CN102736683A - Container type data center - Google Patents

Abstract

A container type data center comprises a first box and a second box. A server is installed in the first box and a refrigeration device is installed in the second box. An air inlet and an air outlet are provided in the first box. An air inlet and an air outlet which are respectively communicated with the air inlet and the air outlet of the first box are provided in the second box. Cold air produced by the refrigeration device of the second box penetrates into the first box via the air inlet, and after absorbing heat generated by the server flows back into the second box. As the refrigeration device is installed in the second box and the server is installed in the first box, the heat generated by the refrigeration device itself is avoided affecting the cold air which is used for heat dissipation for the server of the first box, and thus heat dissipation efficiency is improved.

Description

Container-type data center

Technical field

The present invention relates to a kind of container-type data center.

Background technology

In recent years, be the needs of storage and computing, a large amount of servers is installed on forms container-type data center (container data center) in the TEU (Twenty-foot Equivalent Unit) and be able to widespread use.But a large amount of servers is installed in the narrow and small TEU (Twenty-foot Equivalent Unit) in a space, undoubtedly the radiating efficiency of container-type data center is had higher requirement.

Summary of the invention

In view of above content, be necessary the container-type data center that provides a kind of radiating efficiency higher.

A kind of container-type data center; Comprise one first casing and one second casing; In this first casing server is installed; In this second casing refrigeration plant is installed; This first casing offers air inlet and air outlet, and this second casing offers air inlet and the air outlet that is connected with the air inlet and the air outlet of this first casing respectively, flows back to this second casing from air outlet after the cold air that the refrigeration plant in this second casing the produces heat that the absorption server produces in air inlet gets into this first casing.

Container-type of the present invention data center places refrigeration plant in second casing, and server places in first casing, and the heat affecting of avoiding refrigeration plant self to produce is used for the cold air to the heat radiation of the server in first casing, has improved radiating efficiency.

Description of drawings

Fig. 1 is the three-dimensional exploded view of the preferred embodiments of container-type of the present invention data center.

Fig. 2 is the other direction view of first casing among Fig. 1.

Fig. 3 is the three-dimensional assembly diagram of Fig. 1.

Fig. 4 is along the cut-open view of IV-IV direction among Fig. 3.

The main element symbol description

Container-type data center	1
		First casing	10
The floor	12
		Foot passage	14
Server rack	16
		Server	18
Center-aisle	20
		Wing passage	22
Air inlet	24、32
		Air outlet	26、34
Air guide member	28
		Second casing	30
Fan	36
		Refrigeration plant	38

Following embodiment will combine above-mentioned accompanying drawing to further specify the present invention.

Embodiment

Please with reference to Fig. 1 and Fig. 2, the preferred embodiments of container-type of the present invention data center 1 comprises one first casing 10 and one second casing 30.

Please with reference to Fig. 4, the diapire of this first casing 10 sets up a floor 12, thereby between the diapire of this floor 12 and this first casing 10, forms a foot passage 14.Lay two row server racks 16 in place, two side on this floor 12, the server 18 that some intervals are provided with from top to bottom is installed in each server rack 16 near this first casing 10.Thereby, form a center-aisle 20 between this two row server rack 16, the two side of this first casing 10 respectively and near a row server rack 16 between form a wing passage 22, and this two wing passage 22 is connected with this foot passage 14.The upper and lower of the sidewall adjacent with this second casing 30 of this first casing 10 is offered some air inlets 24 and some air outlets 26 respectively.These air outlets 26 are connected with this foot passage 14.Corresponding each air inlet 24 is equipped with air guide member 28 near the top of the server rack 16 of this first casing 10, so that air inlet 24 is connected with this center-aisle 20.

The shape of this second casing 30 and size are all identical with this first casing 10, and its upper and lower near the sidewall of this first casing 10 is offered some air inlets 32 and some air outlets 34 respectively.Corresponding air inlet 32 is equipped with fan 36 in this second casing 30.In this second casing 30 refrigeration plant 38 is installed, in this embodiment, this refrigeration plant 38 is an air conditioner.

