CN110308772B - Computer hard disk installation design - Google Patents

Abstract

The invention provides a computer hard disk installation design, which is used for installing a hard disk, two sides of the hard disk are respectively provided with two clamping holes, and the computer hard disk installation design comprises: the hard disk cage cover is provided with two first fixing structures, a first combining structure and a first clamping structure, wherein the hard disk is placed on the hard disk cage cover; the latch is fixed on the hard disk cage cover and is close to the other side of the hard disk, a convex edge is arranged on the latch, a second combination structure is arranged on the convex edge, the latch and the hard disk cage cover are fixed together through the first combination structure and the second combination structure, the latch comprises a fixing plate connected with the convex edge, two sides of the fixing plate respectively extend an elastic arm in a direction away from the fixing plate and slightly towards the first fixing structure, and the two elastic arms are respectively provided with a second clamping structure.

Description

Computer hard disk installation design

[ field of technology ]

The present invention relates to a computer hard disk mounting design, and more particularly, to a computer hard disk mounting design capable of improving mounting and dismounting efficiency.

[ background Art ]

The computer hard disk is the most main storage device of the computer, and is generally fixed at a specific position of the computer, and the fixing method is also various, so that the computer hard disk is fixed by directly locking a screw on the computer hard disk, and the fixing method is troublesome for a user to install or detach the hard disk and wastes time.

[ invention ]

The invention aims to provide a computer hard disk mounting design capable of improving mounting and dismounting efficiency.

In order to solve the above technical problems, a computer hard disk installation design for installing a hard disk, wherein two sides of the hard disk are respectively provided with two clamping holes and positions of the clamping holes on two sides are symmetrical, the computer hard disk installation design comprises:

the hard disk cage cover is provided with two first fixing structures, at least one first combining structure is arranged on the hard disk cage cover, the hard disk is arranged on the hard disk cage cover and is arranged between the two first fixing structures and the first combining structure, the two first fixing structures are also respectively provided with a first clamping structure corresponding to the position of the clamping hole on one side of the hard disk, the first combining structure is arranged on the other side close to the installed hard disk, and the first combining structure is separated from the installed hard disk by a preset distance; and

the latch is fixed on the hard disk cage cover and is close to the other side of the hard disk compared with the first fixing structure, the latch is made of an elastic material and is in an arc shape, a convex edge is arranged on the latch, at least one second combining structure is arranged on the convex edge, the position of the first combining structure corresponds to that of the second combining structure, the latch and the hard disk cage cover are fixed together through the first combining structure and the second combining structure, the latch comprises a fixing plate which is connected with the convex edge and is slightly perpendicular to each other, the fixing plate is separated from the hard disk by the preset distance, two sides of the fixing plate extend an elastic arm in a direction away from the fixing plate and slightly towards the first fixing structure, and the two elastic arms are respectively provided with a second clamping structure, and the position of the second clamping structure corresponds to that of the clamping hole on the other side of the hard disk.

When the latch is installed, the second combination structure on the latch corresponds to the first combination structure on the hard disk cage cover, and the second combination structure and the first combination structure are mutually matched through a first combination piece and the latch and the hard disk cage cover are fixed together, so that the latch is installed.

