CN109616798B - Connection structure of FPC connector and FPC - Google Patents

Abstract

The invention relates to a connection structure of an FPC connector and an FPC, which comprises an FPC body and a connector body, wherein the FPC body comprises an FFC (flexible flat cable) and a reinforcing plate, the reinforcing plate extends out of the FFC flat cable, a connecting block is fixedly arranged on the lower surface of the part, extending out of the FFC flat cable, of the reinforcing plate, the lower surface of the connecting block and the lower surface of the FFC are positioned in the same plane, and the end part of the FFC flat cable is abutted against the side surface of the connecting block and fixedly connected with the connecting block; the side wall of the connector body is provided with a jack for inserting FFC flat cables, the bottom plate of the jack is provided with a plurality of accommodating grooves, V-shaped elastic copper sheets are arranged in the accommodating grooves, the bending parts of the V-shaped elastic copper sheets are hinged in the accommodating grooves, the left end and the right end of each V-shaped elastic sheet are respectively fixedly provided with a first copper ball and a second copper ball, the first copper balls are positioned in the accommodating grooves, and the second copper balls warp out of the accommodating grooves and are positioned in the jack; the lower surface of connecting block corresponds the second copper ball and is provided with the slot. The invention can realize the automatic connection of the FPC and the connector.

Description

Connection structure of FPC connector and FPC

Technical Field

The invention relates to the field of FPC (flexible printed circuit), in particular to a connecting structure of an FPC connector and an FPC.

Background

At present, most of the FPC connectors on the market are pull rod type and front plug-in front lift type, the plug-in port and the push rod or the lift cover on the FPC connector are positioned on the same side, when the FFC flat cable is inserted into the pull rod type FPC connector, the push rod is required to be inserted again after the FFC flat cable is inserted, and when the FFC flat cable is inserted into the front plug-in front lift type FPC connector, the lift cover is lifted firstly, and then the FFC flat cable is inserted, so that the operation is very inconvenient, the automatic insertion production of the FFC flat cable cannot be realized, and the production efficiency is greatly reduced.

Disclosure of Invention

Based on this, it is necessary to provide a connection structure of an FPC connector and an FPC, including an FPC body and a connector body, the FPC body includes an FFC flat cable and a reinforcing plate, the reinforcing plate is fixedly disposed on an upper surface of the FFC flat cable, a gold finger for connecting the connector is disposed on a lower surface of the FFC, the reinforcing plate extends out of the FFC flat cable, a connection block is fixedly disposed on a lower surface of a portion of the reinforcing plate extending out of the FFC flat cable, a lower surface of the connection block and a lower surface of the FFC are located in the same plane, and an end of the FFC flat cable abuts against a side surface of the connection block and is fixedly connected with the connection block; the connector comprises a connector body, and is characterized in that a socket for inserting an FFC (flexible flat cable) is formed in the side wall of the connector body, a plurality of accommodating grooves are formed in the bottom plate of the socket, corresponding to golden fingers on the lower surface of the FFC, a V-shaped elastic copper sheet is arranged in each accommodating groove, the bending part of the V-shaped elastic copper sheet is hinged in each accommodating groove, a first copper ball and a second copper ball are respectively fixedly arranged at the left end and the right end of each V-shaped elastic spring sheet, the first copper ball is positioned in each accommodating groove, and the second copper ball sticks out of each accommodating groove and is positioned in each socket; the lower surface of connecting block corresponds the second copper ball is provided with the slot.

The V-shaped elastic copper sheet comprises a first elastic part, a bending part and a second connecting part which are sequentially arranged from left to right, wherein the first connecting part, the bending part and the second connecting part are integrally formed, a first copper ball is arranged at the top of the first elastic part, a second copper ball is arranged at the top end of the second elastic part, and the weight of the first elastic part is heavy with that of the second elastic part, so that the top end of the second elastic part exceeds the accommodating groove under the action of the weight of the first elastic part, and the first elastic part is sunk into the accommodating groove.

After the FFC flat cable is inserted into the socket, the golden fingers on the lower surface of the FFC flat cable are respectively positioned at the openings of the accommodating grooves, and the widths of the golden fingers are consistent with the widths of the accommodating grooves.

