CN102880263A - Container type data centre radiating system - Google Patents
Container type data centre radiating system Download PDFInfo
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- CN102880263A CN102880263A CN2011101939865A CN201110193986A CN102880263A CN 102880263 A CN102880263 A CN 102880263A CN 2011101939865 A CN2011101939865 A CN 2011101939865A CN 201110193986 A CN201110193986 A CN 201110193986A CN 102880263 A CN102880263 A CN 102880263A
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Abstract
The invention provides a container type data centre radiating system which comprises a container type data centre, a first refrigerating device and a second refrigerating device, wherein the container type data centre comprises a container, a plurality of servers and at least one operation monitoring device; the container comprises a first area, and a second area isolated from the first area; the plurality of servers are arranged into the first area; the operation monitoring device is arranged into the second area and is used for monitoring the operation states of the plurality of servers; the first refrigerating device and the second refrigerating device are arranged outside the container and are used for providing cold air to the first area and the second area. According to the container type data centre radiating system provided by the invention, the server is arranged in the first area, a worker works in the second areas and monitors the operation state of the server through the operation monitoring device, thus, the temperature in the first area and the second area can be controlled so as to meet the requirement of the server and the worker to the environmental temperature.
Description
Technical field
The present invention relates to a kind of cooling system, particularly, relate to a kind of case type data center heat dissipation system.
Background technology
Case type data center a kind ofly is arranged in the counter a large amount of server centered to support the arithmetic system of complex calculation.Usually, except server, also be provided with the computing supervising device in the counter, monitored the compute mode of corresponding with service device by the staff by the computing supervising device.Existing case type data center is arranged on computing supervising device and server unification in the zone, and namely the staff is positioned at identical zone with server.Yet server is different from the staff to the requirement of ambient temperature to the temperature requirement of surrounding environment usually.For example, server need to be in the environment of a lower temperature usually, and the staff the next meeting of this low temperature environment do not feel like oneself should, so, same environment temperature can not the simultaneous adaptation server and the staff to the requirement of environment temperature.
Summary of the invention
In view of above content, be necessary to provide a kind of respectively adaptation server and staff the case type data center heat dissipation system to the requirement of environment temperature.
A kind of case type data center heat dissipation system comprises a case type data center, first refrigerating plant, second refrigerating plant.Described container data center comprises a counter, a plurality of server, reaches at least one computing supervising device.Described counter comprises a first area and a second area of isolating with the first area.Described a plurality of Servers installed is in described first area, and described at least one computing supervising device is arranged at the compute mode that is used for monitoring described a plurality of servers in the described second area.It is outer and be respectively applied to described first area and described second area provides cold air that described the first refrigerating plant and described the second refrigerating plant are arranged at described counter.
Compare prior art, the present invention is divided into described first area and second area with described counter, and described Servers installed is in described first area, and the staff is in the compute mode of monitoring described server in the second area by described computing supervising device.So, can control respectively the interior temperature of described first area and described second area to distinguish adaptation server and staff to the requirement of environment temperature.
Description of drawings
Fig. 1 is the schematic perspective view of the case type data center heat dissipation system of preferred embodiments of the present invention.
Fig. 2 is that case type data center heat dissipation system shown in Figure 1 is along the cross-sectional schematic of II-II line.
Fig. 3 is the schematic perspective view of the first guide duct of case type data center heat dissipation system shown in Figure 1.
Fig. 4 is the structured flowchart of the control center of case type data center heat dissipation system shown in Figure 1.
The main element symbol description
| The case type data center |
100 |
| Case |
10 |
| |
12 |
| The |
121 |
| The |
122 |
| |
123 |
| |
124 |
| Antetheca | 125 |
| Rear |
126 |
| The |
127 |
| |
128 |
| The |
20 |
| The |
21 |
| |
211 |
| |
2111 |
| |
2112 |
| The |
212 |
| The first |
213 |
| The |
22 |
| The |
221 |
| The second |
222 |
| The refrigerating plant group | 30 |
| The first refrigerating plant | 31 |
| The first ajutage | 311 |
| The first switchgear | 312 |
| The second refrigerating |
32 |
| The |
321 |
| The |
322 |
| The temperature- |
40 |
| The first temperature- |
41 |
| The second temperature- |
42 |
| The 3rd temperature- |
43 |
| The |
50 |
| |
501 |
| |
502 |
| |
503 |
| |
504 |
Following embodiment further specifies the present invention in connection with above-mentioned accompanying drawing.
Embodiment
See also Fig. 1 to Fig. 3, be the case type data center heat dissipation system 100 of the preferred embodiment for the present invention, comprise a case type data center 10, a guide duct group 20, a refrigerating plant group 30, a temperature-sensitive sticker group 40 and a radiating control center 50.
