CN217983950U - Connector of FFC flexible flat cable - Google Patents

Abstract

The utility model belongs to the technical field of and FFC soft arranging wire, concretely relates to FFC soft arranging wire's connector, including connection socket, the last interface that is provided with of connection socket, an upper fixed plate and bottom plate, an upper fixed plate, last round pin post that is equipped with on the bottom plate is pegged graft respectively with round pin post and is connected upper cover plate and lower apron, the upper cover plate both sides are passed through the upper side plate and are connected upward the buckle, lower apron both sides are passed through lower side plate and are connected lower buckle, buckle under the last buckle adaptation joint, the limit portion of going up the elastic support plate of inboard wall connection of side plate is equipped with V type arris, elastic support plate, the terminal surface that the lower cover plate was faced is equipped with cushion and lower cushion respectively, go up the outside that the soft arranging wire of FFC was pressed from both sides to cushion and lower cushion. The utility model has the advantages that: the upper cover plate and the lower cover plate can be clamped outside the FFC flexible flat cable, and the FFC flexible flat cable is clamped tightly through the upper elastic pad and the lower elastic pad, so that the FFC flexible flat cable is prevented from being separated from the interface due to vibration, traction and the like.

Description

Connector of FFC flexible flat cable

Technical Field

The utility model belongs to the technical field of and FFC soft arranging wire, concretely relates to connector of FFC soft arranging wire.

Background

The flexible flat cable is also called as Flexible Flat Cable (FFC), the number and the spacing of the conducting wires can be selected at will, so that the connection is more convenient, the volume of an electronic product is greatly reduced, the production cost is reduced, the production efficiency is improved, and the flexible flat cable is most suitable for being used as a data transmission cable between a mobile part and a mainboard, between a PCB and in miniaturized electrical equipment.

The conventional FFC flexible flat cable is inserted into a socket of electronic equipment through a plug, but in the using process, the straight flat cable is in interference fit and matched connection with a connector, and the FFC flexible flat cable is easy to separate from an interface due to vibration, traction and the like, so that the failure of the electrical equipment is caused.

SUMMERY OF THE UTILITY MODEL

To above problem, the utility model aims to: the utility model provides a connector of FFC soft arranging wire, solves the problem of the malfunctioning trouble of electrical equipment that current FFC soft arranging wire and connector joint strength is low, easily drops and cause.

For the purpose of realizing above, the utility model discloses a technical scheme: the utility model provides a connector of FFC soft arranging wire, includes connection socket, connection socket's terminal surface is provided with the interface, be equipped with upper fixed plate and bottom plate on the connection socket of both sides about the interface, upper fixed plate, bottom plate terminal surface that carries on the back mutually are equipped with round pin post and lower round pin post respectively, upper pin post and lower round pin post be plug-in connection respectively have upper cover plate and lower apron, the both sides of upper cover plate are connected with the epipleural, the bottom of epipleural is connected with the buckle, the both sides of lower apron are connected with the lower side board, the top of lower side board is connected with down the buckle, buckle under the upper buckle adaptation joint, the both sides of the inner wall connection elastic support board of epipleural, elastic support board's limit portion is equipped with V type arris, elastic support board, lower apron in opposite direction terminal surface are equipped with elastic pad and lower elastic pad respectively, go up elastic pad and lower elastic pad and press from both sides the outside at FFC soft arranging wire.

The utility model has the advantages that: the upper cover plate and the lower cover plate can be clamped outside the FFC flexible flat cable, and the FFC flexible flat cable is clamped tightly through the upper elastic pad and the lower elastic pad, so that the FFC flexible flat cable is prevented from being separated from the interface due to vibration, traction and the like.

In order to position the upper cover plate and the lower cover plate;

as a further improvement of the above technical solution: and one end of the upper cover plate and one end of the lower cover plate are respectively provided with a vertical through hole which is matched with the upper pin column and the lower pin column in an inserting mode, and the number of the upper pin column and the lower pin column is at least two.

