CN104684339A - Container type data center - Google Patents

Abstract

The invention discloses a container type data center. The container type data center comprises a container type container body and a plurality of cabinets used for accommodating servers; the container type container body comprises a pair of longer side walls, namely a first side wall and a second side wall; the cabinets are divided into a first cabinet group and a second cabinet group; the first and second cabinet groups are arrayed along the direction perpendicular to the first side wall in the container type container body, and a first channel for airflow to pass through is formed between the first cabinet group and the second cabinet group; airflows entering the first cabinet group and the second cabinet group share the first channel; the container type data center also comprises power supply equipment, an air-cooling unit and environment control equipment, wherein the power supply equipment, the air-cooling unit and the environment control equipment are mounted in the container type container body.

Description

Container-type data center

Technical field

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

Background technology

Along with electronics technology continuous research and development with progress greatly, the design of electronic product, all to the future development of high-performance, high speed, high-quality and high convenient type, especially to the requirement of server.For meeting the demand, container-type data center is horizontal empty appearance thereupon just.Container-type data center as the data center of a kind of low cost, high energy efficiency, maneuverability and rapid deployment, gradually adopt by each large equipment business.Container-type data center comprises container-type casing and the some racks for installing multiple server, also comprises the multiple auxiliary equipment such as controller switching equipment, fire-fighting equipment, air-cooled unit.For reaching the object of heat radiation, also needing to arrange the first passage and second channel that supply cold airflow and thermal current flowing in container-type casing, being dispelled the heat by the server circulated being arranged in rack of hot and cold air in rack.In the box-type data center of prior art, multiple rack is word order along the direction that is parallel to the longer sidewall of container-type casing, and first passage and second channel are arranged at the side, front and back of the plurality of rack respectively.Because each rack all needs to utilize first passage and second channel to dispel the heat, thus the length of first passage and second channel need be not less than the total length of multiple rack arrangement, this makes first passage and second channel occupy many spaces in container-type casing, thus result in part auxiliary equipment and cannot install concentratedly at container-type box house.

Summary of the invention

In view of above content, be necessary to provide a kind of container-type data center that rack and auxiliary equipment can be arranged in the lump container-type box house.

A kind of container-type data center, comprise container-type casing and the multiple racks for build-in services device, described container-type casing comprises the first side wall and second sidewall of longer a pair, multiple described rack is divided into the first stack of cabinets and the second stack of cabinets, described first stack of cabinets and the second stack of cabinets arrange along one perpendicular to the direction of described the first side wall in described container-type casing, form the first passage that an air feed flows through between described first stack of cabinets and the second stack of cabinets, the air-flow flowing into described first stack of cabinets and the second stack of cabinets shares described first passage; Described container-type data center also comprises power supply unit, air-cooled unit and environmental control equipment, and described power supply unit, air-cooled unit and environmental control equipment are arranged in described container-type casing.

Further, the rack quantity in described first stack of cabinets and the second stack of cabinets is suitable, and in the length that in described first stack of cabinets, rack arrangement is formed and described second stack of cabinets, to arrange the length formed suitable for rack.

Further, the length of described first passage is not less than the length that in described first stack of cabinets, rack is formed.

Further, described container-type casing comprises the 3rd sidewall and the 4th sidewall of shorter a pair, described power supply unit is installed between described first stack of cabinets and described second sidewall, described environmental control equipment is installed between described second stack of cabinets and described second sidewall, and described air-cooled unit is installed between described second stack of cabinets and described 4th sidewall.

Further, form the second channel that an air feed flows through between described first stack of cabinets and described 3rd sidewall, described air-flow flows to described second channel at described first passage through described first stack of cabinets.

Further, form the third channel that an air feed flows through between described second stack of cabinets and described air-cooled unit, described air-flow flows to described third channel at described first passage through described second stack of cabinets.

Further, be also provided with the dividing plate for separating described air-cooled unit in described container-type casing, described third channel is between described second stack of cabinets and described dividing plate.

Further, described container-type box house also comprises the heat-exchanger for cooling described air-flow, and described heat-exchanger is installed on the top of described first stack of cabinets and the second stack of cabinets.

Further, described container-type box house also includes fan module, and described fan module is installed on the top of described first passage will import described first passage through the cooled air-flow of described heat-exchanger.

Further, be also provided with fire-fighting equipment in described container-type casing, described fire-fighting equipment to be installed between described first stack of cabinets and described second sidewall and to be positioned at the side of described power supply unit.

Compared with prior art, in above-mentioned container-type data center, by changing the installation site of rack in container-type casing, make the rack being arranged in the first stack of cabinets and the second stack of cabinets can share first passage to dispel the heat, effectively reduce the space that first passage takies in container-type casing.Thus multiple to rack and power supply unit etc. auxiliary equipment can be arranged on container-type box house in the lump.

Accompanying drawing explanation

Fig. 1 is the three-dimensional assembly diagram of a preferred embodiment of container-type data center of the present invention.

Fig. 2 is another three-dimensional assembly diagram of the container-type data center of Fig. 1.