Described case type data center 10 comprises that a counter 12, a plurality of server 14 in the described counter 12 and at least one of being placed in are placed in computing supervising device 16 in the described counter 12.Described counter 12 is that hollow is rectangular-shaped, and it comprises that the relative bottom 122 in a top 121, and described top 121, two are connected in the sidewall 123 between described top 121 and the described bottom 122, dividing plate 124, an antetheca 125 and the rear wall 126 between described two sidewalls 123.Described dividing plate 124 and described two sidewalls 123 are parallel and described counter 12 is divided into the isolated second area 128 in a rectangular-shaped first area 127 and and described first area 127.Described a plurality of server 14 is placed in the described first area 127.Described computing supervising device 16 is placed in the described second area 128, described computing supervising device 16 is electrically connected with described server 14 and for state such as the compute mode of monitoring described server 14, duty etc., the staff observes the state of described server 14 by described computing supervising device 16.
Described guide duct group 20 comprises first guide duct 21 and second guide duct 22 identical with described the first guide duct 21 structures.Described the first guide duct 21 is the tetrapyamid shape of hollow form, its by four successively adjacent tabular side plate 211 head and the tail be formed by connecting.One of them side plate 211 offers one and is roughly trapezoidal air outlet 2111, is provided with a plurality of guide vanes that are parallel to each other 2112 in the described air outlet 2111.211 one-tenth angle settings of side plate at each guide vane 2112 and described air outlet 2111 places.Described the first guide duct 21 comprises first front end 212 and first rear end 213, and described the first guide duct 21 is formed to described the first rear end 213 convergents by described the first front end 212.Described the second guide duct 22 comprises second front end 221 and second rear end 222.Described the first guide duct 21 and described the second guide duct 22 are in described antetheca 125 stretches to respectively described first area 127 and second area 128, described the first front end 212 and the second front end 221 lay respectively at described counter 12 outside and close described antethecas 125, and described the first rear end 213 and the second rear end 222 are fixedly installed to the inside surface of described rear wall 126.
It is outside and near described antethecas 125 and for generation of cold air that described refrigerating plant group 30 is arranged at described counter 12.Described refrigerating plant group 30 comprises first refrigerating plant 31 and second refrigerating plant 32, and described the first refrigerating plant 31 comprises first ajutage 311, and described the second refrigerating plant comprises second ajutage 321.Described the first ajutage 311 and described the second ajutage 321 are respectively applied to sealing and are docked to described the first front end 212 and described the second front end 221.In the present embodiment, be provided with first switchgear 312 between described the first ajutage 311 and described the first front end 212, be provided with a second switch device 322 between described the second ajutage 321 and described the second front end 221.Described the first switchgear 312 and described second switch device 322 are respectively applied to control described the first ajutage 311 to whether being docked to described the first front end 212 and whether described the second ajutage 321 is docked to described the second front end 221.In the present embodiment, described the first switchgear 312 and described second switch device 322 are for electromagnetic relay and be electrically connected to respectively described radiating control center 50, when described the first switchgear 312 and 322 unlatching of described second switch device, described the first ajutage 311 and described the second guide duct will be docked to respectively described the first front end 212 and described the second front end 221; On the contrary, when described the first switchgear 312 and described second switch device 322 are closed, described the first ajutage 311 and described the second guide duct will separate with described the first front end 212 and described the second front end 221 respectively.
Described temperature-sensitive sticker group 40 comprises first temperature-sensitive sticker 41, second temperature-sensitive sticker 42 and the 3rd temperature-sensitive sticker 43.Described the first temperature-sensitive sticker 41 and described the second temperature-sensitive sticker 42 all are installed on the inside surface of described rear wall 126 and are electrically connected to described radiating control center 50.The temperature that described the first temperature-sensitive sticker 41 is positioned at described first area 127 and is used for the described first area 127 of sensing is to obtain the first temperature value, and described the second temperature-sensitive sticker 42 is positioned at described second area 128 and also is used for the temperature of the described second area 128 of sensing to obtain the second temperature value.Described the 3rd temperature-sensitive sticker 43 is arranged at the outside of described counter 12 and is electrically connected to described radiating control center 50.Described the 3rd temperature-sensitive sticker 43 is used for the temperature of the described counter of sensing 12 outsides to obtain the external temperature value.
