CN107102702B

CN107102702B - Screw-free design method for SSD (solid State disk) hard disk bracket

Info

Publication number: CN107102702B
Application number: CN201710287259.2A
Authority: CN
Inventors: 徐铭
Original assignee: Zhengzhou Yunhai Information Technology Co Ltd
Current assignee: Zhengzhou Yunhai Information Technology Co Ltd
Priority date: 2017-04-27
Filing date: 2017-04-27
Publication date: 2020-03-27
Anticipated expiration: 2037-04-27
Also published as: CN107102702A

Abstract

The invention discloses a screw-free design method for an SSD hard disk bracket. The specific method is as follows: First, pull the elastic limiter and put the hard disk into the slot between the upper and lower ribs of the hard disk bracket body, so that the right end of the hard disk is Hold the positioning block, then release the elastic limiter, and use the resilience of the elastic limiter to fix the hard disk in the slot between the elastic limiter and the positioning block. Compared with the prior art, the design of the integral bracket realizes the screw-free installation of the mounting bracket, which greatly increases the convenience of installation.

Description

Screw-free design method for SSD (solid State disk) hard disk bracket

Technical Field

The invention relates to the technical field of storage systems, in particular to a design method of a hard disk bracket of a storage product.

Background

With the development of cloud computing and big data, traditional businesses are brought to the cloud in many fields, and with the increase of the business volume, the storage and processing volume of data is continuously increased. The hard disk is the main medium for storage, and a bracket is needed to protect the internal structure of the hard disk and complete data transmission with a machine.

In a storage system, the insertion and extraction of a hard disk are carried by a hard disk bracket, and 2-4 screws are required to be locked to combine the hard disk and the bracket when the bracket is installed. The traditional hard disk bracket is inconvenient to install, disassemble and maintain. The elastic plastic and the tray structure are designed on the hard disk bracket, so that the stability of the hard disk is improved, and the screw-free effect is achieved.

Disclosure of Invention

The technical task of the invention is to provide a screw-free SSD hard disk bracket and a design method thereof aiming at the defects.

The technical scheme adopted by the invention for solving the technical problems is as follows: a screw-free SSD hard disk bracket comprises a bracket body, a positioning block and an elastic limiting piece; the positioning block is fixed on the bracket body, and two ends of the elastic limiting piece are fixed on the upper and lower retaining edges of the bracket body; the hard disk slot is surrounded by the positioning block, the elastic limiting part and the flanges at the upper side and the lower side.

Preferably, the elastic limiting piece is a rubber strip.

Preferably, the elastic limiting part comprises a clamping part, a bending part and a handheld part, the tail ends of the clamping parts at the two ends extend to be fixed on the upper and lower flanges of the bracket body respectively, the clamping parts at the two ends are connected through the bending part, and the handheld part is fixed in the middle of the bending part.

Preferably, the elastic limiting member is made of a plate-shaped elastic material.

Preferably, the clamping portion is bent inward to form at least one protrusion.

Preferably, the hand-held part is provided with an anti-slip layer.

Preferably, the hard disk is a 2.5-inch hard disk.

A screw-free design method for an SSD hard disk bracket comprises the steps of firstly pulling an elastic limiting part, placing a hard disk into a slot position between upper and lower flanges of a hard disk bracket body, enabling one end of the right side of the hard disk to abut against a positioning block, fixing the upper and lower sides of the hard disk by the upper and lower flanges of the bracket, then loosening the elastic limiting part, and fixing the hard disk in the slot position between the elastic limiting part and the positioning block by utilizing the resilience force of the elastic limiting part.

Preferably, the bracket leaves a hard board interface space for connecting the back board.