When the FPC and the connector are connected, the FFC flat cable provided with the reinforcing plate on the FPC is inserted into the socket, wherein the width and the height of the FFC flat cable provided with the reinforcing plate are consistent with those of the socket, in the inserting process of the FFC flat cable, the connecting block in front of the reinforcing plate can prop against the second elastic part exceeding the accommodating groove, and the connecting block downwards presses the second elastic part due to the inclination of the second elastic part, so that the first elastic part is tilted upwards by taking the junction of the bending part and the accommodating groove as the center, and the first copper ball is propped against a golden finger on the lower surface of the FFC flat cable, so that the connection between the elastic copper sheet and the golden finger is realized, and the connection between the FPC and the connector is realized; then continuing to insert the FFC flat cable, extruding a second copper ball at the end part of the second elastic part to the lower surface of the connecting block by the connecting block, and then entering the slot to ensure that the FFC flat cable is fixed in the socket, so as to realize automatic fixation of the connector corresponding to the FFC flat cable; in the process, the V-shaped elastic copper sheet has elasticity, so that the second elastic part can still be pressed down although the first copper ball is propped against the golden finger, and after the second elastic part is pressed down, the pressure of the first copper ball on the golden finger is larger due to the elastic force of the V-shaped elastic sheet, so that the reliability of the connecting structure of the first copper ball and the golden finger is higher.

In addition, the length of the reinforcing plate is longer than the depth of the socket, and when the FFC flat cable needs to be taken out, the second elastic part can be elastically deformed only by pulling the reinforcing plate hard, so that the second copper ball is separated from the slot, and the FFC flat cable can be taken out.

Preferably, pins are provided on the outer surface of the connector body corresponding to the V-shaped elastic copper sheets, and the pins are electrically connected with the V-shaped elastic copper sheets through wires.

The wire can be fixed on the V-shaped elastic copper sheet through a winding or welding mode so as to be conducted with the V-shaped elastic copper sheet, the same wire can be fixed on the pin through a winding and welding mode, and the guide connecting the V-shaped elastic copper sheet and the pin has a certain length allowance so as to be suitable for the shape change of the V-shaped elastic copper sheet, and the wire cannot be broken.

Further, a through hole for the lead to pass through is formed in the side wall of the accommodating groove.

The surface of the wire can be provided with an insulating protection layer which is in sealing fit with the through hole.

Preferably, the slot is conical or truncated cone-shaped, and the diameter of the bottom of the slot is larger than that of the second copper ball.

The side of the conical or truncated cone-shaped slot is inclined, which is more beneficial to the entry and exit of the second copper ball.

Preferably, a rotating shaft is fixedly arranged between two side walls of the accommodating groove, a sleeve is arranged at the bending part of the V-shaped elastic copper sheet corresponding to the rotating shaft, and the sleeve is sleeved on the rotating shaft and is in rotatable fit with the rotating shaft.

The sleeve is welded on the upper surface or the lower surface of the bending part, and when the FFC flat cable of the second elastic part is pressed downwards, the V-shaped elastic copper sheet can rotate along the central line of the rotating shaft.

The principle and effect of the present invention are further described below with reference to the above technical schemes:

when the FPC is connected with the connector, the FFC wire provided with the reinforcing plate on the FPC is inserted into the socket, wherein the width and the height of the FFC wire provided with the reinforcing plate are consistent with those of the socket, in the inserting process of the FFC wire, the connecting block in front of the reinforcing plate can prop against the second elastic part exceeding the accommodating groove, and the connecting block can downwards press the second elastic part due to the inclination of the second elastic part, so that the first elastic part is tilted upwards by taking the intersection point of the bending part and the accommodating groove as the center, and the first copper ball is propped against a golden finger on the lower surface of the FFC wire, so that the connection between the elastic copper sheet and the golden finger is realized, and the connection between the FPC and the connector is realized; then continue to insert FFC winding displacement, the connecting block can extrude the second copper ball of the tip of second elastic component to the lower surface of connecting block, then enters into the slot for FFC winding displacement is fixed in the socket, realizes the automatic fixation of connector correspondence FFC winding displacement, and grafting efficiency is high.

Drawings

Fig. 1 is a schematic structural diagram of an FPC connector according to an embodiment of the present invention;

fig. 2 is a schematic cross-sectional view of an FPC connector according to an embodiment of the present invention;

fig. 3 is a schematic cross-sectional view of a FPC connector according to an embodiment of the present invention;

fig. 4 is a schematic cross-sectional view of an FPC according to an embodiment of the present invention;

fig. 5 is a schematic diagram of a structure of an FPC-inserted FPC connector according to an embodiment of the present invention;

fig. 6 is a schematic diagram of a second structure of the FPC-inserted FPC connector according to the embodiment of the present invention;

fig. 7 is a schematic diagram of a third embodiment of the FPC insertion FPC connector according to the present invention.

