CN114333919A - Data storage device - Google Patents

Abstract

The invention discloses a data storage device, and belongs to the technical field of data storage. The data storage device includes a storage component and a protection component. The storage assembly comprises a storage plate and a rigid-flexible belt, wherein the storage plate is provided with a first connector, the rigid-flexible belt is provided with a second connector, and the first connector and the second connector are plugged together. The protection component comprises a first protection cover and a second protection cover, the first protection cover comprises an upper clamping plate and a lower clamping plate, the upper clamping plate is detachably connected with the lower clamping plate, through holes are formed in the upper clamping plate and the lower clamping plate, glue is sealed in each through hole in a sealing mode to fill gaps between the upper clamping plate and a storage plate, between the lower clamping plate and the storage plate, a cavity is formed in the second protection cover, the upper clamping plate, the storage plate and the lower clamping plate are clamped and fixed in the cavity, and a rigid flexible belt penetrates through the second protection cover. The data storage device provided by the invention can realize reinforcement and vibration reduction of the storage plate and reduce impact damage of external force to the core storage component of the storage plate.

Description

Data storage device

Technical Field

The invention belongs to the technical field of data storage, and particularly relates to a data storage device.

Background

The data storage object comprises temporary files generated in the processing process of the data stream or information required to be inquired in the processing process. The data flow reflects data flowing in the system, shows the characteristics of dynamic data, and the output storage reflects data static in the system and shows the characteristics of static data.

The existing data storage device is diversified in types, the data storage device is easily influenced by external force in environments such as mechanical vibration and mechanical impact, printed circuits on a storage board are easily damaged in an overload-resistant environment, electronic devices are prone to failure, and the data storage device fails or breaks down to be incapable of being used normally.

Disclosure of Invention

In view of the above defects or needs for improvement in the prior art, the present invention provides a data storage device, which aims to achieve reinforcement and vibration reduction of a storage board and reduce impact damage to a core storage component of the storage board caused by external force, thereby avoiding situations such as failure or malfunction of the data storage device in an overload-resistant environment, which may result in abnormal use of the data storage device, and further prolonging the service life of the data storage device.

The invention provides a data storage device, which comprises a storage component and a protection component;

the storage assembly comprises a storage plate and a rigid-flexible belt, wherein the storage plate is provided with a first joint, the rigid-flexible belt is provided with a second joint, and the first joint and the second joint are plugged together;

the protection subassembly includes first safety cover and second safety cover, first safety cover includes punch holder and lower plate, the punch holder with lower plate detachably links together to parallel clamp dress the memory panel, the punch holder with all have the through-hole on the lower plate, each the embedment has sealed the glue in the through-hole, in order to fill the punch holder with the memory panel the lower plate with clearance between the memory panel, the second safety cover is elastic construction spare, the cavity has in the second safety cover, the punch holder the memory panel with the lower plate presss from both sides the dress and fixes in the cavity, just the flexible area runs through the second safety cover.

Optionally, the second protective cover includes a box body and a cover plate, and the cover plate is sealed and arranged at the notch of the box body to form the cavity.

Optionally, the box body and the cover plate are both cushion structural members.

Optionally, the storage assembly further comprises a printed board, the first connector penetrates through and extends out of the upper clamping plate, the second connector is located on the surface, facing the upper clamping plate, of the printed board, and the printed board and the upper clamping plate are detachably connected together to clamp the first connector and the second connector.

Optionally, the printed board has two first connecting bolts arranged at intervals to connect the upper clamping plate.

Optionally, the upper clamping plate is provided with two spaced arrangement bosses, each boss is located between the upper clamping plate and the printed board, the two bosses are in one-to-one correspondence with the two first connecting bolts, and each first connecting bolt is inserted into the corresponding boss.

Optionally, each of the upper clamping plate and the lower clamping plate has 4 through holes, and each through hole is located at a right angle of the upper clamping plate or the lower clamping plate.

Optionally, a plurality of second connecting bolts are inserted into the lower clamping plate and are arranged at intervals along the circumferential direction of the lower clamping plate to connect the upper clamping plate.

