CN219041906U - Efficient heat dissipation shell structure for monitoring storage equipment - Google Patents

Abstract

The utility model relates to the technical field of storage boxes, in particular to a high-efficiency heat dissipation shell structure for monitoring storage equipment, which comprises a box body, a sliding plate, a fixed shaft, a plurality of fans, a first sliding block, a movable shaft, a second sliding block, a plurality of storage equipment and two sealing rubbers, wherein the sliding plate is arranged on the box body; the box body is provided with a box cover, a plurality of heat dissipation holes are formed in the box body, and a strip-shaped hole, a first chute and a second chute are formed in the end face, away from the box cover, of the box body; two sealing rubbers are arranged in the strip-shaped holes; a plurality of storage devices are placed in the box body, and each storage device is provided with a storage device inlet end; the fixed shaft is arranged in the box body; the sliding plate is arranged on the fixed shaft in a sliding way and is connected with the movable shaft; the first sliding block and the second sliding block are respectively arranged on the movable shaft and are respectively connected with the inner walls of the first sliding groove and the second sliding groove in a sliding manner; the fans are all installed on the bottom surface of the sliding plate. The utility model is convenient for accurately radiating the storage equipment and is also convenient for installing the storage equipment.

Description

Efficient heat dissipation shell structure for monitoring storage equipment

Technical Field

The utility model relates to the technical field of storage boxes, in particular to a high-efficiency heat dissipation shell structure for monitoring storage equipment.

Background

The network monitoring solves the difficulty of the traditional monitoring effect, changes the traditional connection mode, is simpler and more convenient, and simultaneously derives huge storage requirements and higher bandwidth satisfaction. The storage device adopted in the video monitoring system has the characteristic different from other types of systems in the data read-write mode. The video monitoring system generally has the characteristics of multiple monitoring points (more cameras), large video data flow, long storage time, 24-hour continuous uninterrupted operation and the like. The existing monitoring storage device is inconvenient to accurately radiate heat of the running storage device when a plurality of storage devices are stored simultaneously, and the radiating effect of the device is poor.

The utility model loosens the first fastening bolt, detaches the sealing cover, can detect and maintain the memory box, is simple and convenient to operate, saves time and labor, improves the working efficiency of maintenance personnel, improves the practicability, loosens the third fastening bolt, moves the sliding block to a proper position, screws the third fastening bolt, installs the shell through the through hole, and improves the stability.

However, the device is inconvenient to quickly dissipate heat of the storage equipment for performing storage work, and the device is not accurate enough in heat dissipation and poor in heat dissipation effect.

Disclosure of Invention

The utility model aims to solve the problems in the background art and provides a high-efficiency heat dissipation shell structure of a monitoring storage device, which is convenient for accurately dissipating heat of the storage device.

The technical scheme of the utility model is as follows: a high-efficiency heat dissipation shell structure for monitoring storage equipment comprises a box body, a sliding plate, a fixed shaft, a plurality of fans, a first sliding block, a movable shaft, a second sliding block, a plurality of storage equipment and two sealing rubbers;

the box body is provided with a box cover, the box body is provided with a plurality of heat dissipation holes, and the end surface of the box body far away from the box cover is provided with a strip-shaped hole and a plurality of access holes; the inner wall of the strip-shaped hole is provided with a first chute and a second chute in parallel; the two sealing rubbers are arranged in the strip-shaped hole side by side from top to bottom; the storage devices are arranged in the box body side by side, and each storage device is provided with a storage device inlet end; the access ends of the storage devices respectively extend into the access holes in a matched mode;

the fixed shaft is arranged in the box body and is positioned right above the plurality of storage devices; the middle part of the sliding plate is provided with a through hole for the fixed shaft to pass through, and one end of the sliding plate far away from the box cover is connected with the movable shaft; one end of the movable shaft far away from the sliding plate penetrates out of the strip-shaped hole; the first sliding block and the second sliding block are respectively arranged on the movable shaft and are respectively connected with the inner walls of the first sliding groove and the second sliding groove in a sliding manner; the fans are all installed on the bottom surface of the sliding plate.

