A data storage device

Abstract

The utility model discloses a data storage device in the technical field of data storage protection, including the cabinet body and data memory, a plurality of data memory is located in the cabinet body, a plurality of antiskid pad is fixedly connected with the cabinet body lower extreme, the cabinet body front hinged has the cabinet door, still include the fixing mechanism and heat dissipation mechanism of cabinet body, be equipped with a plurality of mounting groove in the cabinet body, data memory is located in the mounting groove, the fixing mechanism cooperation mounting groove setting is used for fixing data memory, the heat dissipation mechanism is located on the cabinet body upper end and promotes the air flow in the cabinet body. The utility model has the advantages that: the utility model embodiment data memory is placed in each mounting groove and is protected, through the use fixed mechanism to data memory is clamped and fixed, further improves the stability of data memory in the cabinet mounting groove, through the heat dissipation mechanism and the air outlet can effectively promote the air flow in and outside the cabinet, and then avoid the cabinet overheat, and the practicality is strong.

Description

Technical Field

[0001] This utility model relates to the field of data storage protection technology, specifically to a data storage device. Background Technology

[0002] With the development of information technology, the amount of data has increased dramatically, and data storage has become an indispensable part of people's daily lives.

[0003] In the existing technology, technology companies use data storage devices to store data, and then place the data storage devices on a simple mounting bracket for use. There is a lack of effective measures to secure the data storage devices, and if there is an impact, the data storage devices are prone to falling and being damaged. Utility Model Content

[0004] The technical problem this invention aims to solve is that existing data storage devices lack adequate protective measures during placement, which may result in damage from drops.

[0005] To achieve the above objectives, the technical solution provided by this utility model is as follows:

[0006] A data storage device includes a cabinet and a data storage unit. A plurality of data storage units are disposed in the cabinet. A plurality of anti-slip pads are fixedly connected to the lower end of the cabinet. A cabinet door is hinged to the front end of the cabinet. The cabinet door has transparent glass and a handle is fixedly connected to the front end of the cabinet door. The device also includes a fixing mechanism and a heat dissipation mechanism for the cabinet. A plurality of mounting slots are provided in the cabinet. The data storage units are disposed in the mounting slots. The fixing mechanism is configured to fix the data storage units in conjunction with the mounting slots. The heat dissipation mechanism is located at the upper end of the cabinet to promote airflow within the cabinet.

[0007] The fixing mechanism includes a motor and a fixing frame. The motor is located inside the cabinet and drives two fixing frames to move towards each other in the mounting slot to clamp and fix the data storage device.

[0008] Furthermore, a first bevel gear is fixedly connected to the output end of the motor, and second bevel gears are symmetrically meshed on both sides of the first bevel gear. A screw is fixedly connected to the outer side of the second bevel gear, and a sliding plate is fixedly connected to one end of the fixing frame. The sliding plate is threadedly connected to the screw.

[0009] Furthermore, the cabinet is housed in an electromechanical groove, the motor is fixedly connected to the electromechanical groove, a number of heat dissipation holes penetrating the rear end of the cabinet are provided on one side of the electromechanical groove, the cabinet is provided with a toothed groove located on the upper side of the electromechanical groove, the first bevel gear and the second bevel gear are both rotatably disposed in the toothed groove, the inner wall of the mounting groove is provided with horizontally distributed sliding grooves on both sides of the toothed groove, the screw is rotatably connected to the sliding groove, and the sliding plate is adapted to slide within the sliding groove.

[0010] Furthermore, a T-shaped limiting block is fixedly connected to the lower end of the fixing frame, and a limiting groove adapted to the limiting block is provided on the bottom surface of the mounting groove, and the limiting block is slidably connected in the limiting groove.