When the hard disk is installed on the hard disk cage cover, the clamping hole on one side of the hard disk is aligned with the first fixing structure on the hard disk cage cover, the first clamping structure on the first fixing structure is inserted into the clamping hole, and the first clamping structure is correspondingly matched with the clamping hole on one side of the hard disk. At this time, one side of the hard disk is arranged at the first fixing structure, the other side of the hard disk is tilted and is close to the latch, the latch has elasticity, the elastic arm can deform from an initial position which is not subjected to external force towards the force application direction to be far away from the initial position due to external force, after one side of the hard disk is arranged at the first fixing structure, the two elastic arms of the latch are respectively applied with external force away from the direction of the first fixing structure, the two ends of the elastic arm far away from the fixing plate move towards the direction away from the first fixing structure, when the elastic arm deforms to enable the two ends of the elastic arm to be away from the initial position by a certain distance, the second clamping structure on the elastic arm can not block the other side of the hard disk to move towards the direction close to the hard disk cage, the other side of the hard disk is not tilted any more and is placed between the latch and the first fixing structure, and the whole hard disk is arranged on the hard disk cage cover, the external force which deforms the elastic arm is removed, the elastic arm resists a restoring elastic force which is generated by the movement of the two ends of the elastic arm towards the initial position because the elastic arm is not stressed by the external force in the direction away from the first fixing structure, so that the two ends of the elastic arm move towards the initial position until the elastic arm is propped against the other side of the hard disk, and the elastic arm is in an installation position, wherein when the two ends of the elastic arm away from the fixing plate are in the initial position, compared with the first fixing structure which is in the installation position, the second clamping structure on the elastic arm of the latch is correspondingly inserted into the clamping hole on the other side of the hard disk to clamp the hard disk when the elastic arm is in the installation position, and the latch clamps the hard disk when the second clamping structure clamps the hard disk, the latch also can support against the hard disk under the elastic action of the restoring elastic force, so that the latch and the first fixing structure clamp the hard disk, and the hard disk is installed on the hard disk cage.

When the hard disk is dismounted, an external force in the direction away from the first fixing structure is firstly applied to the elastic arm, after the two ends of the elastic arm are kept away from the mounting position by a certain distance, the second clamping structure is separated from the corresponding clamping hole on the other side of the hard disk, the hard disk is separated from the clamping of the latch, the other side of the hard disk can be tilted in the direction away from the hard disk cage by applying an external force in the direction away from the hard disk cage, and the other side of the hard disk is lifted and simultaneously is moved in the direction away from the first fixing structure by applying an external force in order to ensure that the first clamping structure is separated from the clamping hole on the one side of the hard disk, so that the hard disk is completely separated from the mounting design of the hard disk of the computer.

The first combining piece which passes through the first combining structure and is matched with the first combining structure is only required to be pulled out of the first combining structure, and the latch is separated from the locking of the hard disk cage, so that the latch is disassembled.

Preferably, the two ends of the elastic arm of the latch far away from the fixing plate respectively extend towards the direction of the first fixing structure to form a first corner structure, and the two first fixing structures also respectively have a fixing body provided with the first clamping structure and a second corner structure extending from one end of the fixing body far away from the other first fixing structure towards the direction close to the latch, when the elastic arm is at the installation position, namely, the elastic arm, the first corner structure connected with the elastic arm, the fixing body and the second corner structure connected with the elastic arm respectively wrap the four corner edges of the hard disk around after the hard disk is installed on the hard disk cage, so as to strengthen and prevent the hard disk from moving towards a substrate parallel to the hard disk cage, wherein the first clamping structure and the second clamping structure are arranged on the substrate of the hard disk cage, and can prevent the hard disk from moving towards the direction far away from the hard disk cage and simultaneously prevent the hard disk from moving towards the extending direction parallel to the two sides, so that the hard disk can not shake in the process of installing the hard disk in a computer or in the design of not causing the computer.

Preferably, a blocking piece is further disposed on the hard disk cage cover corresponding to the elastic arm, and compared with the first fixing structure, the blocking piece is disposed on the hard disk cage cover at a position close to the latch, and the elastic arm of the latch is located between the blocking piece and the first fixing structure, in a process of mounting or dismounting the hard disk, the elastic arm is subjected to an external force away from the first fixing structure to deform the elastic arm of the latch, and when the two ends of the elastic arm away from the fixing plate move in a direction away from the first fixing structure, the two ends of the elastic arm away from the fixing plate cannot move in a direction away from the first fixing structure again due to the fact that the elastic arm contacts the blocking piece, so that the two blocking pieces have a limiting effect on the elastic arm in a direction away from the first fixing structure, and damage caused by overlarge deformation of the latch is prevented.

