CN202406447U - Heat dissipation system of container data center - Google Patents
Heat dissipation system of container data center Download PDFInfo
- Publication number
- CN202406447U CN202406447U CN2011204632286U CN201120463228U CN202406447U CN 202406447 U CN202406447 U CN 202406447U CN 2011204632286 U CN2011204632286 U CN 2011204632286U CN 201120463228 U CN201120463228 U CN 201120463228U CN 202406447 U CN202406447 U CN 202406447U
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- data
- temperature information
- cooling system
- server master
- master board
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Abstract
The present utility model provides a heat dissipation system of a container data center. The system comprises at least one fan, at least one temperature sensor, a server mainboard and a fan control plate, the fan is connected with the fan control plate, the temperature sensor is connected with the server mainboard and used for collecting temperature information of the server mainboard; the server mainboard is connected with the fan control plate in a wireless communication way and used for receiving the temperature information collected by the temperature sensor, processing the temperature information, converting the temperature information into wireless signals and emitting the wireless signals, and the fan control plate is used for obtaining the temperature information through wireless communication, and correspondingly controlling the rotation of the fan according to the temperature information. In the heat dissipation system of the container data center, the operation of arranging a corresponding data line and a corresponding interface is not necessary, the connecting method is simple, and operation costs can be effectively reduced.
Description
Technical field
The utility model relates to a kind of container data center cooling system.
Background technology
(container data center CDC) can move because of having, stronger data-handling capacity and higher advantages such as commercial value be widely used flexibly at the container data center.Existing application in the cooling system of CDC generally comprise a plurality of fans, fan control board (fan control board, FCB), server master board and a plurality of temperature-sensitive sticker.Wherein, this temperature-sensitive sticker is used to gather the temperature information of said server master board, and the temperature information that collects is sent to server master board.This server master board is sent to FCB with the temperature information that receives again.This FCB links to each other with this server master board, in order to controlling the rotating speed of these fans respectively according to this temperature information, and then this CDC is dispelled the heat.
Yet, possess hot plug (hot swap) function in order to make this server master board, main between existing server master board and the FCB through wired connection, promptly adopt the mode of data wire and interface to connect.Corresponding IPMI (intelligent platform management interface for example is set respectively on this server master board and FCB; IPMI) or the RJ45 interface; Utilize again corresponding Intelligent Platform Management Bus (intelligent platform management bus, IPMB) or netting twine connect respectively.Obviously, above-mentioned connected mode has big limitation (for example circuit connects inconvenience), and makes the entire heat dissipation system configuration complicated, and is unfavorable for the reduction of operation cost.
The utility model content
In view of foregoing, be necessary to provide a kind of simple in structure, container data center cooling system that operation cost is lower.
A kind of container data center cooling system; Comprise at least one fan, at least one temperature sensor, server master board and fan control board; Said at least one fan links to each other with said fan control board; Said at least one temperature sensor links to each other with this server master board, in order to gather the temperature information of this server master board; This server master board and this fan control board are set up radio communication; Said server master board is in order to receive the temperature information that this temperature sensor collects; And this temperature information handled; Go out to convert wireless signal transmission into, said fan control board obtains this temperature information through radio communication, and according to the running of the said at least one fan of the corresponding control of this temperature information.
Preferably, said server master board comprises baseboard management controller, and said substrate tube controller links to each other with said at least one temperature sensor, in order to obtaining the temperature information that this temperature sensor collects, and this temperature information is handled.
Preferably, said server master board comprises data source, and this data source links to each other with this baseboard management controller, handles temperature information afterwards in order to receive, and this temperature information is launched.
Preferably, said fan control board comprises data sink, and this data sink and this data source are set up radio communication, in order to obtain this temperature information through radio communication.
Preferably, said fan control board comprises processor, and said processor links to each other with this data sink, in order to receiving temperature information from this data sink, and according to the operation of the said at least one fan of the corresponding control of this temperature information.
Preferably, said data source is the Bluetooth transmission module, and said data sink is the bluetooth receiver module, and said data source and this data sink are set up radio communication through Bluetooth technology.
Preferably, said data source is an infrared data tissue emission module, and this data sink is that infrared data is organized receiver module, and this data source and data sink carry out radio communication through infrared technology.
Preferably, said data source is a RFID tag, and said data sink is the radio frequency identification card reader, and this data source and data sink carry out radio communication through REID.
Preferably, said temperature sensor is arranged on the air outlet or the air intake vent of this server master board.
Preferably, said temperature sensor is arranged on this server master board.
Server master board and fan control board in the cooling system of above-mentioned container data center can be set up radio communication through Bluetooth technology, infrared technology or REID; Do not need to be provided with again corresponding data wire and interface; Connected mode is simpler; And in the hot plug function of back-level server mainboard, can effectively reduce the operation cost of this container data center cooling system.
