CN110461127A - A kind of cloud computing server machine room cooling system - Google Patents
A kind of cloud computing server machine room cooling system Download PDFInfo
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- CN110461127A CN110461127A CN201910649462.9A CN201910649462A CN110461127A CN 110461127 A CN110461127 A CN 110461127A CN 201910649462 A CN201910649462 A CN 201910649462A CN 110461127 A CN110461127 A CN 110461127A
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- synchronous pulley
- heat dissipation
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- air
- dissipation pipeline
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- H—ELECTRICITY
- H05—ELECTRIC TECHNIQUES NOT OTHERWISE PROVIDED FOR
- H05K—PRINTED CIRCUITS; CASINGS OR CONSTRUCTIONAL DETAILS OF ELECTRIC APPARATUS; MANUFACTURE OF ASSEMBLAGES OF ELECTRICAL COMPONENTS
- H05K7/00—Constructional details common to different types of electric apparatus
- H05K7/20—Modifications to facilitate cooling, ventilating, or heating
- H05K7/20709—Modifications to facilitate cooling, ventilating, or heating for server racks or cabinets; for data centers, e.g. 19-inch computer racks
- H05K7/20718—Forced ventilation of a gaseous coolant
- H05K7/20745—Forced ventilation of a gaseous coolant within rooms for removing heat from cabinets, e.g. by air conditioning device
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- Computer Hardware Design (AREA)
- General Engineering & Computer Science (AREA)
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- Thermal Sciences (AREA)
- Microelectronics & Electronic Packaging (AREA)
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Abstract
The invention discloses a kind of cloud computing server machine room cooling systems, including air-conditioner outdoor unit, centrifugal blower and setting are in the indoor heat dissipation pipeline of computer room, air-conditioner outdoor unit (1), centrifugal blower (2) and setting are in the indoor heat dissipation pipeline formation heat-radiation loop of computer room, the heat dissipation pipeline is set to computer room roof, heat dissipation pipeline includes cool air hose (12), hot air pipe (7) and intermediate conduit, normally closed outlet air valve port is provided on heat dissipation pipeline, mobile wind feeding device is provided with below heat dissipation pipeline, the mobile wind feeding device is movable at outlet air valve port, and it is docked with valve port, cold wind is introduced into mobile wind feeding device, and by the way that telescoping tube and blowing fan below mobile wind feeding device is arranged in, cold wind is individually blowed to specified server, heat dissipation pipeline is to the whole cooling of progress in computer room room in the present invention, it is real Now rise fast server specific aim to high load capacity, temperature to cool, relatively whole cooling can effectively save power cost.
Description
Technical field
The invention belongs to computer room temperature regulating system, in particular to a kind of cooling system for cloud computing server computer room
System.
Background technique
Cloud computing has been considered as the IT tide of third time since personal PC and internet, it will changes people and obtains, locates
Manage and protect stored mode.Cloud computing utilizes the transmittability of high speed internet, by the treatment process of data from individual calculus
Machine or server are transferred to large-scale cloud computing center, and computing capability, storage capacity are provided in a manner of servicing for user,
User can use computing capability as using public utilities such as electric power, tap water, and carry out charging by usage amount.Cloud computing
Server has the characteristics that high density, manageable, and following cloud computing center will be increasing, and soil then an inch of land is an inch of gold, machine
Room space is had too many difficulties to cope with, and how to accommodate more calculate nodes in the confined space and resource is development key.Cloud data center is built
Be set as power equipment and air-conditioning system Investment portion in this and reach 65%, and in data center's operation cost 75% will be the energy at
This.As it can be seen that the reduction of energy consumption is extremely important work for data center, and cloud computing server is then the core of energy consumption
The heart.
Multiple servers equipment is placed in existing server room, these servers can generate largely in the process of running
Heat, if cannot timely and effectively cool down, the heat of accumulation is easy to that server apparatus is made to overheat and crash, and leads to network
The operation exception of system.Because the calorific value of server and load are positively correlated, i.e., different servers is under different load, fever
It measures not identical.It is that integrally cooling cooling, system are carried out to entire computer room using air-conditioning for the server room common mode of cooling
Cold efficiency is low.If carried out while integrally cooling down to entire computer room progress low-power to the server under higher load condition
Specific aim cooling processing, can efficiently reduce power consumption.
