CN207151071U - A kind of single data center - Google Patents

Abstract

The utility model provides a kind of single data center, including：Housing, monitoring cabinet, at least one rack and emergent heat abstractor, wherein, the housing is internally provided with battery limits and the passage of heat；The monitoring cabinet and at least one rack are arranged on the battery limits；The heat of each interior of equipment cabinet is discharged into the passage of heat；The monitoring cabinet, for when the Current Temperatures in monitoring the passage of heat reach default trigger condition, controlling the emergent heat abstractor that the heat in the passage of heat is discharged to outside the housing.This programme can carry out emergent radiating.

Description

A kind of single data center

Technical field

Field of computer technology is the utility model is related to, more particularly to a kind of single data center.

Background technology

With the rapid development of electronic information industry, the development of data center also enters a new stage.For convenience Dispose and cut operating costs, single data center arises at the historic moment.The inside meeting for each rack disposed in single data center Produce amount of heat, it is therefore desirable to the inside of data center is radiated in real time.

At present, mainly radiated by air-conditioning between each row disposed in single data center.

But when air-conditioning breaks down suddenly between row, it cannot be radiated again, now inside single data center Temperature will steeply rise, so as to influence whether the normal operation of each rack.It can be seen that how to realize in single data The emergent radiating of the heart turns into current urgent problem to be solved.

Utility model content

The utility model embodiment provides a kind of single data center, can realize emergent radiating.

In a first aspect, the utility model embodiment provides a kind of single data center, including：Housing, monitoring cabinet, at least One rack and emergent heat abstractor, wherein,

The housing is internally provided with battery limits and the passage of heat；

The monitoring cabinet and at least one rack are arranged on the battery limits；

The heat of each interior of equipment cabinet is discharged into the passage of heat；

The monitoring cabinet, for when the Current Temperatures in monitoring the passage of heat reach default trigger condition, controlling Make the emergent heat abstractor heat in the passage of heat is discharged to outside the housing.

Preferably,

The emergent heat abstractor, including：At least one skylight；

The monitoring cabinet, it is more than default first temperature threshold for the Current Temperatures in the passage of heat is monitored During value, control at least one skylight is opened, so that at least one day that the heat in the passage of heat passes through unlatching Window is discharged to outside the housing.

Preferably,

The emergent heat abstractor, further comprises：At least one exhaust blower；

At least one exhaust blower is arranged in the passage of heat；

The monitoring cabinet, it is more than default second temperature threshold for the Current Temperatures in the passage of heat is monitored During value, the control at least one exhaust blower starts, with by least one exhaust blower by the heat in the passage of heat It is discharged to by least one skylight of unlatching outside the housing.

Preferably,

First temperature threshold is 35 DEG C.

Preferably,

The second temperature threshold value is 45 DEG C.

Preferably,

Further comprise：Air-conditioning between at least one row；

Air-conditioning is arranged on the battery limits between at least one row；

The monitoring cabinet, in air-conditioning normal operation between monitoring at least one row, at least one described in control Individual skylight and at least one exhaust blower are closed；

Between each described row during air-conditioning normal operation, hot-air is sucked from the passage of heat, and will be to the hot-air Carry out the cold air after cooling treatment to discharge to the battery limits, dissipated so that each described rack absorbs the cold air Heat.

Preferably,

Further comprise：Temperature collecting device；

The temperature collecting device is arranged in the passage of heat；

The temperature collecting device, for gathering the temperature in the passage of heat；

The monitoring cabinet, the temperature in the passage of heat collected for obtaining the temperature collecting device.

Preferably,

Further comprise：Uninterrupted power source (Uninterruptible Power System/Uninterruptible Power Supply, UPS) power distribution cabinet and battery rack；

The UPS power distribution cabinets and the battery rack are arranged on the battery limits；

The UPS power distribution cabinets and the battery rack, for carrying out emergency service at least one rack.

Preferably,

Air-conditioning and the monitoring cabinet between the UPS power distribution cabinets, the battery rack, each rack, each row Specification is identical, and is formed a line in the battery limits.

The utility model embodiment provides a kind of single data center, and the single data center includes housing, monitoring Cabinet, at least one rack and emergent heat abstractor, by increasing emergent heat abstractor, then when air-conditioning breaks down between row, Temperature in the passage of heat can steeply rise, and now monitoring cabinet can monitor that the Current Temperatures in the passage of heat have reached default tactile Clockwork spring part, therefore monitoring cabinet can control emergent heat abstractor that the heat in the passage of heat is discharged to outside housing, so as to realize emergent dissipate Heat.

