CN203720747U

CN203720747U - High-density symmetric extending storage node

Info

Publication number: CN203720747U
Application number: CN201420035868.0U
Authority: CN
Inventors: 牛占林
Original assignee: Inspur Electronic Information Industry Co Ltd
Current assignee: Inspur Electronic Information Industry Co Ltd
Priority date: 2014-01-21
Filing date: 2014-01-21
Publication date: 2014-07-16
Anticipated expiration: 2024-01-21

Abstract

A high-density symmetric extending storage node comprises an integrally-designed rectangular node holding plate and a front panel arranged at the front end of the node holding plate, a hot swappable hard disk blackplane is longitudinally arranged in the middle of the node holding plate, transversely-arranged hot swappable hard disk supports are respectively arranged on two sides of the node holding plate, are used for assembling hard disks, are symmetrical about the hot swappable hard disk blackplane and are arrayed tightly. The high-density symmetric extending storage node is symmetrical in structure and novel in design, node large storage and hard disk hot swappable functions are realized, node storage capacity is increased significantly, and the storage applying function of products is improved; data lines connecting the hard disks and the hot swappable hard disk blackplane in a data manner are short, cost is saved, and disordered line arrangement due to excessively long data lines is avoided.

Description

High density symmetrical expression extension storage node

Technical field

The utility model relates to the memory technology of server node, is specifically related to a kind of high density symmetrical expression extension storage node.

Background technology

Along with the universal and application of computing machine in daily life work, document data can be processed on computers, the data collection or carry out recreation etc., the so just increasing computer storage capacity of needs of surfing the Net.For node server, in view of the application of scope and user's reality of its service, require memory capacity very huge especially, and the huge like this demand of the storage space of numerous nodes in conventional node server reply, seem unable to do what one wishes, be necessary very much to increase the storage space of each node, meet growing large storage demand.

In traditional server node, in node pallet such as 1U node, near the both sides of node pallet, one row hard disk is respectively set, these hard disks are to be all longitudinally arranged in node pallet, the front end of a hard disk is brought in placement after near another hard disk, in the node pallet of 1U node, full configuration could be installed 8 hard disks conventionally like this, has limited the memory capacity of server node, does not make full use of space in node pallet more hard disks are installed.

Utility model content

The weak point that the utility model exists for prior art, discloses a kind of high density symmetrical expression extension storage node reasonable in design.

The utility model discloses high density symmetrical expression extension storage node, its technical scheme that solve the technical problem employing is as follows: described extension storage node comprises the rectangle node pallet of integrated design and is arranged on the front panel of described node pallet front end, at the middle part of described node pallet, one hot-plug hard disk backboard is longitudinally set, the horizontal hot-plug hard disk bracket of one row is set respectively in the both sides of described node pallet, described hot-plug hard disk bracket is used for installing hard disk, described two row hot-plug hard disk brackets are about described hot-plug hard disk backboard symmetry, described every row hot-plug hard disk bracket close-packed arrays.

Further, described node pallet comprises a rectangular base plate and the vertical two side gusset side plates that extend to form upwards from node base plate both sides, described hot-plug hard disk backboard is vertically set on the middle part of described node base plate, and described hot-plug hard disk backboard is parallel to described node side plate.

Further, described hot-plug hard disk bracket comprises front end fixed head and both sides fixed head, the front end fixed head of described hot-plug hard disk bracket is fixed on described node side plate, and described hard disk is arranged in described hot-plug hard disk bracket by the both sides side plate of hot-plug hard disk bracket.

Further, corresponding described hot-plug hard disk bracket, in described node pallet, a hard disk fixing bracket is also set, the side plate of described hot-plug hard disk bracket is fixedly connected with described hard disk fixing bracket, the bottom of described hard disk fixing bracket is fixed on described node base plate, and one end of described hard disk fixing bracket is fixed on described hot-plug hard disk backboard.

Further, corresponding each hot-plug hard disk bracket is provided with hard disk interface on described hot-plug hard disk backboard, is connected with described hot-plug hard disk backboard data by hard disk described in described hard disk interface.

Further, on described front panel, be provided with the handle of being convenient to pull or guiding and supporting described extension storage node.