Application No. is disclosing a kind of cloud computing computer room server cabinet cooling system in 201510330174.9 patent,
Including closed cabinet, for placing machine box for server individual cold air case is arranged, to single chassis in cabinet in each cabinet
It is individually controlled, the service efficiency of Lai Tigao cold airflow, but structure is complicated, at high cost for the program, it is equal to cabinet and cabinet
It requires, is transformed in particular for existing computer room cabinet, since it is desired that integral replacing cabinet and cabinet, poor feasibility.
Summary of the invention
Whole cooling, the deficiency low to utilization rate of electrical are carried out to computer room in the prior art in order to overcome, the present invention discloses
A kind of cloud computing server machine room cooling system is come by carrying out specific aim cooling processing to the server under higher load condition
Reduce power consumption.
The present invention is that technical solution used by completing its technical purpose is:
A kind of cloud computing server machine room cooling system, including air-conditioner outdoor unit, centrifugal blower and setting are in computer room room
Interior heat dissipation pipeline, air-conditioner outdoor unit, centrifugal blower and setting form heat-radiation loop in the indoor heat dissipation pipeline of computer room, described
Heat dissipation pipeline is set to computer room roof, and heat dissipation pipeline includes cool air hose, hot air pipe and several is connected between cool air hose, hot air pipe
Intermediate conduit, normally closed outlet air valve port is provided on heat dissipation pipeline, mobile wind feeding device is provided with below heat dissipation pipeline,
The mobile wind feeding device is movable at outlet air valve port, and is docked with valve port, cold wind is introduced mobile wind feeding device, and pass through
Telescoping tube and blowing fan below mobile wind feeding device are set, cold wind is individually blowed to specified server.
The outlet air valve port includes the retaining ring, sealing ring and ball sealer that insides of pipes wall is arranged in, and is arranged at retaining ring center
The ball sealer of floating is provided with sealing ring between ball sealer and retaining ring, and ball sealer is bonded by gravity with sealing ring, outlet air
Valve port is in normally off.
Preferably, the mobile wind feeding device include coaster, the telescoping tube being arranged in below coaster, blowing fan and in
Empty sliding rail, the hollow sliding rail are the intermediate conduit connected between cool air hose and hot air pipe, and the coaster is sleeved on hollow cunning
On rail, it is equipped with synchronous belt above hollow sliding rail as track, the synchronous pulley with synchronous belt cooperation is provided in coaster, together
Belt wheel connection driving motor is walked as driving wheel, cold air outlet is provided with below coaster, the opening of the cold air outlet is set
It is equipped with gasket and the plectrum for jacking up ball sealer.
Preferably, another scheme of the mobile wind feeding device are as follows: including a slide unit, two sliding blocks, guide rod,
Synchronous pulley and synchronous belt, the first guide rod and the second guide rod are arranged in parallel in the two sides on computer room roof, and pass through fixing seat
Fixed, be slidably connected the first sliding block on the first guide rod, and be slidably connected the second sliding block on the second guide rod, in the first sliding block
And second setting between sliding block be arranged in parallel with third guide rod and the 4th guide rod, on third guide rod and the 4th guide rod
Slide unit is slidably connected, the first synchronous pulley, the second synchronous pulley, third synchronous pulley, the 4th synchronous pulley are located at square
The 5th synchronous pulley is arranged in shape frame four corners at the position close to third synchronous pulley, close to the 4th synchronous pulley
It is provided with the 6th synchronous pulley at position, the 7th synchronous pulley and the 8th synchronous pulley are provided on the first sliding block, second
The 9th synchronous pulley and the tenth synchronous pulley are provided on sliding block, the initial segment of the first synchronous belt is fixed on the left of slide unit, successively
Around the 8th synchronous pulley, the first synchronous pulley third synchronous pulley, the 6th synchronous pulley and the 9th synchronous pulley, end connection
To the right side of slide unit;Second synchronous belt the initial segment is fixed on the right side of slide unit, successively bypasses the tenth synchronous pulley, the second synchronous belt
Wheel, the 4th synchronous pulley, the 5th synchronous pulley and the 7th synchronous pulley, end are connected to the left side of slide unit.Synchronous belt is by opening
Tight device tensioning, the first synchronous pulley connect the first synchronous motor, and the second synchronous pulley connects the second synchronous motor.
The interface for dock with heat dissipation pipeline valve port is provided with above the slide unit, interface be provided with gasket with
For jacking up the plectrum of ball sealer.