Please consult simultaneously Fig. 1 and Fig. 4, described radiating control center 50 is arranged at the outside of described counter 12.Described radiating control center 50 comprises a memory module 501, a data acquisition module 502, a comparison module 503 and a control module 504.Described memory module 501 stores the first temperature threshold and the second temperature threshold.Described data acquisition module 502 is used for gathering described the first temperature value, the second temperature value and external temperature value.Described comparison module 503 be used for more described the first temperature value whether greater than described the first temperature threshold, described external temperature value whether greater than described the first temperature threshold and more described the second temperature value whether greater than described the second temperature threshold, described external temperature value whether greater than described the second temperature threshold.Described control module 504 is used for controlling whether described the first refrigerating plant 31 and described the second refrigerating plant 32 open to produce cold air and described the first switchgear 312, whether second switch device 322 is opened.
During use, described data acquisition module 502 gathers respectively described the first temperature value, the second temperature value and external temperature value.At first, described comparison module 503 more described the first temperature values whether greater than described the first temperature threshold, described external temperature value whether greater than described the first temperature threshold.When described the first temperature value and described external temperature value during all greater than described the first temperature threshold, for example, the first temperature value, external temperature value and the first temperature threshold are respectively 26 degrees centigrade, 25 degrees centigrade and 22 degrees centigrade.Described control module 504 described the first refrigerating plants 31 of control and described the first switchgear 312 are opened, described the first ajutage 311 will be docked to described the first front end 212, described the first refrigerating plant 31 is sent into described first area 127 with the cold air that produces through described the first ajutage 311 and described the first guide duct 21, so that the drop in temperature in the described first area 127 is to described the first temperature thresholding.When described the first temperature value greater than described the first temperature threshold, described external temperature value is during less than described the first temperature threshold, for example, the first temperature value, external temperature value and the first temperature threshold are respectively 26 degrees centigrade, 20 degrees centigrade and 22 degrees centigrade, described control module 504 described the first refrigerating plants 31 of control and described the first switchgear 312 are closed, described the first ajutage 311 separates with described the first front end 212, described the first guide duct 21 is communicated with the outside of described counter 12, and with described first area 127 carry out heat interchange so that described first area 127 reach to the purpose of heat radiation by extraneous this moment.
Same, when described the second temperature value and described external temperature value during greater than described the second temperature threshold, for example, the second temperature value, external temperature value and the second temperature threshold are respectively 28 degrees centigrade, 30 degrees centigrade and 26 degrees centigrade.Described the second refrigerating plant 32 of described control module 504 controls is opened and is controlled described second switch device 322 and opens, described the second ajutage will be docked to described the second front end 221, the cold air that described the second refrigerating plant 32 produces is sent in the described second area 128 through described the second ajutage 321 and described the second guide duct 22, so that the drop in temperature of described second area 128 is to described the second temperature thresholding.When described the second temperature value greater than described the first temperature threshold, described external temperature value is during less than described the second temperature threshold, for example, the first temperature value, external temperature value and the first temperature threshold are respectively 28 degrees centigrade, 24 degrees centigrade and 26 degrees centigrade, described control module 504 will be controlled described the second refrigerating plant 32 and described second switch device 322 is closed, described the second ajutage 321 separates with described the second front end 221, described the second guide duct 22 is communicated with the outside of described counter 12, and with described second area 128 carry out heat interchange so that described second area 128 reach to the purpose of heat radiation by extraneous this moment.
Above-mentioned the first temperature threshold and described the second temperature thresholding refer in the described first area 127 and described second area 128 interior predetermined desirable environment temperatures, common the first temperature threshold is lower than described the second temperature thresholding.The present invention is according to the described first area 127 at described server 14 places and the temperature requirement difference of 128 pairs of environment of the described second area of staff, regulate temperature in described first area 127 and the described second area 128 according to described the first temperature value, the second temperature value and external temperature value, not only can satisfy respectively described server and staff to the different requirements of temperature, can also save electric energy.
Be understandable that, described the first guide duct 21 is tetrapyamid shape, the air-flow that flows into institute's the first guide duct 21 is during from described air outlet 2111 outflow, can make from described the first front end 212 more even to the air-flow velocity of described the first rear end 213, described the first guide duct 21 also can be other shape to described the first rear end 213 convergents, for example coniform or circular cone shape from described the first front end 212.
Be understandable that, for the person of ordinary skill of the art, can make other various corresponding changes and distortion by technical conceive according to the present invention, and all these change the protection domain that all should belong to claim of the present invention with distortion.
Claims (11)
1. a case type data center heat dissipation system comprises a case type data center, first refrigerating plant, second refrigerating plant; Described container data center comprises a counter, a plurality of server, reaches at least one computing supervising device; Described counter comprises a first area and a second area of isolating with the first area; Described a plurality of Servers installed is in described first area, and described at least one computing supervising device is arranged at the compute mode that is used for monitoring described a plurality of servers in the described second area; It is outer and be respectively applied to described first area and described second area provides cold air that described the first refrigerating plant and described the second refrigerating plant are arranged at described counter.
