CN110797690A - Flexible circuit board electric connector - Google Patents

Abstract

The invention provides an electric connector of a flexible circuit board, which comprises an insulating body, a plurality of conductive terminals and a driving piece, wherein the driving piece is provided with a pressing plate part and positioning parts positioned at two ends of the pressing plate part; the top edge of the upper arm is provided with a concave part for accommodating the pivot shaft, the notch is internally provided with a driving part, and the rear end of the driving part is provided with an arc-shaped supporting part for supporting the insulating body upwards. Compared with the prior art, the flexible circuit board electric connector has the advantages that through the improved design of the driving part, the driving part on the driving part is in interference fit with the insulating body, so that the pressing plate part presses the upper arm of the conductive terminal down to the surface of the flexible circuit board, the stable clamping of the upper arm and the lower arm on the flexible circuit board is completed, and the connection stability and reliability between the electric connector and the flexible circuit board are improved.

Description

Flexible circuit board electric connector

Technical Field

The invention relates to the field of electric connectors, in particular to an electric connector of a flexible circuit board.

Background

With the development trend of miniaturization and lightness of consumer electronic products such as notebooks, tablet computers, mobile phones and the like, the requirements on the design and manufacturing process of parts of the consumer electronic products are higher and higher, as the products are lighter and thinner, the internal space of the consumer electronic products is also very narrow, so that the requirement that the internal part of the consumer electronic products must be densely arranged and the electronic parts must be closely arranged is required, the trouble caused by the design and installation of the consumer electronic products is avoided, the difficulty in assembling the consumer electronic products in a narrow space is remarkably improved, the manufacturing cost is correspondingly increased, the consumer electronic products are easily damaged due to careless operation, and the requirements on operators are higher than the requirements of the consumer electronic products in the past. For example, in a conventional Flexible Printed Circuit (FPC) connector, before a FPC is inserted into an existing product, a press cover needs to be opened to insert the FPC therein, and then the press cover is turned over to press down the FPC. At present, a flexible circuit board is clamped by two terminal arms of a terminal in an FPC electric connector from the upper direction and the lower direction, but the connection stability between the flexible circuit board and the terminal is easily influenced under the condition of frequent plugging or pulling by external force, especially, the small-sized connector hardly provides stronger clamping force for the flexible circuit board at present when the size of the electric connector is smaller and smaller, and the stable connection relation between the electric connector and the flexible circuit board cannot be ensured.

Therefore, it is necessary to provide an electrical connector for a flexible printed circuit board to solve the above technical problems.

Disclosure of Invention

The invention provides an electric connector of a flexible circuit board, which aims to improve the stability and reliability of the connection relationship between the flexible circuit board and the connector.

In order to solve the technical problems, the invention adopts the following technical scheme: an electric connector of a flexible circuit board comprises an insulating body, a plurality of conductive terminals and a driving piece, wherein the driving piece is provided with a pressing plate part and positioning parts positioned at two ends of the pressing plate part, each conductive terminal is provided with an upper arm and a lower arm, and the rear side of the pressing plate part is provided with a plurality of through grooves for accommodating the upper arms, pivot shafts positioned in the through grooves and a plurality of notches alternately arranged with the through grooves; the top edge of the upper arm is provided with a concave part for accommodating the pivot shaft, the notch is internally provided with a driving part, and the rear end of the driving part is provided with an arc-shaped supporting part for supporting the insulating body upwards.

Furthermore, the insulating body is provided with a base part, arm parts positioned at two ends of the base part and a bottom plate extending into the space between the two arm parts from the base part, the base part is provided with an inclined part matched with the pressing plate part, and the inclined part is provided with a plurality of protrusions protruding towards the inside of the notch.

Furthermore, the notches on the pressing plate part and the protrusions on the base part are arranged in a one-to-one correspondence mode, and the protrusions are located right above the arc-shaped supporting part to prevent the arc-shaped supporting part from moving upwards.

Furthermore, the driving part is provided with an inclined matching surface and a concave surface connected between the matching surface and the arc-shaped jacking part.