Further, described extension storage node is 1U server node, and described hot-plug hard disk backboard symmetria bilateralis is provided with 12 described hot-plug hard disk brackets, is provided with six described hot-plug hard disk brackets in 1U half wide node.

The beneficial effect that the disclosed high density symmetrical expression of the utility model extension storage node has is: use described high density symmetrical expression extension storage node, can be in limited node space the multiple hard disks of high-density installation, significantly improve the memory capacity of node, improve the storage application function of product, and hard disk is shorter with the data line that hot-plug hard disk backboard data are connected, not only provides cost savings expense but also avoided the phenomenon of the long cabling confusion causing of data line; This extension storage design of node novelty, structural symmetry are simple, have realized the high storage of node, hard disk hot-plug function, have good popularizing value.

Brief description of the drawings

Accompanying drawing 1 is the structural representation of described high density symmetrical expression extension storage node;

Accompanying drawing mark explanation: 1, node pallet; 11, node base plate; 12, node side plate; 2, front panel; 3, hot-plug hard disk backboard; 31, hard disk interface; 4, hot-plug hard disk bracket; 41, front end fixed head, 42, both sides fixed head; 5, hard disk fixing bracket.

Embodiment

Below in conjunction with accompanying drawing, the disclosed high density symmetrical expression of the utility model extension storage node is described in further details.

High density symmetrical expression extension storage node described in the utility model, its structure as shown in Figure 1, described extension storage node comprises node pallet 1, the front end of described node pallet 1 is provided with the front panel 2 with push and pull bar, described node pallet 1 is the integrated design, comprise node base plate 11 and the vertical two side gusset side plates 12 that extend to form upwards from node base plate both sides, in described node pallet 1, be vertically arranged with hot-plug hard disk backboard 3, described hot-plug hard disk backboard 3 is vertically set on the middle part of described node base plate 11, and described hot-plug hard disk backboard 3 is parallel to described node side plate 12, described like this hot-plug hard disk backboard is by the symmetrical described node Liang Ge hard-disc storage district that is divided into, in described hard-disc storage district horizontally set several hot-plug hard disk brackets 4, described hot-plug hard disk bracket 4 comprises front end fixed head 41 and both sides fixed head 42, the front end fixed head 41 of described hot-plug hard disk bracket is fixed on described node side plate 12, and the both sides fixed head 42 of described hot-plug hard disk bracket is for Fixed disk, and corresponding each hot-plug hard disk bracket respectively arranges a hard disk interface 31 on described hot-plug hard disk backboard 3, carries out data be connected by hard disk described in described hard disk interface with hot-plug hard disk backboard.

The optimal design of high density symmetrical expression extension storage node described in the utility model is: described several hot-plug hard disk brackets are divided into two row, this two row hot-plug hard disk bracket is symmetricly set on the both sides of described node pallet about described hot-plug hard disk backboard, in every row hot-plug hard disk bracket, between adjacent two hot-plug hard disk brackets, a hard disk fixing bracket is also set, the side plate of described hot-plug hard disk bracket is fixedly connected with described hard disk fixing bracket, the bottom of described hard disk fixing bracket is fixed on described node base plate, one end of described hard disk fixing bracket is fixedly connected with described hot-plug hard disk backboard, the utility model is by increasing described hard disk fixing bracket, make the installation of described hot-plug hard disk bracket in node pallet more firm, and then it is more firm to make to be arranged on the installation in node of hard disk in hot-plug hard disk bracket, and, while hard disk being installed in described hot-plug hard disk bracket, guarantee that the front end of described hard disk is towards described hot-plug hard disk backboard, hard disk interface on the described hot-plug hard disk backboard of the data-interface of hard disk front end distance is nearer like this, being convenient to hard-disk interface pegs graft, the data connecting line that hard disk uses is also shorter, has saved cost, can avoid the phenomenon of the cabling complexity causing because data connecting line is long simultaneously.