Brief description of the drawings

, below will be to embodiment in order to illustrate more clearly of the utility model embodiment or technical scheme of the prior art Or the required accompanying drawing used is briefly described in description of the prior art, it should be apparent that, drawings in the following description are these Some embodiments of utility model, for those of ordinary skill in the art, on the premise of not paying creative work, also Other accompanying drawings can be obtained according to these accompanying drawings.

Fig. 1 is a kind of structural representation for single data center that the utility model one embodiment provides；

Fig. 2 is a kind of structural representation of single data center of the utility model another embodiment offer；

Fig. 3 is a kind of structural representation of single data center of the utility model another embodiment offer；

Fig. 4 is a kind of structural representation for single data center that the utility model further embodiment provides；

Fig. 5 is a kind of structural representation for single data center that the utility model further embodiment provides.

Embodiment

It is new below in conjunction with this practicality to make the purpose, technical scheme and advantage of the utility model embodiment clearer Accompanying drawing in type embodiment, the technical scheme in the embodiment of the utility model is clearly and completely described, it is clear that is retouched The embodiment stated is the utility model part of the embodiment, rather than whole embodiments, based on the implementation in the utility model Example, the every other embodiment that those of ordinary skill in the art are obtained on the premise of creative work is not made, all belongs to In the scope of the utility model protection.

As shown in figure 1, the utility model embodiment provides a kind of single data center, the single data center Ke Bao Include：

Housing 101, monitoring cabinet 102, at least one rack 103 and emergent heat abstractor 104, wherein,

The housing 101 is internally provided with battery limits A and passage of heat B；

The monitoring cabinet 102 and at least one rack 103 are arranged on the battery limits A；

Heat inside each described rack 103 is discharged into the passage of heat B；

The monitoring cabinet 102, the Current Temperatures for the B in the passage of heat is monitored reach default trigger condition When, control the emergent heat abstractor 104 that the heat in the passage of heat B is discharged to outside the housing 101.

The utility model embodiment provides a kind of single data center, and the single data center includes housing, monitoring Cabinet, at least one rack and emergent heat abstractor, by increasing emergent heat abstractor, then when air-conditioning breaks down between row, Temperature in the passage of heat can steeply rise, and now monitoring cabinet can monitor that the Current Temperatures in the passage of heat have reached default tactile Clockwork spring part, therefore monitoring cabinet can control emergent heat abstractor that the heat in the passage of heat is discharged to outside housing, so as to realize emergent dissipate Heat.

In the utility model one embodiment, as shown in Fig. 2 the emergent heat abstractor 104, including：It is at least one Skylight 1041；

The monitoring cabinet 102, it is more than the default first temperature for the Current Temperatures in the passage of heat B is monitored When spending threshold value, control at least one skylight 1041 to open so that the heat in the passage of heat B by described in unlatching extremely A few skylight 1041 is discharged to outside the housing 101.

In the above-described embodiments, each skylight may be provided at corresponding to the passage of heat on housing.For example, corresponding to the passage of heat Case top sets certain amount (specific quantity, and setting interval between skylight can be set according to the actual requirements) Skylight, when the temperature in the passage of heat is not reaching to the first temperature threshold, these skylights are at closed mode, once it is hot Temperature in passage is steeply risen, and during more than the first temperature threshold, monitoring cabinet can be sent to relay corresponding to each skylight Control signal so that each relay connects the control circuit where itself after receiving control signal, to utilize control circuit In electromagnet open corresponding skylight, so as to which the heat in the passage of heat can be discharged to hull outside by skylight, therefore can be with Avoid internal temperature too high and caused by data center paralyse the problems such as.

By setting at least one skylight, so as to which air-conditioning breaks down and when causing the internal temperature to steeply rise between row, Each skylight can be automatically controlled by monitoring cabinet to open, and then can carry out emergent radiating, and it is too high and make to avoid internal temperature Into data center's paralysis the problems such as generation, improve the reliability and security of single data center.

In the utility model one embodiment, as shown in figure 3, the emergent heat abstractor 104, further comprises：Extremely A few exhaust blower 1042；

At least one exhaust blower 1042 is arranged in the passage of heat B；

The monitoring cabinet 102, it is more than the default second temperature for the Current Temperatures in the passage of heat B is monitored When spending threshold value, control at least one exhaust blower 1042 to start, with by least one exhaust blower 1042 by the heat Heat in passage is discharged to outside the housing 101 by least one skylight 1041 of unlatching.

