CN219590736U - Hard disk mounting structure - Google Patents

Abstract

The utility model provides a hard disk mounting structure, which is used for mounting a hard disk body and comprises the following components: the bearing frame is internally provided with a plurality of mounting grooves; the bearing plate is arranged in the mounting groove in a sliding manner, and a mounting position for mounting the hard disk body is formed on the bearing plate; the fixing assembly comprises a pressing part and an adjusting part, the pressing part and the adjusting part are both arranged on the bearing plate in a sliding manner, and the adjusting part moves back and forth along a first direction so as to drive the pressing part to move oppositely or reversely along a second direction; wherein the first direction and the second direction are perpendicular to each other. The utility model is convenient for centralized management of a plurality of hard disk bodies, the connecting wires of the plurality of hard disk bodies can be bundled after the hard disk bodies are connected with the circuit, the disorder of the circuit in the case is avoided, the classified layout is carried out on each hardware area in the case, the case is tidier and more attractive, the traditional bolt fixing mode is replaced by the arrangement of the fixing component, and the installation and the disassembly are assisted without tools.

Description

Hard disk mounting structure

Technical Field

The utility model relates to the technical field of chassis accessories, in particular to a hard disk mounting structure.

Background

In the operation of a computer, a hard disk is used as a storage device to store data generated during the operation of the computer, and in order to ensure the stability of the operation of the hard disk, the hard disk is usually fixed in a chassis by a bolt connection mode. When the hard disk is installed in the prior art, the hole positions of the hard disk are required to be aligned with reserved hole positions of the chassis, a plurality of bolts are adjusted one by adopting a tool to fixedly install the hard disk on the panel of the chassis, the operation is complicated, and when data transfer or maintenance is carried out by means of the tool, the hard disk is required to be frequently disassembled, so that screw holes of the hard disk slide, and the hard disk cannot be installed; in addition, when a plurality of hard disks are installed in the chassis, the layout is more scattered, and the electrical connection wires in the chassis cannot be well laid out, so that the hard disk installation structure is provided to solve the problems.

Disclosure of Invention

Aiming at the defects existing in the prior art, the utility model provides a hard disk mounting structure, which solves the problems that the hard disk is mounted by a bolt in the prior art, the operation is complicated, tools are relied on, and the mounting mode also affects the internal layout of a case.

According to an embodiment of the present utility model, a hard disk mounting structure for mounting a hard disk body includes:

the bearing frame is provided with a plurality of mounting grooves;

the bearing plate is arranged in the mounting groove in a sliding manner;

the fixing assembly comprises a pressing part and an adjusting part, the pressing part and the adjusting part are both arranged on the bearing plate in a sliding manner, and the adjusting part moves back and forth along a first direction so as to drive the pressing part to move oppositely or reversely along a second direction;

wherein the first direction and the second direction are perpendicular to each other.

Preferably, the pressing portion includes:

the fixed blocks are oppositely arranged on the bearing plate, a clamping position for clamping the hard disk body is formed between the fixed blocks, and the two fixed blocks are slidably clamped on the bearing plate.

Preferably, the adjusting portion includes:

the two moving blocks are slidably clamped on the bearing plate, and the fixed block is abutted with the moving block;

the sliding block is positioned at the bottom end of the bearing plate and is fixedly connected between the two moving blocks;

the adjusting screw is rotatably arranged at the bottom end of the bearing plate and meshed with the sliding block.

Preferably, the fixing assembly further comprises:

the clamping block is arranged on the bearing plate in a sliding clamping manner and is fixedly connected with the fixing block;

and the extension spring is arranged between the bearing plate and the clamping block.

Preferably, a plurality of rubber strips are fixedly arranged on the fixed block.

Preferably, the bearing frame is provided with a positioning block, and the positioning block is provided with a positioning hole.

Preferably, the bearing plate is provided with a mounting block, the mounting block is fixedly provided with an elastic sheet, the mounting groove is internally provided with a locking groove, and the elastic sheet is meshed with or separated from the locking groove.

