CN207040131U - A kind of cold and hot passage micromodule - Google Patents
A kind of cold and hot passage micromodule Download PDFInfo
- Publication number
- CN207040131U CN207040131U CN201720971040.XU CN201720971040U CN207040131U CN 207040131 U CN207040131 U CN 207040131U CN 201720971040 U CN201720971040 U CN 201720971040U CN 207040131 U CN207040131 U CN 207040131U
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- modularization
- passage
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- cabinet
- hot
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Abstract
The utility model provides a kind of cold and hot passage micromodule, including modularization cabinet, modularization channel components, modularization overhead heat pipe.Modularization cabinet is placed in column, and air intake is relative between modularization cabinet in column, air draft is relative, forms hot and cold channel spacing arrangement;Modularization channel components include cold and hot access door, section material framework, channel blind and rotation skylight, and the closing and isolation of cold and hot passage can be achieved;Modularization overhead heat pipe is placed at the top of section material framework.The utility model uses integrated modular design concept, integrated flexible, rapid deployment, is easy to dilatation, is managerial strong;The cold presentation mode combined using modularization overhead heat pipe with cold and hot passage, can optimization airflow, on demand freeze, improve efficiency, solve the problems, such as hot localised points;Modularization overhead heat pipe is placed at the top of closing cold passage, is not take up computer room floor space, is improved computer room installation rate.
Description
Technical field
High heat radiation density machine room heat extraction field is the utility model is related to, more particularly to a kind of cold and hot passage micromodule.
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, the utility model uses integrated modular design concept,
Integrated flexible, rapid deployment, it is easy to dilatation, is managerial strong;Carried using modularization overhead heat pipe with the cold that cold and hot passage is combined
Supplier's formula, can optimization airflow, on demand freeze, improve efficiency, solve the problems, such as hot localised points;Overhead heat pipe uses freon class system
Cold working medium, it is anhydrous to enter computer room, safeguards system safe operation on the basis of energy-saving run using weight-driven;Modularization overhead
Heat pipe is placed at the top of closing cold passage, is not take up computer room floor space, is improved computer room installation rate.
The utility model is that technical scheme is used by solving its technical problem:
A kind of cold and hot passage micromodule, including modularization cabinet, modularization channel components, modularization overhead heat pipe, it is special
Sign is:
The modularization cabinet is placed in column, and several modularization cabinets are arranged in each column rack;
The side of each column modularization cabinet is inlet side, and opposite side is air draft side;
Arranged for interval between each row modularization cabinet, the inlet side between adjacent two row modularization cabinet is positioned opposite or row
Wind side is positioned opposite, forms cold passage between the two row modularization cabinets positioned opposite of inlet side, air draft side it is positioned opposite two
The passage of heat is formed between row modularization cabinet;
The modularization channel components include access door, section material framework, channel blind and rotation skylight;
The both ends of the cold passage and the passage of heat set the access door respectively;
Section material framework described in the top layout of the cold passage or the passage of heat, mould described in the top layout of the section material framework
Block overhead heat pipe;
The channel blind is to realize the closing and isolation of the cold passage or the passage of heat, so as to form closing cold passage
Or the closing passage of heat;The rotation skylight is placed in the closing cold passage or closes the top of the passage of heat.
Preferably, the cold and hot passage micromodule also supplies power supply unit including modularization, and the modularization supplies power supply unit
It is placed in modularization cabinet row head position in column and adjacent two row modularization cabinet shares a set of modularization and supplies power supply unit.
Preferably, the cold and hot passage micromodule also includes Modular wiring unit, and the Modular wiring unit is placed in
At the top of modularization cabinet.
Preferably, the cold and hot passage micromodule is integral frame structure;The modularization is for power supply unit, modularization machine
Cabinet is assembled section bar, and section bar top, bottom along the modularization for power supply unit, modularization cabinet width, cloth
Provided with illuminating lamp band.
Preferably, the hot and cold channel spacing arrangement and close during hot and cold passage difference.