In above-described embodiment, when the temperature in the passage of heat steeply rises, and reach second temperature threshold value (second temperature threshold value It is 45 DEG C more than the first temperature threshold, such as second temperature threshold value, the first temperature threshold is 35 DEG C) when, it is single each by what is opened Skylight may be unable to reach preferable radiating effect, therefore can set a number of exhaust blower in the passage of heat in advance, so, When the temperature that monitoring cabinet is monitored in the passage of heat is more than second temperature threshold value, monitoring cabinet by controlling each exhaust blower to be powered, So as to carry out emergent air draft, accelerate the cooling of inside.

In the utility model embodiment, first temperature threshold is 35 DEG C.

In the utility model embodiment, the second temperature threshold value is 45 DEG C.

In the utility model one embodiment, as shown in figure 4, further comprising：Air-conditioning 401 between at least one row；

Air-conditioning 401 is arranged on the battery limits A between at least one row；

The monitoring cabinet 102, in 401 normal operation of air-conditioning between monitoring at least one row, described in control At least one skylight 1041 and at least one exhaust blower 1042 are closed；

Between each described row during 401 normal operation of air-conditioning, hot-air is sucked from the passage of heat B, and will be to the heat Cold air after air progress cooling treatment is discharged to the battery limits A, so that each described rack 103 absorbs the cold sky Gas is radiated.

In above-described embodiment, when air-conditioning normal operation between each row that battery limits are set, by closing each of setting Skylight and each exhaust blower, realize that inner loop is freezed by air-conditioning between each row, refrigerating efficiency can be improved, and energy-conservation subtracts Row.Specifically, the cold air between each row after air-conditioning processing is expelled to battery limits from air outlet, each of server is then deployed with Individual rack suction cold air is radiated, and the heat of each interior of equipment cabinet is discharged into the passage of heat of side afterwards, and final heat is logical Road return air to air-conditioning between each row, successively circulation is carried out, and realizes that inner loop is freezed.

In addition, for the further radiating effect of raising rack and in view of energy-saving and emission-reduction, air-conditioning goes out between avoiding a certain row During existing failure, neighbouring rack can not preferably be absorbed to cold air, therefore in the utility model embodiment, can according to rack a, Air-conditioning b, rack d, putting in order for rack e ... are set between each rack and each row between air-conditioning a, rack b, rack c, row between row Air-conditioning.

In the utility model one embodiment, as shown in figure 5, further comprising：UPS power distribution cabinets 501 and battery rack 502；

The UPS power distribution cabinets 501 and the battery rack 502 are arranged on the battery limits A；

The UPS power distribution cabinets 501 and the battery rack 502, for carrying out emergency service at least one rack.

In above-described embodiment, at least one UPS module is included in the UPS power distribution cabinets, is included in the battery pack At least one reserve battery, when civil power is normal, UPS and battery backup are charged using civil power, then once civil power Can be that each rack carries out emergency service by each UPS module to charge and each reserve battery after failure, it is each to cause The each server disposed in individual rack can normal work, the generation for situations such as avoiding loss of data.

In the utility model one embodiment, the UPS power distribution cabinets, the battery rack, each rack, Ge Gesuo The height and depth all same of air-conditioning and the monitoring cabinet between arranging are stated, and is formed a line in the battery limits.

For example, a single data center includes battery limits and the passage of heat altogether, wherein, according to UPS distribution in battery limits Air-conditioning between cabinet, battery rack, each rack and each row (such as according to air-conditioning b between air-conditioning a, rack b, rack c, row between rack a, row, Rack d, rack e ... put in order) with the order of monitoring cabinet is parallel successively forms a line, and the passage of heat is arranged on battery limits Side, formed, saved by least one skylight, at least one exhaust blower, the raised floor of bottom and the closing door of front and rear setting Space for its deployment.

The contents such as the information exchange between each unit, implementation procedure in said apparatus, due to the utility model method Embodiment is based on same design, and particular content can be found in the narration in the utility model embodiment of the method, and here is omitted.

To sum up, each embodiment of the utility model at least has the advantages that：

1st, in the utility model embodiment, the single data center include housing, monitoring cabinet, at least one rack and Emergent heat abstractor, by increasing emergent heat abstractor, then when air-conditioning breaks down between row, the temperature in the passage of heat can be anxious Play rises, and now monitoring cabinet can monitor that the Current Temperatures in the passage of heat have reached default trigger condition, therefore monitoring cabinet It can control emergent heat abstractor that the heat in the passage of heat is discharged to outside housing, so as to realize emergent radiating.

2nd, in the utility model embodiment, when air-conditioning normal operation between row, by closing the passage of heat, that is, close each Skylight and each exhaust blower, on the one hand, cooling effectiveness can be improved；On the other hand, also left due to battery limits and safeguard section, when Attendant is into when safeguarding section, and attendant is in the cold air discharged by air-conditioning between row, so as to preferably carry The experience of high maintenance personnel.