Compared with the prior art, the utility model has the following beneficial effects:

under the cooperation of loading frame, loading board and mounting groove, in the actual installation of hard disk body, can be according to the in-service use quantity of hard disk body with it install respectively to the installation position of different loading boards on for a plurality of hard disk bodies after the installation concentrate on the loading frame, not only conveniently carry out centralized management to a plurality of hard disk bodies, still can tie up the connecting wire of a plurality of hard disk bodies behind hard disk body connecting wire, avoid quick-witted incasement circuit to be disordered, vacate quick-witted incasement space so as to classify the overall arrangement to each hardware region, make it neater and more pleasing to the eye.

Under fixed subassembly's setting, replaced traditional bolt fastening mode, need not the instrument to assist to install and dismantle, only need control adjusting part to drive the both sides looks butt of pressing part and hard disk body, can be quick press the hard disk body fixed on the loading board, easy operation is convenient, also can not destroy the self structure of hard disk body.

Drawings

Fig. 1 is a schematic perspective view of the present utility model.

Fig. 2 is a schematic top view of a carrier plate according to the present utility model.

Fig. 3 is a schematic bottom view of the carrier plate according to the present utility model.

Fig. 4 is a schematic perspective view of a carrier according to the present utility model.

Fig. 5 is an enlarged schematic view of the area a in fig. 3.

In the above figures: 101. a carrier; 102. a positioning block; 103. positioning holes; 105. a mounting block; 106. a carrying plate; 107. a rubber strip; 108. a fixed block; 109. a moving block; 110. an elastic sheet; 112. adjusting a screw; 113. a sliding block; 114. a locking groove; 115. a mounting groove; 116. a tension spring; 117. a clamping block; 119. a hard disk body.

Detailed Description

The technical scheme of the utility model is further described below with reference to the accompanying drawings and examples.

As shown in fig. 1 to 4, an embodiment of the present utility model proposes a hard disk mounting structure for mounting a hard disk body 119, including:

the bearing frame 101, a plurality of mounting grooves 115 are formed on the bearing frame 101;

the bearing plate 106, the bearing plate 106 is slidably arranged in the mounting groove 115;

the fixing assembly comprises a pressing part and an adjusting part, the pressing part and the adjusting part are both arranged on the bearing plate 106 in a sliding manner, and the adjusting part moves back and forth along a first direction so as to drive the pressing part to move oppositely or reversely along a second direction; wherein the first direction and the second direction are perpendicular to each other.

The detailed working procedure of this embodiment is: firstly, the same number of bearing plates 106 are pulled out according to the use requirements of the actual number of hard disk bodies 119, the hard disk bodies 119 are placed on the installation positions of the bearing plates 106, the bearing plates 106 are slidably clamped in the installation grooves 115 on the bearing frame 101, the plurality of hard disk bodies 119 are installed in a stacking mode, the plurality of hard disk bodies 119 are located in a rectangular space, the connecting sockets of the plurality of hard disk bodies 119 are located in the same direction, after the plurality of connecting wires are sequentially electrically connected with the plurality of hard disk bodies 119, the plurality of connecting wires are bundled and fixed inside a case through a binding belt, a wire arrangement space is vacated for other hardware connecting wires, the layout inside the case is convenient, and the beauty is ensured.

Secondly, all be provided with fixed subassembly on every loading board 106, after hard disk body 119 is arranged in on the loading board 106, only need control adjustment part to drive the both sides butt of pressing part and hard disk body 119, can be quick press the hard disk body 119 fixed on loading board 106, improved loaded down with trivial details bolted connection mode, also guaranteed the installation stability of hard disk body 119.

As shown in fig. 2 and 3, according to another embodiment of the present utility model, a hard disk mounting structure, a pressing part includes:

the fixed blocks 108, the two fixed blocks 108 are oppositely arranged on the bearing plate 106, a clamping position for clamping the hard disk body 119 is formed between the fixed blocks, and the two fixed blocks 108 are slidably clamped on the bearing plate 106;

the adjusting section includes:

the moving blocks 109, the two moving blocks 109 are both clamped on the bearing plate 106 in a sliding way, and the fixed block 108 is abutted with the moving blocks 109;

the sliding block 113, the sliding block 113 is positioned at the bottom end of the bearing plate 106 and is fixedly connected between the two moving blocks 109;

the adjusting screw 112, the adjusting screw 112 is rotatably disposed at the bottom end of the bearing plate 106 and engaged on the sliding block 113.