Further, when to close cold passage, the modularization overhead heat pipe is placed in frame of section bar described in closing cold passage
Top of the trellis, now, after the modularization overhead heat pipe absorbs the modularization cabinet high temperature air draft in the unclosed passage of heat,
Cryogenic air after cooling is delivered in closing cold passage, cold air is drawn through by modularization cabinet front portion inlet side again
The modularization overhead heat pipe wind side is back to again after server temperature rise by the top of the modularization cabinet and rear portion to suck;
Or,
When to close the passage of heat, the modularization overhead heat pipe is placed in described in the closing passage of heat at the top of section material framework, this
When, will be low after cooling after the modularization overhead heat pipe absorbs the modularization cabinet high temperature air draft in the closing passage of heat
Warm air is delivered in unclosed cold passage, and cold air is drawn through server temperature rise by modularization cabinet front portion inlet side again
The modularization overhead heat pipe wind side is back to again by the top of the modularization cabinet and rear portion afterwards to suck.
Preferably, the modularization cabinet have grounding copper bar, can in the range of cabinet depth freely regulated installation column,
Without front door, back door, top plate, bottom plate;Rack room is without side plate in column;Side rack there is side plate;The grounding copper bar is realized with ground
Ground connection.
Preferably, built-in level meter in the modularization cabinet so that can be while observing when adjusting the level of rack
Level meter is while make adjustment, accurate, rapid deployment directly perceived.
Preferably, the blower fan of the modularization overhead heat pipe can automatic speed regulation operation, interior can be automatically adjusted as requested
Temperature.
Preferably, modular environment administrative unit and integrated fire control device, the modular environment are further comprised
Administrative unit is detectable, monitors environment situation and takes control measures, and when there is smoke alarm, the rotation skylight is beaten automatically
Open, fire fighting gas is put out a fire into passage.
Preferably, the refrigerant used in the overhead heat pipe for R22, R134a, R407C, R410A, R32, R125 in extremely
Few one kind, it is anhydrous to enter computer room, safeguards system safe operation on the basis of energy-saving run using weight-driven.
The utility model uses integrated modular design concept, integrated flexible, rapid deployment, is easy to dilatation, pipe
Rationality is strong;The cold presentation mode combined using modularization overhead heat pipe with cold and hot passage, can optimization airflow, on demand refrigeration,
Improve efficiency, solve the problems, such as hot localised points;Overhead heat pipe uses freon class refrigeration working medium, using weight-driven, is transported in energy-conservation
It is anhydrous to enter computer room, safeguards system safe operation on the basis of row;Modularization overhead heat pipe is placed at the top of closing cold passage, is not accounted for
With computer room floor space, computer room installation rate is improved.
Brief description of the drawings
Fig. 1 is the structural representation of cold and hot passage micromodule of the present utility model.
Fig. 2 is cold and hot passage micromodule of the present utility model using structural representation during closing cold passage form.
Fig. 3 is cold and hot passage micromodule of the present utility model 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, cold and hot passage micromodule of the present utility model, including modularization cabinet 1, modularization supply power supply unit
2nd, modularization channel components 3, modularization overhead heat pipe 4, Modular wiring unit 5, modular environment administrative unit 6, wherein:Mould
Block rack 1 is placed in column, several modularization cabinets 1 is arranged in each column rack, the side of each column modularization cabinet 1 is air intake
Side, opposite side are air draft side;Arranged for interval between each row modularization cabinet 1, the inlet side between adjacent two row modularization cabinet
Positioned opposite or air draft side is positioned opposite, and cold passage, air draft side are formed between the two row modularization cabinets positioned opposite of inlet side
The passage of heat is formed between two row modularization cabinets positioned opposite;Modularization is placed in the row head of modularization cabinet 1 for power supply unit 2
Position and two row modularization cabinets 1 share a set of modularization and supply power supply unit 2;Modularization channel components 3 include cold and hot access door
3-1, section material framework 3-2, channel blind 3-3 and several rotation skylights 3-4;The both ends of cold passage and the passage of heat set logical respectively
The top layout section material framework 3-2 of sect 3-1, cold passage or the passage of heat, several modularization overhead heat pipes 4 are placed in section material framework
At the top of 3-2, channel blind 3-3 is to realize the closing of hot and cold passage and isolation, so as to form closing cold passage 7 or closing heat
Passage 8, rotation skylight 3-4 are placed in closing cold passage or close the top of the passage of heat.
Cold and hot passage micromodule of the present utility model is integral frame structure;The modularization is for power supply unit, modularization
Rack is assembled section bar, and section bar top, bottom along the modularization for power supply unit, modularization cabinet width,
It is laid with illuminating lamp band.
Modularization cabinet 1 be provided with grounding copper bar, can in the range of cabinet depth freely regulated installation column, no front door,
Back door, top plate, bottom plate;Rack room is without side plate in column;Side rack there is side plate;The grounding copper bar is grounded with ground.Institute
State built-in level meter in modularization cabinet 1 so that can observe level meter while making tune when adjusting the level of rack
It is whole, accurate, rapid deployment directly perceived.