[0011] Furthermore, the heat dissipation mechanism includes a housing and a cooling fan. The housing is fixed to the upper end of the cabinet, and the cooling fan is fixed inside the housing. The upper end of the housing is provided with a dustproof ventilation mesh. The upper part of the cabinet is provided with horizontally distributed ventilation slots. The lower end of the housing is connected to the ventilation slots. The two sides of the cabinet are provided with vertically arranged air supply slots that are connected to the lower end of the ventilation slots. Several air vents are provided between the air supply slots and the mounting slots and are interconnected. Several air outlets are provided on both sides of the cabinet and are connected to the mounting slots. The air outlets are located on both sides of the air supply slots.

[0012] Furthermore, a dustproof net is fixedly attached to the air outlet.

[0013] Furthermore, several through holes are provided between the adjacent mounting slots.

[0014] The beneficial effects of this utility model by adopting the above structure are as follows:

[0015] 1. The data storage devices are protected within their respective mounting slots. A clamping mechanism further enhances their stability within the cabinet's mounting slots by securing them in place.

[0016] 2: The heat dissipation mechanism and air vents can effectively promote air circulation inside and outside the cabinet, thereby preventing overheating inside the cabinet. Attached Figure Description

[0017] Figure 1 This is a schematic diagram of the entire machine of this utility model.

[0018] Figure 2 This is a front view of the cabinet interior of this utility model.

[0019] Figure 3 This is a cross-sectional view of the cabinet of this utility model.

[0020] Figure 4 Cross-sectional view of the cabinet of this utility model Figure 1 .

[0021] Figure 5 Cross-sectional view of the cabinet of this utility model Figure 2 .

[0022] Figure 6 Cross-sectional view of the cabinet of this utility model Figure 3 .

[0023] Figure 7 This is a schematic diagram of the fixing mechanism of this utility model.

[0024] Explanation of reference numerals in the attached figures:

[0025] 1. Cabinet body, 101. Anti-slip pad, 102. Mounting groove, 103. Through hole, 104. Ventilation groove, 105. Air supply groove, 106. Vent, 107. Electromechanical groove, 108. Heat dissipation hole, 109. Gear groove, 110. Air outlet, 111. Dustproof net, 112. Slide groove, 113. Limiting groove, 114. Cable hole, 2. Cabinet door, 201. Transparent glass, 202. Handle, 3. Heat dissipation mechanism, 301. Housing, 302. Cooling fan, 303. Dustproof ventilation net, 4. Fixing mechanism, 401. Motor, 402. First bevel gear, 403. Second bevel gear, 404. Screw, 405. Fixing bracket, 406. Slide plate, 407. Limiting block, 5. Data storage device. Detailed Implementation

[0026] Example 1:

[0027] like Figures 1-3 As shown, a data storage device includes a cabinet 1 and data storage devices 5. Several data storage devices 5 are disposed within the cabinet 1. Several anti-slip pads 101 are fixedly connected to the lower end of the cabinet 1. A cabinet door 2 is hinged to the front end of the cabinet 1. The cabinet door 2 has transparent glass 201 and a handle 202 fixedly connected to the front end of the cabinet door 2. The device also includes a fixing mechanism 4 and a heat dissipation mechanism 3 for the cabinet 1. Several mounting slots 102 are provided in the cabinet 1, and the data storage devices 5 are disposed within the mounting slots 102. The fixing mechanism 4 cooperates with the mounting slots 102 to fix the data storage devices 5. The heat dissipation mechanism 3 is located at the upper end of the cabinet 1 to promote airflow within the cabinet 1. The heat dissipation mechanism 3 includes a housing 301 and a cooling fan 302. The housing 301 is fixed to the upper end of the cabinet 1, and the cooling fan 302 is fixed inside the housing 301. A dustproof ventilation mesh 303 is provided at the upper end of the housing 301. Horizontally distributed ventilation slots 104 are provided at the upper part of the cabinet 1. The lower end of the housing 301 is connected to the ventilation groove 104. The cabinet 1 has vertically arranged air supply grooves 105 on both sides, which are connected to the lower end of the ventilation groove 104. The air supply grooves 105 and the mounting grooves 102 are connected to each other by several air vents 106. The cabinet 1 has several air outlets 110 on both sides, which are connected to the mounting grooves 102. The air outlets 110 are located on both sides of the air supply grooves 105. A dustproof net 111 is fixed to the air outlet 110 to prevent dust and impurities from entering the cabinet 1 through the air outlet 110. Several through holes 103 are provided between adjacent mounting grooves 102 to realize air circulation between the mounting grooves 102. The data storage device 5 is fixed in the mounting groove 102 by the fixing mechanism 4. The cooling fan 302 in the heat dissipation mechanism 3 promotes air circulation inside and outside the cabinet 1 and prevents heat accumulation inside the cabinet 1. It should be noted that the data storage device 5 is a mature existing technology, and the specific structure will not be described in detail.