Description of drawings
Fig. 1 is the functional block diagram of the container data center cooling system of the utility model first preferred embodiments.
Fig. 2 is the functional block diagram of the container data center cooling system of the utility model second preferred embodiments.
Fig. 3 is the functional block diagram of the container data center cooling system of the utility model the 3rd preferred embodiments.
The main element symbol description
The CDC |
100、200、300 |
|
11 |
|
12 |
|
13、23、33 |
FCB | 14、24、34 |
BMC | 131 |
The Bluetooth |
132 |
The |
141 |
The irDA |
232 |
The irDA |
241 |
The |
332 |
The |
341 |
|
142 |
Following embodiment will combine above-mentioned accompanying drawing to further specify the utility model.
Embodiment
See also Fig. 1; The utility model first preferred embodiments provides a kind of container data center (container data center; CDC) cooling system 100; Comprise at least one fan 11, at least one temperature sensor 12, server master board 13 and fan control board (fan control board, FCB) 14.
These fans 11 are in order to blow out cold wind, so that this server master board 13 is dispelled the heat.
This temperature sensor 12 can be arranged on sensitive positions such as air outlet or the air intake vent of this server master board 13, perhaps is set directly on this server master board 13, so that the temperature information of this server master board 13 is gathered.
This server master board 13 links to each other with this temperature sensor 12, in order to receiving the temperature information that said temperature sensor 12 collects, and this temperature information is handled, and goes out to convert wireless signal transmission into.Particularly, this server master board 13 comprises baseboard management controller (baseboard management controller, BMC) 131 and data source (figure mark).This BMC131 links to each other with these temperature sensors 12, in order to obtaining the temperature information that this temperature sensor 12 collects, and this temperature information is handled.In the present embodiment, this data source is a Bluetooth transmission module 132.This Bluetooth transmission module 132 is passed through Intelligent Platform Management Bus (intelligent platform management bus with this BMC131; IPMB) bus connects; Handle temperature information afterwards in order to receive, and this temperature information is launched with the form of wireless signal.
This FCB14 comprises data sink (figure is mark not) and processor 142.This data sink is a bluetooth receiver module 141.This bluetooth receiver module 141 is set up radio communication with this Bluetooth transmission module 132 through bluetooth (bluetooth) technology, is used to obtain the temperature information of these Bluetooth transmission module 132 emissions.This processor 142 links to each other with this bluetooth receiver module 141, and is connected to these fans 11.This processor 142 is in order to receiving the temperature information from this bluetooth receiver module 141, and according to the running of these fans 11 of the corresponding control of this temperature information, for example controls on off state and the rotating speed of fan 11 etc., and then realizes the control to whole C DC heat radiation.
During work, at first said server master board 13 is inserted in the predeterminated position in the CDC, and sets up radio communication with this FCB14.Then temperature sensor 12 is arranged on the sensitive positions such as air outlet or air intake vent of this server master board 13; Perhaps be set directly on this server master board 13; So that the temperature information of this server master board 13 is gathered, and the temperature information that collects is sent to this BMC131.This BMC131 launches this temperature information again through this Bluetooth transmission module 132.Because this server master board 13 is set up radio communication with this FCB14,, and this temperature information is sent to this processor 142 so this bluetooth receiver module 141 will obtain this temperature information.So, this processor 142 just can be according to the operation of these fans 11 of the corresponding control of this temperature information, and then realizes the control to whole C DC heat radiation.
In addition; When said server master board 13 is inserted in the predeterminated position in this CDC; This Bluetooth transmission module 132 will be sent corresponding log-on message to said bluetooth receiver module 141 through Bluetooth technology; The numbering of this server master board 13 etc. for example is to apply for the registration of to said bluetooth receiver module 141.So, whether this bluetooth receiver module 141 can judge whether that server master board 13 inserts or extracts, and promptly supports hot plug (hot swap) function of this server master board 13 through receiving this log-on message.
Please consult Fig. 2 in the lump; The CDC cooling system 200 that provides for the utility model second preferred embodiments; The difference of itself and this CDC cooling system 100 is: this data source is an infrared data tissue (infrared data association; IrDA) transmitter module 232, and this data sink is an irDA receiver module 241.This irDA transmitter module 232 and irDA receiver module 241 carry out radio communication through infrared technology.
Please consult Fig. 3 in the lump; The CDC cooling system 300 that provides for the utility model the 3rd preferred embodiments; The difference of itself and this CDC cooling system 100 is: this data source is that (radio frequency identification, RFID) label 332 for a radio frequency identification.This data sink is a RFID card reader 341.This RFID label 332 and RFID card reader 341 are carried out radio communication through REID.