Preferably, the first combining member included in the second combining structure may be a hook, and the hook is integral with the convex edge, that is, the second combining structure includes the first combining member extending from the convex edge directly to the corresponding first combining structure, that is, the hook, and the first combining structure and the second combining structure are mutually matched through the hook of the second combining structure to be buckled together, so as to fix the latch and the hard disk cage together.

Preferably, the first combining member included in the second combining structure may be detachably disposed on the convex edge, for example, a screw, a fastener, and a rivet, and may pass through the second combining structure and the first combining structure to fix the latch and the hard disk cage together, where the second combining structure further includes the second combining member corresponding to the first combining member, for combining the first combining member and the convex edge, for example, the second combining member is a screw hole corresponding to the screw, or the second combining member is a hole corresponding to one of the fastener and the rivet.

Compared with the prior art, the computer hard disk mounting design replaces the original mode of fixing the hard disk by using more screws, utilizes the characteristics of elastic materials matched with the structure of the latch to make an elastic structure, uses a clamping hook mode to fix the hard disk, reduces the use of screws, improves the original hard disk fixing design, and can complete the disassembly of the hard disk only by removing all the screws used for fixing the hard disk and directly screwing the screws on the hard disk one by one under the condition of only removing the hard disk.

[ description of the drawings ]

FIG. 1 is a schematic diagram of a computer hard disk installation design according to the present invention.

FIG. 2 is a schematic diagram showing a computer hard disk installation design according to the present invention.

FIG. 3 is a schematic diagram of a computer hard disk installation design according to the present invention.

FIG. 4 is a schematic diagram showing the installation design and completion of the computer hard disk installation according to the present invention.

[ detailed description ] of the invention

Referring to fig. 1 to 4, the present invention provides a computer hard disk installation design for installing a hard disk 1, wherein two clamping holes 11 are respectively provided on two sides of the hard disk 1 and positions of the clamping holes 11 on two sides are symmetrical, the computer hard disk installation design comprises:

a hard disk cage 2, two first fixing structures 21 are disposed on the hard disk cage 2, at least one first combining structure 22 (two first combining structures 22 are taken as examples in the following description), the hard disk 1 is disposed on the hard disk cage 2 and is installed between the two first fixing structures 21 and the two first combining structures 22, the two first fixing structures 21 are further provided with a first clamping structure 211 corresponding to the position of the clamping hole 11 on one side of the hard disk 1, the first combining structures 22 are disposed on the other side close to the installed hard disk 1, and the first combining structures 22 are separated from the installed hard disk 1 by a preset distance; and

a latch 3 fixed to the hard disk cage 2 and being in an arcuate shape of an elastic material, such as a plastic elastic material or a metal elastic material, as will be described below, the latch 3 being provided with a flange 31, at least one second coupling structure 32 (as will be described below) being provided on the flange 31, the position of the first coupling structure 22 corresponding to the position of the second coupling structure 32, and the second coupling structure 32 comprising a first coupling member 4, the first coupling member 4 being provided directly on the flange 31, i.e. the first coupling member 4 being integrally formed with the flange 31, the first coupling member 4 passing through the first coupling structure and cooperating with the first coupling structure to fix the latch 3 to the hard disk cage 2, the first coupling member 4 also being provided in a position corresponding to the position of the second coupling structure 32, as will be described below, in another embodiment, the first coupling member 4 being provided in a vertical position away from the first coupling member 4 and extending away from the first coupling plate 35, the first coupling member 35 being provided on the first coupling member 31, the first coupling member being provided at an angle away from the first coupling plate 35, the first coupling member being provided on the first coupling member 3 and the first coupling plate 35 being provided with a screw-shaped member, the first coupling member 4 being provided on the first coupling member being provided with the first coupling member 31 being integrally formed with the first coupling member, the two elastic arms 36 are respectively provided with a second clamping structure 33, and the position of the second clamping structure 33 corresponds to the position of the clamping hole 11 on the other side of the hard disk.

