CN102467172B - Container data center and installation method thereof - Google Patents

Abstract

A kind of container data center, including a counter and some racks being contained in counter, the diapire of described counter is provided with some groups of bracing frames along a first direction, often group bracing frame is provided with a bearing part that can slide along the relative support frame as described above of described first direction, and each rack can along a relative described bearing part slip of the second direction angled with described first direction and described bearing part can be positioned. Container data center of the present invention, can be moved in bracing frame in the first direction by bearing part, and rack can slide in a second direction on bearing part, facilitates slip rack to simultaneously facilitate assembling and the maintenance of rack. The invention still further relates to the installation method of a kind of container data center.

Description

Container data center and installation method thereof

Technical field

The present invention relates to a kind of container data center and installation method thereof.

Background technology

Container data center is generally mounted side by side some racks as large-scale centralized computing facility in counter. Current rack quality is big, floor space big, in addition limited in counter space, causes that being only capable of manually carrying carrys out Mobile cabinet. So, a dead lift rack is very inconvenient, so that the assembling maintenance of rack etc. are all inconvenient.

Summary of the invention

In view of the foregoing, it is necessary to a kind of container data center being easy to Mobile cabinet and installation method thereof are provided.

A kind of container data center, including a counter and some racks being contained in counter, the diapire of described counter is provided with some groups of bracing frames along a first direction, often group bracing frame is provided with a bearing part that can slide along the relative support frame as described above of described first direction, and each rack can along a relative described bearing part slip of the second direction angled with described first direction and described bearing part can be positioned.

The installation method of a kind of container data center, said method comprising the steps of:

Thering is provided a diapire group to set the counter of some groups of bracing frames, often group bracing frame is arranged along the first direction of described diapire;

There is provided some and be located at support frame as described above the bearing part that can slide on support frame as described above along described first direction, and described bearing part is mounted on support frame as described above slidably along described first direction, each bearing part includes the two parallel slide rails extended along the second direction angled with first direction;

The slide rail of described bearing part is arranged in two straight lines;

Some racks that can slide along the slide rail of bearing part are provided, and described rack Slide Group is located at described bearing part;

Rack to predetermined installation site and is fixed on bearing part by fixture by slip rack in a second direction.

Comparing known techniques, container data center of the present invention and installation method thereof, can be moved in the first direction in bracing frame by bearing part, rack can slide in a second direction on bearing part, facilitates slip rack to simultaneously facilitate assembling and the maintenance of rack.

Accompanying drawing explanation

In conjunction with detailed description of the invention, the invention will be further described with reference to the accompanying drawings.

Fig. 1 is the assembling figure of container data center better embodiment of the present invention.

Fig. 2 is the assembling figure of slide assemblies, bearing part, rack and bracing frame in Fig. 1.

Fig. 3 is the partial view of the other direction of rack in Fig. 2.

Fig. 4 is the axonometric chart of slide assemblies, bearing part and bracing frame in Fig. 2.

Fig. 5 is the exploded view of slide assemblies in Fig. 2.

Fig. 6 is the axonometric chart of bearing part in Fig. 2.

Fig. 7 is the view of the other direction of the bearing part of Fig. 6.

Fig. 8 is the axonometric chart of bracing frame in Fig. 2.

Fig. 9 is the enlarged drawing at IX place in Fig. 2.

Figure 10 is the view of another state of the slide assemblies in Fig. 2, bearing part and bracing frame.

Main element symbol description

Counter 10

Roof 12,22

Diapire 14,24

Rack 20

Sliding part 25,34,54

Slide block 240

Block 242

Slide assemblies 30

First sliding part 32

Second sliding part 33

Fixed mount 35

Substrate 330

Link plate 332,542

Fixing plate 320,340

Connecting plate 322,46

Slide rail 324,48,56

Upper slide rail 3240

Glidepath 3242

Pulley 344,544

Central shaft 3442,5442

Chute 3444,5444

Bracing frame 40

Lower supporting plate 42

Upper backup pad 44

Bearing part 50

Plate body 52

Base plate 540

Fixture 60,62,64

Detailed description of the invention

Refer to Fig. 1,2 and 5, the rack 20 that container data center of the present invention includes a counter 10 and some slips are placed in counter 10. Described counter 10 includes roof 12 and a diapire 14 parallel and relative with roof 12. Each rack 20 includes roof 22 and a diapire 24 relative with roof 22. Described roof 12 arranges some slide assemblies 30 along the width (first direction) of counter 10. Second sliding part 33 of the first sliding part 32 that each slide assemblies 30 includes a pair being mounted on the roof 12 of counter 10 and the roof 22 that can be mounted on rack 20, described first sliding part 32 can slide by relatively described second sliding part 33. Described diapire 14 arranges some groups of bracing frames 40 along the width of counter 10. Often group bracing frame 40 is provided with a bearing part 50 that can slide along the relatively described group bracing frame 40 of the width of counter 10.