Furthermore, an insertion space for accommodating the flexible circuit board is formed between the base part, the bottom plate and the two opposite arm parts, and the bottom plate is provided with a plurality of terminal grooves, stop blocks positioned at two ends of the terminal grooves and clamping grooves positioned on the outer sides of the stop blocks.

Furthermore, the driving piece is provided with an end shaft protruding outwards from the pressing plate part, and the inner surface of the arm part is provided with a buckling part matched with the positioning part and an accommodating part for accommodating the end shaft.

Furthermore, the flexible printed circuit board electric connector further comprises a limiting part, a notch for accommodating the limiting part is further formed in the arm, and the limiting part is located above the end shaft to prevent the end shaft from being separated from the accommodating part.

Furthermore, the flexible circuit board electric connector still including inserting arrange in the mounting in the draw-in groove, the mounting is equipped with the fixed arm that the level set up, outwards buckles from fixed arm bottom and extends the fixed foot that forms and inwards buckles from fixed arm top and extend the fixed part that forms, the fixed part is the type of falling U.

Furthermore, the positioning portion is provided with a positioning groove matched with the fixing portion, and a raised locking portion is arranged on the outer side of the positioning portion.

Compared with the prior art, the flexible circuit board electric connector has the advantages that through the improved design of the driving part, the driving part on the driving part is in interference fit with the insulating body, so that the pressing plate part presses the upper arm of the conductive terminal down to the surface of the flexible circuit board, the stable clamping of the upper arm and the lower arm on the flexible circuit board is completed, and the connection stability and reliability between the electric connector and the flexible circuit board are improved.

Drawings

Fig. 1 is a perspective view of the flexible printed circuit board electrical connector of the present invention in an open state.

Fig. 2 is a cross-sectional view of the flexible printed circuit board electrical connector of the present invention in use.

Fig. 3 is a perspective view of the flexible printed circuit board electrical connector of the present invention in a closed state.

Fig. 4 is an exploded view of the flexible circuit board electrical connector of the present invention.

Fig. 5 is a cross-sectional view of the electrical connector for a flexible printed circuit board according to the present invention in an incompletely closed state.

Detailed Description

Referring to fig. 1 to 5, the present invention provides a flexible printed circuit board electrical connector 100, which includes an insulating body 10, conductive terminals 20 accommodated in the insulating body 10, a driving member 30 engaged with the conductive terminals 20, and fixing members 40 fixed at two ends of the insulating body 10.

Referring to fig. 2, the insulating body 10 has a base 11, arm portions 12 at two ends of the base 11, and a bottom plate 13 extending from the base 11 into a space between the two arm portions 12, the arm portions 12 extending perpendicularly from two ends of the base 11, the bottom plate 13 extending from the bottom plate 13 of the base 11, and an insertion space for accommodating the FPC flexible circuit board 200 is formed between the base 11, the bottom plate 13, and two opposite arm portions 12. The base 11 is used for accommodating and positioning the conductive terminal 20, and the base 11 is provided with an inclined part 110 at one side close to the insertion space for abutting contact with the driving element 30, the inclined part 110 is connected with the arm part 12, the inclined part 110 is provided with a plurality of protrusions 113 arranged at certain intervals, and the protrusions 113 protrude from the inclined part 110 into the insertion space. The two arms 12 are parallel to each other, and the FPC flexible printed circuit 200 is inserted between the two arms, and a recessed fastening portion 120 and a recessed receiving portion 121 are formed on the inner surface of the arms 12. The bottom plate 13 is provided with a plurality of terminal grooves 130, stoppers 131 positioned at both ends of the terminal grooves 130, and a card slot 132 positioned outside the stoppers 131. The stopper 131 is used for stopping two side edges of the FPC flexible printed circuit 200 to realize the limit in the left-right direction, and the engaging groove 132 is used for the fixing member 40 to be inserted.

