CN212675585U - Vibration-proof quick-release data storage device - Google Patents

Abstract

The utility model discloses a prevent quick detach data storage device of vibration, including set casing, data storage module, vibration damper is equipped with and presses part and buckle spare, data storage module inlays in vibration damper, vibration damper installs inside the set casing, vibration damper passes through buckle spare lock in the set casing, presses the part through pressing, takes out vibration damper from the set casing. The device can be quickly disassembled, the problem of poor contact of the data storage device under the vibration working environment is avoided, and smooth work of the data storage device is guaranteed.

Description

Vibration-proof quick-release data storage device

Technical Field

The utility model relates to a data storage device field, concretely relates to prevent quick detach data storage device of vibration.

Background

The quick release structure is widely applied in actual life, but in the field of aerial survey, because install on unmanned aerial vehicle, various vibrations can be encountered at the during operation, especially fixed wing unmanned aerial vehicle when taking off and landing, the vibration can be very big, may lead to some spare parts that use quick release spare contact failure, especially the quick release structure of SD/CF card in data storage area, receives the vibration influence very easily and leads to data storage to go wrong.

SUMMERY OF THE UTILITY MODEL

The utility model aims to solve the technical problem that prevent that bad contact from appearing in data memory under vibration environment problem, aim at provides a prevent quick detach data storage device of vibration, solves data memory and appears bad contact problem and realize that data memory dismantles fast under vibration environment.

The utility model discloses a following technical scheme realizes:

the utility model provides a prevent quick detach data storage device of vibration, includes the set casing, data storage module, vibration damper is equipped with and presses part and buckle spare, the data storage module inlays in vibration damper, vibration damper installs inside the set casing, vibration damper passes through the buckle spare lock in the set casing, presses the part through pressing, takes out vibration damper from the set casing.

The vibration-proof device comprises a main shell, an auxiliary shell, a pulling part, a bottom plate, a pressing part, a buckling part, a pressing spring, a buckling spring and an ejecting spring, wherein the main shell is matched with the auxiliary shell and is simultaneously arranged on the bottom plate; a pressing part and a clamping and buckling part are arranged at one corner of the main shell; the pressing spring is arranged in the pressing part, and one end of the pressing part exposed out of the pressing part is contacted with the main shell; the buckle spring is arranged in the buckle part, and one end of the buckle part exposed out is contacted with the main shell; the pulling piece is embedded in the main shell and is clamped at the lower end of the main shell through the clamping piece; the pop-up spring is arranged at the bottom end of the pulling part, and the bottom end of the pop-up spring is in contact with the main shell.

The main shell is provided with a buckle sliding groove for installing a buckle piece, a baffle plate for limiting the data storage module, a first threaded hole for installing the bottom plate, a second threaded hole matched with the auxiliary shell, a pulling sliding groove for embedding the pulling piece and installing the pop-up spring, a first bottom installation part matched with the bottom plate and a first data limiting groove for embedding the data storage.

The auxiliary shell is provided with a sliding block part embedded with the pressing part, a screw mounting hole fixed with the main shell, a third threaded hole for mounting the bottom plate, a second bottom plate mounting part matched with the bottom plate and a second memory limiting groove for embedding the data memory.

The bottom plate is equipped with the installation department that is used for the gomphosis of data storage module, the installation department is heavy chamber, and the chamber bottom link up, is equipped with the screw thread mounting hole that is used for fixed main shell and vice shell.

The pressing part is provided with a pressing part, a pressing sliding groove matched with the auxiliary shell, a second spring mounting hole used for mounting a pressing spring, and a first wedge-shaped sliding part matched with the clamping piece.

The buckle piece is provided with a second sliding portion matched with the main shell, a third spring mounting hole used for mounting a buckle spring, a pulling piece limiting portion used for limiting a pulling piece, a longitudinal groove is formed in the inner side of the pulling piece limiting portion, a longitudinal protrusion is formed in the outer side of the pulling piece limiting portion, a second wedge-shaped sliding portion matched with the pressing part is arranged, and the second wedge-shaped sliding portion is used for being buckled on the second buckle protrusion of the fixed shell.

