CN216214220U - Storage device structure capable of freely bending - Google Patents

Abstract

The utility model discloses a storage device structure capable of being bent freely, which comprises a reinforcing plate, a plug connector, a flexible flat cable, a flexible colloid, a first outer mold body and a second outer mold body, wherein the reinforcing plate is arranged on the outer side of the first outer mold body; the soft rubber body comprises a first inner die part, a connecting part and a second inner die part which are integrally formed and connected in sequence; the first outer mold body is molded and coated outside the first inner mold part; the second outer mold body is molded and covers the second inner mold part, and the second outer mold body is provided with a concave cavity for accommodating a memory device; the front end of the flexible flat cable is clamped between the reinforcing plate and the plug connector and is in conductive connection with the plug connector, and the flexible flat cable is wrapped by the connecting part of the flexible colloid and the second inner mold part, so that the product can be freely bent, the connecting structure is stable, and the service life is long; and the rear end of the flexible flat cable extends into the concave cavity of the second outer mold body, so that the flexible flat cable is convenient to be connected with a PCB (printed circuit board) arranged in the concave cavity in the rear manufacturing process, the process is simple, and the traditional wire welding manufacturing process is replaced.

Description

Storage device structure capable of freely bending

Technical Field

The utility model relates to the technical field of storage devices, in particular to a storage device structure capable of being bent freely.

Background

In each type of electronic product, a flexible flat cable is commonly used as a signal transmission component. Generally, the electronic device includes electronic products such as a camera and a keyboard, and the electronic components are connected with an electronic main board of the portable electronic device through a flexible flat cable.

The conventional storage device structure is composed of a main body and a plug connector, and two connection modes are generally adopted between the plug connector and the main body: one is to fix the plug connector on the main body directly, the plug connector of this structure can not be bent freely relative to the main body, and the use is inconvenient; another way to connect the plug connector to the main body is by a cable, which can bend the plug connector relative to the main body, but the bending angle is limited, and the cable has poor bending resistance and short service life. Therefore, a solution to the above-mentioned problem is necessary.

SUMMERY OF THE UTILITY MODEL

In view of the above, the present invention is directed to a storage device structure capable of being freely bent, which can effectively solve the problems of the conventional storage device that the plug connector is not bendable or has a small bending angle and a short service life with respect to the main body.

In order to achieve the purpose, the utility model adopts the following technical scheme:

a storage device structure capable of being freely bent comprises a reinforcing plate, a plug connector, a flexible flat cable, a flexible colloid, a first outer mold body and a second outer mold body; the plug connector is fixed on the reinforcing plate; the front end of the flexible flat cable is clamped between the reinforcing plate and the plug connector and is in conduction connection with the plug connector; the flexible glue body is embedded, molded and fixed with the rear end of the plug connector, the reinforcing plate and the flexible flat cable together, the flexible glue body comprises a first inner mold part, a connecting part and a second inner mold part which are sequentially and integrally molded and connected, the rear end of the plug connector and the reinforcing plate are covered by the first inner mold part, and the flexible flat cable is covered by the connecting part and the second inner mold part; the first outer mold body is molded and coated outside the first inner mold part; the second outer die body is formed and coated outside the second inner die part, the second outer die body is provided with a concave cavity for accommodating a memory device, and the rear end of the flexible flat cable extends into the concave cavity.

As a preferable scheme, a groove is concavely arranged at a connection part between the first inner mold part and the connecting part, and a step is arranged on the first outer mold body and is clamped in the groove.

As a preferred scheme, a plurality of slots are concavely arranged on the surface of the connecting part, and the slots penetrate through two side surfaces of the connecting part and are arranged at intervals along the length direction of the connecting part.

Preferably, the second inner mold part has a saw-tooth structure formed on a surface thereof, and the second outer mold part is engaged with the saw-tooth structure.

Preferably, the first casing body and the second casing body are both made of hard glue.

Compared with the prior art, the utility model has obvious advantages and beneficial effects, and specifically, the technical scheme includes that:

the front end of the flexible flat cable is clamped between the reinforcing plate and the plug connector and is in conductive connection with the plug connector, and the flexible flat cable is wrapped by the connecting part of the flexible colloid and the second inner mold part, so that the product can be freely bent, the connecting structure is stable, and the service life is long; and the rear end of the flexible flat cable extends into the concave cavity of the second outer mold body, so that the flexible flat cable is convenient to be connected with a PCB (printed circuit board) arranged in the concave cavity in the rear manufacturing process, the process is simple, and the traditional wire welding manufacturing process is replaced.

To more clearly illustrate the structural features and effects of the present invention, the present invention will be described in detail below with reference to the accompanying drawings and specific embodiments.

Drawings

FIG. 1 is an assembled perspective view of the preferred embodiment of the present invention;

FIG. 2 is an exploded view of the preferred embodiment of the present invention;

FIG. 3 is a cross-sectional view of a preferred embodiment of the present invention;

FIG. 4 is a partially assembled perspective view of the preferred embodiment of the present invention.

The attached drawings indicate the following:

10. reinforcing plate 20 and plug connector

30. Flexible flat cable 40, flexible glue body

401. Groove 402, slot position

403. Sawtooth structure 41, first inner die section

42. Connecting part 43, second inner mold part

50. First outer mold body 501, step

60. A second casing 601, a cavity.

Detailed Description

Referring to fig. 1 to 4, a specific structure of a preferred embodiment of the present invention is shown, which includes a reinforcing plate 10, a plug connector 20, a flex cable 30, a flexible body 40, a first mold 50 and a second mold 60.

