CN103713714A - Three-dimensional air channel blade framework and chassis comprising the same - Google Patents

Abstract

The invention discloses a three-dimensional air channel blade framework. The three-dimensional air channel blade framework comprises a front plate, a back plate, a left plate, a right plate, a bottom plate and a top plate, a first partition plate, a second partition plate, a third partition plate, a fourth partition plate and a fifth partition plate. The invention also discloses a chassis comprising the three-dimensional air channel blade framework. The chassis is compact in space and capable of replacing a flexible PCB (Printed Circuit Board) structure by using a cable manner, reducing product cost, removing problem of hard disk heat dissipation cascade, avoiding uneven hard disk temperature, realizing efficient heat dissipation of a high-density hard disk storage framework and improving competitiveness of the chassis.

Description

Three-dimensional air channel blade frame and cabinet thereof

Technical field

The present invention relates to blade server field, relate in particular to a kind of three-dimensional air channel blade frame and cabinet thereof.

Background technology

At present, rapid growth along with information system requirement, the development of the integration of three networks, cloud computing application, the rapid growth of storage density and computing velocity, the storage density of server is more and more higher, how the heat dissipation problem of the highly dense storage of settlement server becomes one of Major Difficulties of machine box for server design, is the key that guarantees product reliability.

In the radiating solution of existing storage blade server, whole blade frame includes two independently hot-swappable drawers from the bottom up, place 8 3.5 cun of hard disks, and hard disk is symmetrical arranged on each drawer.Cooling draught flows from the bottom up, thereby realizes the heat radiation of hard disk.

Under the space constraint of above storage blade server, in order to meet the hot plug requirement of each hard disk, need to adopt flexible polychlorinated biphenyl (polychlorinated biphenyls is called for short PCB) structure.And flexible PCB structure has increased the cost of this storage blade server.In addition, owing to there being temperature cascade between hard disk, after heat radiation, easily cause hard disk temperature inhomogeneous.

Summary of the invention

The invention provides a kind of three-dimensional air channel blade frame and cabinet, in order to reduce the cost of described storage blade server, improve radiating efficiency.

A kind of three-dimensional air channel blade frame is provided, and described three-dimensional air channel blade frame comprises header board, rear plate, left plate, right panel, base plate and top board; Described rear plate and described header board are oppositely arranged, and described left plate and described right panel are oppositely arranged, and described base plate and described top board are oppositely arranged; Described three-dimensional air channel blade frame is provided with a drift angle disappearance portion;

Described three-dimensional air channel blade frame also comprises the first dividing plate, second partition, the 3rd dividing plate, the 4th dividing plate and the 5th dividing plate;

Described right panel, described the first dividing plate, described second partition and described left plate be arranged in parallel successively; Described the first dividing plate and described rear plate are established space, and described the first dividing plate is connected with described top board, described base plate and described header board; Described second partition is connected with described top board, described base plate, described header board and described rear plate, and the part junction vacancy of described second partition and described rear plate and described base plate; Described three-dimensional air channel blade frame is divided into the first aerated area, the second aerated area and the 3rd aerated area along direction from right to left;

Described the 3rd dividing plate is parallel to be located between described header board and described rear plate, and the both ends of the surface up and down of described the 3rd dividing plate connect respectively described top board and described base plate; The left and right end face of described the 3rd dividing plate connects respectively the end face of described the first dividing plate, and the end face of described right panel; Described the 3rd dividing plate and described header board, described right panel, described the first dividing plate, described top board and described base plate form described the first aerated area; In described the first aerated area, described right panel and the equal perforate of described base plate, the first air-flow is through described right panel air intake, through described base plate air-out;

Described the 4th dividing plate is parallel to be located between described top board and described base plate; The end face of described the 4th dividing plate connects respectively described rear plate, described the 3rd dividing plate and described second partition; At grade, and four end faces of described the 3rd dividing plate connect respectively described second partition, described the 3rd dividing plate, described the 4th dividing plate and described base plate for described the 5th dividing plate and described the 3rd dividing plate; Described the 4th dividing plate and described the 5th dividing plate, described the 3rd dividing plate, described rear plate, described top board, described the first dividing plate and described second partition and described base plate form described the second aerated area; Described the 4th dividing plate is separated to form the first air intake passage and the second air intake passage by described drift angle disappearance portion; In described the second aerated area, described the 4th dividing plate and described the 3rd dividing plate, described top board and described rear plate form described the first air intake passage; Described header board perforate, the second air-flow is through described the first air intake passage air intake, through described header board air-out;

Described top board, described base plate, described header board, described rear plate, described second partition, described left plate form described the 3rd aerated area; In described the 3rd aerated area, described header board perforate; The 3rd air-flow is through described the second air intake passage air intake, through described header board air-out.