The detailed working procedure of this embodiment is: after the carrying plate 106 is pulled out and the hard disk body 119 is placed on the carrying plate 106, the sliding block 113 moves on the adjusting screw 112 and drives the two moving blocks 109 to slide by rotating the adjusting screw 112, so that the moving blocks 109 slide on the fixed blocks 108, and as the moving blocks 109 and the fixed blocks 108 are respectively provided with a first inclined plane and a second inclined plane, when the first inclined plane slides in the first direction, the second inclined plane is caused to displace in the second direction, so that the fixed blocks 108 are extruded by the moving blocks 109 during continuous sliding, the distance between the two fixed blocks 108 is gradually reduced and abutted with the hard disk body 119, and a pressing force is generated to finish fixed installation on the fixed blocks.

As shown in fig. 5, an embodiment of the present utility model provides a hard disk mounting structure, where the fixing assembly further includes:

the clamping block 117 is slidably clamped on the bearing plate 106 and is fixedly connected with the fixed block 108;

and a tension spring 116, wherein the tension spring 116 is arranged between the bearing plate 106 and the clamping block 117.

The detailed working procedure of this embodiment is: when the moving block 109 moves towards the direction of the tension spring 116, the fixed block 108 moves in the first direction, so that the tension spring 116 deforms, the fixed block 108 is subjected to the tension of the tension spring 116, when the hard disk body 119 is detached by transferring data or maintaining the hard disk body 119, the moving block 109 is gradually reset under the action of the sliding block 113 by reversing the adjusting screw 112, the extrusion force of the fixed block 108 is relieved, the fixed block is also gradually reset under the action of the tension spring 116, and the fixed block is separated from the hard disk body 119, so that the pressing and fixing of the hard disk body 119 are rapidly released, and the space of the bearing plate 106 is also saved for subsequent installation again.

As shown in fig. 2, an embodiment of the present utility model provides a hard disk mounting structure, and a plurality of rubber strips 107 are fixedly disposed on a fixing block 108.

The detailed working procedure of this embodiment is: the friction between the fixed block 108 and the hard disk body 119 is improved by the plurality of rubber strips 107, so that the hard disk body 119 is more firmly installed, hard contact between the hard disk body 119 and the fixed block 108 is avoided, and a certain buffering effect is achieved.

As shown in fig. 1, an embodiment of the present utility model provides a hard disk mounting structure, a bearing frame 101 is provided with a positioning block 102, and a positioning hole 103 is formed in the positioning block 102.

The detailed working procedure of this embodiment is: by threading the bolts into the positioning holes 103, the carrier 101 is quickly and fixedly mounted to the inside of the cabinet.

As shown in fig. 2 and fig. 4, an embodiment of the present utility model provides a hard disk mounting structure, a mounting block 105 is disposed on a carrier plate 106, an elastic piece 110 is fixedly disposed on the mounting block 105, a locking slot 114 is disposed in the mounting slot 115, and the elastic piece 110 is engaged with or separated from the locking slot 114.

The detailed working procedure of this embodiment is: in order to ensure the stability of the sliding installation of the carrier plate 106 into the carrier frame 101, the carrier plate 106 is directly pushed when the carrier plate 106 is installed, the carrier plate 106 is continuously pushed when the locking protrusions on the elastic sheet 110 are in contact with the opening parts of the installation grooves 115, so that the elastic sheet 110 is extruded to deform, and after the locking protrusions on the elastic sheet 110 are aligned with the locking grooves 114, the elastic sheet 110 is restored to a shape, so that the locking protrusions on the elastic sheet 110 are blocked in the locking grooves 114, and the fixation of the carrier plate 106 is completed.

When the carrying plate 106 is disassembled, the two groups of elastic sheets 110 are pressed by two fingers, so that the elastic sheets 110 deform to separate the locking protrusions from the locking grooves 114, limit on the carrying plate 106 is relieved, and the carrying plate 106 is directly pulled out.