By the first synchronous motor of process control and the second synchronous motor, slide unit is driven to move freely in the horizontal plane, when
When first synchronous motor and the second synchronous motor are rotated clockwise simultaneously, slide unit moves right, when the first synchronous motor and
When second synchronous motor rotates counterclockwise simultaneously, slide unit is moved to the left, and when the first synchronous motor rotates clockwise, second is same
Simultaneously when rotating counterclockwise, slide unit moves down step motor, when the first synchronous motor rotates counterclockwise, the second synchronous motor
When being rotated clockwise simultaneously, slide unit is moved up.
Telescoping tube described in above two scheme is made of the socket of three-level pipeline, and the telescoping tube is arranged in mobile wind feeding
At device cold air outlet, it is provided with blowing fan in the connecting tube of telescoping tube lowermost end, using the gravity stretching connecting pipe of blowing fan,
It is pulled up by traction rope and shrinks connecting tube, described traction rope one end is fixed on third level pipeline, and the winding of the traction rope other end is driven
On the output idler wheel of dynamic motor, driving motor is fixed with respect to first order pipeline.
Working principle is as follows: heat dissipation pipeline is mounted on computer room roof, and heat dissipation pipeline is heat-conducting, such as copper, computer room
Hot-air rises, and the heat of computer room can be absorbed by heat exchange, have the function that cooling down.Control system can by for
The mode of temperature sensor is separately provided to be determined as which server and individually cool down in server, also can use program, In
Before distributing task for server, cooling instruction is issued to coaster, when mobile wind feeding device is received for the cold of a certain server
But after instructing, the cold air outlet of coaster or slide unit is linked into main pipeline, obtains cold air source;When coaster or slide unit are after valve port,
Ball sealer automatically resets under the effect of gravity, and valve port is closed.After coaster reaches designated position in the horizontal direction, motor driven
Idler wheel rotation, the traction rope of folding and unfolding will drive blowing fan and move up and down, to adjust the height of blowing fan, makes it and needs to cool down
Server location it is corresponding, blowing fan blows cold wind to specified server, to achieve the purpose that specific aim individually cools down.
The beneficial effects of the present invention are:
Heat dissipation pipeline is to carrying out whole cooling in the present invention in computer room room, and is provided at heat dissipation pipeline different location
Normally closed outlet air valve port is docked with outlet air valve port by mobile wind feeding device, cold wind is introduced into removable air supply device, logical
It crosses telescoping tube and adjusts the height of blowing fan, to cold wind individually be blowed to specified server, realize to single high load capacity, temperature
Degree rises fast server specific aim and cools, and relatively whole cooling can effectively save power cost.
Detailed description of the invention
The present invention will be further described in detail below with reference to the accompanying drawings and specific embodiments.
Fig. 1 is the overall structure diagram of the embodiment of the present invention one.
Fig. 2 is the attachment structure schematic diagram of coaster and hollow sliding rail in the embodiment of the present invention one.
Fig. 3 is the structural schematic diagram of coaster longitudinal extension bar part in the embodiment of the present invention one.
Fig. 4 is the principle assumption diagram of the free slide unit of two horizontal plane of the embodiment of the present invention.
Fig. 5 is the top view of slide unit part in the embodiment of the present invention two.
Fig. 6 is the schematic diagram of the section structure of slide unit part in the embodiment of the present invention two.
In figure: 1-air-conditioner outdoor unit;2-centrifugal blowers;3-cold wind imports;In 4-computer room rooms;5-coasters;In 6-
Empty sliding rail;7-hot air pipes;8-hot-blast outlets;9-pipelines;10-the first filtration gauze;11-the second filtration gauze;12-is cold
Air hose;13-gas supplementing openings;14-synchronous belts;15-synchronous pulleys;16-retaining rings;17-ball sealers;18-sealing rings;19-is close
Packing;20-cold air outlets;21-plectrums;22-the first connecting tube;23-the second connecting tube;24-third connecting tubes;25—
Blowing fan;26-traction ropes;27-idler wheels;28-motors;29-fixing seats;30-the first guide rod;31-the second guide rod;
32-the first sliding block;33-the second sliding block;34-third guide rods;35-the four guide rod;36-slide units;37-the first is synchronous
Belt wheel;38-the second synchronous pulley;39-third synchronous pulleys;40-the four synchronous pulley;41-the five synchronous pulley;42—
6th synchronous pulley;43-the seven synchronous pulley;44-the eight synchronous pulley;45-the nine synchronous pulley;46-the ten is synchronous
Belt wheel;47-the first synchronous belt;48-the second synchronous belt;49-gaskets;50-plectrums;51-through-holes;52-the first connection
Pipe;53-the second connecting tube;54-third connecting tubes;55-blowing fans;56-motors;57-traction ropes;58-the first is synchronous
Motor;59-the second synchronous motor.