In the possible implementation of the first, described rear plate and described base plate are all L-type;

Described top board is divided into: the top board first area of described top board on described the first aerated area, the top board second area that be L-type of described top board on described the second aerated area, and top board three region of described top board on described the 3rd aerated area;

Described rear plate is divided into: the rear plate first area of described rear plate on described the second aerated area, and the rear plate second area of described rear plate on described the 3rd aerated area;

Described base plate, described top board first area, described the first dividing plate and described the 3rd dividing plate are integrally formed structure.

In conjunction with the possible implementation of the first, in the possible implementation of the second, described top board second area, described rear plate first area, described second partition, described the 4th dividing plate and described the 5th dividing plate are integrally formed structure.

In conjunction with the possible implementation of the second, in the third possible implementation, described top board the 3rd region, described rear plate second area and described left plate are integrally formed structure.

In the 4th kind of possible implementation, described header board is structure as a whole on described the first aerated area, described the second aerated area and described the 3rd aerated area, and only on described the first aerated area, seals.

In the 5th kind of possible implementation, described header board, on described the first aerated area, described the second aerated area and described the 3rd aerated area, is established the hard disk connector of even interval stationary arrangement, and described hard disk connector is for connecting hard disk to be dispelled the heat.

In the 6th kind of possible implementation, in described the second aerated area, establish some the first deep beads, described the first deep bead is used for adjusting described the second air flow direction.

In the 7th kind of possible implementation, in described the 3rd aerated area, establish some the second deep beads, described the second deep bead is used for adjusting described the 3rd air flow direction.

In addition, the embodiment of the present invention also provides a kind of cabinet, comprises cover plate, coaming plate and above-mentioned three-dimensional air channel blade frame; It is a tubular box that described cover plate engages with described coaming plate, and described three-dimensional air channel blade frame is fixed in described tubular box, and described base plate and described header board all arrange gap with described tubular box; Through described first air-flow of described base plate air-out, described the second air-flow and described the 3rd air-flow through described header board air-out, all converge at behind described gap, from the side of described left plate, discharges.

In the possible implementation of the first, described top board and the parallel corresponding setting of cover plate; Described coaming plate is U-shaped groove shape; Described header board, described base plate, described rear plate be spliced into U-shaped after, setting corresponding to described coaming plate.

The described cabinet that the embodiment of the present invention provides, has adopted in described the first aerated area, and described the first air-flow, through described right panel air intake, through described base plate air-out, then converges at described gap location, and discharges in described left plate periphery.In described the second aerated area, described the second air-flow, through described the first air intake passage air intake, through described header board air-out, then converges at described gap location, and discharges in described left plate periphery.In described the 3rd aerated area, through described the second air intake passage air intake, through described header board air-out, then converge at described gap location, and discharge in described left plate periphery.

To sum up, the described cabinet that the embodiment of the present invention provides, space is compact, can adopt cable mode place of flexible PCB structure, has reduced cost of products.And eliminated the problem of described Hard disk heat radiation cascade, avoided described hard disk temperature uneven.Thereby realized the high efficiency heat radiation of high density hard disk storage box, promoted the competitive power of described cabinet.

Accompanying drawing explanation

In order to be illustrated more clearly in technical scheme of the present invention, to the accompanying drawing of required use in embodiment be briefly described below, apparently, accompanying drawing in the following describes is only some embodiments of the present invention, for those of ordinary skills, do not paying under the prerequisite of creative work, can also obtain according to these accompanying drawings other accompanying drawing.

Fig. 1 is the decomposition texture schematic diagram of the cabinet that provides of the embodiment of the present invention;

Fig. 2 is the structural representation of the three-dimensional air channel blade frame at the first visual angle of providing of the embodiment of the present invention;

Fig. 3 is the structural representation of the three-dimensional air channel blade frame at the second visual angle of providing of the embodiment of the present invention;

Fig. 4 is the structural representation of the three-dimensional air channel blade frame at the 3rd visual angle that provides of the embodiment of the present invention;

Fig. 5 is the decomposing schematic representation of the three-dimensional air channel blade frame that provides of the embodiment of the present invention;

Fig. 6 is the structural representation of part the second aerated area of providing of the embodiment of the present invention;

Fig. 7 is the structural representation of one's duty the 3rd aerated area that provides of the embodiment of the present invention.

