution sidecars, and the opposite two sides of the equipment cabinet are respectively arranged on, the air distribution side
Cabinet is detachably connected with the equipment cabinet, and when connection, the air guide hole was right against the crosswind machine.
Further, thermal window is equipped at the top of the equipment cabinet, the thermal window passes through return air channel and the sky
The return air inlet of tune is connected to.
Further, it is equipped with temperature sensor at the thermal window, is equipped with administration module, the supervision in the air-conditioning
Module is electrically connected with the temperature sensor.
Further, the equipment cabinet side is equipped with the switch gate that can seal the air guide hole, and the switch gate is set to institute
It states the inboard of equipment cabinet side, the switch gate and the equipment cabinet side and connection is slid by sliding slot.
Further, the supply air duct outer wall has wrapped insulating layer.
Compared with prior art, the utility model has the beneficial effects that setting air-conditioner air outlet passes through supply air duct and the
Cold air is delivered up by one air outlet from equipment cabinet bottom;By supply air duct and the second air outlet, cold air feeding is matched
Wind sidecar after static pressure cabinet stablizes cold air, is conveyed by the air guide hole that each crosswind machine is arranged to corresponding equipment cabinet side
Cold air, by control module control on demand, the air current composition distribution under above-mentioned design is more reasonable, cold for the starting of each crosswind machine
Air can not only be delivered up from equipment cabinet bottom, moreover it is possible to which the horizontal feed for completing different height not only contributes to increase phase
Total amount is conveyed with the cold air in the time, moreover it is possible to so that cold air reaches the time of each height of equipment cabinet and throughput and becomes
Controllably, so that each height of equipment cabinet can touch enough cooling capacity, and cooling capacity can obtain an equitable breakdown, to help
It helps and improves radiating efficiency and energy saving;
By the setting of lower blower, while cold air can be accelerated to be delivered up from equipment cabinet bottom, moreover it is possible to work as cold sky
Gas by equipment thermal change at hot-air after, help hot-air flow up faster device for transferring cabinet;
Controller for blasting can control the angled conveyor for the cold air being delivered up from equipment cabinet bottom, advantageously allow
The flow direction of cold air is more clear and concentrates, and helps to generate the more position rapid cooling of heat at respective angles;
The spiral tooth engagement that swing flap plate one end passes through worm gear and worm screw is set, when the spiral shell with worm screw can be realized in worm screw rotation
Rotation while rotation is while revolving all worm gears of tooth engagement to realize swing flap plate, structure is simple, easy access and maintenance;
There are two air distribution sidecars, and is respectively arranged on the opposite two sides of equipment cabinet, and air distribution sidecar removably connects with equipment cabinet
Connect, when connection, the air guide hole was right against the crosswind machine, enable the cold air conveyed by each crosswind machine as far as possible
The different height of lost inflow equipment cabinet less, while whole occupied space is reduced as far as possible;
Thermal window is connected to by return air channel with the return air inlet of air-conditioning, can recycle hot-air, and it is empty to reduce heat
Gas influences the heat of equipment cabinet external rings mirror;The setting of temperature sensor and administration module can be lower than in the temperature of detection
When one preset value, control air-conditioning shuts down, and when the temperature of detection is higher than a preset value, controls starting of air conditioner, is conducive to intelligence
It can heat dissipation, energy saving;
The setting of switch gate can open air guide hole when the equipment heat of respective heights is more and receive cold air, in correspondence
The equipment of height reduces the loss for the cold air being delivered up from equipment cabinet bottom without closing when radiating;Supply air duct outer wall
Insulating layer has been wrapped, the cooling capacity at supply air duct can be reduced and scattered and disappeared.
Detailed description of the invention
To become apparent from detailed description the embodiments of the present invention, attached drawing is as follows:
Fig. 1 is the structural schematic diagram of one exemplary embodiment of the utility model;
Fig. 2 is the structural schematic diagram of lower blower in one exemplary embodiment of the utility model;
Fig. 3 is the structural schematic diagram of controller for blasting in one exemplary embodiment of the utility model;
Fig. 4 is that helical tooth distribution and helical tooth and worm gear engaging structure are illustrated in one exemplary embodiment of the utility model
Figure;
Fig. 5 is the structural schematic diagram of the utility model another exemplary embodiment;
Fig. 6 is the enlarged drawing in Fig. 5 at A.