Specific embodiment
Embodiment one, as shown in Figure 1, a kind of cloud computing server machine room cooling system, including air-conditioner outdoor unit 1, centrifugation
Blower 2 and be arranged in computer room room 4 heat dissipation pipeline, the heat dissipation pipeline is set to computer room roof, and heat dissipation pipeline includes cold
The hollow sliding rail 6 of air hose 12, hot air pipe 7 and several parallelly distribute ons between cool air hose 12 and hot air pipe 17, hollow sliding rail 6
Both ends are connected to cool air hose 12, hot air pipe 7 respectively, and cold wind import 3 is provided on cool air hose 12, are provided on hot air pipe 7
Hot-blast outlet 8, the air outlet of air-conditioner outdoor unit 1 connect centrifugal blower 2, and centrifugal blower connects cold wind import 3, and hot-blast outlet 8 is logical
Piping 9 connects the air inlet of air-conditioner outdoor unit 1, and mobile wind feeding device is provided with below heat dissipation pipeline.
Air-conditioner outdoor unit 1, centrifugal blower 2 and heat dissipation pipeline connect to form circulation loop.
As shown in Fig. 2, being provided with several outlet air valve ports on hollow sliding rail 6, the outlet air valve port includes being arranged in
The retaining ring 16 of empty 6 inner sidewall of sliding rail is provided centrally with the ball sealer 17 of floating in retaining ring 16, between ball sealer 17 and retaining ring 16
It is provided with sealing ring 18.
The mobile wind feeding device includes coaster 5, the telescoping tube being arranged in below coaster and blowing fan 25, the coaster 5
It is sleeved on hollow sliding rail 6, synchronous belt 14 is equipped with above hollow sliding rail 6 as track, be provided in coaster 5 and synchronous belt
The synchronous pulley 15 of cooperation, synchronous pulley 15 connect driving motor as driving wheel, cold air outlet 20 are provided with below coaster,
The opening of the cold air outlet is provided with gasket 19 and the plectrum 21 for jacking up ball sealer 17.
In a normal state, ball sealer is bonded by gravity with sealing ring 18, and outlet air valve port is in close state.Work as cunning
After vehicle receives mobile control instruction, driving motor rotation drives synchronous pulley 15 to move horizontally along synchronous belt 14, when coaster 5
When outlet air valve port face on cold air outlet 20 and hollow sliding rail 6, plectrum 21 jacks up ball sealer, on outlet air valve port and coaster 5
Cold air outlet connection, and leakproofness is guaranteed by gasket 19.
Preferably, the first filtration gauze 10 and the second filtration gauze 11 are set in the pipeline of air circulation, described
One filtration gauze 10 and the second filtration gauze 11 are separately positioned at the air inlet and air outlet of air-conditioner outdoor unit.Setting filter gauze
Effect be the impurity in filtration cycle air.
The air-conditioner outdoor unit 1 is additionally provided with gas supplementing opening 13, and effect is to compensate flows out from the outlet air valve port of hollow sliding rail 6
Air.
As shown in figure 3, described be preferably provided with scalable connecting tube and blowing fan 25 below the coaster 5, it is described to stretch
Contracting connecting tube includes the first connecting tube 22, the second connecting tube 23 and third connecting tube 24, and first connecting tube 22, second connects
Pipe 23 and the socket installation of third connecting tube 24, wherein the first connecting tube 22 is mounted at the cold air outlet 20 of coaster 5, third connection
Pipe 24 connects blowing fan 25, and the end of the blowing fan or third connecting tube is fixedly connected with traction rope 26, traction rope it is another
In on idler wheel 27, idler wheel 27 is mounted on the fixed motor 28 of opposite coaster 5 one ends wound.