Referring to fig. 1 and 2, the driving member 30 is installed and matched with the insulating body 10 and the conductive terminal 20, and can be opened and closed in a rotating manner. The driving member 30 is provided with a pressing plate portion 31 and positioning portions 32 located at two ends of the pressing plate portion 31, the pressing plate portion 31 is provided with an inner surface 33, an outer surface 34, a through groove 36 penetrating through the inner surface and the outer surface, and a pivot shaft 35 arranged in the through groove 36, and the inner surface 33 is used for covering the surface of the FPC flexible circuit board 200. The outer surface 34 is configured to abut against the inclined portion 110 of the base 11 of the insulation body 10 in an open state, as shown in fig. 3, a plurality of notches 37 are formed on the outer surface 34 for accommodating the protrusions 113 on the base 11 of the insulation body 10, and the notches 37 are rectangular and are distributed on the rear side of the pressing plate portion 31 at intervals with the through slots 36. The positioning portion 32 is provided with a positioning groove 320 matched with the fixing member 40, and a convex locking portion 321 is arranged outside the positioning portion 32 and used for being clamped in the buckling portion 120 of the arm portion 12, so that the driving member 30 is fixed and positioned with the insulating body 10 in a closed state, and the connection stability of the FPC flexible circuit board 200 is maintained. In order to better fix the driving member 30 at both ends of the insulating body 10, the flexible printed circuit board electrical connector 100 of the present invention further includes a limiting member 50, and the arm 12 is further provided with a notch 14 for accommodating the limiting member 50, and the limiting member 50 is located above the end shaft 38, so as to prevent the end shaft 38 from separating from the accommodating portion 121.

Referring to fig. 2, the conductive terminal 20 is provided with an upper arm 21 and a lower arm 22 extending in the same direction, the upper arm 21 is engaged with the driving member 30, the lower arm 22 is received in the terminal groove 130 on the bottom plate 13 of the insulating body 10 for contacting with the FPC flexible printed circuit 200, and the FPC flexible printed circuit 200 is clamped between the upper arm 21 and the lower arm 22. Wherein the top edge of the upper arm 21 is provided with a recess 23 for accommodating the pivot shaft 35, so that the pivot shaft 35 can rotate in the recess 23, thereby assisting the driving member 30 to complete the opening or closing operation.

The fixing member 40 is inserted into the engaging groove 132, and is provided with a horizontally disposed fixing arm 41, a fixing leg 42 formed by bending and extending the bottom of the fixing arm 41 outwards, and a fixing portion 43 formed by bending and extending the top of the fixing arm 41 inwards, wherein the fixing portion 43 is in an inverted U shape, and is matched with the positioning groove 320 of the positioning portion 32, so that the driving member 30 can be better positioned through the matching of the fixing arm and the positioning groove in the closing process. The fixing arm 41 of the fixing member 40 is supported at both ends of the driving member 30.

The front end of the upper surface of the FPC flexible wiring board 200 is provided with a gold finger 201 which is inserted between the upper arm 21 and the lower arm 22 of the conductive terminal 20 and electrically contacts with the upper arm 21 of the terminal. Therefore, the flexible circuit board electric connector of the invention enables the FPC flexible circuit board 200 to be directly inserted into the connector with the front side up by electrically contacting the upper arm 21 of the terminal with the FPC flexible circuit board 200, and the FPC flexible circuit board 200 does not need to be turned over downwards, thereby reducing the occupation of the operation space and improving the production efficiency.

After the driving member 30 is turned over and closed, the FPC flexible printed circuit 200 is pressed downward, and simultaneously, the upper arms 21 of the terminals are forced to press the gold fingers 201 of the FPC flexible printed circuit 200 under the pressing action of the pivot shafts 35 by means of the mutual snap-fit of the positioning portions 32 and the snap-fit portions 120. Of course, in order to make the driving member 30 press the FPC flexible circuit board 200 more tightly and prevent the contact failure caused by pulling by external force, the pressing plate 31 of the present invention is further provided with a driving portion 39 in interference fit with the protrusion 113, as shown in fig. 5, the driving portion 39 is located in the recess 37, the driving portion 39 has an inclined mating surface 390, an arc-shaped propping portion 391 is formed at the end of the mating surface 390, the arc-shaped propping portion 391 is connected with the mating surface 390 through a concave surface 392, the arc-shaped propping portion 391 is used for propping up the bottom surface 114 of the protrusion 113, since the driving portion 39 is located at the rear side of the pressing plate 31, the rear side of the pressing plate 31 is flipped up during the flipping-down and closing process of the front side of the pressing plate 31, so that the arc-shaped propping portion 391 of the driving portion 39 is popped up below the protrusion 113, therefore, the downward turning operation of the pressing plate portion 31 is hindered, but at this time, the pressing plate portion 31 is not completely turned down to the final closed position, the FPC flexible printed circuit board 200 is not completely pressed or compressed by the pressing plate portion 31, the pressing plate portion 31 needs to be continuously pressed, and the driving portion 39 is hindered by the protrusion 113 and cannot move, so that the pressing plate portion 31 is forced to press the upper arm 21 of the conductive terminal 20 by the pressure of the continuous pressing, that is, the pivot shaft 35 presses the upper arm 21 of the conductive terminal 20 downward along with the continuous pressing of the pressing plate portion 31, so that the upper arm 21 presses downward on the gold finger 201 on the surface of the FPC flexible printed circuit board 200, and meanwhile, the locking portion 321 is clamped in the clamping portion 120, fixes the driving member 30 on the insulating body 10, and maintains the state of clamping the FPC flexible printed circuit board 200.

