CN206932544U - Micromodule is cooled down between one kind row - Google Patents
Micromodule is cooled down between one kind row Download PDFInfo
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- CN206932544U CN206932544U CN201720867729.8U CN201720867729U CN206932544U CN 206932544 U CN206932544 U CN 206932544U CN 201720867729 U CN201720867729 U CN 201720867729U CN 206932544 U CN206932544 U CN 206932544U
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- row
- rack
- heat pipe
- micromodule
- passage
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Abstract
The utility model, which provides, cools down micromodule between a kind of row, including rack, for heat pipe, routing cell, channel components between power supply unit, row.Rack is arranged in column, and heat pipe between several row is arranged in each column rack;Routing cell is placed in rack, the top for heat pipe between power supply unit, row;Channel components include access door and several rotation skylights.The return side of heat pipe is adjacent with the air draft side of rack between row, and air-supply side is adjacent with the inlet side of rack.Rack is assembled into closing cold passage or the closing passage of heat with channel components in column.Cool down micromodule between row provided by the utility model, the cold presentation mode combined using heat pipe between row with airtight passage, can optimization airflow, on demand freeze, improve efficiency, solve the problems, such as hot localised points;Heat pipe uses freon class refrigeration working medium between row, anhydrous to enter computer room, safeguards system safe operation on the basis of energy-saving run using weight-driven;Modularization assemble designs, and rapid deployment, is easy to dilatation.
Description
Technical field
High heat radiation density machine room heat extraction field is the utility model is related to, micromodule is cooled down between more particularly to a kind of row.
Background technology
Equipment cabinet server integration density more and more higher in computer room, the caloric value of server is increasing, in order to ensure high dissipate
Heat density server in server room is operated under optimum environment temperature, and current high heat radiation density machine room heat extraction mode is also continuous
Development and change.
Current high heat radiation density machine room heat extraction mainly has following two ways:
One is precision air conditioner accurate air-feeding, the cold wind of precision air conditioner is directed directly to using air channel in which computer room room
Server cabinet, major advantage are to realize cold wind to be directed directly to server cabinet, equipment cabinet server air intake is in more satisfactory
Low-temperature condition under, shortcoming is that blower fan needs selection to overcome the big pressure head blower fan of duct resistance, therefore blower fan power consumption is larger,
It is larger that precision air conditioner power consumption is brought therewith;In addition, using which heat extraction, on the one hand because the cold in air channel distribute it is uneven,
Can not effectively solve the problems, such as computer room hot localised points, on the other hand because server in server room rack exhaust outlet is apart from precision air conditioner return air
It is mouthful far and near different, easily produce that remote rack air draft return air is smooth and the part that makes computer room local ambient temperature be higher than setting value
Hot issue.
The second is using frozen water type arrange between air conditioning form, be arranged in the centres of two racks, realization is freezed nearby.It is more smart
Close air-conditioning is compared, and air-conditioning transmission range is near between frozen water type row, without the big pressure head blower fan from power consumption greatly, also because close
Thermal source freezes, and solves the problems, such as hot localised points in computer room to a certain extent.And air-conditioning is effective between frozen water type row to ensure
Reach server cabinet air inlet, its return air effectively absorbs server cabinet high temperature air draft, passes through certain peripheral channel
Completely cut off, improve anthropogenic heat effect between row.But using air-conditioning between frozen water type row, computer room can be introduced the water into, is brought
Certain potential safety hazard.
Utility model content
For shortcoming and defect existing for prior art, micromodule is cooled down between row provided by the utility model, using between row
The cold presentation mode that heat pipe combines with airtight passage, being capable of optimization airflow, on demand refrigeration, raising efficiency, solution hot localised points
Problem;Heat pipe uses freon class refrigeration working medium between row, anhydrous to enter computer room on the basis of energy-saving run using weight-driven,
Safeguards system safe operation;Modularization assemble designs, and rapid deployment, is easy to dilatation.
Technical scheme is used by the utility model solves its technical problem:
Cool down micromodule between one kind row, including rack, for heat pipe, routing cell, channel components between power supply unit, row, its
It is characterised by:
The rack is arranged in column, and several racks are arranged in each column rack;
The row head position that each column rack is placed in for power supply unit;
Heat pipe between several described row is arranged in rack described in each column;
The routing cell is placed in the rack, the top for heat pipe between power supply unit, row;
The channel components include access door and several rotation skylights.
Preferably, the return side of heat pipe and the air draft side of the rack are adjacent between the row;The air-supply of heat pipe between the row
Side is adjacent with the inlet side of the rack.
Preferably, the channel components also include channel blind, the rack be arranged as it is single-row, single-row rack with it is described logical
Access door, channel blind and the rotation skylight of road component are assembled into closed channel.