The working principle of the embodiment of the present invention one is as follows:
Computer room roof is horizontally mounted at by the rectangular frame that cool air hose 12, hot air pipe 7 and several hollow sliding rails 6 form,
For placing gap location or side of the cabinet of server as hollow sliding rail, cool air hose 12, hot air pipe 7 and several hollow sliding rails
6 rise as heat-conducting, such as copper, the hot-air of computer room, the heat of computer room can be absorbed by heat exchange, reach cooling
Cooling effect.The coaster 5 being arranged on hollow sliding rail 6 is used to carry out needle to server in operating status and big operand
To property radiate, control system can be determined as by way of temperature sensor is separately provided for server which server come
It is individually cooling, it also can use program, before distributing task for server, cooling instruction issued to coaster, when coaster receives
After the cooling instruction of a certain server, motor drives synchronous pulley 15 to move on 14 track of synchronous belt, passes through hollow rails
When the valve port in road 6, supratrochlear plectrum 21 can open ball sealer 17, so that supratrochlear cold air outlet is linked into main pipeline,
Obtain cold air source;When coaster is after the valve port of hollow rail 6, ball sealer 17 automatically resets under the effect of gravity, and valve port is closed.
After coaster reaches designated position in the horizontal direction, motor 28 drives idler wheel 27 to rotate, and the traction rope 26 of folding and unfolding, which will drive, to be sent
Fan 25 moves up and down, to adjust the height of blowing fan 25, keeps it corresponding with cooling server location is needed, blowing fan 25
Cold wind is blowed to specified server, to achieve the purpose that specific aim individually cools down.The scheme of opposite integrally cooling, Ke Yiyou
The saving electric energy of effect.
In the above scheme, the mobile wind feeding device is coaster, because coaster can only be moved along the direction of hollow guide rail,
So needing that at least one coaster is arranged on each hollow guide rail, in example 2, can freely be moved using in two-dimensional surface
Dynamic slipway mechanism substitutes coaster.
Embodiment two, as shown in figure 4, the mobile wind feeding device include 36, two sliding blocks of a slide unit, it is guide rod, same
Belt wheel and synchronous belt are walked, the first guide rod 30 and the second guide rod 31 are arranged in parallel in the two sides on computer room roof, and pass through fixation
Seat 29 is fixed, and be slidably connected the first sliding block 32 on the first guide rod 30, and be slidably connected the second sliding block on the second guide rod 31
33, setting is arranged in parallel with third guide rod 34 and the 4th guide rod 35 between the first sliding block 32 and the second sliding block 33, the
Slide unit 36, the first synchronous pulley 37, the second synchronous pulley 38, third are slidably connected on three guide rods 34 and the 4th guide rod 35
Synchronous pulley 39, the 4th synchronous pulley 40 are located at rectangular frame four corners, at the position close to third synchronous pulley 39
5th synchronous pulley 41 is set, is provided with the 6th synchronous pulley 42 at the position close to the 4th synchronous pulley 40, it is sliding first
It is provided with the 7th synchronous pulley 43 and the 8th synchronous pulley 44 on block 32, is provided with the 9th synchronous pulley 45 on the second sliding block 33
With the tenth synchronous pulley 46, the initial segment of the first synchronous belt 47 is fixed on the left side of slide unit 36, successively around the 8th synchronous pulley 44,
First synchronous pulley, 37 third synchronous pulley 39, the 6th synchronous pulley 42 and the 9th synchronous pulley 45, end are connected to slide unit 36
Right side;Second synchronous belt, 48 the initial segment is fixed on the right side of slide unit 36, successively bypasses the tenth synchronous pulley 46, the second synchronous belt
The 38, the 4th synchronous pulley 40 of wheel, the 5th synchronous pulley 41 and the 7th synchronous pulley 43, end are connected to the left side of slide unit 36.Together
Step band is tensioned by tensioning apparatus, and the first synchronous pulley connects the first synchronous motor 58, and the second synchronous pulley connection second is synchronous
Motor 59.
As shown in figure 5, being provided with the interface for docking with heat dissipation pipeline valve port above the slide unit, it is arranged in interface
There are gasket 49 and the plectrum 50 for jacking up ball sealer 17.
As shown in fig. 6, being provided with through-hole 51 on slide unit 36, cooperates with third guide rod 34 and the 4th guide rod 35, make
Obtaining slide unit 36 can move along the direction of third guide rod 34 and the 4th guide rod 35.It is identical with embodiment one to be, in slide unit 36
Lower section is provided with scalable connecting tube and blowing fan 55, and the scalable connecting tube includes the first connecting tube 52, the second connecting tube
53 and third connecting tube 54, first connecting tube 52, the second connecting tube 53 and the socket installation of third connecting tube 54, wherein first
Connecting tube 52 is mounted at the cold air outlet of slide unit 36, and third connecting tube 54 connects blowing fan 55, the blowing fan 55 or the
The end of three connecting tubes 54 is fixedly connected with traction rope 57, and the other end of traction rope is wound on idler wheel, and idler wheel is mounted on relatively
On the fixed motor 56 of slide unit 36.