The beneficial effect of this improvement does: the upper pin column and the lower pin column can limit the upper cover plate and the lower cover plate in the horizontal direction, and the upper cover plate and the lower cover plate are connected with the connecting socket stably as a whole after being clamped with each other.

The upper cover plate and the lower cover plate are connected conveniently and stably;

as a further improvement of the above technical solution: the upper cover plate, the upper side plate and the upper buckle are of an integrally formed plate body structure, the lower cover plate, the lower side plate and the lower buckle are of an integrally formed plate body structure, and the upper buckle and the lower buckle are of a V-shaped plate structure.

The beneficial effect of this improvement does: the upper cover plate and the lower cover plate can be conveniently clamped through the upper buckle and the lower buckle.

In order to conveniently disassemble the upper cover plate and the lower cover plate;

as a further improvement of the above technical solution: the lower side plate is obliquely arranged towards the middle line direction of the lower cover plate from top to bottom.

The beneficial effect of this improvement does: when the upper cover plate is pressed to enable the upper buckle to move towards the lower part of the lower buckle, the gap exposed between the upper buckle and the lower side plate which is obliquely arranged is gradually increased, so that an operator can conveniently insert a tool into the gap to open the upper buckle and the lower buckle.

In order to provide moving allowance for the mutual clamping of the upper buckle and the lower buckle;

as a further improvement of the above technical solution: the V-shaped edges are arranged on the left side and the right side of the upper elastic cushion, and the upper end face and the lower end face of the elastic supporting plate are parallel to the bottom face of the upper cover plate.

The beneficial effect of this improvement does: in the process of clamping the upper buckle and the lower buckle, the elastic support plate provides elastic allowance, and after the upper buckle is clamped into the lower buckle, elastic potential energy is released to ensure that the upper elastic pad and the lower elastic pad are tightly pressed on the FFC flexible flat cable.

In order to protect the surface of the FFC flexible flat cable;

as a further improvement of the above technical solution: go up the cushion and the cushion is flat and have elastic square rubber strip down.

The beneficial effect of this improvement does: the upper elastic cushion and the lower elastic cushion are soft and elastic, and the FFC flexible flat cable can be prevented from being directly clamped by a hard object and being damaged.

In order to increase the friction force on the surface of the FFC flexible flat cable;

as a further improvement of the above technical solution: and the opposite end surfaces of the upper elastic cushion and the lower elastic cushion are provided with anti-skid convex line structures.

The beneficial effect of this improvement does: the anti-skid convex patterns arranged on the upper elastic cushion and the lower elastic cushion can increase the friction force on the FFC flexible flat cable and improve the clamping stability.

The parts of the device not involved are the same as or can be implemented using prior art.

Drawings

FIG. 1 is a schematic view of the present invention;

fig. 2 is a schematic structural view of the connection socket, the lower fixing plate and the upper fixing plate of the present invention;

fig. 3 is a front view of the present invention;

fig. 4 is a side cross-sectional view of the present invention;

FIG. 5 is an enlarged view of A of the present invention;

in the figure: 1. a connection socket; 2. an interface; 3. a lower fixing plate; 4. an upper fixing plate; 5. mounting a pin column; 6. a lower pin column; 7. an upper cover plate; 8. a lower cover plate; 9. an upper buckle; 10. an elastic support plate; 11. v-shaped edges; 12. an upper side plate; 13. a lower side plate; 14. a lower buckle; 15. an upper elastic pad; 16. a lower elastic pad; 17. FFC flexible flat cable.

Detailed Description

The following detailed description of the present invention is given for the purpose of better understanding technical solutions of the present invention by those skilled in the art, and the present description is only exemplary and explanatory and should not be construed as limiting the scope of the present invention in any way.