Please continue to refer to Fig. 1, described rack 20 is along length direction being arranged in counter 10 side by side of counter 10. The front that one end is rack of rack 20 opening, one end in contrast is the rear of rack 20. The front of rack 20 is the cold airflow passage of described container data center, and the rear of rack 20 is the thermal current channel of described container data center.

Seeing also Fig. 3, the diapire 24 of each rack 20 is rectangular, and it is equipped with four sliding parts 25, and described sliding part 25 is divided into two groups along two minor faces (i.e. width) of diapire 24. Each sliding part 25 includes a slide block 240 and is vertically set on the block 242 inside slide block 240. Described slide block 240 and block 242 are made by POM (Polyoxymethylene, polyformaldehyde) material. Four-slider 240 position is four summits of a rectangle. In the present embodiment, slide block 240 is positioned at four apex of diapire 24.

Seeing also Fig. 4 and Fig. 5, the first sliding part 32 of each slide assemblies 30 includes a fixing plate 320, of the length arranged along the width (first direction) of the roof 12 of counter 10 and is perpendicular to the connecting plate 322 and of root edge of fixing plate 320 and is parallel to the slide rail 324 of fixing plate 320. Connecting plate 322 is perpendicular to the centrage on slide rail 324 length direction, so that slide rail 324 to be divided into upper slide rail 3240 and glidepath 3242 symmetrically.

Second sliding part 33 of each slide assemblies 30 includes a fixed mount 35. Roof 22 that described fixed mount 35 includes being arranged at rack 20 and the substrate 330 roughly the same with the size and shape of roof 22, two long limits of substrate 330 are vertically provided with two link plates 332 respectively at two ends. Each link plate 332 groups is provided with a sliding part 34. Described sliding part 34 is divided into two groups to slide along the first sliding part 32 of corresponding slide assemblies 30 respectively along two long limits of substrate 330. Each link plate 332 is vertically provided with a chute 334. Each sliding part 34 includes a fixing plate 340. The top of fixing plate 340 is pivoted with three pulleys 344, and wherein two pulleys 344 are that another pulley 344 is positioned at the lower section of described straight line along a lineal layout parallel with substrate 330. The bottom of each fixing plate 340 is vertically provided with two fixing hole (not shown). Two fixtures 36 wear in the fixing hole that chute 334 is fixed on fixing plate 340, and sliding part 34 vertically position can adjustably be mounted on the link plate 332 of described fixed mount 35. Each pulley 344 is provided with the chute 3444 of annular along its circumference. In present embodiment, three pulleys 344 of each sliding part 34 in "" shape arrangement, and towards the fixing plate 340 on opposite.

Second sliding part 33 of each slide assemblies 30 is mounted on the first sliding part 32 of described slide assemblies 30, make the upper slide rail 3240 of the first sliding part 32 and glidepath 3242 slide respectively the pulley 344 being contained in the second sliding part 33 correspondence chute 334 in.

Seeing also Fig. 4 and Fig. 8, often group bracing frame 40 includes two bracing frames 40. Each bracing frame 40 includes one and arranges and be fixed on the upper backup pad 44 that the lower supporting plate 42, of diapire 14 is parallel to lower supporting plate 42 and the connecting plate 46 being vertically disposed between upper backup pad 44 and lower supporting plate 42 along the width (first direction) of the diapire 14 of counter 10. The end face of upper backup pad 44 projects a slide rail 48. The bearing of trend of slide rail 48 identical with the bearing of trend of slide rail 324 (namely bearing of trend is first direction).