Preferably, the storage device comprises a storage device moving plate and a plurality of storage device mounting plates; the storage device moving plate is arranged in the box body in a sliding way; the storage device mounting plates are arranged on the upper end face of the storage device moving plate side by side, and the upper end face of each storage device mounting plate is provided with a mounting groove; the storage devices are respectively matched and clamped into the mounting grooves.

Preferably, the device further comprises a plurality of limiting plates; a plurality of limit sliding grooves are formed in the bottom surface of the storage device mounting plate; the limiting plates are arranged in the box body side by side and are respectively connected with the inner walls of the limiting sliding grooves in a sliding mode.

Preferably, the upper end surface of the storage device moving plate is provided with a plurality of grooves; each groove is mutually perpendicular to the plurality of storage device mounting plates.

Preferably, each mounting groove is internally provided with heat-conducting silica gel.

Preferably, the case body is provided with a handle.

Preferably, a protective sleeve is arranged at one end of the movable shaft penetrating out of the strip-shaped hole.

Preferably, each access hole is provided with a waterproof sleeve.

Compared with the prior art, the technical scheme provided by the utility model has the following beneficial technical effects:

the access ends of the storage devices are respectively matched and inserted into the access holes, so that the external circuit is conveniently connected through the access holes, and the storage devices are used; the heat generated by the operation of the storage devices is dissipated through the plurality of heat dissipation holes, and meanwhile, when an external circuit is accessed, the position of the used storage device can be accurately known, a user moves the moving shaft to drive the first sliding block, the second sliding block, the sliding plate and the plurality of fans to move, so that the plurality of fans are accurately positioned above the working storage device, and the storage device in operation can be conveniently and accurately and rapidly dissipated; the strip-shaped holes are sealed through the two sealing rubbers, dust is prevented from entering the box body through the strip-shaped holes, and a plurality of storage devices are protected.

The user moves the storage device moving plate to enable the plurality of limiting plates to generate sliding friction with the plurality of limiting sliding grooves, so that the storage device moving plate is limited, storage device entering ends of the plurality of storage devices are conveniently matched and extend into the plurality of access holes respectively, and the plurality of storage devices are conveniently installed; simultaneously, through the removal to the storage device movable plate, be convenient for install a plurality of storage devices in a plurality of mounting grooves, carry out heat conduction to a plurality of storage devices by a plurality of heat conduction silica gel, protect a plurality of storage devices.

Drawings

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

Fig. 2 is a schematic diagram of a moving structure of a heat dissipating assembly according to the present utility model.

Fig. 3 is a partial cross-sectional view of the present utility model.

Fig. 4 is an enlarged partial schematic view at a in fig. 3.

Fig. 5 is a partially enlarged schematic view at B in fig. 3.

Reference numerals: 1. a case cover; 2. a case; 201. a heat radiation hole; 202. a first chute; 203. a second chute; 204. a bar-shaped hole; 3. a handle; 4. a sliding plate; 5. a fixed shaft; 6. a fan; 7. a first slider; 8. a movable shaft; 9. a second slider; 10. a storage device moving plate; 1001. a groove; 11. a storage device mounting board; 12. a storage device; 121. a storage device entry end; 13. thermally conductive silica gel; 14. and (3) sealing rubber.

Detailed Description

Example 1

As shown in fig. 1 to 5, the present utility model provides a high-efficiency heat dissipation housing structure for monitoring a storage device, which comprises a housing 2, a sliding plate 4, a fixed shaft 5, a plurality of fans 6, a first sliding block 7, a moving shaft 8, a second sliding block 9, a plurality of storage devices 12 and two sealing rubbers 14.