Specific embodiment
It is specific embodiment of the utility model and in conjunction with attached drawing below, the technical solution of the utility model is made further
Description, but the utility model is not limited to these examples.
As shown in Figure 1 and Figure 2, an exemplary embodiment according to the present utility model provides a kind of modular high-density cabinet
Cooling system, comprising:
Air-conditioning 100, supply air duct 200, antistatic floor 300, equipment cabinet 400 and air distribution sidecar 500;The present embodiment
In, there are two the air distribution sidecar 500 settable 1 is also settable, if two, then it is respectively arranged on 400 phase of equipment cabinet
Pair two sides, the antistatic floor 300 be equipped with positioned at 400 bottom part down of equipment cabinet the first air outlet 310 and be located at
The air outlet of second air outlet 320 of 500 bottom part down of air distribution sidecar, the air-conditioning 100 passes through the supply air duct 200
It is connected to respectively with first air outlet 310 and second air outlet 320;The cold sky that the air outlet of air-conditioning 100 generates is set
Gas flows to equipment cabinet 400 and air distribution sidecar 500 by supply air duct 200, advantageously reduce in the prior art air-conditioning directly to anti-
Air quantity relaxation phenomenon caused by electrostatic floor outlet air reduces energy dissipation;
400 bottom of equipment cabinet is equipped with first air inlet opposite with first air outlet 310, and cold air is from first
After air outlet 310 comes out, enter equipment cabinet 400 from the first air inlet;
The air distribution sidecar 500 includes static pressure cabinet 510, multiple is arranged at intervals at institute along 510 short transverse of static pressure cabinet
It states the crosswind machine 520 of 510 side of static pressure cabinet and is electrically connected the control for driving the crosswind machine 520 with the crosswind machine 520
Molding block, crosswind machine 520 are only set to the side of 510 equipment oriented cabinet 400 of static pressure cabinet, and static pressure cabinet 510 can be to the cold sky of inflow
Gas carries out pressure stabilizing, and crosswind machine 520 can convey the cold air in static pressure cabinet 510 to equipment cabinet 400, multiple 520 edges of crosswind machine
The setting of 510 short transverse interval of static pressure cabinet, can meet the cooling capacity conveying of 400 different height of equipment cabinet, and control module drives crosswind
When machine 520, can the temperature conditions according to detected by the temperature sensor being arranged in equipment, which crosswind machine 520 controlled
It opens or which crosswind machine 520 is closed;In the prior art, it when cold air is delivered up, is easy more to rest on equipment cabinet
400 lower half portion leads to the problem of cooling capacity distribution unevenness, can substantially improve above-mentioned phenomenon after air distribution sidecar 500 is arranged;
510 bottom of static pressure cabinet is equipped with the second air inlet, and second air inlet is held in the mouth with 320 phase of the second air outlet
It connects, is i.e. has no spacing between the second air inlet and the second air outlet 320, but directly air port ensures cooling capacity without lost in air port
Setting;400 side surfaces of equipment cabinet are equipped with multiple air guide holes 420 being spaced apart along 400 short transverse of equipment cabinet,
The air guide hole 420 is oppositely arranged one by one with the crosswind machine 520, the direct horizontal feed of cold air conveyed by crosswind machine 520
Enter in equipment cabinet 400 to air guide hole 420, and is directly radiated to the equipment such as server that equal height is arranged in, to sum up,
It is delivered up from 400 bottom of equipment cabinet and forms good heat dissipation cooperation between the two from the conveying of 400 lateral of equipment cabinet, so that
Each orientation of equipment can be contacted directly and touch more cold air;It should be noted that the air-supply wind in the present embodiment
Road 200 and air-conditioning 100 are only that individual equipment cabinet 400 is equipped with, i.e., the length of supply air duct 200 only need to meet from air-conditioning 100 to from
Cold air conveying of the air-conditioning 100 apart from farthest air distribution sidecar 500, the capacity of air-conditioning 100 also only need to be according to individual equipment
Maximum cooling capacity needed for cabinet 400 is equipped with, to guarantee the accurate output and distribution according to need of cooling capacity.