Compared with the prior art, the screw-free design method for the SSD hard disk bracket has the following beneficial effects:

1. the hard disk is fixed by combining the elastic limiting piece and the fixed positioning block, so that the screw-free effect is achieved;

2. clamping parts are arranged at two ends of the elastic limiting part to further fix the hard disk;

3. the arrangement of the plurality of protruding parts of the clamping part further enhances the fixing effect of the hard disk and increases the stability of the hard disk after being placed in the bracket;

4. when thrust is applied to the hard disk, the hard disk slides into the slot position, the mechanisms on the left side and the right side play a role in fixing the hard disk, the positioning block plays a role in supporting the hard disk, and when the hard disk is taken out, the hard disk can be taken out only by stretching the elastic structure on the left side of the hard disk in the direction of an arrow;

5. the design of whole bracket has realized exempting from the screw installation of installation bracket, greatly increased the simple and convenient degree of installation, improved work efficiency.

Drawings

The invention is further described below with reference to the accompanying drawings.

FIG. 1 is a schematic diagram of an SSD hard disk carrier;

FIG. 2 is a schematic structural view of a positioning block of an SSD hard disk carrier;

FIG. 3 is a schematic structural view of an elastic limiting member;

wherein:

1. a bracket body; 2. an upper flange; 3. a lower flange; 4. positioning blocks; 5. an elastic limiting part; 51. a clamping portion; 52. a bending section; 53. a hand-held portion; 54. a protrusion portion.

Detailed Description

The invention will be further described with reference to the accompanying drawings and specific embodiments,

example 1:

the invention relates to a screw-free SSD (solid State disk) bracket, which comprises a bracket body 1, a positioning block 4 and an elastic limiting piece 5; the positioning block 4 is fixed on the bracket body 1, and two ends of the elastic limiting piece 5 are fixed on the upper flange 2 and the lower flange 3 of the bracket body 1; the positioning block 4, the elastic limiting piece 5 and the upper and lower flanges enclose a hard disk slot.

Preferably, the elastic limiting member 5 is a rubber strip.

Example 2:

Preferably, the elastic limiting member 5 includes a clamping portion 51, a bending portion 52 and a holding portion 53, ends of the clamping portion 51 at two ends extend to be fixed to an upper rib and a lower rib of the bracket body 1, the clamping portions 51 at two ends are connected through the bending portion 52, and the holding portion 53 is fixed in the middle of the bending portion 52. The handle portion 53 is provided with an anti-slip layer. The elastic limiting piece 5 is made of a plate-shaped elastic material. The hard disk is a 2.5-inch hard disk.

A design method of a SSD hard disk bracket without screws comprises the steps of firstly pulling an elastic limiting part 5, placing a hard disk into a slot position between an upper retaining edge and a lower retaining edge of a hard disk bracket body 1, enabling one end of the right side of the hard disk to abut against a positioning block 4, fixing the upper side and the lower side of the hard disk by an upper retaining edge 2 and a lower retaining edge 3 of the bracket, then loosening the elastic limiting part 5, and fixing the hard disk in the slot position between the elastic limiting part 5 and the positioning block 4 by utilizing the resilience force of the elastic limiting part 5.

Preferably, the bracket body 1 leaves a hard board interface space for connecting a back board.

Example 3:

Preferably, the elastic limiting member 5 includes a clamping portion 51, a bending portion 52 and a holding portion 53, ends of the clamping portion 51 at two ends extend to be fixed to an upper rib and a lower rib of the bracket body 1, the clamping portions 51 at two ends are connected through the bending portion 52, and the holding portion 53 is fixed in the middle of the bending portion 52. The handle portion 53 is provided with an anti-slip layer. The elastic limiting piece 5 is made of a plate-shaped elastic material. The hard disk is a 2.5-inch hard disk. In order to further increase the stability of the hard disk after being placed into the bracket; the clamping portion 51 is bent inwardly to form a protrusion 54.