Seeing also Fig. 4, Fig. 6 and Fig. 7, each bearing part 50 includes the plate body 52 of a rectangle. Described plate body 52 is provided with two groups of sliding parts 54 along its length in bottom surface. Described plate body 52 is provided with two slide rails 56 in end face along its width. Each group of sliding part 54 includes two sliding parts 54. Four sliding part 54 positions are four summits of a rectangle. In the present embodiment, four sliding parts 54 are positioned at four apex of plate body 52. Each sliding part 54 includes one being arranged at the base plate 540 of plate body 52 bottom surface, be vertically based in two parallel link plates 542 of base plate 540 for a pair and pivot the pulley 544 being arranged between two link plates 542 by a central shaft 5442. Each pulley 544 is provided with annular groove 5444 along its circumference. The bearing of trend of slide rail 56 is vertical with the bearing of trend of slide rail 48.

See also Fig. 2, Fig. 4, Fig. 9 and Figure 10, during assembling, each bearing part 50 is mounted on one group of bracing frame 40 of counter 10, the chute 5444 of two groups of sliding parts 54 of each bearing part 50 bottom surface slides respectively and houses the slide rail 48 of described group of bracing frame 40 so that described bearing part 50 can slide (namely bearing part 50 can slide in the first direction on described group of bracing frame 40) along the slide rail 48 of described group of bracing frame 40. Relative support frame 40 bearing part 50 that slides makes all bearing parts 50 be placed into precalculated position, now the slide rail 56 of all bearing parts 50 lays respectively at (described two straight-line extension directions are second direction) on two straight lines, locks bracing frame 40 after being arranged in bearing part 50 again through some fixtures 64.Then rack 20 is placed in counter 10, rack 20 is placed on the plate body 52 of bearing part 50, two groups of sliding parts 25 of the diapire 24 of rack 20 slide along two slide rails 56 of bearing part 50 respectively, wherein slide block 240 and block 242 abut end face and the side of slide rail 56 respectively so that rack 20 can slide (namely rack 20 slides in a second direction) along the bearing of trend of slide rail 56. When rack 20 slides into the precalculated position of length direction of counter 10 along the slide rail 56 of bearing part 50, lock bearing part 50 be arranged in the diapire 24 of rack 20 by some fixtures 60 after to be fixed on bearing part 50 by rack 20, thus rack 20 is positioned counter 10. The second sliding part 33 of a slide assemblies 30 is mounted on by some fixtures 62 roof 22 of a rack 20 again.

When rack 20 need to keep in repair, fixture 64 is dismantled on the bracing frame 40 of the bearing part 50 carrying described rack 20 and correspondence, slide rack 20 along the slide rail 48 of bracing frame 40 of counter 10 and the slide rail 324 of slide assemblies 30, the space making rack 20 rear becomes big, locks bracing frame 40 after being arranged in bearing part 50 by fixture 64. The rear space of rack 20 becomes after greatly, it is simple to from depot echelon maintenance rack 20.

Container data center of the present invention and installation method thereof, slided along the length direction of counter 10 on bearing part 50 by rack 20, it is simple to assembles; Coordinate with slide assemblies 30 and bracing frame 40 after being fixed on bearing part 50 by rack 20, can slide along the width of counter 10, facilitate rack 20 to slide, make the space at rack 20 rear broaden spacious simultaneously, it is simple to maintenance rack 20.

Claims (19)

1. a container data center, including a counter and some racks being contained in counter, the diapire of described counter is provided with some groups of bracing frames along a first direction, often group bracing frame is provided with a bearing part that can slide along the relative support frame as described above of described first direction, and each rack can along a relative described bearing part slip of the second direction angled with described first direction and described bearing part can be positioned.

2. container data center as claimed in claim 1, it is characterized in that: be provided with some groups of slide assemblies along described first direction between described counter and the roof of rack, the first sliding part and that each slide assemblies includes a pair being mounted on the roof of counter can relative to the second sliding part of described first sliding part slip and the roof being mounted on described rack.

3. container data center as claimed in claim 2, it is characterised in that: each first sliding part includes the fixing plate of the length of a roof being arranged at counter in the first direction, a connecting plate and being perpendicularly fixed at fixing plate is parallel to the slide rail of described fixing plate.

4. container data center as claimed in claim 3, it is characterised in that: described second sliding part includes a fixed mount, and described fixed mount includes a substrate being arranged at cabinet top wall and two groups of sliding parts that can slide respectively along the slide rail of the pair of first sliding part.