[0028] Example 2:

[0029] Figures 1-7 As shown, the fixing mechanism 4 includes a motor 401 and a fixing frame 405. The motor 401 is located inside the cabinet 1. The motor 401 drives two fixing frames 405 to move towards each other in the mounting slot 102 to clamp and fix the data storage device 5. A first bevel gear 402 is fixedly connected to the output end of the motor 401. A second bevel gear 403 is symmetrically meshed on both sides of the first bevel gear 402. A screw 404 is fixedly connected to the outer side of the second bevel gear 403. A sliding plate 406 is fixedly connected to one end of the fixing frame 405. The sliding plate 406 is threadedly connected to the screw 404. An electromechanical slot 107 is located inside the cabinet 1. The motor 401 is fixedly connected to the electromechanical slot 107. A plurality of heat dissipation holes 108 penetrating the rear end of the cabinet 1 are provided on one side of the electromechanical slot 107. A toothed groove 109 is provided in the cabinet 1 located on the upper side of the electromechanical slot 107. The first bevel gear 402 and the second bevel gear 405 are connected to the first bevel gear 401 and the second bevel gear 405. All three components are rotatably mounted in the toothed groove 109. The inner wall of the mounting groove 102 is provided with horizontally distributed sliding grooves 112 on both sides of the toothed groove 109. The screw 404 is rotatably connected to the sliding groove 112. The sliding plate 406 slides adapted to the sliding groove 112. The lower end of the fixing frame 405 is fixedly connected to a T-shaped limiting block 407. The bottom surface of the mounting groove 102 is provided with a limiting groove 113 that matches the limiting block 407. The limiting block 407 is slidably connected to the limiting groove 113. After the data storage device 5 is placed in the mounting groove 102, the fixing frame 405 is driven by the motor 401 to move towards each other in the mounting groove 102 to clamp and fix the data storage device 5. It should be noted that the wiring of the data storage device 5 is achieved by opening a wire hole 114 through the inner wall of the cabinet 1 in the mounting groove 102. The wiring and sealing of the wire hole 114 (such as rubber plug or cover plate closure) are carried out according to the actual installation, which will not be elaborated.

[0030] In use, multiple data storage devices 5 are sequentially placed in various mounting slots 102. The output of the motor 401 drives the first bevel gear 402 to rotate, which in turn drives the symmetrical second bevel gear 403 to rotate, which in turn drives the two screws 404 with opposite threads to rotate, which in turn drives the slider to slide towards each other in the slide groove 112, which in turn drives the fixing frame 405 to move towards each other in the mounting slot 102 and clamp it on both sides of the data storage device 5 to achieve fixation. The cooling fan 302 allows the air outside the cabinet 1 to enter the ventilation slot 104 through the dustproof ventilation net 303, and then the airflow enters the air supply slot 105 and enters the mounting slot 102 through the air vent 106. The airflow in the mounting slot 102 is discharged from the cabinet 1 through the air outlet 110, realizing the air flow inside and outside the cabinet 1 and avoiding the accumulation of heat in the cabinet 1 and causing overheating.