The technical scheme provided by the embodiment of the invention has the following beneficial effects:

with respect to the data storage device provided by the embodiment of the invention, the storage board is provided with a first connector (data is stored in the storage board), the rigid-flexible tape is provided with a second connector, and the first connector and the second connector are plugged together, so that the electrical connection between the storage board and other communication equipment is realized through the rigid-flexible tape to transmit data.

Since the upper and lower clamping plates are detachably coupled together to clamp the storage plates in parallel, the storage plates can be rigidly reinforced against an overload impact. In addition, the through holes are filled with sealing glue in a sealing mode so as to fill gaps between the upper clamping plate and the storage plate and gaps between the lower clamping plate and the storage plate, the storage plate and all electronic devices on the storage plate are effectively filled with the sealing glue for reinforcement, the storage plate can be further protected, and gaps between the first protection cover and the storage plate are avoided.

Furthermore, the second protective cover is an elastic structural member, a cavity is formed in the second protective cover, and the upper clamping plate, the storage plate and the lower clamping plate are clamped and fixed in the cavity, so that the whole device is flexibly reinforced and damped. Through triple reinforcement damping, through damping buffering step by step when the device bears high overload impact, greatly reduced the impact damage of external force to memory plate core storage component.

That is to say, the data storage device provided by the invention can realize the reinforcement and vibration reduction of the storage plate, and reduce the impact damage of external force to the core storage component of the storage plate, thereby avoiding the conditions that the data storage device fails or fails to work normally in an overload-resistant environment, and the like, and further prolonging the service life of the data storage device.

Drawings

FIG. 1 is a schematic structural diagram of a data storage device according to an embodiment of the present invention;

FIG. 2 is a schematic structural diagram of a memory module according to an embodiment of the present invention;

fig. 3 is a schematic structural diagram of a printed board provided in an embodiment of the present invention;

fig. 4 is a schematic structural diagram of a lower splint according to an embodiment of the present invention.

The symbols in the drawings represent the following meanings:

1. a storage component; 11. a storage plate; 111. a first joint; 12. a rigid and flexible belt; 121. a second joint; 13. printing a board; 131. a first connecting bolt; 2. a protection component; 21. a first protective cover; 211. an upper splint; 2111. a boss; 212. a lower splint; 2121. a second connecting bolt; 213. a through hole; 22. a second protective cover; 221. a box body; 222. and (7) a cover plate.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more apparent, the present invention is described in further detail below with reference to the accompanying drawings and embodiments. It should be understood that the specific embodiments described herein are merely illustrative of the invention and are not intended to limit the invention. In addition, the technical features involved in the embodiments of the present invention described below may be combined with each other as long as they do not conflict with each other.

Fig. 1 is a schematic structural diagram of a data storage device according to an embodiment of the present invention, and as shown in fig. 1, the data storage device includes a storage component 1 and a protection component 2.

Fig. 2 is a schematic structural diagram of a storage assembly according to an embodiment of the present invention, and as shown in fig. 2, the storage assembly 1 includes a storage plate 11 and a rigid-flexible belt 12, the storage plate 11 has a first joint 111, the rigid-flexible belt 12 has a second joint 121, and the first joint 111 and the second joint 121 are plugged together.

The protection assembly 2 comprises a first protection cover 21 and a second protection cover 22, the first protection cover 21 comprises an upper clamping plate 211 and a lower clamping plate 212, the upper clamping plate 211 and the lower clamping plate 212 are detachably connected together to clamp the storage plate 11 in parallel, through holes 213 are formed in the upper clamping plate 211 and the lower clamping plate 212, glue is sealed in each through hole 213 to fill gaps between the upper clamping plate 211 and the storage plate 11, between the lower clamping plate 212 and the storage plate 11, the second protection cover 22 is an elastic structural member, a cavity is formed in the second protection cover 22, the upper clamping plate 211, the storage plate 11 and the lower clamping plate 212 are clamped and fixed in the cavity, and the rigid flexible belt 12 penetrates through the second protection cover 22.