5. container data center as claimed in claim 4, it is characterized in that: the slide rail of each first sliding part includes slide rail and a glidepath on one, often group sliding part includes two sliding parts, each sliding part in described two sliding parts includes a fixing plate and is pivotally mounted to three pulleys of described fixing plate, each pulley is circumferentially provided with chute, wherein two pulleys are to arrange along a straight line parallel with the width of the roof of rack, another pulley is positioned at the lower section of described straight line, the upper slide rail of the slide rail of described first sliding part slides in the chute being contained in two pulleys arranged along described straight line, the glidepath of the slide rail of described first sliding part slides and is contained in the chute of the pulley below described straight line.

6. container data center as claimed in claim 5, it is characterised in that: the pulley of described each sliding part isShape arranges.

7. container data center as claimed in claim 5, it is characterised in that: described substrate be respectively provided on two sides with two link plates, described sliding part can adjustably be mounted on described link plate along the position, roof direction of vertical rack.

8. container data center as claimed in claim 7, it is characterized in that: each link plate is provided with a chute along the roof direction of vertical described rack, the fixing plate of each sliding part is correspondingly provided with two fixing holes along the roof direction of vertical described rack, and described link plate can be fixed on described fixed mount through described two fixing holes and described chute by two fixtures.

9. container data center as claimed in claim 1, it is characterized in that: each bracing frame includes one being fixed on the lower supporting plate of counter diapire in the first direction, one being parallel to the upper backup pad of described lower supporting plate and some connecting plates being vertically disposed between upper backup pad and lower supporting plate, the top of described upper backup pad arranges a slide rail in the first direction, and every two bracing frames carry a bearing part.

10. container data center as claimed in claim 9, it is characterized in that: each bearing part includes the plate body of a rectangle, is arranged at described plate body bottom surface and the two groups of sliding parts that can slide along the slide rail of two bracing frames respectively along described first direction, two link plates and one that each sliding part includes a base plate being fixed on plate body bottom surface, vertically extend along the lateral margin that base plate two is relative are fixed on the pulley of two link plates, and described pulley is circumferentially provided with the chute of the slide rail housing bracing frame.

11. container data center as claimed in claim 10, it is characterised in that: described plate body includes two slide rails being arranged at end face along described second direction, and the diapire of each rack projects the sliding part that two groups of slide rails along described bearing part slide.

12. container data center as claimed in claim 11, it is characterized in that: often group sliding part includes two sliding parts, each sliding part in described two sliding parts includes a slide block and is vertically set on the block inside slide block, and described slide block and block can respectively along the end face of the slide rail of described plate body and side slip.

13. container data center as claimed in claim 11, it is characterised in that: the sliding part of the diapire of described rack is made up of POM material.

14. container data center as claimed in claim 12, it is characterised in that: described slide block is positioned at four apex of described rack diapire.

15. container data center as claimed in claim 1, it is characterised in that: described first direction is perpendicular to second direction.

16. an installation method for container data center, said method comprising the steps of:

Thering is provided a diapire group to set the counter of some groups of bracing frames, often group bracing frame is arranged along the first direction of described diapire;

There is provided some and be located at support frame as described above the bearing part that can slide on support frame as described above along described first direction, and described bearing part is mounted on support frame as described above slidably along described first direction, each bearing part includes the two parallel slide rails extended along the second direction angled with first direction;

The slide rail of described bearing part is arranged in two straight lines;

Some racks that can slide along the slide rail of bearing part are provided, and described rack Slide Group is located at described bearing part;

Rack to predetermined installation site and is fixed on bearing part by fixture by slip rack in a second direction.

17. the installation method of container data center as claimed in claim 16, it is characterised in that: comprise the following steps between step " slide rail of described bearing part is arranged in two straight lines " and step " rack to predetermined installation site and is fixed on bearing part by fixture by slip rack in a second direction ": by fixture, described bearing part is fixed on support frame as described above.

18. the installation method of container data center as claimed in claim 16, it is characterized in that: described counter also includes the slide assemblies between some roofs being mounted on described counter and the roof of rack, the first sliding part that each slide assemblies includes a pair being mounted on the roof of counter and one and first sliding part mutually slide in said first direction and the second sliding part of the roof that is mounted on rack.

19. the installation method of container data center as claimed in claim 18, it is characterized in that: after step " slide rack in a second direction; assembles in a second direction and by fixture, rack is fixed on bearing part after putting in place ", further comprising the steps of: by fixture, the roof of rack is fixed on the second sliding part of described slide assemblies.