The pulling part is provided with a pulling part, a first buckle bulge matched with the inner side of the buckle part, a first spring mounting hole used for mounting the pop-up spring, and a first sliding part matched with the main shell.

The fixed shell comprises a fixed shell, a fixed shell cover plate and a data module mounting seat, the fixed shell and the fixed shell cover plate are installed in a matched mode, the data module mounting seat is embedded in a through groove formed after the fixed shell and the fixed shell cover plate are installed, and the data module mounting seat is provided with a mounting groove for mounting a data module.

The data storage module comprises a data memory, a data interface and a data interface circuit board, and the data memory is arranged on one side of the data interface circuit board; the data interface is arranged on the other side of the data interface circuit board and is connected with the data memory through a circuit.

Compared with the prior art, the utility model, following advantage and beneficial effect have:

the utility model provides a prevent quick detach data storage device of vibration, closely is fixed in this device with data memory, not only can dismantle fast, more has avoided appearing the problem of data memory contact failure under the vibration operational environment, has guaranteed data memory's smooth work.

Drawings

The accompanying drawings, which are included to provide a further understanding of the embodiments of the invention and are incorporated in and constitute a part of this application, illustrate embodiment(s) of the invention and together with the description serve to explain the principles of the invention. In the drawings:

fig. 1 is an explosion diagram of the structure of the present invention.

Fig. 2 is a schematic structural view of the vibration isolator of the present invention.

Fig. 3 is a schematic structural view of the component 1 of the present invention.

Fig. 4 is a schematic structural view of the component 2 of the present invention.

Fig. 5 is a schematic structural view of the component 5 of the present invention.

Fig. 6 is a schematic structural view of the component 6 of the present invention.

Fig. 7 is a schematic structural view of the component 7 of the present invention.

Fig. 8 is a schematic structural view of the component 3 of the present invention.

Fig. 9 is a schematic structural diagram of the component data storage module according to the present invention.

Reference numbers and corresponding part names in the drawings:

1-a main shell, 2-an auxiliary shell, 3-a pulling part, 4-a data memory, 5-a bottom plate, 6-a pressing part and 7-a clamping part;

11-a buckle sliding groove, 12-a baffle, 13-a first threaded hole, 14-a second threaded hole, 15-a first bottom plate mounting part, 16-a pulling sliding groove and 17-a first data memory limiting groove;

21-a sliding block part, 22-a screw mounting hole, 23-a third threaded hole, 24-a second bottom plate mounting part and 25-a second data storage limiting groove;

31-a pulling part, 32-a first snap projection, 33-a first spring mounting hole, 34-a first sliding part;

51-connector mounting part, 52-bottom plate screw mounting hole;

61-a pressing part, 62-a pressing sliding groove, 63-a second spring mounting hole and 64-a first wedge-shaped sliding block part;

71-a second sliding part, 72-a third spring mounting hole, 73-a pulling piece limiting part, 74-a second wedge-shaped sliding block part and 75-a second clamping bulge;

81-connector interface, 82-connector circuit board;

91-pressing spring, 92-buckling spring and 93-ejecting spring;

100-stationary housing, 101-stationary housing cover plate, 102-data module mount.

Detailed Description

To make the objects, technical solutions and advantages of the present invention more apparent, the present invention is further described in detail below with reference to the following examples and drawings, and the exemplary embodiments and descriptions thereof of the present invention are only used for explaining the present invention, and are not intended as limitations of the present invention.

Examples

As shown in fig. 1, the utility model relates to a prevent quick detach data storage device of vibration, including the set casing, data storage module, anti-vibration device is equipped with and presses part 6 and buckle 7, data storage module inlays in anti-vibration device, anti-vibration device installs inside the set casing, anti-vibration device passes through buckle 7 and locks in the set casing, presses part 6 through pressing, takes out anti-vibration device from the set casing to take out data storage 4 again.