Embodiment

Below in conjunction with the accompanying drawing in the embodiment of the present invention, the technical scheme in the embodiment of the present invention is clearly and completely described, obviously, described embodiment is only the present invention's part embodiment, rather than whole embodiment.Embodiment based in the present invention, those of ordinary skills, not making the every other embodiment obtaining under creative work prerequisite, belong to the scope of protection of the invention.

Referring to Fig. 1 and Fig. 2, the embodiment of the present invention provides a kind of cabinet 200, and described cabinet 200 comprises cover plate 120, coaming plate 130 and three-dimensional air channel blade frame 100.It is a tubular box that described cover plate 120 engages with described coaming plate 130, and described three-dimensional air channel blade frame 100 is fixed in described tubular box.Described three-dimensional air channel blade frame 100 connects hard disk (not shown) for storing, and described hard disk is carried out to radiating treatment.Referring to Fig. 2 and Fig. 3, described three-dimensional air channel blade frame 100 comprises header board 10, rear plate 20, left plate 30, right panel 40, base plate 50 and top board 60.Described rear plate 20 is oppositely arranged with described header board 10, and described left plate 30 and described right panel 40 are oppositely arranged, and described base plate 50 and described top board 60 are oppositely arranged.Described header board 10, rear plate 20, left plate 30, right panel 40, base plate 50 and top board 60 form a hexahedron frame, and described three-dimensional air channel blade frame 100 is provided with a drift angle disappearance portion 160.

In described cabinet 200, described base plate 50 and described header board 10 all arrange gap (not shown) with described tubular box.Through the first air-flow of described base plate 50 air-out, the second air-flow and the 3rd air-flow through described header board 10 air-out, all converge at behind described gap, from the side of described left plate 30, discharges.

In present embodiment, described top board 60 and the parallel corresponding setting of cover plate 120.Described coaming plate 130 is U-shaped groove shape; Described header board 10, described base plate 50, described rear plate 20 be spliced into U-shaped after, with the corresponding setting of described coaming plate 130.In other embodiments, described top board 60 can all be U-shaped with described coaming plate 130, is spliced to form described tubular box.

Described three-dimensional air channel blade frame 100 comprises the first dividing plate 70, second partition 80, the 3rd dividing plate 90, the 4th dividing plate 91 and the 5th dividing plate 81.

Described right panel 40, described the first dividing plate 70, described second partition 80 and described left plate 30 be arranged in parallel successively.Described the first dividing plate 70 is established space with described rear plate 20, and described the first dividing plate 70 is connected with described top board 60, described base plate 50 and described header board 10.Described second partition 80 is connected with described top board 60, described base plate 50, described header board 10 and described rear plate 20, and the part junction vacancy of described second partition 80 and described rear plate 20 and described base plate 50.Described three-dimensional air channel blade frame 100 is divided into the first aerated area, the second aerated area and the 3rd aerated area along direction from right to left.

Comprehensively, referring to Fig. 3 and Fig. 4, described the 3rd dividing plate 90 is parallel to be located between described header board 10 and described rear plate 20, and the both ends of the surface up and down of described the 3rd dividing plate 90 connect respectively described top board 60 and described base plate 50.The left and right end face of described the 3rd dividing plate 90 connects respectively the end face of described the first dividing plate 70, and the end face of described right panel 40.Described the 3rd dividing plate 90 forms described the first aerated area with described header board 10, described right panel 40, described the first dividing plate 70, described top board 60 and described base plate 50.In described the first aerated area, described right panel 40 and the equal perforate of described base plate 50, described the first air-flow is through described right panel 40 air intakes, through described base plate 50 air-out.

Described the 4th dividing plate 91 is parallel to be located between described top board 60 and described base plate 50.The end face of described the 4th dividing plate 91 connects respectively described rear plate 20, described the 3rd dividing plate 90 and described second partition 80.At grade, and four end faces of described the 3rd dividing plate connect respectively described second partition, described the 3rd dividing plate, described the 4th dividing plate and described base plate for described the 5th dividing plate 81 and described the 3rd dividing plate; Described the 4th dividing plate 91 forms described the second aerated area with described the 5th dividing plate 81, described the 3rd dividing plate 90, described rear plate 20, described top board 60, described the first dividing plate 70 and described second partition 80 and described base plate 50.Described the 4th dividing plate 91 is separated to form the first air intake passage 92 and the second air intake passage 93 by described drift angle disappearance portion 160.In described the second aerated area, described the 4th dividing plate 91 forms described the first air intake passage 92 with described the 3rd dividing plate 90, described top board 60 and described rear plate 20.Described header board 10 perforates, described the second air-flow is through described the first air intake passage 92 air intakes, through described header board 10 air-out.