Modular environment administrative unit 6 is detectable, monitors environment situation and takes control measures;When there is smoke alarm,
The rotation skylight for being placed in the closing cold passage or closing at the top of the passage of heat automatically opens up, and fire fighting gas enters the closing
Cold passage or closing passage of heat fire extinguishing.
The refrigerant used in modularization overhead heat pipe 4 is at least one in R22, R134a, R407C, R410A, R32, R125
Kind, it is anhydrous to enter computer room, safeguards system safe operation on the basis of energy-saving run using weight-driven.
Fig. 2 is cold and hot passage micromodule of the present utility model using structural representation during closing cold passage form.Now,
Modularization overhead heat pipe 4 is placed at the top of closing cold passage 7 section material framework 3-2;Cold and hot access door 3-1 is remained turned-off;Modularization top
After putting the high temperature air draft of modularization cabinet 1 that heat pipe 4 is absorbed in the unclosed passage of heat, the Cryogenic air after cooling is delivered into closing
In cold passage 7, cold air is drawn through after server temperature rise by modularization cabinet 1 by 1 anterior inlet side of modularization cabinet again
Top and rear portion are back to the suction of the wind side of modularization overhead heat pipe 4 again, so as to complete air circulation;Air-flow direction such as Fig. 2
Shown in middle arrow A directions.
Fig. 3 is cold and hot passage micromodule of the present utility model using structural representation during closing passage of heat form.Now,
Modularization overhead heat pipe 4 is placed at the top of the closing passage of heat 8 section material framework 3-2;Cold and hot access door 3-1 is remained turned-off;Modularization top
After putting the high temperature air draft of modularization cabinet 1 that heat pipe 4 is absorbed in the closing passage of heat 8, the Cryogenic air after cooling is delivered to unclosed
In cold passage, cold air is drawn through after server temperature rise by 1 anterior inlet side of modularization cabinet is pushed up by modularization cabinet 1 again
Portion and rear portion are back to the suction of the wind side of modularization overhead heat pipe 4 again, so as to complete air circulation;In air-flow direction such as Fig. 3
Shown in arrow B directions.
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. a kind of cold and hot passage micromodule, including modularization cabinet, modularization channel components, modularization overhead heat pipe, its feature
It is:
The modularization cabinet is placed in column, and several modularization cabinets are arranged in each column rack;
The side of each column modularization cabinet is inlet side, and opposite side is air draft side;
Arranged for interval between each row modularization cabinet, the inlet side between adjacent two row modularization cabinet is positioned opposite or air draft side
It is positioned opposite, cold passage, air draft side two row moulds positioned opposite are formed between the two row modularization cabinets positioned opposite of inlet side
The passage of heat is formed between block rack;
The modularization channel components include access door, section material framework, channel blind and rotation skylight;
The both ends of the cold passage and the passage of heat set the access door respectively;
Section material framework described in the top layout of the cold passage or the passage of heat, modularization described in the top layout of the section material framework
Overhead heat pipe;
The channel blind is to realize the closing and isolation of the cold passage or the passage of heat, so as to form closing cold passage or envelope
Close the passage of heat;The rotation skylight is placed in the closing cold passage or closes the top of the passage of heat.
2. cold and hot passage micromodule according to claim 1, it is characterised in that:The cold and hot passage micromodule also includes mould
Blockization supplies power supply unit, and the modularization is placed in modularization cabinet row head position in column and adjacent two row modularization for power supply unit
Rack shares a set of modularization and supplies power supply unit.
3. cold and hot passage micromodule according to claim 1, it is characterised in that:The cold and hot passage micromodule also includes mould
Block routing cell, the Modular wiring unit are placed at the top of modularization cabinet.
4. cold and hot passage micromodule according to claim 2, it is characterised in that:The cold and hot passage micromodule is overall frame
Frame structure;The modularization is assembled section bar for power supply unit, modularization cabinet, and along the modularization for power supply unit,
Section bar top, the bottom of modularization cabinet width, are laid with illuminating lamp band.
5. cold and hot passage micromodule according to claim 1, it is characterised in that:The cold passage, passage of heat arranged for interval
And the two it is different when close.