With regard to the data storage device provided by the embodiment of the present invention, the storage board 11 has the first connector 111 (data is stored in the storage board 11), the rigid-flexible strip 12 has the second connector 121, and the first connector 111 and the second connector 121 are plugged together, so that the electrical connection between the storage board 11 and other communication devices is realized through the rigid-flexible strip 12 to perform data transmission.

Since the upper and lower clamping plates 211 and 212 are detachably coupled together to clamp the storage plate 11 in parallel, the storage plate 11 can be rigidly reinforced against an overload impact. In addition, the through holes 213 are filled with potting adhesive to fill gaps between the upper clamping plate 211 and the storage board 11, and between the lower clamping plate 212 and the storage board 11, so as to effectively perform potting adhesive reinforcement on the storage board 11 and all electronic devices thereon, thereby further protecting the storage board 11 and avoiding gaps between the first protection cover 21 and the storage board 11.

Further, second protective cover 22 is an elastic structural member, and second protective cover 22 has a cavity therein, and upper clamp plate 211, storage plate 11, and lower clamp plate 212 are clamped and fixed in the cavity, thereby flexibly reinforcing and damping the whole device. Through triple reinforcement damping, through damping buffering step by step when the device bears high overload impact, greatly reduced the impact damage of external force to 11 core storage components of memory board.

That is to say, the data storage device provided by the invention can realize the reinforcement and vibration reduction of the storage plate 11, and reduce the impact damage of external force to the core storage component of the storage plate 11, thereby avoiding the conditions that the data storage device fails or fails to be normally used in an overload-resistant environment, and the like, and further prolonging the service life of the data storage device.

It should be noted that the rigid and flexible strip 12 can directly lead out the circuit signal of the memory board 11 for the flexible connection between the circuit of the memory board 11 and the peripheral communication device, and the flexible property of the rigid and flexible strip 12 ensures the suspension assembly of the memory board 11, and the rigid pull will not be generated when the rigid and flexible strip is impacted by external force, thereby protecting the data storage device.

Referring again to fig. 1, second shield 22 includes a case 221 and a cover plate 222, and cover plate 222 seals the gap of case 221 to form a cavity.

In the above embodiment, the storage plate 11 is easily detached by fitting the case 221 and the cover plate 222.

For example, when the box 221 and the cover 222 are completely engaged, the entire device may be inserted into a groove or slot of the chassis together, so as to implement the installation of the entire device.

Illustratively, the housing 221 and the cover 222 are both cushion structures.

It should be noted that the size of the cavity is consistent with the size of the integral structure formed by the upper clamping plate 211, the storage plate 11 and the lower clamping plate 212, so that the upper clamping plate 211, the storage plate 11 and the lower clamping plate 212 can be completely and tightly protected in the cavity, and the thickness, shape and material of the upper clamping plate 211 and the lower clamping plate 212 determine the size of the overload shock absorption.

Fig. 3 is a schematic structural diagram of a printed board according to an embodiment of the present invention, and as shown in fig. 2 and 3, the storage module 1 further includes a printed board 13, the first connector 111 penetrates and protrudes out of the upper clamping plate 211, the second connector 121 is located on a surface of the printed board 13 facing the upper clamping plate 211, and the printed board 13 and the upper clamping plate 211 are detachably connected together to clamp the first connector 111 and the second connector 121.

In the above embodiment, the printed board 13 and the upper clamp 211 are connected to each other, so that the first connector 111 and the second connector 121 can be firmly connected to each other, and the first connector 111 and the second connector 121 are prevented from being separated from each other during use.

In this embodiment, the printed board 13 has two first connection bolts 131 arranged at intervals to connect the upper clamping plate 211, so that the printed board 13, the upper clamping plate 211, the first connector 111 and the second connector 121 can be connected into a whole, and the structural strength is increased.

In addition, the upper clamping plate 211 is provided with two arrangement bosses 2111 arranged at intervals, each boss 2111 is positioned between the upper clamping plate 211 and the printed board 13, the two bosses 2111 correspond to the two first connecting bolts 131 one by one, and each first connecting bolt 131 is inserted into the corresponding boss 2111.