The box body 2 is provided with a box cover 1, the box body 2 is provided with a plurality of heat dissipation holes 201, the end surface of the box body 2 far away from the box cover 1 is provided with a strip-shaped hole 204 and a plurality of access holes, the box body 2 is provided with a handle 3, and the device can be conveniently moved by arranging the handle 3; a waterproof sleeve is arranged at each access hole, so that a plurality of storage devices 12 can be protected conveniently; a first chute 202 and a second chute 203 are arranged on the inner wall of the strip-shaped hole 204 side by side; two sealing rubbers 14 are arranged in the strip-shaped hole 204 side by side up and down; a plurality of storage devices 12 are arranged in the box body 2 side by side, and each storage device 12 is provided with a storage device inlet end 121; the plurality of storage device access terminals 121 respectively fit into the plurality of access holes.

The fixed shaft 5 is installed in the case 2, and the fixed shaft 5 is located right above the plurality of storage devices 12; the middle part of the sliding plate 4 is provided with a through hole for the fixed shaft 5 to pass through, and one end of the sliding plate 4 far away from the box cover 1 is connected with the movable shaft 8; one end of the movable shaft 8, which is far away from the sliding plate 4, penetrates out of the strip-shaped hole 204, and a protective sleeve is arranged at one end of the movable shaft 8, which penetrates out of the strip-shaped hole 204; the hand of the user is protected by arranging a protective sleeve; the first sliding block 7 and the second sliding block 9 are both arranged on the movable shaft 8, the first sliding block 7 and the second sliding block 9 are respectively and slidably connected with the inner walls of the first sliding groove 202 and the second sliding groove 203, the first sliding block 7, the movable shaft 8 and the second sliding block 9 are of an integrated structure, and the integrated first sliding block 7, the movable shaft 8 and the second sliding block 9 are more firmly connected, so that the service lives of the first sliding block 7, the movable shaft 8 and the second sliding block 9 are prolonged; a plurality of fans 6 are mounted on the bottom surface of the slide plate 4.

In the utility model, when in use, a user places a plurality of storage devices 12 in the box body 2, and inserts a plurality of storage device inlet ends 121 into a plurality of access holes in a matched manner, so that the external circuit is conveniently connected through the access hole, and the plurality of storage devices 12 are used; the heat generated by the operation of the storage devices 12 is dissipated through the heat dissipation holes 201, and meanwhile, when an external circuit is connected, the position of the used storage device 12 can be accurately known, a user moves the moving shaft 8 to drive the first sliding block 7, the second sliding block 9, the sliding plate 4 and the fans 6 to move, so that the fans 6 are accurately positioned above the working storage device 12, and the storage device 12 in operation can be conveniently and accurately and rapidly dissipated; the strip-shaped holes 204 are sealed through the two sealing rubbers 14, so that dust is prevented from entering the inside of the box body 2 through the strip-shaped holes 204, and a plurality of storage devices 12 are protected.

Example two

As shown in fig. 3-4, compared with the first embodiment, the present embodiment further includes a storage device moving plate 10, a plurality of limiting plates and a plurality of storage device mounting plates 11; the storage device moving plate 10 is slidably arranged in the box body 2, and a plurality of grooves 1001 are formed in the upper end face of the storage device moving plate 10; the storage device mounting plates 11 are all arranged on the upper end face of the storage device moving plate 10 side by side, the upper end face of each storage device mounting plate 11 is provided with a mounting groove, and the bottom face of each storage device mounting plate 11 is provided with a plurality of limit sliding grooves; each groove 1001 is perpendicular to the plurality of storage device mounting plates 11; the air circulation inside the box body 2 is facilitated; each mounting groove is internally provided with heat conduction silica gel 13; the storage devices 12 are respectively matched and clamped into the mounting grooves; the limiting plates are arranged in the box body 2 side by side and are respectively connected with the inner walls of the limiting sliding grooves in a sliding mode.