The plug connector 20 is fixed on the reinforcing plate 10; the front end of the flexible flat cable 30 is clamped between the reinforcing plate 10 and the plug connector 20 and conductively connected to the plug connector 20.

The soft colloid 40 is fixedly embedded with the rear end of the plug connector 20, the reinforcing plate 10 and the flexible flat cable 30, the soft colloid 40 comprises a first inner mold part 41, a connecting part 42 and a second inner mold part 43 which are sequentially connected in an integrated forming way, the rear end of the plug connector 20 and the reinforcing plate 10 are covered by the first inner mold part 41, and the flexible flat cable 30 is covered by the connecting part 42 and the second inner mold part 43, so that the product can be freely bent; in this embodiment, a concave groove 401 is concavely disposed at a connection portion between the first inner mold portion 41 and the connection portion 42, a plurality of grooves 402 are concavely disposed on a surface of the connection portion 42, and the grooves 402 all penetrate through two side surfaces of the connection portion 42 and are arranged at intervals along a length direction of the connection portion 42, so that the product is bent at a larger angle, and a saw-tooth structure 403 is formed on a surface of the second inner mold portion 43.

The first outer mold body 50 is molded and coated outside the first inner mold part 41, so that the strength of the head part of the product is improved; the second outer mold body 60 is formed and coated outside the second inner mold part 43, so that the strength of the tail part of the product is improved, the second outer mold body 60 is provided with a cavity 601 for accommodating a memory device, and the rear end of the flexible flat cable 30 extends into the cavity 601, so that the flexible flat cable 30 is convenient to be connected with a PCB (printed circuit board) part installed in the cavity 601 in the post-processing procedure. In this embodiment, the first casing 50 has a step 501, and the step 501 is snapped into the groove 401 to prevent separation; the second casing body 60 is engaged with the saw-tooth structure 403 to prevent the second casing body from falling off; the first casing body 50 and the second casing body 60 are made of hard glue.

Detailed description the assembly process of this embodiment is as follows:

firstly, clamping the front end of the flexible flat cable 30 between the reinforcing plate 10 and the plug connector 20; then, the plug connector 20 is fixed on the reinforcing plate 10 and is connected with the flexible flat cable 30 in a conduction manner; then, the soft gel 40 is molded and fixed outside the rear end of the plug connector 20, the reinforcing plate 10 and the flexible flat cable 30, and finally, the first outer mold 50 is molded and wrapped outside the first inner mold portion 41, and the second outer mold 60 is molded and wrapped outside the second inner mold portion 43.

The design of the utility model is characterized in that: the front end of the flexible flat cable is clamped between the reinforcing plate and the plug connector and is in conductive connection with the plug connector, and the flexible flat cable is wrapped by the connecting part of the flexible colloid and the second inner mold part, so that the product can be freely bent, the connecting structure is stable, and the service life is long; and the rear end of the flexible flat cable extends into the concave cavity of the second outer mold body, so that the flexible flat cable is convenient to be connected with a PCB (printed circuit board) arranged in the concave cavity in the rear manufacturing process, the process is simple, and the traditional wire welding manufacturing process is replaced.

The above description is only a preferred embodiment of the present invention, and is not intended to limit the technical scope of the present invention, so that any minor modifications, equivalent changes and modifications made to the above embodiment according to the technical spirit of the present invention are within the technical scope of the present invention.

Claims (5)

1. A storage device structure that can freely buckle its characterized in that: the connector comprises a reinforcing plate, a plug connector, a flexible flat cable, a flexible colloid, a first outer mold body and a second outer mold body; the plug connector is fixed on the reinforcing plate; the front end of the flexible flat cable is clamped between the reinforcing plate and the plug connector and is in conduction connection with the plug connector; the flexible glue body is embedded, molded and fixed with the rear end of the plug connector, the reinforcing plate and the flexible flat cable together, the flexible glue body comprises a first inner mold part, a connecting part and a second inner mold part which are sequentially and integrally molded and connected, the rear end of the plug connector and the reinforcing plate are covered by the first inner mold part, and the flexible flat cable is covered by the connecting part and the second inner mold part; the first outer mold body is molded and coated outside the first inner mold part; the second outer die body is formed and coated outside the second inner die part, the second outer die body is provided with a concave cavity for accommodating a memory device, and the rear end of the flexible flat cable extends into the concave cavity.

2. The freely bendable storage device structure of claim 1, wherein: the first outer die body is provided with a step, and the step is clamped in the groove.

3. The freely bendable storage device structure of claim 1, wherein: the connecting portion are provided with a plurality of groove positions in a concave mode on the surface, and the groove positions penetrate through the two side faces of the connecting portion and are arranged at intervals along the length direction of the connecting portion.

4. The freely bendable storage device structure of claim 1, wherein: and a sawtooth structure is formed on the surface of the second inner mold part, and the second outer mold body is mutually meshed with the sawtooth structure.

5. The freely bendable storage device structure of claim 1, wherein: the first outer die body and the second outer die body are made of hard glue materials.

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