Example 1:

as shown in fig. 1-5: the utility model provides a connector of FFC soft arranging wire, includes connection socket 1, connection socket 1's terminal surface is provided with interface 2, be equipped with upper fixed plate 4 and bottom plate 3 on the connection socket 1 of both sides about interface 2, the terminal surface that upper fixed plate 4, bottom plate 3 carried on the back mutually is equipped with round pin post 5 and lower round pin post 6 respectively, upper pin post 5 and lower round pin post 6 are pegged graft respectively and are connected with upper cover plate 7 and lower apron 8, the both sides of upper cover plate 7 are connected with upper side plate 12, the bottom of upper side plate 12 is connected with last buckle 9, the both sides of lower apron 8 are connected with lower side plate 13, the top of lower side plate 13 is connected with lower buckle 14, buckle 14 under the adaptation of last buckle 9 joint, the both sides of elastic support plate 10 are connected to the inner wall of upper side plate 12, the limit portion of elastic support plate 10 is equipped with V type arris 11, elastic support plate 10, the terminal surface that elastic support plate 8 was in opposite directions is equipped with elastic cushion 15 and lower elastic cushion 16 respectively, go up elastic cushion 15 and lower elastic cushion 16 press from both sides in the outside of FFC soft arranging wire 17.

The working principle of the technical scheme is as follows: after the end of the FFC flexible flat cable 17 is inserted into the connector 2, the lower cover plate 8 is inserted onto the lower pin 6 from bottom to top, and the top surface of the lower elastic pad 16 is attached to the bottom surface of the FFC flexible flat cable 17, one end of the lower elastic pad 16 is attached to the front end of the lower fixing plate 3, then the upper cover plate 7 is inserted onto the upper pin 5 from top to bottom, during the installation process, the upper buckle 9 presses the upper end of the lower buckle 14 to enable the lower side plate 13 to drive the lower buckle 14 to retract, meanwhile, after the upper elastic pad 15 is attached to the top surface of the FFC flexible flat cable 17, the elastic support plate 10 generates elastic deformation in the direction of the upper cover plate 7 under the reaction force, when the upper buckle 9 moves to the lower part of the lower buckle 14, the lower side plate 13 releases elastic potential energy to drive the lower buckle 14 to pop out, the buckle is connected with the upper buckle 9 in a clamping manner, and simultaneously, the elastic potential energy of the upper elastic support plate 10 releases part to enable the upper elastic pad 15 and the lower elastic pad 16 to clamp the FFC flexible flat cable 17 in the up and down direction, thereby fixing the FFC flexible flat cable 17 is completed.

Example 2:

as shown in fig. 1 to 5, as a further optimization of the above embodiment, a connector for an FFC flexible flat cable includes a connection socket 1, an interface 2 is disposed on an end surface of the connection socket 1, an upper fixing plate 4 and a lower fixing plate 3 are disposed on the connection socket 1 on upper and lower sides of the interface 2, an upper pin 5 and a lower pin 6 are disposed on end surfaces of the upper fixing plate 4 and the lower fixing plate 3, which are opposite to each other, respectively, the upper pin 5 and the lower pin 6 are connected to an upper cover plate 7 and a lower cover plate 8 in an inserting manner, respectively, upper side plates 12 are connected to two sides of the upper cover plate 7, an upper buckle 9 is connected to a bottom end of the upper side plate 12, lower side plates 13 are connected to two sides of the lower cover plate 8, a lower buckle 14 is connected to a top end of the lower side plate 13, the upper buckle 9 is adapted to be clamped to the lower buckle 14, an inner wall of the upper side plate 12 is connected to two sides of an elastic support plate 10, V-shaped ribs 11 are disposed on side portions of the elastic support plate 10, and end surfaces of the lower cover plate 8, which are opposite to each other, and an upper elastic pad 15 and a lower elastic pad 16 are disposed on an outer side of the FFC flexible flat cable 17. One end of the upper cover plate 7 and one end of the lower cover plate 8 are respectively provided with a vertical through hole which is adaptive to the upper pin column 5 and the lower pin column 6 in an inserting way, and the number of the upper pin column 5 and the lower pin column 6 is at least two