When the latch 3 is installed, the second combining structure 32 on the latch 3 corresponds to the first combining structure 22 on the hard disk cage 2, and the latch 3 and the hard disk cage 2 are fixed together through the mutual matching of the second combining structure 32 and the first combining structure 22, so as to finish the installation of the latch 3.

When the hard disk 1 is mounted on the hard disk cage 2, the clamping hole 11 on one side of the hard disk 1 is aligned with the first fixing structure 21 on the hard disk cage 2, and the first clamping structure 211 on the first fixing structure 21 is inserted into the clamping hole 11, and the first clamping structure 211 is correspondingly matched with the clamping hole 11 on one side of the hard disk 1. At this time, one side of the hard disk 1 is disposed at the first fixing structure 21, and the other side of the hard disk 1 is tilted and approaches the latch 3, the latch 3 has elasticity, and the elastic arm 36 can be deformed away from the initial position by an external force from an initial position which is not subjected to the external force toward the force application direction, after one side of the hard disk 1 is disposed at the first fixing structure 21, the two elastic arms 36 of the latch 3 are respectively applied with an external force in a direction away from the first fixing structure 21, for example, two hands are used to tilt the latch 3 away from the first fixing structure 21, the elastic arm 36 is deformed from an initial position which is not subjected to the external force toward the force application direction, and two ends of the elastic arm 36 are moved away from the first fixing structure 21, when the elastic arm 36 is opened so as to deform the two ends of the elastic arm 36 away from the initial position by a certain distance, the second clamping structure 33 on the elastic arm 36 does not block the other side of the hard disk 1 toward the direction approaching the cage 2, for example, the elastic arm 36 is moved away from the first fixing structure 21 by two hands, and then the elastic arm 36 is released from the two ends of the elastic arm 36 is moved away from the first fixing structure 21 by the initial position which is released from the elastic arm 3, and the elastic arm 36 is moved away from the first fixing structure 1 by the two ends of the elastic arm 36 which is moved away from the first fixing structure 21, the two ends of the elastic arm 36 are moved to the initial position until the elastic arm 36 is stopped against the other side of the hard disk 1, so that the elastic arm 36 is at a mounting position, wherein when the two ends of the elastic arm 36 away from the fixing plate 35 are at the initial position, the two ends of the elastic arm 36 are closer to the first fixing structure 21 than the mounting position, when the elastic arm 36 is at the mounting position, the second clamping structure 33 on the elastic arm 36 of the latch 3 is correspondingly inserted into the clamping hole 11 on the other side of the hard disk 1 to clamp the hard disk 1, and when the second clamping structure 33 clamps the hard disk 1, the latch 3 is also clamped against the hard disk 1 due to the elastic action of the restoring force, so that the latch 3 and the first fixing structure 21 clamp the hard disk 1, and the hard disk 1 is completely mounted on the hard disk cage 2.

When the hard disk 1 is detached, the elastic arm 36 is first applied with an external force in a direction away from the first fixing structure 21, for example, two hands are used to simultaneously detach the latch 3 in a direction away from the first fixing structure 21, after the latch 3 is detached to detach the two ends of the elastic arm 36 from the mounting position by another predetermined distance, the second clamping structure 33 is separated from the corresponding clamping hole 11 on the other side of the hard disk 1, the hard disk 1 is separated from the clamping of the latch 3, and the other side of the hard disk 1 can be lifted up in a direction away from the hard disk cage 2 by applying an external force in a direction away from the hard disk cage 2 to the other side of the hard disk 1, for example, an external force in a direction away from the hard disk cage 2 can be applied to the other side of the hard disk 1 by hand to pick up the other side of the hard disk 1 to detach the other side of the hard disk 1 from the hard disk cage 2, and then an external force in a direction away from the first fixing structure 21 is applied to the hard disk 1 when the other side of the hard disk 1 is lifted up, so that the other side of the hard disk 1 is separated from the first clamping structure 21 in a direction away from the first fixing structure 21, and the hard disk 1 is completely detached from the mounting structure 11.