In the above embodiment, on the one hand, the boss 2111 supports the printed board 13, and prevents the printed board 13 from pinching the first connector 111 and the second connector 121. On the other hand, the boss 2111 may provide a connection base for the first connection bolt 131.

Fig. 4 is a schematic structural view of a lower clamping plate according to an embodiment of the present invention, and as shown in fig. 4, each of the upper clamping plate 211 and the lower clamping plate 212 (having a square structure) has 4 through holes 213, and each through hole 213 is located at a right angle of the upper clamping plate 211 or the lower clamping plate 212.

In the above embodiment, the potting of the sealant is conveniently achieved by the plurality of through holes 213.

It should be noted that the through hole 213 can be used for pouring the sealant, and can also be used as an observation hole and an exhaust hole for the uniformity of the sealant.

In this embodiment, a plurality of second connecting bolts 2121 are inserted into the lower clamping plate 212, and the plurality of second connecting bolts 2121 are arranged at intervals along the circumferential direction of the lower clamping plate 212, so as to connect the upper clamping plate 211 and the lower clamping plate 212.

Exemplarily, the number of the second coupling bolts 2121 may be 4.

It will be understood by those skilled in the art that the foregoing is only a preferred embodiment of the present invention, and is not intended to limit the invention, and that any modification, equivalent replacement, or improvement made within the spirit and principle of the present invention should be included in the scope of the present invention.

Claims (8)

1. A data storage device, characterized in that it comprises a storage component (1) and a protection component (2);

the storage assembly (1) comprises a storage plate (11) and a rigid-flexible belt (12), wherein a first joint (111) is arranged on the storage plate (11), a second joint (121) is arranged on the rigid-flexible belt (12), and the first joint (111) and the second joint (121) are plugged together;

the protective assembly (2) comprises a first protective cover (21) and a second protective cover (22), the first protective cover (21) comprises an upper clamping plate (211) and a lower clamping plate (212), the upper clamping plate (211) and the lower clamping plate (212) are detachably connected together, the storage plate (11) is clamped in parallel, through holes (213) are formed in the upper clamping plate (211) and the lower clamping plate (212), sealing glue is encapsulated in each through hole (213), to fill gaps between the upper clamp plate (211) and the storage plate (11), the lower clamp plate (212) and the storage plate (11), the second protective cover (22) is an elastic structural member, a cavity is arranged in the second protective cover (22), the upper clamping plate (211), the storage plate (11) and the lower clamping plate (212) are clamped and fixed in the cavity, and the rigid flexible belt (12) penetrates through the second protective cover (22).

2. A data storage device according to claim 1, wherein said second protective cover (22) comprises a box (221) and a cover (222), said cover (222) sealing the opening in said box (221) to form said cavity.

3. A data storage device according to claim 2, wherein said housing (221) and said cover (222) are both cushion structures.

4. A data storage device as claimed in claim 1, wherein said storage assembly (1) further comprises a printed board (13), said first connector (111) extends through and out of said upper clamp plate (211), said second connector (121) is located on a surface of said printed board (13) facing said upper clamp plate (211), said printed board (13) and said upper clamp plate (211) are detachably connected together to clamp said first connector (111) and said second connector (121).

5. A data storage device as claimed in claim 4, wherein said printed board (13) has two first connection bolts (131) spaced apart to connect said upper clamp plate (211).

6. A data storage device as claimed in claim 5, wherein said upper clamping plate (211) has two spaced-apart bosses (2111), each boss (2111) is located between said upper clamping plate (211) and said printed circuit board (13), and said two bosses (2111) and said two first connecting bolts (131) are in one-to-one correspondence, each first connecting bolt (131) being inserted into a corresponding boss (2111).

7. A data storage device according to any one of claims 1 to 6 wherein said upper clamp plate (211) and said lower clamp plate (212) each have 4 of said through holes (213), each of said through holes (213) being located at a right angle to said upper clamp plate (211) or said lower clamp plate (212).

8. A data storage device according to any one of claims 1 to 6 wherein a plurality of second attachment bolts (2121) are inserted through the lower clamp plate (212), a plurality of said second attachment bolts (2121) being circumferentially spaced along the lower clamp plate (212) for attachment to the upper clamp plate (211).

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