Preferably, the rack is arranged as biserial, and arranged for interval forms passage between adjacent two row rack, and leads to described
Road parts assembling is into closed channel.
Preferably, the closed channel can be closing cold passage or the closing passage of heat.
Further, the closed channel is to close cold passage, and the return side of heat pipe absorbs outside cold passage between the row
After the high temperature air draft of the adjacent rack, the Cryogenic air after cooling is delivered in cold passage, cold air is entered by the rack again
Wind side is sucked, and the rack is discharged after server temperature rise and is sucked again by the return side of heat pipe between the row, so as to complete
Into air circulation.
Further, the closed channel is to close the passage of heat, and the return side of heat pipe absorbs in the passage of heat between the row
After the high temperature air draft of the adjacent rack, the Cryogenic air after cooling is delivered to outside the passage of heat, cold air is entered by the rack again
Wind side is sucked, and the rack is discharged after server temperature rise and is sucked again by the return side of heat pipe between the row, so as to complete
Into air circulation.
Preferably, the routing cell is section assembling structure.
Preferably, micromodule being cooled down between the row to design using modularization assemble, all constituents are prefabricated completion,
On-site consolidation, rapid deployment, it is easy to dilatation.
Preferably, between the row heat pipe using double path system design, two systems independent operating and be respectively separated access not
Same cooling system, so as to realize that refrigeration backups each other.
Preferably, between the row heat pipe according to the adjacent rack load variations speed governing operation, freeze on demand, energy-conservation fortune
OK.
Preferably, the refrigerant used between the row in heat pipe for R22, R134a, R407C, R410A, R32, R125 in extremely
Few one kind, it is anhydrous to enter computer room.
Preferably, micromodule is cooled down between the row and further comprises that illumination, fire protection sensor and extinguishing device, humiture pass
Sensor etc..
Preferably, micromodule is cooled down between the row also includes control system, and it is left that the control system is placed in the access door
On the confession power supply unit on side or right side.
Compared with the existing technology, micromodule is cooled down between row provided by the utility model, using heat pipe between row and airtight passage
The cold presentation mode of combination, can optimization airflow, on demand freeze, improve efficiency, solve the problems, such as hot localised points;Heat pipe is adopted between row
With freon class refrigeration working medium, using weight-driven, anhydrous to enter computer room on the basis of energy-saving run, safeguards system is transported safely
OK;Modularization assemble designs, and rapid deployment, is easy to dilatation.
Brief description of the drawings
Fig. 1 cools down the structural representation of micromodule between row of the present utility model.
Fig. 2 be cool down between row of the present utility model rack in micromodule, for heat pipe between power supply unit, row be dually arrayed,
Using structural representation during closing cold passage form.
Fig. 3 be cool down between row of the present utility model rack in micromodule, for heat pipe between power supply unit, row be dually arrayed,
Using structural representation during closing passage of heat form.
Embodiment
For the purpose of this utility model, technical scheme and advantage is more clearly understood, develop simultaneously implementation referring to the drawings
Example, the utility model is further described.
As shown in figure 1, cool down micromodule between row of the present utility model, including rack 1, for heat pipe 3 between power supply unit 2, row,
Routing cell 4, control system 5, channel components 6, wherein:Rack 1 is arranged in column, and several racks 1 are arranged in each column rack;For
Power supply unit 2 is placed in the row head position of each column rack 1;Heat pipe 3 is placed between rack 1 in column between row, if being arranged in each column rack 1
Heat pipe 3 between dry row;Routing cell 4 is placed in rack 1, the top for heat pipe 3 between power supply unit 2, row;Channel components 6 include more
Individual rotation skylight 6-2, access door 6-1;Control system 5 is placed on the confession power supply unit 2 on the left of access door 6-2 or right side;Between row
The return side of heat pipe 3 is adjacent with the air draft side of rack 1;The air-supply side of heat pipe 3 is adjacent with the inlet side of rack 1 between row;Machine in column
Cabinet 1, for heat pipe 3 between power supply unit 2, row be dually arrayed, and with rotation skylight 6-2, the access door 6-1 of channel components 6 assembly
Into closed channel;Routing cell 4 is section assembling structure;Heat pipe 3 is designed using double path system between row, two systems independent operating
And be respectively separated and access different cooling systems, so as to realize that refrigeration backups each other.
Fig. 2 be cool down between row of the present utility model rack in micromodule, for heat pipe between power supply unit, row be dually arrayed,
Using structural representation during closing cold passage form.Now, the return side of heat pipe 3 absorbs neighboring cabinet outside cold passage between row
After 1 high temperature air draft, the Cryogenic air after cooling is delivered in cold passage, cold air is sucked by the inlet side of rack 1 again, by clothes
It is engaged in discharging rack 1 and again by the return side suction of heat pipe between row 3 after device temperature rise, so as to complete air circulation;Air flow side
To as shown in arrow A directions in Fig. 2.