Reference numerals illustrate:

11-FFC flat cable, 12-stiffening plate, 121-connecting block, 1211-slot, 2-connector body, 21-socket, 211-accommodation groove, 2121-first elastic part, 2122-second elastic part, 2123-kink, 2124-first copper ball, 2125-second copper ball, 213-wire, 214-through hole, 215-spindle, 216-sleeve, 22-pin.

Detailed Description

For the convenience of understanding by those skilled in the art, the present invention will be described in further detail with reference to the accompanying drawings and examples:

1-7, a connection structure of an FPC connector and an FPC comprises an FPC body and a connector body 2, wherein the FPC body comprises an FFC flat cable 11 and a reinforcing plate 12, the reinforcing plate 12 is fixedly arranged on the upper surface of the FFC flat cable 11, a golden finger for connecting the connector is arranged on the lower surface of the FFC, the reinforcing plate 12 extends out of the FFC flat cable 11, a connecting block 121 is fixedly arranged on the lower surface of the part, extending out of the FFC flat cable 11, of the reinforcing plate 12, the lower surface of the connecting block 121 and the lower surface of the FFC are positioned in the same plane, and the end part of the FFC flat cable 11 abuts against the side surface of the connecting block 121 and is fixedly connected with the connecting block 121; the side wall of the connector body 2 is provided with a socket 21 for inserting the FFC flat cable 11, a bottom plate of the socket 21 is provided with a plurality of accommodating grooves 211 corresponding to golden fingers on the lower surface of the FFC flat cable 11, V-shaped elastic copper sheets are arranged in the accommodating grooves 211, bending parts of the V-shaped elastic copper sheets are hinged in the accommodating grooves 211, a first copper ball 2124 and a second copper ball 2125 are fixedly arranged at the left end and the right end of each V-shaped elastic sheet respectively, the first copper ball 2124 is positioned in the accommodating grooves 211, and the second copper ball 2125 sticks out of the accommodating grooves 211 and is positioned in the socket 21; the lower surface of the connection block 121 is provided with a slot 1211 corresponding to the second copper ball 2125.

The V-shaped elastic copper sheet comprises a first elastic portion 2121, a bending portion 2123 and a second connecting portion which are sequentially arranged from left to right, the first connecting portion, the bending portion 2123 and the second connecting portion are integrally formed, a first copper ball 2124 is arranged at the top of the first elastic portion 2121, a second copper ball 2125 is arranged at the top end of the second elastic portion 2122, and the weight of the first elastic portion 2121 and the weight of the second elastic portion 2122 are heavy, so that the top end of the second elastic portion 2122 exceeds the accommodating groove 211 under the action of the weight of the first elastic portion 2121, and the first elastic portion 2121 sinks into the accommodating groove 211.

After the FFC flat cable 11 is inserted into the socket 21, the golden fingers on the lower surface of the FFC flat cable 11 are respectively located at the openings of the accommodating grooves 211, and the widths of the golden fingers are consistent with the widths of the accommodating grooves 211.

When the FPC is connected with the connector, the FFC flat cable 11 provided with the reinforcing plate 12 on the FPC is inserted into the socket 21, wherein the width and the height of the FFC flat cable 11 provided with the reinforcing plate 12 are consistent with those of the socket 21, in the inserting process of the FFC flat cable 11, the connecting block 121 in front of the reinforcing plate 12 can prop against the second elastic part 2122 exceeding the accommodating groove 211, and due to the inclination of the second elastic part 2122, the connecting block 121 can downwards press the second elastic part 2122, so that the first elastic part 2121 takes the joint point of the bending part 2123 and the accommodating groove 211 as the center and upwards warps, and the first copper ball 2124 is propped against a golden finger on the lower surface of the FFC flat cable 11, so that the connection between the elastic copper sheet and the golden finger is realized, and the connection between the FPC and the connector is realized; then continuing to insert the FFC flat cable 11, the connecting block 121 extrudes the second copper ball 2125 at the end part of the second elastic part 2122 to the lower surface of the connecting block 121, and then enters the slot 1211, so that the FFC flat cable 11 is fixed in the socket 21, and automatic fixation of the connector corresponding to the FFC flat cable 11 is realized; in this process, since the V-shaped elastic copper sheet has elasticity, the second elastic portion 2122 can still be pressed down although the first copper ball 2124 is already propped against the golden finger, and after the second elastic portion 2122 is pressed down, the pressure of the first copper ball 2124 against the golden finger is greater due to the elastic force of the V-shaped elastic sheet, so that the reliability of the connection structure between the first copper ball 2124 and the golden finger is higher.