Example 3:

as shown in fig. 1 to 5, as a further optimization of the above embodiment, a connector for an FFC flexible flat cable includes a connection socket 1, an interface 2 is disposed on an end surface of the connection socket 1, an upper fixing plate 4 and a lower fixing plate 3 are disposed on the connection socket 1 on upper and lower sides of the interface 2, an upper pin 5 and a lower pin 6 are disposed on end surfaces of the upper fixing plate 4 and the lower fixing plate 3, which are opposite to each other, an upper cover plate 7 and a lower cover plate 8 are respectively connected to the upper pin 5 and the lower pin 6 in an inserting manner, upper side plates 12 are connected to two sides of the upper cover plate 7, an upper buckle 9 is connected to a bottom end of the upper side plate 12, lower side plates 13 are connected to two sides of the lower cover plate 8, a lower buckle 14 is connected to a top end of the lower side plate 13, the upper buckle 9 is adapted to the lower buckle 14, an inner wall of the upper buckle 12 is connected to two sides of an elastic support plate 10, a V-shaped edge portion of the elastic support plate 10 is disposed on an edge 11, opposite to end surfaces of the elastic support plate 10 and the lower cover plate 8 are respectively disposed with an upper elastic cushion 15 and a lower elastic cushion 16, and the upper elastic cushion 15 and the lower cushion 16 are disposed on an outer side of the FFC flexible flat cable 17. The upper cover plate 7, the upper side plate 12 and the upper buckle 9 are of an integrally formed plate body structure, the lower cover plate 8, the lower side plate 13 and the lower buckle 14 are of an integrally formed plate body structure, and the upper buckle 9 and the lower buckle 14 are of V-shaped plate structures.

Example 4:

as shown in fig. 1 to 5, as a further optimization of the above embodiment, a connector for an FFC flexible flat cable includes a connection socket 1, an interface 2 is disposed on an end surface of the connection socket 1, an upper fixing plate 4 and a lower fixing plate 3 are disposed on the connection socket 1 on upper and lower sides of the interface 2, an upper pin 5 and a lower pin 6 are disposed on end surfaces of the upper fixing plate 4 and the lower fixing plate 3, which are opposite to each other, respectively, the upper pin 5 and the lower pin 6 are connected to an upper cover plate 7 and a lower cover plate 8 in an inserting manner, respectively, upper side plates 12 are connected to two sides of the upper cover plate 7, an upper buckle 9 is connected to a bottom end of the upper side plate 12, lower side plates 13 are connected to two sides of the lower cover plate 8, a lower buckle 14 is connected to a top end of the lower side plate 13, the upper buckle 9 is adapted to be clamped to the lower buckle 14, an inner wall of the upper side plate 12 is connected to two sides of an elastic support plate 10, V-shaped ribs 11 are disposed on side portions of the elastic support plate 10, and end surfaces of the lower cover plate 8, which are opposite to each other, and an upper elastic pad 15 and a lower elastic pad 16 are disposed on an outer side of the FFC flexible flat cable 17. The lower side plate 13 is obliquely arranged from top to bottom towards the central line direction of the lower cover plate 8.

Example 5:

as shown in fig. 1 to 5, as a further optimization of the above embodiment, a connector for an FFC flexible flat cable includes a connection socket 1, an interface 2 is disposed on an end surface of the connection socket 1, an upper fixing plate 4 and a lower fixing plate 3 are disposed on the connection socket 1 on upper and lower sides of the interface 2, an upper pin 5 and a lower pin 6 are disposed on end surfaces of the upper fixing plate 4 and the lower fixing plate 3, which are opposite to each other, an upper cover plate 7 and a lower cover plate 8 are respectively connected to the upper pin 5 and the lower pin 6 in an inserting manner, upper side plates 12 are connected to two sides of the upper cover plate 7, an upper buckle 9 is connected to a bottom end of the upper side plate 12, lower side plates 13 are connected to two sides of the lower cover plate 8, a lower buckle 14 is connected to a top end of the lower side plate 13, the upper buckle 9 is adapted to the lower buckle 14, an inner wall of the upper buckle 12 is connected to two sides of an elastic support plate 10, a V-shaped edge portion of the elastic support plate 10 is disposed on an edge 11, opposite to end surfaces of the elastic support plate 10 and the lower cover plate 8 are respectively disposed with an upper elastic cushion 15 and a lower elastic cushion 16, and the upper elastic cushion 15 and the lower cushion 16 are disposed on an outer side of the FFC flexible flat cable 17. The V-shaped ribs 11 are arranged on the left side and the right side of the upper elastic cushion 15, and the upper end surface and the lower end surface of the elastic support plate 10 are parallel to the bottom surface of the upper cover plate 7.