[0031] The present invention and its embodiments have been described above. This description is not restrictive, and the accompanying drawings are only one embodiment of the present invention; the actual structure is not limited thereto. In conclusion, if those skilled in the art are inspired by this description and design similar structures and embodiments without departing from the inventive spirit of the present invention, such designs should fall within the protection scope of the present invention.

Claims

1. A data storage device, comprising a cabinet (1) and a data storage unit (5), wherein a plurality of the data storage units (5) are disposed within the cabinet (1), a plurality of anti-slip pads (101) are fixedly connected to the lower end of the cabinet (1), a cabinet door (2) is hinged to the front end of the cabinet (1), the cabinet door (2) is provided with transparent glass (201), and a handle (202) is fixedly connected to the front end of the cabinet door (2), characterized in that: It also includes a fixing mechanism (4) and a heat dissipation mechanism (3) for the cabinet (1). The cabinet (1) is provided with several mounting slots (102). The data storage device (5) is located in the mounting slot (102). The fixing mechanism (4) is used to fix the data storage device (5) in conjunction with the mounting slot (102). The heat dissipation mechanism (3) is located at the upper end of the cabinet (1) to promote airflow in the cabinet (1). The fixing mechanism (4) includes a motor (401) and a fixing frame (405). The motor (401) is located inside the cabinet (1). The motor (401) drives two fixing frames (405) to move towards each other in the mounting slot (102) to clamp and fix the data storage device (5).

2. The data storage device according to claim 1, characterized in that: The output end of the motor (401) is fixedly connected to a first bevel gear (402), and the first bevel gear (402) is symmetrically meshed with a second bevel gear (403) on both sides. A screw (404) is fixedly connected to the outside of the second bevel gear (403). A sliding plate (406) is fixedly connected to one end of the fixing frame (405), and the sliding plate (406) is threadedly connected to the screw (404).

3. A data storage device according to claim 2, characterized in that: The cabinet (1) is housed in an electromechanical groove (107). The motor (401) is fixedly connected to the electromechanical groove (107). The electromechanical groove (107) has several heat dissipation holes (108) that penetrate the rear end of the cabinet (1) on one side. The cabinet (1) has a tooth groove (109) located on the upper side of the electromechanical groove (107). The first bevel gear (402) and the second bevel gear (403) are rotatably disposed in the tooth groove (109). The inner wall of the mounting groove (102) has horizontally distributed sliding grooves (112) located on both sides of the tooth groove (109). The screw (404) is rotatably connected to the sliding groove (112). The sliding plate (406) slides in the sliding groove (112).

4. A data storage device according to claim 3, characterized in that: The lower end of the fixed frame (405) is fixedly connected to a T-shaped limiting block (407), and the bottom surface of the mounting groove (102) is provided with a limiting groove (113) that is adapted to the limiting block (407). The limiting block (407) is slidably connected in the limiting groove (113).

5. A data storage device according to claim 1, characterized in that: The heat dissipation mechanism (3) includes a housing (301) and a cooling fan (302). The housing (301) is fixed to the upper end of the cabinet (1), and the cooling fan (302) is fixed inside the housing (301). The upper end of the housing (301) is provided with a dustproof ventilation net (303). The upper part of the cabinet (1) is provided with horizontally distributed ventilation slots (104). The lower end of the housing (301) is connected to the ventilation slots (104). The cabinet (1) is provided with vertically arranged air supply slots (105) on both sides and connected to the lower end of the ventilation slots (104). The air supply slots (105) and the mounting slots (102) are provided with several ventilation ports (106) that are connected to each other. The cabinet (1) is provided with several air outlets (110) on both sides that are connected to the mounting slots (102). The air outlets (110) are located on both sides of the air supply slots (105).

6. A data storage device according to claim 5, characterized in that: A dustproof net (111) is fixedly attached to the air outlet (110).

7. A data storage device according to claim 1, characterized in that: A plurality of through holes (103) are provided between adjacent mounting slots (102).

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