Further, first air inlet is equipped with the lower blower 410 for being evacuated into the equipment cabinet 400, institute
Stating lower blower 410 includes motor, impeller assembly and the stretching close to 310 side of the first air outlet set on the impeller assembly
Hose 411, the interior fixed part for being equipped with the fixed bellows 411 of the first air outlet 310.Pass through setting for lower blower 410
It sets, while cold air can be accelerated to be delivered up from 400 bottom of equipment cabinet, moreover it is possible to work as thermal change of the cold air by equipment at hot empty
After gas, hot-air is helped to flow up faster device for transferring cabinet 400;General 400 bottom of equipment cabinet is equipped with traveling wheel, therefore
400 bottom of equipment cabinet is not direct to be contacted with antistatic floor 300, i.e. the first air inlet has in height with the first air outlet 310
A certain distance is easy to cause part cooling capacity to scatter and disappear outside toward equipment cabinet 400, if equipment cabinet 400 is modular high-density cabinet,
It is easy to appear heat dissipation not in time, setting bellows 411 can be when cooling capacity be unsatisfactory in equipment cabinet 400, to the first air outlet
It stretches in 310, is scattered and disappeared with reducing cooling capacity.
Optionally, the controller for blasting 430 for controlling wind direction is equipped with above first air inlet.This is also
Since the heat that equipment itself different location generates in equipment cabinet 400 is different, therefore controller for blasting 430 is set and controls cold air
Flow direction, can make that cold air has more times and the flux and flow direction equipment more concentrated needs most the place of heat dissipation, from source solution
Heat dissipation problem.
As shown in Figure 3, Figure 4, the controller for blasting 430 includes two fixed frames 431 disposed in parallel and multiple
Both ends are sheathed on the swing flap plate 432 that can be rotated in two fixed frames 431 and relative to the fixed frame 431 respectively;Institute
It is horizontal on the equipment cabinet 400 to state fixed frame 431, is equipped with worm screw, the snail in one of them described fixed frame 431
Bar is equipped with multiple spaced helical tooths 4311, and described 432 one end of swing flap plate is engaged by worm gear with the helical tooth 4311.
Each 432 one end of swing flap plate is rotatablely connected with a fixed frame 431, and the other end passes through in worm gear and a fixed frame 431
Helical tooth 4311 on worm screw engages, and when control worm screw rotation, worm gear just be can rotate, so that each swing flap plate 432 can be complete simultaneously
It at rotation, controls worm screw rotation direction and changes, each swing flap plate 432 can also change rotation direction, to complete cold air difference
The concentration of angle conveys, and swing flap plate 432 can complete rotation and the level of all swing flap plates 432 of 0 degree -180 degree in the present embodiment
When setting, all cold airs being delivered up from 400 bottom of equipment cabinet can be stopped.
Optionally, the air distribution sidecar 500 and 400 split settings of equipment cabinet, i.e. air distribution sidecar 500 are set to equipment cabinet
By in the of 400, in addition to can be used for the heat dissipation to equipment cabinet 400, it may also be used for carry out environment temperature reduction to different height in computer room.
Or, as shown in figure 5, there are two the air distribution sidecars 500, and the opposite two sides of the equipment cabinet 400 are respectively arranged on,
The air distribution sidecar 500 can be detachably connected with the equipment cabinet 400, and when connection, the air guide hole 420 was right against the side
Blower 520, in this way setting crosswind machine 520, can not only reduce occupied space as far as possible, can also be by cold air without lost straight
It connects and is conveyed into equipment cabinet 400, be only used for completing the rapid cooling in equipment cabinet 400, when heat is smaller in equipment cabinet 400,
The air distribution sidecar 500 connecting with equipment cabinet 400 is removed, 400 side of equipment cabinet is positioned in and can be used for the heat dissipation of building environment.
Multi-use meets a variety of requirements of heat dissipation, can save computer room heat dissipation equipment acquisition cost.
Thermal window 440 is equipped at the top of the equipment cabinet 400, the thermal window 440 passes through return air channel and the sky
Adjust 100 return air inlet connection.Hot-air in equipment cabinet 400 can pass through 440 device for transferring cabinet 400 of thermal window and enter return air
Channel finally enters the circulation that air-conditioning 100 completes air from the return air inlet of air-conditioning 100, and hot-air is prevented to drain into building environment
Cause building environment radiation energy consumption is increased to happen.