6. cold and hot passage micromodule according to claim 5, it is characterised in that:
The cold passage is closing cold passage, section material framework described in the cold passage top layout, the modularization overhead heat pipe
It is placed at the top of the section material framework, the modularization cabinet that the modularization overhead heat pipe is absorbed in the unclosed passage of heat is high
After warm air draft, the Cryogenic air after cooling is delivered in closing cold passage, cold air is again by modularization cabinet front portion air intake
Side is drawn through after server temperature rise and is back to the modularization overhead heat pipe again by the top of the modularization cabinet and rear portion
Wind side sucks;
Or,
The passage of heat is the closing passage of heat, section material framework described in the passage of heat top layout, the modularization overhead heat pipe
It is placed at the top of the section material framework, the modularization overhead heat pipe absorbs the modularization cabinet high temperature row in the closing passage of heat
After wind, the Cryogenic air after cooling is delivered in unclosed cold passage, cold air is again by modularization cabinet front portion inlet side
It is drawn through after server temperature rise and the modularization overhead heat pipe wind is back to by the top of the modularization cabinet and rear portion again
Side sucks.
7. cold and hot passage micromodule according to claim 1, it is characterised in that:The modularization cabinet is provided with grounding copper
Row, can in the range of cabinet depth freely regulated installation column, no front door, back door, top plate, bottom plate;Rack room is without side in column
Plate;Side rack there is side plate;The grounding copper bar is grounded with ground.
8. cold and hot passage micromodule according to claim 1, it is characterised in that:Built-in level in the modularization cabinet
Instrument so that level meter can be observed while making adjustment when adjusting the level of rack, accurate, rapid deployment directly perceived.
9. cold and hot passage micromodule according to claim 1, it is characterised in that:The blower fan of the modularization overhead heat pipe can
Automatic speed regulation is run, and can automatically adjust indoor temperature as requested.
10. cold and hot passage micromodule according to claim 1, it is characterised in that:Described cold and hot passage micromodule also wraps
Modular environment administrative unit and integrated fire control device are included, the modular environment administrative unit is detectable, monitors environment
Situation simultaneously takes control measures;When there is smoke alarm, the rotation closed at the top of cold passage or the closing passage of heat is placed in
Turn skylight to automatically open up, fire fighting gas enters the closing cold passage or closing passage of heat fire extinguishing.
Priority Applications (1)
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CN201720971040.XU CN207040131U (en) | 2017-08-05 | 2017-08-05 | A kind of cold and hot passage micromodule |
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CN201720971040.XU CN207040131U (en) | 2017-08-05 | 2017-08-05 | A kind of cold and hot passage micromodule |
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Cited By (4)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN109890181A (en) * | 2019-03-21 | 2019-06-14 | 南京佳力图机房环境技术股份有限公司 | A kind of overhead type refrigeration system of micromodule data center |
CN112040715A (en) * | 2020-07-17 | 2020-12-04 | 苏州浪潮智能科技有限公司 | High-reliability channel shared data center and implementation method |
CN110145137B (en) * | 2019-05-05 | 2021-07-06 | 深圳供电局有限公司 | Integrated micro-module machine room with low power consumption and high cooling efficiency |
CN117651403A (en) * | 2023-12-15 | 2024-03-05 | 中通服节能技术服务有限公司 | Modular connection and expansion data center hot channel |
-
2017
- 2017-08-05 CN CN201720971040.XU patent/CN207040131U/en not_active Expired - Fee Related
Cited By (5)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN109890181A (en) * | 2019-03-21 | 2019-06-14 | 南京佳力图机房环境技术股份有限公司 | A kind of overhead type refrigeration system of micromodule data center |
CN110145137B (en) * | 2019-05-05 | 2021-07-06 | 深圳供电局有限公司 | Integrated micro-module machine room with low power consumption and high cooling efficiency |
CN112040715A (en) * | 2020-07-17 | 2020-12-04 | 苏州浪潮智能科技有限公司 | High-reliability channel shared data center and implementation method |
CN112040715B (en) * | 2020-07-17 | 2022-05-31 | 苏州浪潮智能科技有限公司 | High-reliability channel shared data center and implementation method |
CN117651403A (en) * | 2023-12-15 | 2024-03-05 | 中通服节能技术服务有限公司 | Modular connection and expansion data center hot channel |
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Legal Events
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GR01 | Patent grant | ||
GR01 | Patent grant | ||
CF01 | Termination of patent right due to non-payment of annual fee | ||
CF01 | Termination of patent right due to non-payment of annual fee |
Granted publication date: 20180223 |