3rd, in the utility model embodiment, by setting at least one skylight and at least one exhaust blower, so as to When air-conditioning breaks down between row, to carry out emergent air draft, with to carrying out emergent radiating inside single data center.

It should be noted that herein, such as first and second etc relational terms are used merely to an entity Or operation makes a distinction with another entity or operation, and not necessarily require or imply and exist between these entities or operation Any this actual relation or order.Moreover, term " comprising ", "comprising" or its any other variant be intended to it is non- It is exclusive to include, so that process, method, article or equipment including a series of elements not only include those key elements, But also the other element including being not expressly set out, or also include solid by this process, method, article or equipment Some key elements.In the absence of more restrictions, by sentence " including the key element that a 〃 〃 " is limited, it is not excluded that Other identical factor in the process including the key element, method, article or equipment also be present.

One of ordinary skill in the art will appreciate that：Realizing all or part of step of above method embodiment can pass through Programmed instruction related hardware is completed, and foregoing program can be stored in computer-readable storage medium, the program Upon execution, the step of execution includes above method embodiment；And foregoing storage medium includes：ROM, RAM, magnetic disc or light Disk etc. is various can be with the medium of store program codes.

It is last it should be noted that：Preferred embodiment of the present utility model is the foregoing is only, is merely to illustrate this practicality New technical scheme, is not intended to limit the scope of protection of the utility model.It is all the spirit and principles of the utility model it Interior done any modification, equivalent substitution and improvements etc., are all contained in the scope of protection of the utility model.

Claims (8)

1. A kind of 1. single data center, it is characterised in that including：Housing, monitoring cabinet, at least one rack and emergent radiating dress Put, wherein,

   The housing is internally provided with battery limits and the passage of heat；

   The monitoring cabinet and at least one rack are arranged on the battery limits；

   The heat of each interior of equipment cabinet is discharged into the passage of heat；

   The monitoring cabinet, for when the Current Temperatures in monitoring the passage of heat reach default trigger condition, controlling institute State emergent heat abstractor the heat in the passage of heat is discharged to outside the housing.
2. 2. single data center according to claim 1, it is characterised in that

   The emergent heat abstractor, including：At least one skylight；

   The monitoring cabinet, it is more than default first temperature threshold for the Current Temperatures in the passage of heat is monitored When, control at least one skylight is opened, so that at least one skylight that the heat in the passage of heat passes through unlatching It is discharged to outside the housing.
3. 3. single data center according to claim 2, it is characterised in that

   The emergent heat abstractor, further comprises：At least one exhaust blower；

   At least one exhaust blower is arranged in the passage of heat；

   The monitoring cabinet, it is more than default second temperature threshold value for the Current Temperatures in the passage of heat is monitored When, control at least one exhaust blower starts, to be led to the heat in the passage of heat by least one exhaust blower At least one skylight opened is crossed to be discharged to outside the housing.
4. 4. single data center according to claim 3, it is characterised in that

   First temperature threshold is 35 DEG C；And/or the second temperature threshold value is 45 DEG C.
5. 5. single data center according to claim 3, it is characterised in that

   Further comprise：Air-conditioning between at least one row；

   Air-conditioning is arranged on the battery limits between at least one row；

   The monitoring cabinet, in air-conditioning normal operation between monitoring at least one row, controlling at least one day Window and at least one exhaust blower are closed；

   Between each described row during air-conditioning normal operation, hot-air is sucked from the passage of heat, and the hot-air will be carried out Cold air after cooling treatment is discharged to the battery limits, is radiated so that each described rack absorbs the cold air.
6. 6. according to any described single data center of claim 1 or 5, it is characterised in that

   Further comprise：Temperature collecting device；

   The temperature collecting device is arranged in the passage of heat；

   The temperature collecting device, for gathering the temperature in the passage of heat；

   The monitoring cabinet, the temperature in the passage of heat collected for obtaining the temperature collecting device.
7. 7. single data center according to claim 1, it is characterised in that

   Further comprise：Uninterrupted power source UPS power distribution cabinets and battery rack；

   The UPS power distribution cabinets and the battery rack are arranged on the battery limits；

   The UPS power distribution cabinets and the battery rack, for carrying out emergency service at least one rack.
8. 8. single data center according to claim 1, it is characterised in that

   The height and depth all same of air-conditioning and monitoring cabinet between UPS power distribution cabinets, battery rack, each rack, each row, and in equipment Formed a line in area.