It is equipped with temperature sensor 450 at the thermal window 440, administration module 110 is equipped in the air-conditioning 100, it is described
Administration module 110 is electrically connected with the temperature sensor 450.The setting of temperature sensor 450 and administration module 110, Neng Gou
When the temperature that temperature sensor 450 detects is lower than a preset value, inform that administration module 110 is controlled by it air-conditioning 100 and shuts down,
Temperature sensor 450 detect temperature be higher than a preset value when, control air-conditioning 100 start, be advantageously implemented intelligent heat dissipation and
Energy saving.
As shown in fig. 6,400 side of equipment cabinet is equipped with the switch gate 460 that can seal the air guide hole 420, it is described to open
460 are closed the door set on the inboard of 400 side of equipment cabinet, the switch gate 460 is sliding by sliding slot with 400 side of equipment cabinet
Connection (not shown) is moved, glide direction can be horizontal direction, also can be vertical direction, switch convenient and settable driving machine
Structure realizes the Electronic control of switch gate 460 by electrical connection, and can form cooperation with the starting and closing of crosswind machine 510, that is, sets
It sets when crosswind machine 510 is opened, the switch gate 460 of corresponding height is opened simultaneously, when crosswind machine 510 is closed, corresponding height
Switch gate 460 simultaneously closes off.The setting of switch gate 460 can open when the equipment of respective heights generation heat is more, make wind-guiding
Mouth 420 receives cold air, and the closing when the equipment of respective heights is not necessarily to radiate reduces the loss of cold air in equipment cabinet 400.
200 outer wall of supply air duct has wrapped insulating layer;The cooling capacity at supply air duct 200 is advantageously reduced to scatter and disappear.
The specific embodiments described herein are merely examples of the spirit of the present invention.The utility model institute
Belonging to those skilled in the art can make various modifications or additions to the described embodiments or using similar
Mode substitute, but without departing from the spirit of the present application or beyond the scope of the appended claims.
Claims (10)
1. a kind of cooling system of modular high-density cabinet characterized by comprising air-conditioning (100), supply air duct (200),
Antistatic floor (300), equipment cabinet (400) and air distribution sidecar (500);The antistatic floor (300) is equipped with positioned at described
First air outlet (310) of equipment cabinet (400) bottom part down and the second air-supply for being located at air distribution sidecar (500) bottom part down
Mouthful (320), the air outlet of the air-conditioning (100) by the supply air duct (200) respectively with first air outlet (310) and
Second air outlet (320) connection;Equipment cabinet (400) bottom is equipped with opposite the with first air outlet (310)
One air inlet, the air distribution sidecar (500) include static pressure cabinet (510), multiple set along static pressure cabinet (510) the short transverse interval
It is placed in the crosswind machine (520) of static pressure cabinet (510) side and is electrically connected with the crosswind machine (520) for driving the side
The control module of blower (520), static pressure cabinet (510) bottom are equipped with the second air inlet, second air inlet and described the
Two air outlets (320) are mutually connected;Equipment cabinet (400) side surfaces are equipped with multiple along the equipment cabinet (400) short transverse
The air guide hole (420) being spaced apart, the air guide hole (420) are oppositely arranged one by one with the crosswind machine (520).
2. a kind of cooling system of modular high-density cabinet according to claim 1, which is characterized in that described first into
The lower blower (410) for being evacuated into the equipment cabinet (400) is equipped at air port, the lower blower (410) includes motor, leaf
Wheel assembly and be set to the impeller assembly close to the first air outlet (310) side bellows (411).
3. a kind of cooling system of modular high-density cabinet according to claim 1 or 2, which is characterized in that described
The controller for blasting (430) for controlling wind direction is equipped with above one air inlet.
4. a kind of cooling system of modular high-density cabinet according to claim 3, which is characterized in that the air-supply control
Device (430) processed includes that two fixed frames (431) disposed in parallel and multiple both ends are sheathed on two fixed frames respectively
And it can be relative to the swing flap plate (432) of the fixed frame (431) rotation in frame (431);Fixed frame (431) level is set to
On the equipment cabinet (400), worm screw is equipped in the fixed frame (431), the worm screw is equipped with multiple spaced spirals
Tooth (4311), described swing flap plate (432) one end are engaged by worm gear with the helical tooth (4311).