Described top board 60, described base plate 50, described header board 10, described rear plate 20, described second partition 80, described left plate 30 form described the 3rd aerated area.In described the 3rd aerated area, described header board 10 perforates.Described the 3rd air-flow is through described the second air intake passage 93 air intakes, through described header board 10 air-out.

Referring to Fig. 5, in the present embodiment, described top board 60, described rear plate 20 are not whole flat boards, but have plurality of plates face to be spliced.Described rear plate 20 and described base plate 50 are all L-type.

Concrete, described top board 60 is divided into: the top board first area 61 of described top board 60 on described the first aerated area, the top board second area 62 that be L-type of described top board 60 on described the second aerated area, and top board three region 63 of described top board 60 on described the 3rd aerated area.

Described rear plate 20 is divided into: the rear plate first area 21 of described rear plate 20 on described the second aerated area, and the rear plate second area 22 of described rear plate 20 on described the 3rd aerated area.

And described base plate 50, described top board first area 61, described the first dividing plate 70 and described the 3rd dividing plate 90 are integrally formed structure.Described top board second area 62, described rear plate first area 21, described second partition 80, described the 4th dividing plate 91 and described the 5th dividing plate 81 are integrally formed structure.Described top board the 3rd region 63, described rear plate second area 22 and described left plate 30 are integrally formed structure.

Described header board 10 is structure as a whole on described the first aerated area, described the second aerated area and described the 3rd aerated area, and only on described the first aerated area, seals.

Described header board 10, on described the first aerated area, described the second aerated area and described the 3rd aerated area, is established the hard disk connector 11 of even interval stationary arrangement, and described hard disk connector 11 is for connecting hard disk to be dispelled the heat.

By above three integrative-structure pieces, described header board 10 and 40 splicings of described right panel, can be assembled into described three-dimensional air channel blade frame 100.

Referring to Fig. 6 and Fig. 7,, in order to increase the radiating efficiency of described three-dimensional air channel blade frame 100, the embodiment of the present invention is also established some the first deep beads 140 in described the second aerated area.Described the first deep bead 140 is for adjusting described the second air flow direction.And in described the 3rd aerated area, establish some the second deep beads 150, described the second deep bead 150 is for adjusting described the 3rd air flow direction.

To sum up, the described cabinet 200 that the embodiment of the present invention provides, has adopted in described the first aerated area, and described the first air-flow, through described right panel 40 air intakes, through described base plate 50 air-out, then converges at described gap location, and discharges in described left plate 30 peripheries.In described the second aerated area, described the second air-flow, through described the first air intake passage 92 air intakes, through described header board 10 air-out, then converges at described gap location, and discharges in described left plate 30 peripheries.In described the 3rd aerated area, through described the second air intake passage 93 air intakes, through described header board 10 air-out, then converge at described gap location, and discharge in described left plate 30 peripheries.

To sum up, the described cabinet 200 that the embodiment of the present invention provides, space is compact, can adopt cable mode place of flexible PCB structure, has reduced cost of products.And eliminated the problem of described Hard disk heat radiation cascade, avoided described hard disk temperature uneven.Thereby realized the high efficiency heat radiation of high density hard disk storage box, promoted the competitive power of described cabinet 200.

Finally it should be noted that: above embodiment only, in order to technical scheme of the present invention to be described, is not intended to limit; Although the present invention is had been described in detail with reference to previous embodiment, those of ordinary skill in the art is to be understood that: its technical scheme that still can record aforementioned each embodiment is modified, or part technical characterictic is wherein equal to replacement; And these modifications or replacement do not make the essence of appropriate technical solution depart from the spirit and scope of various embodiments of the present invention technical scheme.

Claims (10)

1. a three-dimensional air channel blade frame, is characterized in that, described three-dimensional air channel blade frame comprises header board, rear plate, left plate, right panel, base plate and top board; Described rear plate and described header board are oppositely arranged, and described left plate and described right panel are oppositely arranged, and described base plate and described top board are oppositely arranged; Described three-dimensional air channel blade frame is provided with a drift angle disappearance portion;

Described three-dimensional air channel blade frame also comprises the first dividing plate, second partition, the 3rd dividing plate, the 4th dividing plate and the 5th dividing plate;