Obviously; Server master board 13/23/33 in the above-mentioned CDC cooling system 100/200/300 and FCB14/24/34 can set up radio communication through Bluetooth technology, infrared technology or REID; Do not need to be provided with again corresponding data wire and interface; Connected mode is simpler, and in the hot plug function of back-level server mainboard 13/23/33, can effectively reduce the operation cost of this CDC cooling system 100/200/300.
Claims (10)
1. container data center cooling system; Comprise at least one fan, at least one temperature sensor, server master board and fan control board; Said at least one fan links to each other with said fan control board; Said at least one temperature sensor links to each other with this server master board, in order to gather the temperature information of this server master board; It is characterized in that: this server master board and this fan control board are set up radio communication; Said server master board receives the temperature information that this temperature sensor collects; And this temperature information handled; Go out to convert wireless signal transmission into, said fan control board obtains this temperature information through radio communication, and according to the running of the said at least one fan of the corresponding control of this temperature information.
2. container data as claimed in claim 1 center cooling system; It is characterized in that: said server master board comprises baseboard management controller; Said substrate tube controller links to each other with said at least one temperature sensor; In order to obtaining the temperature information that this temperature sensor collects, and this temperature information is handled.
3. container data as claimed in claim 2 center cooling system; It is characterized in that: said server master board comprises data source; This data source links to each other with this baseboard management controller, handles temperature information afterwards in order to receive, and this temperature information is launched.
4. container data as claimed in claim 3 center cooling system, it is characterized in that: this fan control board comprises data sink, this data sink and this data source are set up radio communication, in order to obtain this temperature information through radio communication.
5. container data as claimed in claim 4 center cooling system; It is characterized in that: said fan control board comprises processor; Said processor links to each other with this data sink; In order to receiving temperature information from this data sink, and according to the operation of the said at least one fan of the corresponding control of this temperature information.
6. container data as claimed in claim 4 center cooling system; It is characterized in that: said data source is the Bluetooth transmission module; Said data sink is the bluetooth receiver module, and said data source and this data sink are set up radio communication through Bluetooth technology.
7. container data as claimed in claim 4 center cooling system; It is characterized in that: said data source is an infrared data tissue emission module; This data sink is that infrared data is organized receiver module, and this data source and data sink carry out radio communication through infrared technology.
8. container data as claimed in claim 4 center cooling system; It is characterized in that: said data source is a RFID tag; Said data sink is the radio frequency identification card reader, and this data source and data sink carry out radio communication through REID.
9. container data as claimed in claim 1 center cooling system is characterized in that: said temperature sensor is arranged on the air outlet or the air intake vent of this server master board.
10. container data as claimed in claim 1 center cooling system, it is characterized in that: said temperature sensor is arranged on this server master board.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
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CN2011204632286U CN202406447U (en) | 2011-11-21 | 2011-11-21 | Heat dissipation system of container data center |
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CN2011204632286U CN202406447U (en) | 2011-11-21 | 2011-11-21 | Heat dissipation system of container data center |
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CN202406447U true CN202406447U (en) | 2012-08-29 |
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CN2011204632286U Expired - Fee Related CN202406447U (en) | 2011-11-21 | 2011-11-21 | Heat dissipation system of container data center |
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Cited By (3)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN104883277A (en) * | 2015-06-17 | 2015-09-02 | 浪潮(北京)电子信息产业有限公司 | Method and system for information interaction based on BMC |
CN105464923A (en) * | 2014-09-09 | 2016-04-06 | 鸿富锦精密工业(武汉)有限公司 | Fan control system and method |
CN112153865A (en) * | 2020-09-20 | 2020-12-29 | 郑州精铖能源技术有限公司 | Big data center cooling system and install quick-witted case cabinet of this system |
-
2011
- 2011-11-21 CN CN2011204632286U patent/CN202406447U/en not_active Expired - Fee Related
Cited By (4)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN105464923A (en) * | 2014-09-09 | 2016-04-06 | 鸿富锦精密工业(武汉)有限公司 | Fan control system and method |
CN104883277A (en) * | 2015-06-17 | 2015-09-02 | 浪潮(北京)电子信息产业有限公司 | Method and system for information interaction based on BMC |
CN104883277B (en) * | 2015-06-17 | 2018-06-15 | 浪潮(北京)电子信息产业有限公司 | A kind of information interacting method and system based on BMC |
CN112153865A (en) * | 2020-09-20 | 2020-12-29 | 郑州精铖能源技术有限公司 | Big data center cooling system and install quick-witted case cabinet of this system |
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Legal Events
Date | Code | Title | Description |
---|---|---|---|
C14 | Grant of patent or utility model | ||
GR01 | Patent grant | ||
CF01 | Termination of patent right due to non-payment of annual fee |
Granted publication date: 20120829 Termination date: 20151121 |
|
EXPY | Termination of patent right or utility model |