The implementation principle of the embodiment of the utility model is as follows:

firstly, the carrier 106 is pulled out, and two fingers press the two groups of elastic sheets 110 to deform the elastic sheets to separate the locking protrusions from the locking grooves 114 on the elastic sheets 110, so that the carrier 106 is pulled out directly. Secondly, the hard disk body 119 is installed, the hard disk body 119 is arranged on the bearing plate 106, and the sliding block 113 moves on the adjusting screw 112 and drives the two moving blocks 109 to slide through rotating the adjusting screw 112, so that the inclined planes of the moving blocks 109 slide on the fixed blocks 108, the fixed blocks 108 are extruded by the moving blocks 109 during continuous sliding, the distance between the two fixed blocks 108 is gradually reduced, and the fixed blocks are abutted with the hard disk body 119, so that pressing force is generated to finish fixed installation. Finally, the bearing plate 106 is installed in the bearing frame 101, the installation block 105 is clamped in the installation groove 115, the bearing plate 106 is pushed, when the locking protrusions on the elastic sheet 110 are in contact with the opening of the installation groove 115, the bearing plate 106 is continuously pushed, the elastic sheet 110 is extruded to deform, and when the locking protrusions on the elastic sheet 110 are aligned with the locking grooves 114, the elastic sheet 110 is restored to form, and the locking protrusions on the elastic sheet 110 are clamped in the locking grooves 114, so that the fixed installation of the bearing plate 106 is completed.

Finally, it is noted that the above embodiments are only for illustrating the technical solution of the present utility model and not for limiting the same, and although the present utility model has been described in detail with reference to the preferred embodiments, it should be understood by those skilled in the art that modifications and equivalents may be made thereto without departing from the spirit and scope of the technical solution of the present utility model, which is intended to be covered by the scope of the claims of the present utility model.

Claims (7)

1. A hard disk mounting structure for mounting a hard disk body (119), characterized in that: comprising the following steps:

the bearing frame (101), a plurality of mounting grooves (115) are formed in the bearing frame (101);

a carrier plate (106), the carrier plate (106) being slidably disposed within the mounting slot (115);

the fixing assembly comprises a pressing part and an adjusting part, wherein the pressing part and the adjusting part are both arranged on the bearing plate (106) in a sliding manner, and the adjusting part moves back and forth along a first direction so as to drive the pressing part to move oppositely or back to back along a second direction;

wherein the first direction and the second direction are perpendicular to each other.

2. The hard disk mounting structure as claimed in claim 1, wherein: the pressing portion includes:

the fixed blocks (108), the two fixed blocks (108) are oppositely arranged on the bearing plate (106), a clamping position for clamping the hard disk body (119) is formed between the fixed blocks, and the two fixed blocks (108) are slidably clamped on the bearing plate (106).

3. The hard disk mounting structure according to claim 2, wherein: the adjusting section includes:

the two moving blocks (109) are slidably clamped on the bearing plate (106), and the fixed blocks (108) are abutted with the moving blocks (109);

the sliding block (113) is positioned at the bottom end of the bearing plate (106) and is fixedly connected between the two moving blocks (109);

and the adjusting screw rod (112) is rotatably arranged at the bottom end of the bearing plate (106) and is meshed with the sliding block (113).

4. The hard disk mounting structure according to claim 2, wherein: the securing assembly further includes:

the clamping block (117) is slidably clamped on the bearing plate (106) and is fixedly connected with the fixing block (108);

and the extension spring (116), wherein the extension spring (116) is arranged between the bearing plate (106) and the clamping block (117).

5. The hard disk mounting structure as claimed in claim 4, wherein: a plurality of rubber strips (107) are fixedly arranged on the fixed block (108).

6. The hard disk mounting structure as claimed in claim 1, wherein: the bearing frame (101) is provided with a positioning block (102), and the positioning block (102) is provided with a positioning hole (103).

7. The hard disk mounting structure as claimed in claim 1, wherein: the bearing plate (106) is provided with a mounting block (105), the mounting block (105) is fixedly provided with an elastic sheet (110), a clamping groove (114) is formed in the mounting groove (115), and the elastic sheet (110) is meshed with or separated from the clamping groove (114).