Fig. 3 is a sectional perspective assembly drawing of the container-type data center of Fig. 1.

Fig. 4 is the installation region schematic diagram of the container-type box house of Fig. 3.

Main element symbol description

Container-type casing	100
		The first side wall	101
Second sidewall	102
		3rd sidewall	103
4th sidewall	104
		First passage	110
Second channel	121
		Third channel	122
First stack of cabinets	10
		Second stack of cabinets	20
Power supply unit	31
		Environmental control equipment	41
Air-cooled unit	51
		Dividing plate	60
Illumination auxiliary system	61
		Fire-fighting equipment	71
Door	80
		Heat-exchanger	91
Fan module	92

Following embodiment will further illustrate the present invention in conjunction with above-mentioned accompanying drawing.

Embodiment

Refer to Fig. 1 and Fig. 3, in a preferred embodiment of the present invention, one container-type data center comprises a container-type casing 100, and described container-type casing 100 inside is provided with one first stack of cabinets 10,1 second stack of cabinets 20, power supply unit 31, environmental control equipment 41, air-cooled unit 51, fire-fighting equipment 71, two heat-exchanger 91 and multiple fan module 92.The quantity of the rack in described first stack of cabinets 10 and the second stack of cabinets 20 is suitable, and in the length that in described first stack of cabinets 10, rack arrangement is formed and described second stack of cabinets 20, to arrange the length formed suitable for rack.The quantity summation of the rack in the quantity of described fan module 92 and described first stack of cabinets 10 and the second stack of cabinets 20 is suitable.In one embodiment, described first stack of cabinets 10 and the second stack of cabinets 20 comprise three racks respectively, are provided with multiple server (not shown) in each rack; Six fan modules 92 are installed in described container-type casing 100.

Refer to Fig. 2-4, described container-type casing 100 comprises the 3rd sidewall 103 and the 4th sidewall 104 of the first side wall 101 of longer a pair and the second sidewall 102 and shorter a pair.Described the first side wall 101 and the second sidewall 102 are parallel to each other, and described 3rd sidewall 103 and the 4th sidewall 104 are parallel to each other, and described the first side wall 101 is perpendicular to described 3rd sidewall 103.Described first stack of cabinets 10 and the second stack of cabinets 20 to arrange perpendicular to the direction of described the first side wall 101 along one near described the first side wall 101 in described container-type casing 100.Distance between described first stack of cabinets 10 and the 3rd sidewall 103 is less than the distance between described second stack of cabinets 20 and the 3rd sidewall 103.Described power supply unit 31 is installed between described first stack of cabinets 10 and described second sidewall 102, and described environmental control equipment 41 is installed between described second stack of cabinets 20 and described second sidewall 102.One is provided with for separating the dividing plate 60 of described container-type casing 100, the position of described dividing plate 60 contiguous described 4th sidewall 104 in described container-type casing 100 in described container-type casing 100.Described dividing plate 60 is connected with described the first side wall 101 and the second sidewall 102, and described the first side wall 101, dividing plate 60, the 4th sidewall 104 and the second sidewall 102 surround an independently space in described container-type casing 100.Described in described air-cooled unit 51 is installed on independently in space.Described fire-fighting equipment 71 to be installed between described first stack of cabinets 10 and described second sidewall 102 and to be positioned at the side of described power supply unit 31.The contiguous power supply unit 31 of described fire-fighting equipment 71 is installed, thus guarantees that can obtain fire-fighting equipment 71 within the shortest time when fire-fighting accident appears in described power supply unit 31 just puts out a fire to save life and property.

Form the first passage 110 that an air feed flows through between described first stack of cabinets 10 and the second stack of cabinets 20, the length of described first passage 110 is not less than the length that in described first stack of cabinets 10, rack is formed.The second channel 121 that an air feed flows through is formed between described first stack of cabinets 10 and described 3rd sidewall 103, form the third channel 122 that an air feed flows through between described second stack of cabinets 20 and described dividing plate 60, the length of described second channel 121 and third channel 122 is not less than the length that in described first stack of cabinets 10, rack is formed.In one embodiment, the width of described first passage 110 is 1200 millimeters, and the width of described second channel 121 is 450 millimeters, and the width of described third channel 122 is 650 millimeters, and the distance between described dividing plate 60 and the 4th sidewall 104 is 1460 millimeters.

In one embodiment, be also provided with illumination auxiliary system 61 in described container-type casing 100, described illumination auxiliary system 61 is arranged on the top of described container-type casing 100.

Refer to Fig. 1-2, on described container-type casing 100, corresponding described first stack of cabinets 10 and the second stack of cabinets 20, described power supply unit 31, described air-cooled unit 51, described first passage 110 and described third channel 122 are respectively arranged with door 80, operate so that maintenance personal directly enters when carrying out plant maintenance in corresponding equipment installation region.Maintenance personal enters described second channel 121 by the door corresponding to described first stack of cabinets 10 and the second stack of cabinets 20.In one embodiment, described 4th sidewall 104 is made up of the door offered corresponding to described air-cooled unit 51.