Through above structural design, pin data memory in the anti-vibration device, the anti-vibration device is installed inside the set casing, has prevented effectively because of the contact failure problem that the vibration appears, adopts the cooperation design of pressing part 6 and buckle spare 7 simultaneously, can very conveniently take out the anti-vibration device again from the set casing, and then takes out data memory 4 among the anti-vibration device.

As shown in fig. 2, the vibration isolation device includes a main housing 1, an auxiliary housing 2, a pulling member 3, a bottom plate 5, a pressing member 6, a fastener 7, a pressing spring 91, a fastener spring 92, and a pop-up spring 93, wherein the main housing 1 is matched with the auxiliary housing 2 and is mounted on the bottom plate 5 at the same time; a pressing part 6 and a fastener 7 are arranged at one corner of the main shell 1; the pressing spring 91 is arranged in the pressing part 6, and one end exposed out of the pressing part 6 is contacted with the main shell 1; the buckle spring 92 is arranged in the buckle 7, and one end of the buckle 7 exposed out is contacted with the main shell 1; the pulling piece 3 is embedded in the main shell 1 and is clamped at the lower end of the main shell 1 through a clamping piece 7; the pop-up spring 93 is installed at the bottom end of the pulling member 3, and the bottom end thereof is contacted with the main housing 1.

Through the design, the anti-vibration device is locked in the fixed shell by the clamping piece 7 in the installation state, when the anti-vibration device needs to be taken out, the pressing part 6 is pressed, the pressing part 6 pushes the clamping piece to move inwards, the clamping piece 7 is separated from the fixed shell to be contacted, meanwhile, the pulling piece 3 is separated from the blocking of the clamping piece 7, the pulling piece 3 is upwards popped out under the action of the popping spring 93, and at the moment, the pulling piece 3 is pulled by hand, so that the anti-vibration device can be taken out from the fixed shell.

As shown in fig. 3, the main housing 1 is provided with a snap sliding groove 11 for mounting the snap 7, a baffle 12 for limiting the data storage module, a first threaded hole 13 for mounting on the bottom plate, a second threaded hole 14 for mating with the sub housing 2, a pulling sliding groove 16 for fitting the pulling member 3 and the mounting spring 93, a first bottom plate mounting portion 15 for mating with the bottom plate, and a first data storage device limiting groove 17 for fitting the data storage device.

In the above structure, the buckle chute 11 is used for limiting the installation position and the movement range of the buckle 7, so that the buckle 7 can only slide along the buckle chute 11; the pull chute 16 is used to limit the installation position and the movement range of the pull member 3, so that the pull member 3 can only slide along the pull chute 16.

As shown in fig. 4, the sub-housing 2 is provided with a slider portion 21 to be fitted with the push member 6, a screw mounting hole 22 to be fixed to the main housing, a third screw hole 23 to which the base plate is mounted, a second base plate mounting portion 24 to be fitted with the base plate, and a second data memory stopper groove 25 to be fitted with the data memory.

In the above configuration, the slider portion 21 is used to limit the mounting position and the movement range of the pressing member 6, and the pressing member 6 can slide only up and down under the guidance of the slider portion 21. After the second data storage limiting groove 25 of the auxiliary shell 2 is matched with the first data storage limiting groove 17 of the main shell 1, a limiting cavity is formed, and the data storage module is tightly limited except for the bottom position, so that the vibration of the data storage module is prevented.

As shown in fig. 5, the bottom plate 5 is provided with a mounting portion 51 for fitting the data storage module, the mounting portion 51 is a cavity, the bottom of the cavity penetrates through the mounting portion, and a threaded mounting hole 52 for fixing the main housing 1 and the sub-housing 2 is provided.

The bottom plate 5 is mainly used for installing the main shell 1 and the auxiliary shell 2, and simultaneously, the data storage module is embedded and penetrates through the bottom plate to limit the bottom of the data storage module.