2. case type data center heat dissipation system as claimed in claim 1 is characterized in that: described case type data center heat dissipation system comprises also that first temperature-sensitive sticker, second temperature-sensitive sticker and the 3rd temperature-sensitive sticker are respectively applied in the described first area of sensing, in the described second area and the outer temperature of described counter to obtain respectively the first temperature value, the second temperature value and external temperature value.
3. case type data center heat dissipation system as claimed in claim 2, it is characterized in that: described case type data center heat dissipation system also comprise one with described the first refrigerating plant, the second refrigerating plant, described the first temperature-sensitive sticker, second temperature-sensitive sticker and the radiating control center that the 3rd temperature-sensitive sticker is electrically connected, described radiating control center comprises a memory module, a data acquisition module and a control module; Described memory module stores the first temperature threshold and the second temperature threshold; Described data acquisition module is used for gathering described the first temperature value, the second temperature value and external temperature value; Described comparison module be used for more described the first temperature value whether greater than described the first temperature threshold, described external temperature value whether greater than described the first temperature threshold, when described the first temperature value and described external temperature value during greater than described the first temperature threshold, described control module is controlled described the first refrigerating plant and is opened and produce cold air and be fed through in the described first area.
4. case type data center heat dissipation system as claimed in claim 3, it is characterized in that: hollow tetrapyamid shape first guide duct is installed in the described first area, described the first guide duct by four successively adjacent tabular side plate be formed by connecting from beginning to end, one of them side plate offers a trapezoidal air outlet, be provided with a plurality of guide vanes that are parallel to each other in the described air outlet, each guide vane becomes the angle setting with the side plate at described air outlet place, described the first guide duct comprises first front end and first rear end, described the first guide duct is formed to described the first rear end convergent by described the first front end, described the first refrigerating plant comprises first ajutage, and described the first ajutage is docked to described the first front end.
5. case type data center heat dissipation system as claimed in claim 4, it is characterized in that: when described the first temperature value greater than described the first temperature threshold, described external temperature value during less than described the first temperature threshold, described control module is controlled described the first refrigerating plant and is closed, described the first ajutage separates with described the first front end, and described the first guide duct is communicated with the outside of described counter.
6. case type data center heat dissipation system as claimed in claim 4, it is characterized in that: also be provided with first switchgear that is electrically connected with described radiating control center between described the first ajutage and described the first front end, described radiating control center control described the first switchgear open or close so that described the first ajutage with described the first front end docking or separate.
7. case type data center heat dissipation system as claimed in claim 6, it is characterized in that: described the first switchgear is electromagnetic relay.
8. case type data center heat dissipation system as claimed in claim 4, it is characterized in that: second guide duct identical with described the first guide duct structure is installed in the described first area, and described the second guide duct comprises second front end and second rear end; Described comparison module also be used for more described the second temperature value whether greater than described the second temperature threshold, described external temperature value whether greater than described the second temperature threshold, when described the second temperature value and described external temperature value during greater than described the second temperature threshold, described control module is controlled described the second refrigerating plant and is opened and produce cold air and be fed through in the described second area.
9. case type data center heat dissipation system as claimed in claim 8, it is characterized in that: when described the second temperature value greater than described the second temperature threshold, described external temperature value during less than described the second temperature threshold, described control module is controlled described the second refrigerating plant and is closed, described the second ajutage separates with described the second front end, and described the second guide duct is communicated with the outside of described counter.
10. case type data center heat dissipation system as claimed in claim 4, it is characterized in that: also be provided with a second switch device that is electrically connected with described radiating control center between described the second ajutage and described the second front end, described radiating control center control described second switch device open or close so that described the second ajutage with described the second front end docking or separate.
11. case type data center heat dissipation system as claimed in claim 10 is characterized in that: described second switch device is electromagnetic relay.
Priority Applications (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| CN2011101939865A CN102880263A (en) | 2011-07-12 | 2011-07-12 | Container type data centre radiating system |
Applications Claiming Priority (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| CN2011101939865A CN102880263A (en) | 2011-07-12 | 2011-07-12 | Container type data centre radiating system |
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| Publication Number | Publication Date |
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| CN102880263A true CN102880263A (en) | 2013-01-16 |
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| Application Number | Title | Priority Date | Filing Date |
|---|---|---|---|
| CN2011101939865A Pending CN102880263A (en) | 2011-07-12 | 2011-07-12 | Container type data centre radiating system |
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Cited By (1)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| CN108934149A (en) * | 2018-01-31 | 2018-12-04 | 绵阳鼎飞益电子科技有限公司 | A kind of interchanger cooling system for built-in firewall |
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Application publication date: 20130116 |