The first coupling member 4 passing through the first coupling structure 22 and cooperating with the first coupling structure 22 is only required to be pulled away from the first coupling structure 22, and the latch 3 is disengaged from the hard disk cage 2, thereby completing the detachment of the latch 3.

In this embodiment, the two ends of the elastic arm 36 of the latch 3 far away from the fixing plate 35 extend towards the first fixing structure 21 respectively to form a first corner structure 34, and similarly, the two first fixing structures 21 also respectively have a fixing body (not shown) provided with the first clamping structure 211 and the second corner structure 23 extending from one end of the fixing body far away from the first fixing structure 21 towards the latch 3, and when the elastic arm 36 is at the mounting position, that is, the elastic arm 36 and the first corner structure 34 connected with the elastic arm and the fixing body and the second corner structure 23 connected with the fixing body respectively wrap the edges of four corners of the hard disk 1 after the hard disk 1 is mounted on the hard disk cage 2, so as to strengthen and block the hard disk 1 from moving towards a direction parallel to a substrate of the hard disk cage 2, wherein the first combining structure 22 is arranged on the substrate of the hard disk cage 2, and the first clamping structure 211 and the second clamping structure 33 can move away from the hard disk cage 1 in a direction parallel to the hard disk cage 1 or a direction parallel to the hard disk cage 1 when the hard disk 1 is mounted on the computer is not moved away from the hard disk cage 1.

In this embodiment, a blocking piece 24 is further disposed on the hard disk cage 2 corresponding to the elastic arm 36, and compared with the first fixing structure 21, the blocking piece 24 is disposed on the hard disk cage 2 at a position close to the latch 3, and the elastic arm 36 of the latch 3 is located between the blocking piece 24 and the first fixing structure 21, during the process of mounting or dismounting the hard disk 1 of the latch 3, the elastic arm 36 is applied with an external force away from the first fixing structure 21 to deform the elastic arm 36 of the latch 3, and when the two ends of the elastic arm 36 away from the fixing plate 35 move in a direction away from the first fixing structure 21, the two ends of the elastic arm 36 away from the fixing plate 35 cannot move in a direction away from the first fixing structure 21 again due to contact of the elastic arm 36 with the blocking piece 24, so that the two blocking pieces 24 have a limiting effect on the elastic arm 36 in a direction away from the first fixing structure 21, so as to prevent the latch 3 from being damaged due to excessive deformation.

In this embodiment, the first connecting member 4 included in the second connecting structure 32 may be a hook, which is integral with the flange 31, that is, the second connecting structure 32 includes the first connecting member 4 extending from the flange 31 directly toward the corresponding first connecting structure 22, that is, the hook, so that the first connecting structure 22 and the second connecting structure 32 are engaged with each other through the hook of the second connecting structure 32, thereby fixing the latch 3 and the hard disk cage 2 together.

In this embodiment, the first engaging member 4 included in the second engaging structure 32 may be detachably disposed on the flange 31, for example, a screw, a fastener, and a rivet, and can pass through the second engaging structure 32 and the first engaging structure 22 to fix the latch 3 and the hard disk cage 2 together, wherein the second engaging structure 32 further includes a second engaging member corresponding to the first engaging member 4 for engaging the first engaging member 4 with the flange 31, for example, the second engaging member is a screw hole corresponding to the screw, or the second engaging member is a hole corresponding to one of the fastener and the rivet.

In summary, according to the computer hard disk mounting design of the present invention, the design of the latch 3 replaces the original mode of fixing the hard disk 1 with more screws, the structure of the latch 3 is utilized to match the characteristics of the elastic material to make an elastic structure, the hard disk 1 is fixed in a clamping hook mode, the use of screws is reduced, meanwhile, the original hard disk fixing design is improved, and under the condition of only dismantling the hard disk, all the screws for fixing the hard disk are required to be dismantled one by one, so that the hard disk can be dismantled, therefore, the use of screws is reduced, and the time of locking and dismantling the screws is reduced, so that the hard disk can be more quickly mounted and dismantled, the work efficiency is improved, and the installation and the dismantling of a user are more convenient and easy.