Refer to Fig. 4, this two heat-exchanger 91 is installed on the top of described first stack of cabinets 10 and the second stack of cabinets 20 respectively, described fan module 92 is installed on the top of described first passage 110, and the setting height(from bottom) of each fan module 92 is suitable with the setting height(from bottom) of this two heat-exchanger 91.This six fans module 92 is divided into two groups, often organizes fan module 92 and arranges perpendicular to the direction of described the first side wall 101 along one.

The thermal current produced when being arranged in the server work of the rack of described first stack of cabinets 10 to flow to from described first stack of cabinets 10 via the described second channel 121 of correspondence and is positioned at the heat-exchanger 91 at described first stack of cabinets 10 top, and described thermal current cools the cold airflow that formed and flows into described first passage 110 from described heat-exchanger 91 via the guiding of the fan module 92 of correspondence via heat-exchanger 91.The cold airflow entering described first passage 110 flows to described first stack of cabinets 10 from described first passage 110, and described cold airflow flows to corresponding second channel 121 again through described first stack of cabinets 10.In this airflow circulating process, the cold airflow flowing through the first stack of cabinets 10 takes away the heat of the server generation being arranged in described first stack of cabinets 10, thus completes the heat radiation to the server in the first stack of cabinets 10.Described cold airflow becomes described thermal current after flowing through described first stack of cabinets 10 again.The thermal current produced when being arranged in the server work of the rack of described second stack of cabinets 20 to flow to from described second stack of cabinets 20 via the described third channel 122 of correspondence and is positioned at the heat-exchanger 91 at described second stack of cabinets 20 top, and described thermal current cools the cold airflow that formed and flows into corresponding described first passage 110 from described heat-exchanger 91 via the guiding of the fan module 92 of correspondence via heat-exchanger 91.The cold airflow entering described first passage 110 flows to described second stack of cabinets 20 from described first passage 110, and described cold airflow flows to corresponding third channel 122 again through described first stack of cabinets 10.In this airflow circulating process, the cold airflow flowing through the second stack of cabinets 20 takes away the heat of the server generation being arranged in described second stack of cabinets 20, thus completes the heat radiation to the server in the second stack of cabinets 20.Described cold airflow becomes described thermal current after flowing through described second stack of cabinets 20 again.

Claims (10)

1. a container-type data center, comprise container-type casing and the multiple racks for build-in services device, described container-type casing comprises the first side wall and second sidewall of longer a pair, it is characterized in that: multiple described rack is divided into the first stack of cabinets and the second stack of cabinets, described first stack of cabinets and the second stack of cabinets arrange along one perpendicular to the direction of described the first side wall in described container-type casing, the first passage that an air feed flows through is formed between described first stack of cabinets and the second stack of cabinets, the air-flow flowing into described first stack of cabinets and the second stack of cabinets shares described first passage, described container-type data center also comprises power supply unit, air-cooled unit and environmental control equipment, and described power supply unit, air-cooled unit and environmental control equipment are arranged in described container-type casing.

2. container-type data center as claimed in claim 1, it is characterized in that: the rack quantity in described first stack of cabinets and the second stack of cabinets is suitable, in the length that in described first stack of cabinets, rack arrangement is formed and described second stack of cabinets, to arrange the length formed suitable for rack.

3. container-type data center as claimed in claim 2, is characterized in that: the length of described first passage is not less than the length that in described first stack of cabinets, rack is formed.

4. container-type data center as claimed in claim 1, it is characterized in that: described container-type casing comprises the 3rd sidewall and the 4th sidewall of shorter a pair, described power supply unit is installed between described first stack of cabinets and described second sidewall, described environmental control equipment is installed between described second stack of cabinets and described second sidewall, and described air-cooled unit is installed between described second stack of cabinets and described 4th sidewall.

5. container-type data center as claimed in claim 4, it is characterized in that: form the second channel that an air feed flows through between described first stack of cabinets and described 3rd sidewall, described air-flow flows to described second channel at described first passage through described first stack of cabinets.

6. container-type data center as claimed in claim 4, it is characterized in that: form the third channel that an air feed flows through between described second stack of cabinets and described air-cooled unit, described air-flow flows to described third channel at described first passage through described second stack of cabinets.

7. container-type data center as claimed in claim 6, it is characterized in that: be also provided with the dividing plate for separating described air-cooled unit in described container-type casing, described third channel is between described second stack of cabinets and described dividing plate.

8. container-type data center as claimed in claim 1, it is characterized in that: described container-type box house also comprises the heat-exchanger for cooling described air-flow, described heat-exchanger is installed on the top of described first stack of cabinets and the second stack of cabinets.

9. container-type data center as claimed in claim 8, it is characterized in that: described container-type box house also includes fan module, described fan module is installed on the top of described first passage will import described first passage through the cooled air-flow of described heat-exchanger.

10. container-type data center as claimed in claim 1, it is characterized in that: be also provided with fire-fighting equipment in described container-type casing, described fire-fighting equipment to be installed between described first stack of cabinets and described second sidewall and to be positioned at the side of described power supply unit.