Example 6:

as shown in fig. 1 to 5, as a further optimization of the above embodiment, a connector for an FFC flexible flat cable includes a connection socket 1, an interface 2 is disposed on an end surface of the connection socket 1, an upper fixing plate 4 and a lower fixing plate 3 are disposed on the connection socket 1 on upper and lower sides of the interface 2, an upper pin 5 and a lower pin 6 are disposed on end surfaces of the upper fixing plate 4 and the lower fixing plate 3, which are opposite to each other, respectively, the upper pin 5 and the lower pin 6 are connected to an upper cover plate 7 and a lower cover plate 8 in an inserting manner, respectively, upper side plates 12 are connected to two sides of the upper cover plate 7, an upper buckle 9 is connected to a bottom end of the upper side plate 12, lower side plates 13 are connected to two sides of the lower cover plate 8, a lower buckle 14 is connected to a top end of the lower side plate 13, the upper buckle 9 is adapted to be clamped to the lower buckle 14, an inner wall of the upper side plate 12 is connected to two sides of an elastic support plate 10, V-shaped ribs 11 are disposed on side portions of the elastic support plate 10, and end surfaces of the lower cover plate 8, which are opposite to each other, and an upper elastic pad 15 and a lower elastic pad 16 are disposed on an outer side of the FFC flexible flat cable 17. The upper elastic pad 15 and the lower elastic pad 16 are both flat and elastic square rubber strips.

Example 7:

as shown in fig. 1 to 5, as a further optimization of the above embodiment, a connector for an FFC flexible flat cable includes a connection socket 1, an interface 2 is disposed on an end surface of the connection socket 1, an upper fixing plate 4 and a lower fixing plate 3 are disposed on the connection socket 1 on upper and lower sides of the interface 2, an upper pin 5 and a lower pin 6 are disposed on end surfaces of the upper fixing plate 4 and the lower fixing plate 3, which are opposite to each other, respectively, the upper pin 5 and the lower pin 6 are connected to an upper cover plate 7 and a lower cover plate 8 in an inserting manner, respectively, upper side plates 12 are connected to two sides of the upper cover plate 7, an upper buckle 9 is connected to a bottom end of the upper side plate 12, lower side plates 13 are connected to two sides of the lower cover plate 8, a lower buckle 14 is connected to a top end of the lower side plate 13, the upper buckle 9 is adapted to be clamped to the lower buckle 14, an inner wall of the upper side plate 12 is connected to two sides of an elastic support plate 10, V-shaped ribs 11 are disposed on side portions of the elastic support plate 10, and end surfaces of the lower cover plate 8, which are opposite to each other, and an upper elastic pad 15 and a lower elastic pad 16 are disposed on an outer side of the FFC flexible flat cable 17. The opposite end surfaces of the upper elastic cushion 15 and the lower elastic cushion 16 are provided with anti-skid convex-grain structures.