The above description is only a preferred embodiment of the present invention, and is not intended to limit the present invention in any way, and those skilled in the art can make many variations and modifications of the present invention without departing from the scope of the present invention as defined in the appended claims.

Claims (9)

1. The utility model provides a flexible line way board electric connector, includes insulator, a plurality of conductive terminal and driving piece, the driving piece is equipped with pressure plate portion and is located the location portion at pressure plate portion both ends, conductive terminal is equipped with upper arm and underarm, its characterized in that: the rear side of the pressing plate part is provided with a plurality of through grooves for accommodating the upper arms, a pivot shaft positioned in the through grooves and a plurality of notches alternately arranged with the through grooves; the top edge of the upper arm is provided with a concave part for accommodating the pivot shaft, the notch is internally provided with a driving part, and the rear end of the driving part is provided with an arc-shaped supporting part for supporting the insulating body upwards.

2. A flexible wiring board electrical connector as in claim 1 wherein: the insulating body is provided with a base part, arm parts positioned at two ends of the base part and a bottom plate extending into the space between the two arm parts from the base part, the base part is provided with an inclined part matched with the pressing plate part, and the inclined part is provided with a plurality of protrusions protruding towards the inside of the notch.

3. A flexible wiring board electrical connector as in claim 2 wherein: the notches on the pressing plate part and the protrusions on the base part are arranged in a one-to-one correspondence mode, and the protrusions are located right above the arc-shaped supporting part to block the arc-shaped supporting part from moving upwards.

4. A flexible wiring board electrical connector as in claim 3 wherein: the driving part is provided with an inclined matching surface and a concave surface connected between the matching surface and the arc-shaped jacking part.

5. A flexible wiring board electrical connector as in claim 4 wherein: an inserting space for accommodating the flexible circuit board is formed among the base part, the bottom plate and the two opposite arm parts, and the bottom plate is provided with a plurality of terminal grooves, stop blocks positioned at two ends of the terminal grooves and clamping grooves positioned on the outer sides of the stop blocks.

6. A flexible wiring board electrical connector as in claim 5 wherein: the driving piece is provided with an end shaft protruding outwards from the pressing plate part, and the inner surface of the arm part is provided with a buckling part matched with the positioning part and an accommodating part for accommodating the end shaft.

7. A flexible wiring board electrical connector as in claim 6 wherein: the flexible circuit board electric connector further comprises a limiting part, a notch for containing the limiting part is further formed in the arm, and the limiting part is located above the end shaft to prevent the end shaft from being separated from the containing part.

8. A flexible wiring board electrical connector as in claim 7 wherein: the flexible circuit board electric connector is characterized by further comprising a fixing piece inserted in the clamping groove, the fixing piece is provided with a fixing arm horizontally arranged, a fixing pin formed by outwards bending and extending the bottom of the fixing arm and a fixing portion formed by inwards bending and extending the top of the fixing arm, and the fixing portion is of an inverted U shape.

9. A flexible wiring board electrical connector as in claim 8 wherein: the positioning part is provided with a positioning groove matched with the fixing part, and the outer side of the positioning part is provided with a raised locking part.

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