As shown in fig. 6, the pressing member 6 is provided with a pressing portion 61, a pressing runner 62 engaged with the sub-housing, a second spring mounting hole 63 for mounting a pressing spring 91, and a first wedge-shaped sliding portion 64 engaged with the locking member 7.

In the above configuration, only the pressing portion 61 of the pressing member 6 is exposed outside the fixed case, and when the pressing portion 61 is pressed, the pressing member 6 moves downward guided by the slider portion 21 of the sub-case 2.

As shown in fig. 7, the locking member 7 is provided with a second sliding portion 71 engaged with the main housing 1, a third spring mounting hole 72 for mounting a locking spring 92, a pulling member limiting portion 73 for limiting the pulling member 3, a longitudinal groove on the inner side of the pulling member limiting portion, a longitudinal protrusion on the outer side of the pulling member limiting portion, a second wedge-shaped sliding portion 74 engaged with the pressing member 6, and a second locking protrusion 72 engaged with the fixed housing.

In the above structure, the second wedge-shaped sliding portion 74 is matched with the first wedge-shaped sliding portion 64 of the pressing member 6, when the pressing member 6 moves downward, due to the taper effect of the wedge-shaped sliding portions, the buckling member 7 is pushed to move inward, the second buckling protrusion 72 is separated from the fixed shell, meanwhile, the longitudinal protrusion of the pulling member limiting portion 73 is separated from the first buckling protrusion 32 of the pulling member 3, the first buckling protrusion 32 enters the longitudinal groove of the pulling member limiting portion 73, and the pulling member 3 can be popped upward under the action of the pop-up spring 93.

As shown in fig. 8, the pulling member 3 is provided with a pulling portion 31, a first latching protrusion 32 engaged with the inner side of the latching member 7, a first spring mounting hole 33 for mounting the ejecting spring 93, and a first sliding portion 34 engaged with the main casing 1.

In the above structure, after the first latching protrusion 32 of the pulling member 3 is separated from the blocking of the latching member 7, the spring 93 is sprung upward along the pulling sliding groove 16 of the main housing 1 to expose the pulling portion 31, so that the pulling portion 31 can be pulled directly by hand.

As shown in fig. 1, the fixed casing includes a fixed casing 100, a fixed casing cover plate 101, and a data module mounting seat 102, the fixed casing 100 and the fixed casing cover plate 101 are installed in a matching manner, the data module mounting seat 102 is embedded in a through groove formed after the fixed casing 100 and the fixed casing cover plate 101 are installed, and the data module mounting seat 102 is provided with a mounting groove for mounting a data module.

In the above structure, the fixed casing 100 and the fixed casing cover 101 are installed to form a cavity for accommodating the vibration prevention device therein.

The data storage module comprises a data memory 4, a data interface 81 and a data interface circuit board 82, wherein the data memory 4 is arranged on one side of the data interface circuit board 82; the data interface 81 is installed on the other side of the data interface circuit board 82 and is electrically connected with the data memory 4.

The data storage module is fitted inside the vibration isolator by the data interface circuit board 82.

The above-mentioned embodiments, further detailed description of the objects, technical solutions and advantages of the present invention, it should be understood that the above description is only the embodiments of the present invention, and is not intended to limit the scope of the present invention, and any modifications, equivalent substitutions, improvements, etc. made within the spirit and principle of the present invention should be included in the scope of the present invention.

Claims (10)

1. The utility model provides a quick detach data storage device of vibration prevention, includes the set casing, data storage module, its characterized in that still includes the anti-vibration device, the anti-vibration device is equipped with presses part (6) and buckle spare (7), the data storage module inlays in the anti-vibration device, the anti-vibration device is installed inside the set casing, the anti-vibration device passes through buckle spare (7) and locks in the set casing, presses part (6) through pressing, takes out the anti-vibration device from the set casing.