The working principle of the embodiment of the present invention two is as follows:
Rectangular heat dissipation frame is horizontally mounted at computer room roof, and rectangular heat dissipation frame is by cool air hose 12, hot air pipe 7 and several hollow
Grating pipe composition, rectangular heat dissipation frame are heat-conducting, such as copper, and the hot-air of computer room rises, and machine can be absorbed by heat exchange
The heat in room, has the function that cooling down.
Unlike embodiment one using can in the horizontal plane free-moving slide unit come with the valve port on heat radiation rack
Docking, drains into the air outlet below slide unit for cold air after docking, and specified server is sent to by blowing fan, to reach
The purpose that specific aim cools is carried out to individual server, relatively whole cooling reduces power cost.
By process control the first synchronous motor 58 and the second synchronous motor 59, slide unit 36 is driven freely to move in the horizontal plane
Dynamic, in Fig. 4, when the first synchronous motor 58 and the second synchronous motor 59 are rotated clockwise simultaneously, slide unit 36 moves right
It is dynamic;When the first synchronous motor 58 and the second synchronous motor 59 rotate counterclockwise simultaneously, slide unit 36 is moved to the left;When first
Synchronous motor 58 rotates clockwise, and when the second synchronous motor 59 rotates counterclockwise simultaneously, slide unit 36 is moved down;When first
Synchronous motor 58 rotates counterclockwise, and when the second synchronous motor 59 is rotated clockwise simultaneously, slide unit 36 is moved up.Slide unit with
The docking operation and principle of valve port are the same as example 1.
Disclosed above is only specific implementation of the patent example, but this patent is not limited to this, for the general of this field
For logical technical staff, without departing from the principle of the present invention, the deformation made should be regarded as belonging to the scope of the present invention.
Claims (10)
1. a kind of cloud computing server machine room cooling system, including air-conditioner outdoor unit (1), centrifugal blower (2) and setting are in machine
The heat dissipation pipeline of (4) in chamber, air-conditioner outdoor unit (1), centrifugal blower (2) and the heat dissipation pipeline that (4) are set in computer room room
Form heat-radiation loop, it is characterised in that: the heat dissipation pipeline is set to computer room roof, and heat dissipation pipeline includes cool air hose (12), heat
Air hose (7) and several intermediate conduits being connected between cool air hose (12), hot air pipe (7), are provided with normally closed on heat dissipation pipeline
Outlet air valve port, mobile wind feeding device is provided with below heat dissipation pipeline, the mobile wind feeding device is movable to outlet air valve port
Place, and dock with valve port, and cold wind is introduced mobile wind feeding device, and by be arranged in the telescoping tube below mobile wind feeding device with
Blowing fan individually blows cold wind to specified server.
2. a kind of cloud computing server machine room cooling system according to claim 1, it is characterised in that: the outlet air valve port
Retaining ring (16), sealing ring (18) and ball sealer (17) including insides of pipes wall is arranged in are arranged at retaining ring (16) center and float
Ball sealer (17), be provided between ball sealer (17) and retaining ring (16) sealing ring (18), ball sealer by gravity with it is close
Seal (18) fitting, outlet air valve port are in normally off.
3. a kind of cloud computing server machine room cooling system according to claim 2, it is characterised in that: the mobile wind feeding
Device includes coaster (5), the telescoping tube being arranged in below coaster, blowing fan (25) and hollow sliding rail (6), the hollow sliding rail
It (6) is the intermediate conduit connected between cool air hose (12) and hot air pipe (7), the coaster (5) is sleeved on hollow sliding rail (6)
On, it is equipped with synchronous belt (14) above hollow sliding rail (6) and is used as track, is provided in coaster (5) same with synchronous belt cooperation
It walks belt wheel (15), synchronous pulley (15) connects driving motor as driving wheel, and cold air outlet (20), institute are provided with below coaster
The opening for stating cold air outlet is provided with gasket (19) and the plectrum (21) for jacking up ball sealer (17).