Please, during assembling, this first casing 10 is installed together with this second casing 30 abreast, and the air inlet 24 of this first casing 10 is connected with air outlet 34 with the corresponding air inlet 32 of this second casing 30 respectively with air outlet 26 with reference to Fig. 3.

Please with reference to Fig. 4, during use, the cold air that the refrigeration plants 38 in this second casing 30 produce blows into the air inlet 24,32 of this first casing 10 and second casing 30 through these fans 36, sends into the interior center-aisle 20 of this first casing 10 through air guide member 28 again.Cold air moves downward along this center-aisle 20; Simultaneously cold air flow through this two row server rack 16 server 18 and flow into two wing passages 22 of this first casing 10, and move downward and get into this foot passage 14 along this two wing passage 22, get into these second casings 30 via these air outlets 26,34; Let its interior refrigeration plant 38 freeze; So move in circles, thereby absorb the heat that these servers 18 produce, think its heat radiation.

From the above; Because this container-type data center 1 is installed on refrigeration plants 38 such as server 18 heat-producing devices such as grade and air conditioner in first casing 10 and second casing 30 that is separated respectively; Cold air in this second casing 30 gets into discharges and flows back to this second casing 30 after this first casing 10 absorbs heat; The heat affecting of avoiding this refrigeration plant 38 self to produce is used for the cold air to server 18 heat radiations in this first casing 10, has improved radiating efficiency.

In other embodiments; Available guide duct is communicated with air inlet 24,32 and this first casing 10 of this first casing 10 and this second casing 30 and the air outlet 26,34 of this second casing 30, and these air inlets 24,32 and air outlet 26,34 can be opened in any position of this first casing 10 and this second casing 30 respectively.

Claims (10)

1. container-type data center; Comprise one first casing and one second casing; In this first casing server is installed; In this second casing refrigeration plant is installed; This first casing offers air inlet and air outlet, and this second casing offers air inlet and the air outlet that is connected with the air inlet and the air outlet of this first casing respectively, flows back to this second casing from air outlet after the cold air that the refrigeration plant in this second casing the produces heat that the absorption server produces in air inlet gets into this first casing.

2. container-type as claimed in claim 1 data center; It is characterized in that: this first casing comprises a first side wall and one second sidewall relative with this first side wall, and the server in this first casing is divided into two row respectively near this first side wall and this second sidewall.

3. container-type as claimed in claim 2 data center is characterized in that: form a center-aisle between this two row server, this first casing is equipped with air guide member between its air inlet and this center-aisle.

4. container-type as claimed in claim 3 data center; It is characterized in that: this two row server forms a wing passage respectively and between the first side wall of this first casing and second sidewall; The air that gets into this first casing flows into this center-aisle through air guide member, gets into this two wing passage behind the server of flowing through.

5. container-type as claimed in claim 4 data center; It is characterized in that: the diapire of this first casing sets up the floor of a supporting device; Form the foot passage that is connected with air outlet between the diapire of this floor and this first casing, this two wing passage is connected with this foot passage.

6. container-type as claimed in claim 5 data center; It is characterized in that: in laying two row server racks near its first side wall place and second side-walls, two row servers in this first casing are installed on this two row server rack respectively on the floor of this first casing.

7. container-type as claimed in claim 1 data center, it is characterized in that: the air inlet of this first casing and air outlet are connected with the air inlet and the air outlet of second casing through guide duct respectively.

8. container-type as claimed in claim 1 data center is characterized in that: corresponding its air inlet is equipped with fan in this second casing.

9. container-type as claimed in claim 1 data center, it is characterized in that: this refrigeration plant is an air conditioner.

10. container-type as claimed in claim 1 data center, it is characterized in that: this first casing and this second casing are installed together abreast.

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