2. The vibration-proof quick-release data storage device according to claim 1, wherein the vibration-proof device comprises a main housing (1), an auxiliary housing (2), a pulling part (3), a bottom plate (5), a pressing part (6), a fastener (7), a pressing spring (91), a fastening spring (92) and a spring (93), the main housing (1) is matched with the auxiliary housing (2) and is simultaneously mounted on the bottom plate (5); a pressing part (6) and a fastener (7) are arranged at one corner of the main shell (1); the pressing spring (91) is arranged in the pressing part (6), and one end exposed out of the pressing part (6) is contacted with the main shell (1); the buckle spring (92) is arranged in the buckle piece (7), and one end of the buckle piece (7) exposed is contacted with the main shell (1); the pulling piece (3) is embedded in the main shell (1) and is clamped at the lower end of the main shell (1) through a clamping piece (7); the pop-up spring (93) is arranged at the bottom end of the pulling piece (3), and the bottom end of the pop-up spring is in contact with the main shell (1).

3. The quick-release data storage device capable of preventing vibration according to claim 2, wherein the main housing (1) is provided with a snap sliding groove (11) for installing the snap member (7), a baffle plate (12) for limiting the data storage module, a first threaded hole (13) for installing on the bottom plate, a second threaded hole (14) matched with the auxiliary housing (2), a pulling sliding groove (16) for embedding the pulling member (3) and installing the pop-up spring (93), a first bottom plate installing part (15) for matching with the bottom plate, and a first data storage device limiting groove (17) for embedding the data storage device.

4. The quick-release data storage device for preventing vibration as claimed in claim 2, wherein the sub-housing (2) is provided with a slider portion (21) engaged with the pressing member (6), a screw mounting hole (22) fixed to the main housing, a third screw hole (23) for mounting the base plate, a second base plate mounting portion (24) for engaging with the base plate, and a second data storage device retaining groove (25) for engaging with the data storage device.

5. The vibration-proof quick-release data storage device according to claim 2, wherein the bottom plate (5) is provided with a mounting part (51) for the data storage module to be embedded, the mounting part (51) is a sunk cavity, the bottom of the cavity is through, and a threaded mounting hole (52) for fixing the main housing (1) and the auxiliary housing (2) is provided.

6. A vibration-proof quick-release data storage device according to claim 2, wherein the pressing member (6) is provided with a pressing portion (61), a pressing sliding groove (62) engaged with the sub-housing, a second spring mounting hole (63) for mounting a pressing spring (91), and a first wedge-shaped sliding portion (64) engaged with the locking member (7).

7. The vibration-proof quick release data storage device according to claim 2, wherein the locking member (7) has a second sliding portion (71) engaged with the main housing (1), a third spring mounting hole (72) for mounting the locking spring (92), a pulling member limiting portion (73) for limiting the pulling member (3), the pulling member limiting portion has a longitudinal groove on the inner side and a longitudinal protrusion on the outer side, and a second wedge-shaped sliding portion (74) engaged with the pressing member (6) is provided for locking to the second locking protrusion (75) of the fixed housing.

8. A vibration-proof quick-release data storage device according to claim 2, wherein the pulling member (3) is provided with a pulling portion (31), a first snap protrusion (32) engaged with the inner side of the snap member (7), a first spring mounting hole (33) for mounting the pop-up spring (93), and a first sliding portion (34) engaged with the main housing (1).

9. The vibration-proof quick-release data storage device according to claim 1, wherein the fixed casing comprises a fixed casing (100), a fixed casing cover plate (101), and a data module mounting seat (102), the fixed casing (100) and the fixed casing cover plate (101) are installed in a matching manner, the data module mounting seat (102) is embedded in a through groove formed after the fixed casing (100) and the fixed casing cover plate (101) are installed, and the data module mounting seat (102) is provided with a mounting groove for mounting a data module.

10. The vibration-proof quick-release data storage device according to claim 1, wherein the data storage module comprises a data memory (4), a data interface (81) and a data interface circuit board (82), the data memory (4) is mounted on one side of the data interface circuit board (82); the data interface (81) is arranged on the other side of the data interface circuit board (82) and is connected with the data memory (4) through a circuit.

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