In addition, when the length of the reinforcing plate 12 is longer than the depth of the socket 21 and the FFC flat cable 11 needs to be taken out, the second elastic portion 2122 can be elastically deformed by pulling the reinforcing plate 12 with force, so that the second copper ball 2125 is separated from the slot 1211, and the FFC flat cable 11 can be taken out.

In one embodiment, the outer surface of the connector body 2 is provided with pins 22 corresponding to the V-shaped elastic copper sheets, and the pins 22 are electrically connected with the V-shaped elastic copper sheets through wires 213.

The wire 213 may be fixed to the V-shaped elastic copper sheet by winding or welding to be conducted with the V-shaped elastic copper sheet, the same wire 213 may be fixed to the lead 22 by winding and welding, and a guide connecting the V-shaped elastic copper sheet and the lead 22 has a certain length margin to be suitable for the shape change of the V-shaped elastic copper sheet without the wire 213 being broken.

In one embodiment, a through hole 214 through which the wire 213 passes is formed on the sidewall of the accommodating groove 211.

The surface of the wire 213 may be provided with an insulating protection layer, and the insulating protection layer is in sealing fit with the through hole 214.

In one embodiment, the slot 1211 is conical or frustoconical, and the diameter of the bottom of the slot 1211 is greater than the diameter of the second copper ball 2125.

The sides of the conical or frustoconical slots 1211 are sloped to facilitate ingress and egress of the second copper ball 2125.

In one embodiment, a rotating shaft 215 is fixedly disposed between two side walls of the accommodating groove 211, a sleeve 216 is disposed at a bending position of the V-shaped elastic copper sheet corresponding to the rotating shaft 215, and the sleeve 216 is sleeved on the rotating shaft 215 and rotatably matched with the rotating shaft 215.

The sleeve 216 is welded to the upper surface or the lower surface of the bent portion, and the V-shaped elastic copper sheet can rotate along the center line of the rotating shaft 215 when the second elastic portion 2122 presses down the FFC flat cable 11.

The above examples illustrate only a few embodiments of the invention, which are described in detail and are not to be construed as limiting the scope of the invention. It should be noted that it will be apparent to those skilled in the art that several variations and modifications can be made without departing from the spirit of the invention, which are all within the scope of the invention. Accordingly, the scope of protection of the present invention is to be determined by the appended claims.

Claims (1)

1. The utility model provides a connection structure of FPC connector and FPC, includes FPC body and connector body, the FPC body includes FFC winding displacement and stiffening plate, the stiffening plate fixed set up in the upper surface of FFC winding displacement, the lower surface of FFC is provided with the golden finger that is used for connecting the connector, its characterized in that, the stiffening plate extends the FFC winding displacement, and the stiffening plate extends the fixed connecting block that is provided with of lower surface of the part of FFC winding displacement, the lower surface of connecting block with the lower surface of FFC is located the coplanar, the tip of FFC winding displacement with the side of connecting block offsets and with connecting block fixed connection; the connector comprises a connector body, and is characterized in that a socket for inserting an FFC (flexible flat cable) is formed in the side wall of the connector body, a plurality of accommodating grooves are formed in the bottom plate of the socket, corresponding to golden fingers on the lower surface of the FFC, a V-shaped elastic copper sheet is arranged in each accommodating groove, the bending part of the V-shaped elastic copper sheet is hinged in each accommodating groove, a first copper ball and a second copper ball are respectively fixedly arranged at the left end and the right end of each V-shaped elastic copper sheet, the first copper ball is positioned in each accommodating groove, and the second copper ball sticks out of each accommodating groove and is positioned in each socket; the lower surface of the connecting block is provided with a slot corresponding to the second copper ball;

the outer surface of the connector body is provided with pins corresponding to the V-shaped elastic copper sheets, and the pins are electrically connected with the V-shaped elastic copper sheets through leads;

the side wall of the accommodating groove is provided with a through hole for the lead to pass through;

the slot is conical or truncated cone-shaped, and the diameter of the bottom of the slot is larger than that of the second copper ball;

the V-shaped elastic copper sheet is characterized in that a rotating shaft is fixedly arranged between two side walls of the accommodating groove, a sleeve is arranged at the bending part of the V-shaped elastic copper sheet corresponding to the rotating shaft, and the sleeve is sleeved on the rotating shaft and matched with the rotating shaft in a rotatable mode.