Described right panel, described the first dividing plate, described second partition and described left plate be arranged in parallel successively; Described the first dividing plate and described rear plate are established space, and described the first dividing plate is connected with described top board, described base plate and described header board; Described second partition is connected with described top board, described base plate, described header board and described rear plate, and the part junction vacancy of described second partition and described rear plate and described base plate; Described three-dimensional air channel blade frame is divided into the first aerated area, the second aerated area and the 3rd aerated area along direction from right to left;

Described the 3rd dividing plate is parallel to be located between described header board and described rear plate, and the both ends of the surface up and down of described the 3rd dividing plate connect respectively described top board and described base plate; The left and right end face of described the 3rd dividing plate connects respectively the end face of described the first dividing plate, and the end face of described right panel; Described the 3rd dividing plate and described header board, described right panel, described the first dividing plate, described top board and described base plate form described the first aerated area; In described the first aerated area, described right panel and the equal perforate of described base plate, the first air-flow is through described right panel air intake, through described base plate air-out;

Described the 4th dividing plate is parallel to be located between described top board and described base plate; The end face of described the 4th dividing plate connects respectively described rear plate, described the 3rd dividing plate and described second partition; At grade, and four end faces of described the 3rd dividing plate connect respectively described second partition, described the 3rd dividing plate, described the 4th dividing plate and described base plate for described the 5th dividing plate and described the 3rd dividing plate; Described the 4th dividing plate and described the 5th dividing plate, described the 3rd dividing plate, described rear plate, described top board, described the first dividing plate and described second partition and described base plate form described the second aerated area; Described the 4th dividing plate is separated to form the first air intake passage and the second air intake passage by described drift angle disappearance portion; In described the second aerated area, described the 4th dividing plate and described the 3rd dividing plate, described top board and described rear plate form described the first air intake passage; Described header board perforate, the second air-flow is through described the first air intake passage air intake, through described header board air-out;

Described top board, described base plate, described header board, described rear plate, described second partition, described left plate form described the 3rd aerated area; In described the 3rd aerated area, described header board perforate; The 3rd air-flow is through described the second air intake passage air intake, through described header board air-out.

2. three-dimensional air channel as claimed in claim 1 blade frame, is characterized in that,

Described rear plate and described base plate are all L-type;

Described top board is divided into: the top board first area of described top board on described the first aerated area, the top board second area that be L-type of described top board on described the second aerated area, and top board three region of described top board on described the 3rd aerated area;

Described rear plate is divided into: the rear plate first area of described rear plate on described the second aerated area, and the rear plate second area of described rear plate on described the 3rd aerated area;

Described base plate, described top board first area, described the first dividing plate and described the 3rd dividing plate are integrally formed structure.

3. three-dimensional air channel as claimed in claim 2 blade frame, is characterized in that, described top board second area, described rear plate first area, described second partition, described the 4th dividing plate and described the 5th dividing plate are integrally formed structure.

4. three-dimensional air channel as claimed in claim 3 blade frame, is characterized in that, described top board the 3rd region, described rear plate second area and described left plate are integrally formed structure.

5. three-dimensional air channel as claimed in claim 1 blade frame, is characterized in that, described header board is structure as a whole on described the first aerated area, described the second aerated area and described the 3rd aerated area, and only on described the first aerated area, seals.

6. three-dimensional air channel as claimed in claim 1 blade frame, it is characterized in that, described header board, on described the first aerated area, described the second aerated area and described the 3rd aerated area, is established the hard disk connector of even interval stationary arrangement, and described hard disk connector is for connecting hard disk to be dispelled the heat.

7. three-dimensional air channel as claimed in claim 1 blade frame, is characterized in that, establishes some the first deep beads in described the second aerated area, and described the first deep bead is used for adjusting described the second air flow direction.

8. three-dimensional air channel as claimed in claim 1 blade frame, is characterized in that, in described the 3rd aerated area, establishes some the second deep beads, and described the second deep bead is used for adjusting described the 3rd air flow direction.

9. a cabinet, comprises the three-dimensional air channel blade frame described in cover plate, coaming plate and claim 1～8 any one; It is a tubular box that described cover plate engages with described coaming plate, and described three-dimensional air channel blade frame is fixed in described tubular box, and described base plate and described header board all arrange gap with described tubular box; Through described first air-flow of described base plate air-out, described the second air-flow and described the 3rd air-flow through described header board air-out, all converge at behind described gap, from the side of described left plate, discharges.

10. cabinet as claimed in claim 9, is characterized in that, described top board and the parallel corresponding setting of cover plate; Described coaming plate is U-shaped groove shape; Described header board, described base plate, described rear plate be spliced into U-shaped after, setting corresponding to described coaming plate.

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