The utility model discloses a theory of operation and use flow: after the end of the FFC flexible flat cable 17 is inserted into the connector 2, the lower cover plate 8 is inserted onto the lower pin 6 from bottom to top, the top surface of the lower elastic pad 16 is attached to the bottom surface of the FFC flexible flat cable 17, one end of the lower elastic pad 16 is attached to the front end of the lower fixing plate 3, then the upper cover plate 7 is inserted onto the upper pin 5 from top to bottom, in the installation process, the upper buckle 9 presses the upper end of the lower buckle 14 to enable the lower side plate 13 to drive the lower buckle 14 to retract, meanwhile, after the upper elastic pad 15 is attached to the top surface of the FFC flexible flat cable 17, the elastic support plate 10 generates elastic deformation in the direction of the upper cover plate 7 under the reaction force, when the upper buckle 9 moves to the lower part of the lower buckle 14, the lower side plate 13 releases elastic potential energy to drive the lower buckle 14 to pop out, the buckle is connected with the upper buckle 9, meanwhile, the elastic support plate 10 releases part of the elastic potential energy, and enables the upper elastic pad 15 and the lower elastic pad 16 to clamp the FFC flexible flat cable 17 in the up and down directions, thereby fixing the FFC flexible flat cable 17 is completed.

It should be noted that, in this document, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus.

The principles and embodiments of the present invention are explained herein using specific examples, which are presented only to assist in understanding the method and its core concepts of the present invention. It should be noted that there are no specific structures but rather a number of modifications, decorations or changes that can be made by one skilled in the art without departing from the principles of the invention; such modifications, variations, combinations, or adaptations of the invention using its spirit and scope, as defined by the claims, may be directed to other uses and embodiments.

Claims (7)

1. A connector of FFC flexible flat cable is characterized in that: comprises a connecting socket (1), the end surface of the connecting socket (1) is provided with an interface (2), an upper fixing plate (4) and a lower fixing plate (3) are arranged on the connecting sockets (1) at the upper side and the lower side of the interface (2), the back end surfaces of the upper fixing plate (4) and the lower fixing plate (3) are respectively provided with an upper pin column (5) and a lower pin column (6), the upper pin column (5) and the lower pin column (6) are respectively connected with an upper cover plate (7) and a lower cover plate (8) in an inserting way, two sides of the upper cover plate (7) are connected with upper side plates (12), the bottom end of the upper side plate (12) is connected with an upper buckle (9), two sides of the lower cover plate (8) are connected with lower side plates (13), the top end of the lower side plate (13) is connected with a lower buckle (14), the upper buckle (9) is in adaptive clamping connection with the lower buckle (14), the inner wall of the upper side plate (12) is connected with two sides of the elastic support plate (10), v-shaped edges (11) are arranged at the side parts of the elastic supporting plates (10), the opposite end surfaces of the elastic supporting plate (10) and the lower cover plate (8) are respectively provided with an upper elastic cushion (15) and a lower elastic cushion (16), the upper elastic cushion (15) and the lower elastic cushion (16) are clamped at the outer side of the FFC flexible flat cable (17).

2. The FFC flex cable connector of claim 1, wherein: and one ends of the upper cover plate (7) and the lower cover plate (8) are respectively provided with vertical through holes which are matched with the upper pin columns (5) and the lower pin columns (6) in an inserting mode, and the number of the upper pin columns (5) and the number of the lower pin columns (6) are at least two.

3. The FFC flex cable connector of claim 1, wherein: the upper cover plate (7), the upper side plate (12) and the upper buckle (9) are of an integrally formed plate body structure, the lower cover plate (8), the lower side plate (13) and the lower buckle (14) are of an integrally formed plate body structure, and the upper buckle (9) and the lower buckle (14) are of a V-shaped plate structure.

4. The FFC flex cable connector of claim 1, wherein: the lower side plate (13) is obliquely arranged in the middle line direction of the lower cover plate (8) from top to bottom.

5. The FFC flex cable connector of claim 1, wherein: the V-shaped edges (11) are arranged on the left side and the right side of the upper elastic cushion (15), and the upper end face and the lower end face of the elastic supporting plate (10) are parallel to the bottom face of the upper cover plate (7).

6. The FFC flex cable connector of claim 1, wherein: the upper elastic pad (15) and the lower elastic pad (16) are both flat square rubber strips with elasticity.

7. The FFC flex cable connector of claim 1, wherein: the opposite end surfaces of the upper elastic cushion (15) and the lower elastic cushion (16) are provided with anti-skid convex patterns.

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