4. a kind of cloud computing server machine room cooling system according to claim 2, it is characterised in that: the mobile wind feeding
Device includes a slide unit (36), two sliding blocks, guide rod, synchronous pulley and synchronous belt, and the first guide rod (30) and second is led
It is arranged in parallel in the two sides on computer room roof to bar (31), and fixed by fixing seat (29), is slided on the first guide rod (30)
The first sliding block (32) are connected, be slidably connected the second sliding block (33) on the second guide rod (31), in the first sliding block (32) and second
Setting is arranged in parallel with third guide rod (34) and the 4th guide rod (35) between sliding block (33), in third guide rod (34) and the
It is slidably connected on four guide rods (35) slide unit (36), the first synchronous pulley (37), the second synchronous pulley (38), third synchronous belt
Wheel (39), the 4th synchronous pulley (40) are located at rectangular frame four corners, at the position close to third synchronous pulley (39)
5th synchronous pulley (41) is set, is provided with the 6th synchronous pulley (42), In at the position close to the 4th synchronous pulley (40)
It is provided with the 7th synchronous pulley (43) and the 8th synchronous pulley (44) on first sliding block (32), is provided on the second sliding block (33)
9th synchronous pulley (45) and the tenth synchronous pulley (46), the initial segment of the first synchronous belt (47) are fixed on the left of slide unit (36),
Successively around the 8th synchronous pulley (44), the first synchronous pulley (37) third synchronous pulley (39), the 6th synchronous pulley (42) and
9th synchronous pulley (45), end are connected to the right side of slide unit (36), and the second synchronous belt (48) the initial segment is fixed on slide unit (36)
Right side, successively bypass the tenth synchronous pulley (46), the second synchronous pulley (38), the 4th synchronous pulley (40), the 5th synchronous belt
(41) and the 7th synchronous pulley (43) are taken turns, end is connected to the left side of slide unit (36), and synchronous belt is tensioned by tensioning apparatus, and first
Synchronous pulley connects the first synchronous motor (58), and the second synchronous pulley connects the second synchronous motor (59).
5. a kind of cloud computing server machine room cooling system according to claim 3 or 4, it is characterised in that: described flexible
Pipe is made of the socket of three-level pipeline, and the telescoping tube is arranged at mobile wind feeding device cold air outlet, the company of telescoping tube lowermost end
It is provided with blowing fan on adapter tube, using the gravity stretching connecting pipe of blowing fan, is pulled up by traction rope and shrinks connecting tube, it is described to lead
Messenger one end is fixed on third level pipeline, and the traction rope other end is wound on the output idler wheel of driving motor, and driving motor is opposite
First order pipeline is fixed.
6. a kind of cloud computing server machine room cooling system according to claim 4, it is characterised in that: above the slide unit
It is provided with the interface for docking with heat dissipation pipeline valve port, interface is provided with gasket (49) and for jacking up ball sealer
(17) plectrum (50).
7. a kind of cloud computing server machine room cooling system according to claim 4, it is characterised in that: on slide unit (36)
Through-hole (51) are provided with, are cooperated with third guide rod (34) and the 4th guide rod (35), so that slide unit (36) can be oriented to along third
The movement of the direction of bar (34) and the 4th guide rod (35).
8. a kind of cloud computing server machine room cooling system according to claim 4, it is characterised in that: heat dissipation pipeline is by cold
Air hose, hot air pipe and several hollow grating pipe compositions.
9. a kind of cloud computing server machine room cooling system according to claim 1, it is characterised in that: in air circulation
First filtration gauze (10) and the second filtration gauze (11), first filtration gauze (10) and the second filtering yarn are set in pipeline
Net (11) is separately positioned at the air inlet and air outlet of air-conditioner outdoor unit.
10. a kind of cloud computing server machine room cooling system according to claim 1, it is characterised in that: the air conditioning chamber
Outer machine (1) is additionally provided with gas supplementing opening (13).
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CN201910649462.9A CN110461127B (en) | 2019-07-18 | 2019-07-18 | Cloud computing server room cooling system |
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CN201910649462.9A CN110461127B (en) | 2019-07-18 | 2019-07-18 | Cloud computing server room cooling system |
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CN110461127B CN110461127B (en) | 2020-10-30 |
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CN115988019A (en) * | 2022-11-30 | 2023-04-18 | 南京普阑尼信息技术有限公司 | Frequency converter comprehensive operation and maintenance management system and method based on Internet of things |
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