In this embodiment, when in use, a user moves the storage device moving plate 10 to enable sliding friction between the plurality of limiting plates and the plurality of limiting sliding grooves, so as to limit the storage device moving plate 10, so that the storage device entering ends 121 of the plurality of storage devices 12 can be conveniently matched and extend into the plurality of access holes respectively, and the plurality of storage devices 12 can be conveniently installed; meanwhile, the storage device moving plate 10 is moved, so that the storage devices 12 are conveniently installed in the installation grooves, the storage devices 12 are thermally conductive through the thermal conductive silica gel 13, and the storage devices 12 are protected.

The embodiments of the present utility model have been described in detail with reference to the drawings, but the present utility model is not limited thereto, and various changes can be made within the knowledge of those skilled in the art without departing from the spirit of the present utility model.

Claims (8)

1. The efficient heat dissipation shell structure for monitoring the storage equipment is characterized by comprising a box body (2), a sliding plate (4), a fixed shaft (5), a plurality of fans (6), a first sliding block (7), a movable shaft (8), a second sliding block (9), a plurality of storage equipment (12) and two sealing rubbers (14);

a box cover (1) is arranged on the box body (2), a plurality of heat dissipation holes (201) are formed in the box body (2), and a strip-shaped hole (204) and a plurality of access holes are formed in the end face, away from the box cover (1), of the box body (2); a first chute (202) and a second chute (203) are arranged on the inner wall of the strip-shaped hole (204) side by side; the two sealing rubbers (14) are arranged in the strip-shaped holes (204) side by side up and down; a plurality of storage devices (12) are arranged in the box body (2) side by side, and each storage device (12) is provided with a storage device inlet end (121); the storage device access ends (121) respectively extend into the access holes in a matched mode;

the fixed shaft (5) is arranged in the box body (2), and the fixed shaft (5) is positioned right above the plurality of storage devices (12); the middle part of the sliding plate (4) is provided with a through hole for the fixed shaft (5) to pass through, and one end of the sliding plate (4) far away from the box cover (1) is connected with the movable shaft (8); one end of the movable shaft (8) far away from the sliding plate (4) penetrates out of the strip-shaped hole (204); the first sliding block (7) and the second sliding block (9) are both arranged on the moving shaft (8), and the first sliding block (7) and the second sliding block (9) are respectively connected with the inner walls of the first sliding groove (202) and the second sliding groove (203) in a sliding manner; a plurality of fans (6) are all installed on the bottom surface of the sliding plate (4).

2. A high efficiency heat dissipating housing structure for monitoring a storage device as set forth in claim 1, further comprising a storage device moving plate (10) and a plurality of storage device mounting plates (11); the storage equipment moving plate (10) is arranged in the box body (2) in a sliding way; the storage device mounting plates (11) are arranged on the upper end face of the storage device moving plate (10) side by side, and the upper end face of each storage device mounting plate (11) is provided with a mounting groove; a plurality of storage devices (12) are respectively matched and clamped into the plurality of mounting grooves.

3. The efficient heat dissipation housing structure for a monitoring storage device of claim 2, further comprising a plurality of limiting plates; a plurality of limit sliding grooves are formed in the bottom surface of the storage equipment mounting plate (11); the limiting plates are arranged in the box body (2) side by side and are respectively connected with the inner walls of the limiting sliding grooves in a sliding mode.

4. A high-efficiency heat dissipation housing structure for monitoring a storage device as claimed in claim 2, wherein a plurality of grooves (1001) are provided on an upper end surface of the storage device moving plate (10); each groove (1001) is perpendicular to the plurality of storage device mounting plates (11).

5. A high efficiency heat dissipating housing structure for a monitoring storage device according to claim 2, wherein each mounting groove is provided with a thermally conductive silicone (13).

6. A high efficiency heat dissipating housing structure for a monitoring storage device according to claim 1, wherein the housing (2) is provided with a handle (3).

7. A high efficiency heat dissipating housing structure for a monitoring storage device according to claim 1, wherein a protective sleeve is provided at an end of the movable shaft (8) penetrating the bar-shaped hole (204).

8. The efficient heat dissipation housing structure for a monitoring storage device of claim 1, wherein each access hole is provided with a waterproof jacket.

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