Fig. 3 be cool down between row of the present utility model rack in micromodule, for heat pipe between power supply unit, row be dually arrayed,
Using structural representation during closing passage of heat form.Now, the return side of heat pipe 3 absorbs neighboring cabinet in the passage of heat between row
After 1 high temperature air draft, the Cryogenic air after cooling is delivered to outside the passage of heat, cold air is sucked by the inlet side of rack 1 again, by clothes
It is engaged in discharging rack 1 and again by the return side suction of heat pipe between row 3 after device temperature rise, so as to complete air circulation;Air flow side
To as shown in arrow B directions in Fig. 3.
Preferred embodiment of the present utility model is the foregoing is only, it is all at this not to limit the utility model
Within the spirit and principle of utility model, any modification, equivalent substitution and improvements done etc., the utility model should be included in
Within the scope of protection.
Claims (10)
1. cool down micromodule between one kind row, including rack, for heat pipe, routing cell, channel components between power supply unit, row, it is special
Sign is:
The rack is arranged in column, and several racks are arranged in each column rack;
The row head position that each column rack is placed in for power supply unit;
Heat pipe between several described row is arranged in each column rack;
The routing cell is placed in the rack, the top for heat pipe between power supply unit, row;
The channel components include access door and several rotation skylights.
2. cool down micromodule between row according to claim 1, it is characterised in that:The return side of heat pipe and each institute between the row
The air draft side for stating rack is adjacent;The air-supply side of heat pipe is adjacent with the inlet side of each rack between the row.
3. cool down micromodule between row according to claim 1, it is characterised in that:The channel components, which also include passage, to be kept off
Plate, the rack are arranged as single-row, and access door, channel blind and the rotation skylight of single-row rack and the channel components are assembled into
Closed channel.
4. cool down micromodule between row according to claim 1, it is characterised in that:The rack is arranged as biserial, and adjacent two
Arranged for interval forms passage between row rack, and is assembled into closed channel with the channel components.
5. cool down micromodule between the row according to claim 3 or 4, it is characterised in that:The closed channel is cold logical to close
Road or the closing passage of heat.
6. cool down micromodule between the row according to claim 3 or 4, it is characterised in that:The closed channel is cold logical to close
Road, after the return side of heat pipe absorbs the high temperature air draft of neighboring cabinet outside cold passage between the row, by the Cryogenic air after cooling
Deliver in cold passage, cold air is sucked by rack inlet side again, rack is discharged after server temperature rise and again by the row
Between heat pipe return side suction.
7. cool down micromodule between the row according to claim 3 or 4, it is characterised in that:The closed channel is logical for closing heat
Road, after the return side of heat pipe absorbs the high temperature air draft of neighboring cabinet in the passage of heat between the row, by the Cryogenic air after cooling
Deliver to outside the passage of heat, cold air is sucked by rack inlet side again, rack is discharged after server temperature rise and again by the row
Between heat pipe return side suction.
8. cool down micromodule between row according to claim 1, it is characterised in that:The routing cell is section assembling knot
Structure.
9. cool down micromodule between row according to claim 1, it is characterised in that:Heat pipe uses double path system between the row,
Two systems independent operating and it is respectively separated and accesses different cooling system, so as to realizes that refrigeration backups each other.
10. cool down micromodule between row according to claim 1, it is characterised in that:Micromodule is cooled down between the row also to be included
Control system, the control system are placed on the confession power supply unit on the left of the access door or right side.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN201720867729.8U CN206932544U (en) | 2017-07-18 | 2017-07-18 | Micromodule is cooled down between one kind row |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN201720867729.8U CN206932544U (en) | 2017-07-18 | 2017-07-18 | Micromodule is cooled down between one kind row |
Publications (1)
Publication Number | Publication Date |
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CN206932544U true CN206932544U (en) | 2018-01-26 |
Family
ID=61355095
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
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CN201720867729.8U Active CN206932544U (en) | 2017-07-18 | 2017-07-18 | Micromodule is cooled down between one kind row |
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Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN111867317A (en) * | 2019-04-25 | 2020-10-30 | 维谛技术有限公司 | Data center and refrigeration method thereof |
CN112736738A (en) * | 2021-01-29 | 2021-04-30 | 国网河南省电力公司杞县供电公司 | Cold pond system for indoor power distribution cabinet group |
-
2017
- 2017-07-18 CN CN201720867729.8U patent/CN206932544U/en active Active
Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN111867317A (en) * | 2019-04-25 | 2020-10-30 | 维谛技术有限公司 | Data center and refrigeration method thereof |
CN112736738A (en) * | 2021-01-29 | 2021-04-30 | 国网河南省电力公司杞县供电公司 | Cold pond system for indoor power distribution cabinet group |
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