The foregoing is merely illustrative of the present invention, and the present invention is not limited thereto, and any person skilled in the art will readily recognize that variations or substitutions are within the scope of the present invention. Therefore, the protection scope of the invention is subject to the protection scope of the claims.

Claims (7)

1. The utility model provides a computer hard disk installation design for install a hard disk, the both sides of this hard disk set up two card holes respectively and the position of this card hole in both sides is symmetrical, its characterized in that, this computer hard disk installation design includes:

the hard disk cage cover is provided with two first fixing structures, at least one first combining structure is arranged on the hard disk cage cover, the hard disk is arranged on the hard disk cage cover and is arranged between the two first fixing structures and the first combining structure, the two first fixing structures are also respectively provided with a first clamping structure corresponding to the position of the clamping hole on one side of the hard disk, the first clamping structure is used for being inserted into the corresponding clamping hole when the hard disk is arranged, and the first combining structure is arranged on the other side close to the hard disk to be arranged; and

a latch fixed on the hard disk cage and made of elastic material, a convex edge arranged on the latch, at least a second combining structure arranged on the convex edge, the first combining structure corresponding to the second combining structure, the latch and the hard disk cage fixed together by the first combining structure and the second combining structure, a fixing plate connected with the convex edge and having a slight vertical angle with the convex edge, two sides of the fixing plate respectively extend an elastic arm far away from the fixing plate and slightly toward the first fixing structure, the two elastic arms are respectively provided with a second clamping structure, the second clamping structure is corresponding to the clamping hole on the other side of the hard disk, the second clamping structure is used for being inserted into the corresponding clamping hole when the hard disk is installed, two ends of the elastic arm of the latch respectively extend towards a first folding structure in a direction far away from the first fixing structure, two sides of the fixing plate respectively extend towards a first folding structure in a direction far away from the first fixing structure, two clamping structures are respectively arranged at two sides of the fixing structure are respectively far away from the first folding structure and the fixing structure, two latching structures are respectively arranged at two sides of the fixing structure are far away from the fixing structure,

when the elastic arm is at an installation position, namely, the elastic arm, the first folding angle structure connected with the elastic arm, the fixed body and the second folding angle structure connected with the fixed body respectively and correspondingly wrap the four corner edges of the hard disk after the hard disk is installed on the hard disk cage cover.

2. The hard disk mounting design of claim 1, wherein a blocking piece is further disposed on the hard disk cage corresponding to the elastic arms, the blocking piece is disposed on the hard disk cage at a position close to the latch, and the elastic arms of the latch are disposed between the blocking piece and the first fixing structure.

3. The computer hard disk mounting design of claim 2, wherein when the latch is mounted or dismounted, an external force is applied to the elastic arm away from the first fixing structure to deform the elastic arm of the latch, and the two ends of the elastic arm away from the fixing plate move in a direction away from the first fixing structure, when the elastic arm contacts the blocking piece, the two ends of the elastic arm away from the fixing plate are limited by the blocking piece and cannot move in a direction away from the first fixing structure.

4. The computer hard disk mounting design of claim 1, wherein the second coupling structure comprises a first coupling member, the second coupling structure being configured to cooperate with the first coupling structure to secure the latch and the hard disk cage together.

5. The computer hard disk mounting design of claim 4, wherein the first coupling member is integral with the flange, i.e., extends from the flange directly to the corresponding first coupling structure, and connects the first coupling structure and the second coupling structure by the first coupling member mating with the first coupling structure, thereby securing the latch and the hard disk enclosure together.

6. The computer hard disk mounting design of claim 4, wherein the first coupling member is detachably disposed on the flange and the first coupling member and the second coupling member are coupled together by the first coupling member and the first coupling member cooperating to secure the latch and the hard disk cage together.

7. The computer hard disk mounting design of claim 6, wherein the second coupling structure further comprises a second coupling member corresponding to the first coupling member, the second coupling member being configured to secure the detachable first coupling member to the flange.