5. a kind of cooling system of modular high-density cabinet according to claim 1, which is characterized in that the air distribution side
Cabinet (500) and the equipment cabinet (400) split settings.
6. a kind of cooling system of modular high-density cabinet according to claim 1, which is characterized in that the air distribution side
There are two cabinets (500), and is respectively arranged on the opposite two sides of the equipment cabinet (400), the air distribution sidecar (500) and the equipment
Cabinet (400) is detachably connected, and when connection, the air guide hole (420) was right against the crosswind machine (520).
7. a kind of cooling system of modular high-density cabinet according to claim 1, which is characterized in that the equipment cabinet
(400) top is equipped with thermal window (440), and the thermal window (440) passes through the return air of return air channel and the air-conditioning (100)
Mouth connection.
8. a kind of cooling system of modular high-density cabinet according to claim 7, which is characterized in that the radiator window
Temperature sensor (450) are equipped at mouth (440), are equipped with administration module (110) in the air-conditioning (100), the administration module
(110) it is electrically connected with the temperature sensor (450).
9. a kind of cooling system of modular high-density cabinet according to claim 1, which is characterized in that the equipment cabinet
(400) side is equipped with the switch gate (460) that can seal the air guide hole (420), and the switch gate (460) is set to the equipment cabinet
(400) inboard of side, the switch gate (460) and the equipment cabinet (400) side are slid by sliding slot and are connected.
10. a kind of cooling system of modular high-density cabinet according to claim 1, which is characterized in that the air-supply
Air duct (200) outer wall has wrapped insulating layer.
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CN201820867749.XU CN208242090U (en) | 2018-06-06 | 2018-06-06 | A kind of cooling system of modular high-density cabinet |
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CN201820867749.XU CN208242090U (en) | 2018-06-06 | 2018-06-06 | A kind of cooling system of modular high-density cabinet |
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Cited By (5)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN109661159A (en) * | 2019-02-11 | 2019-04-19 | 广州大学 | The dedicated orifice static pressure air-supply cabinet of data center machine room |
CN110913657A (en) * | 2019-11-19 | 2020-03-24 | 中建三局智能技术有限公司 | Information network machine room and construction method thereof |
CN113133274A (en) * | 2021-03-04 | 2021-07-16 | 湖北锐火科技有限公司 | Heat dissipation method of server |
CN113556917A (en) * | 2021-05-28 | 2021-10-26 | 浙江华云电力工程设计咨询有限公司 | Control cabinet with accurate air supply system and control method |
CN117015173A (en) * | 2023-07-28 | 2023-11-07 | 中国电信股份有限公司技术创新中心 | Modular DC cabin and modular DC machine room |
-
2018
- 2018-06-06 CN CN201820867749.XU patent/CN208242090U/en active Active
Cited By (8)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN109661159A (en) * | 2019-02-11 | 2019-04-19 | 广州大学 | The dedicated orifice static pressure air-supply cabinet of data center machine room |
CN110913657A (en) * | 2019-11-19 | 2020-03-24 | 中建三局智能技术有限公司 | Information network machine room and construction method thereof |
CN110913657B (en) * | 2019-11-19 | 2022-02-11 | 中建三局智能技术有限公司 | Information network machine room and construction method thereof |
CN113133274A (en) * | 2021-03-04 | 2021-07-16 | 湖北锐火科技有限公司 | Heat dissipation method of server |
CN113133274B (en) * | 2021-03-04 | 2022-11-01 | 湖北锐火科技有限公司 | Heat dissipation method of server |
CN113556917A (en) * | 2021-05-28 | 2021-10-26 | 浙江华云电力工程设计咨询有限公司 | Control cabinet with accurate air supply system and control method |
CN117015173A (en) * | 2023-07-28 | 2023-11-07 | 中国电信股份有限公司技术创新中心 | Modular DC cabin and modular DC machine room |
CN117015173B (en) * | 2023-07-28 | 2024-04-30 | 中国电信股份有限公司技术创新中心 | Modular DC cabin and modular DC machine room |
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