Embodiment: Fig. 1 is high density symmetrical expression extension storage node embodiment described in the utility model, described high density symmetrical expression extension storage node comprise the node pallet 1 of integrated design and be arranged on described in remember the front panel 2 of pallet front end, described front panel is provided with for pull node or guides and supports the handle of node, described node pallet 1 comprises a rectangle node base plate 11 and two side gusset side plates 12, described two side gusset side plates upwards vertically extend and form from described node base plate both sides, the hot-plug hard disk backboard 3 of one vertical and described node base plate 11 is set at the middle part of described node pallet 1, described hot-plug hard disk backboard 3 is parallel to described node side plate 12, on described two side gusset side plates 12, be fixedly installed respectively six hot-plug hard disk brackets 4, both sides hot-plug hard disk bracket 4 is about described hot-plug hard disk backboard 3 symmetries, and between adjacent two the hot-plug hard disk brackets of homonymy, a hard disk fixing bracket 5 is also set, the fixed head of described adjacent two hot-plug hard disk brackets is fixedly connected with described hard disk fixing bracket, one end of described hard disk fixing bracket 5 is fixed on described hot-plug hard disk backboard 3 simultaneously, its bottom is fixed on described node base plate.

In 1U server, use described highly dense symmetrical expression extension storage node, can in the limited space of node, 12 hard disks be installed, realized the object of the multiple hard disks of high-density installation in 1U half-breadth node space, significantly promoted the memory capacity of node.While hard disk being installed in described high density symmetrical expression extension storage node, the front end of described hard disk is towards described hot-plug hard disk backboard, described hard disk only need use shorter data connecting line just can be plugged on the hard disk interface of described hot-plug hard disk backboard, significantly reduce cost, avoided the problem of the cabling complexity causing because hard disc data connecting line is long simultaneously.

Except technical characterictic described in the utility model, be the known technology of those skilled in the art.

Above-described the utility model embodiment, does not form the restriction to the utility model protection domain.Any amendment of doing within spirit of the present utility model and principle, be equal to and replace and improvement etc., within all should being included in claim protection domain of the present utility model.

Claims

1. high density symmetrical expression extension storage node, comprise the rectangle node pallet and the front panel that is arranged on described node pallet front end of integrated design, it is characterized in that, described node pallet middle part longitudinally arranges a hot-plug hard disk backboard, described node pallet both sides arrange respectively the hot-plug hard disk bracket that row are laterally placed, described hot-plug hard disk bracket is used for installing hard disk, described two row hot-plug hard disk brackets are about described hot-plug hard disk backboard symmetry, described every row hot-plug hard disk bracket close-packed arrays.

2. extension storage node according to claim 1, it is characterized in that, described node pallet comprises a rectangular base plate and the vertical two side gusset side plates that extend to form upwards from node base plate both sides, described hot-plug hard disk backboard is vertically set on the middle part of described node base plate, and described hot-plug hard disk backboard is parallel to described node side plate.

3. extension storage node according to claim 2, it is characterized in that, described hot-plug hard disk bracket comprises front end fixed head and both sides fixed head, the front end fixed head of described hot-plug hard disk bracket is fixed on described node side plate, and described hard disk is arranged in described hot-plug hard disk bracket by the both sides side plate of hot-plug hard disk bracket.

4. extension storage node according to claim 3, it is characterized in that, corresponding described hot-plug hard disk bracket, in described node pallet, a hard disk fixing bracket is also set, the side plate of described hot-plug hard disk bracket is fixedly connected with described hard disk fixing bracket, the bottom of described hard disk fixing bracket is fixed on described node base plate, and one end of described hard disk fixing bracket is fixed on described hot-plug hard disk backboard.

5. extension storage node according to claim 1, it is characterized in that, corresponding each hot-plug hard disk bracket is provided with hard disk interface on described hot-plug hard disk backboard, is connected with described hot-plug hard disk backboard data by hard disk described in described hard disk interface.

6. extension storage node according to claim 1, is characterized in that, is provided with the handle of being convenient to pull or guiding and supporting described extension storage node on described front panel.

7. extension storage node according to claim 1, it is characterized in that, described extension storage node is 1U server node, and described hot-plug hard disk backboard symmetria bilateralis is provided with 12 described hot-plug hard disk brackets, is provided with six described hot-plug hard disk brackets in 1U half wide node.