Example 4:

Preferably, the elastic limiting member 5 includes a clamping portion 51, a bending portion 52 and a holding portion 53, ends of the clamping portion 51 at two ends extend to be fixed to an upper rib and a lower rib of the bracket body 1, the clamping portions 51 at two ends are connected through the bending portion 52, and the holding portion 53 is fixed in the middle of the bending portion 52. The handle portion 53 is provided with an anti-slip layer. The elastic limiting piece 5 is made of a plate-shaped elastic material. The hard disk is a 2.5-inch hard disk. In order to further increase the stability of the hard disk after being placed into the bracket; the clip portion 51 is bent inwardly to form two projections 54.

The invention also comprises a screw-free design method of the SSD hard disk bracket, which comprises the steps of firstly pulling the elastic limiting piece 5, placing the hard disk into a groove position between the upper retaining edge and the lower retaining edge of the hard disk bracket body 1, enabling one end of the right side of the hard disk to prop against the positioning block 4, fixing the upper side and the lower side of the hard disk by the upper retaining edge 2 and the lower retaining edge 3 of the bracket, then loosening the elastic limiting piece 5, and fixing the hard disk in the groove position between the elastic limiting piece 5 and the positioning block 4 by utilizing the resilience force of the elastic limiting piece 5.

The invention realizes the screw-free installation of the installation bracket and greatly increases the simple and convenient degree of installation. A positioning block 4 is arranged below the bracket hard disk interface to increase the stability of the hard disk after being placed into the bracket; the hard disk is directly pushed into the hard disk bracket, when thrust is applied to the hard disk, the hard disk slides into the slot position, the mechanisms on the left side and the right side play a role in fixing the hard disk, and the bracket body 1 structure plays a role in supporting the hard disk. The hard disk can be taken out by simply pulling the elastic stopper 5 on the left side of the hard disk in the direction of the arrow.

The present invention can be easily implemented by those skilled in the art from the above detailed description. It should be understood, however, that the intention is not to limit the invention to the particular embodiments described. On the basis of the disclosed embodiments, a person skilled in the art can combine different technical features at will, thereby implementing different technical solutions.

Claims

1. A screw-free SSD hard disk bracket, characterized in that, the hard disk bracket comprises a bracket body, a positioning block and an elastic limiter; the positioning block is fixed on the bracket body, and both ends of the elastic limiter; It is fixed on the baffles on the upper and lower sides of the bracket body; the positioning block, the elastic limiter and the baffles on the upper and lower sides enclose the hard disk slot; the elastic limiter includes a clamping part, a bending part and a hand-held part The ends of the clamping parts at both ends are extended and fixed on the upper and lower sidewalls of the bracket body respectively, the clamping parts at both ends are connected by a bending part, and a hand-held part is fixed in the middle of the bending part.

2 . The screw-free SSD hard disk bracket according to claim 1 , wherein the elastic limiting member is a rubber strip. 3 .

3 . The screw-free SSD hard disk bracket according to claim 1 , wherein the elastic limiting member is made of a plate-shaped elastic material. 4 .

4 . The screw-free SSD hard disk bracket according to claim 1 , wherein the clamping portion is bent inward to form at least one protruding portion. 5 .

5 . The screw-free SSD hard disk bracket according to claim 1 , wherein an anti-skid layer is disposed on the handle portion. 6 .

6 . The screw-free SSD hard disk bracket of claim 1 , wherein the hard disk is a 2.5-inch hard disk. 7 .

7. A screw-free design method for an SSD hard disk bracket, characterized in that, firstly, the elastic limiter is pulled, and the hard disk is put into the slot between the upper and lower ribs of the hard disk bracket body, so that the right end of the hard disk Hold the positioning block, then release the elastic limiter, and use the resilience of the elastic limiter to fix the hard disk in the slot between the elastic limiter and the positioning block; the elastic limiter includes a clamping part, a For the bending part and the hand-holding part, the ends of the clamping parts at both ends extend and are respectively fixed on the upper and lower ribs of the bracket body;

8 . The method for designing a SSD hard disk bracket without screws according to claim 7 , wherein the bracket has a space for a hard board interface to connect to the backplane. 9 .