CN101877444A

CN101877444A - Connector

Info

Publication number: CN101877444A
Application number: CN2009101671341A
Authority: CN
Inventors: 李秀周; 崔正和
Original assignee: UJU Electronics Co Ltd
Current assignee: UJU Electronics Co Ltd
Priority date: 2009-04-29
Filing date: 2009-08-24
Publication date: 2010-11-03
Anticipated expiration: 2029-08-24
Also published as: TWI374585B; CN101877444B; TW201039502A; KR100946176B1

Abstract

The invention relates to a connector, comprising a shell with an FPC/FFC jack; first, second terminal groups respectively inserted/arranged on the shell from the jack direction and the opposite direction of the jack; a brake supported by the terminal of the second terminal group; an outer cover, wherein the first terminals of the first terminal group are in '-' shape; the second terminal of the second terminal group comprises a rotary motion support part, a second contact part and an elastic support part at the end of the forked terminal arm; a cam of the brake is arranged between the rotary motion support part and the second contact part; the first, second terminals of the first, second terminal groups are arranged at different intervals; the outer cover comprises a first pressing part for pressing the FPC/FFC; the first terminals is linklocked with the first pressing part to make the upper surface of the first contact part contact with the corresponding terminal on the FPC/FFC lower surface; when the second contact part drops together with the rotation of the cam, the second terminal contacts with the corresponding terminal of the FPC/FFC upper surface inserted between the second contact part and the elastic support part.

Description

Joint

Technical field

The present invention relates to a kind of joint, specifically, relate to a kind of terminal that has by the pressurization of brake or outer cover is connected flexible print circuit board (FPC, Flexible Printed Circuit) or flexible flat winding displacement (FFC, Flexible Flat Cable) with circuit board joint.

Background technology

Recently, along with electronic product subminaturization day by day, require joint also to realize miniaturization, and the function of electronic product also becomes more diverse, need more transfer circuits, therefore, joint also needs to possess a plurality of terminals.

In order to possess a plurality of terminals, if terminal is formed a line, then the joint miniaturization has certain limitation, therefore, under the more situation terminal is arranged in two row.

For example, as shown in Figure 1, the Korean registered patent discloses a kind of joint No. 443043, and this joint has from the socket direction of FPC/FFC and inserts/be set to the 1st terminal group 10 of shell 30 and the 2nd terminal group 20 of inserting/be set to shell 30 from socket in the other direction.

1st, 2

terminal group

10,20 have the portion that rotatablely moves 12,22 that brake 40 is rotated motion that supports, wherein, the 1st terminal group 10 is by directly combining with the cam 42 of brake 40, and support rotatablely moves, 20 of the 2nd terminal group support after being braked the device pressurization.

Two terminal group all have the

contact site

14,24 that to upper surface FPC/FFC is applied elastic pressure from the socket lower surface, therefore, the number of terminals of terminal group is many more, and the pressure of 14,24 pairs of brakes 40 of contact site is also just big more, thereby brake 40 can't be worked smoothly.

In addition, two terminal group also will be born the pressure of brake, therefore, in order effectively to be supported, often need thickening by shell, or fixed part is set in addition, not only cause weight proportion in whole joint weight of terminal group excessive, and the joint overall weight also can increase, simultaneously, in order to support the pressure of brake, it is very thick that shell also will be provided with.

In addition, above-mentioned joint is only at the side alternate configurations terminal of FPC/FFC, therefore, the fixing FPC/FFC of specific standard, its range of application is narrower, and improving aspect the terminal density, also has limitation.

Summary of the invention

The present invention proposes for addressing the above problem, its objective is provides a kind of novel joint, this novel joint can reduce the pressure that acts on the brake, that thereby shell can be done is thinner, and can not be arranged alternately each terminal group, can set suitable number of terminals according to the specification of electronic product, and have fine durability.

According to joint of the present invention, it is characterized in that this joint comprises: the shell that is formed with the socket of FPC/FFC; Insert/be set to the 1st terminal group on the described shell and insert/be set to the 2nd terminal group on the described shell from the direction of described socket from the opposite direction of described socket; Under the support of the terminal of described the 2nd terminal group, be rotated the brake of motion; And the outer cover that wraps up described shell; Wherein, the 1st terminal of forming described the 1st terminal group does not possess the support portion that rotatablely moves of bifurcated, and integral body is in-line; The 2nd terminal of forming described the 2nd terminal group has the support portion of rotatablely moving, the 2nd contact site and resiliency supported portion in the terminal arm end of bifurcated; The cam of described brake rotatablely moves between support portion and the 2nd contact site described the 2nd terminal; The 1st terminal of described the 1st terminal group and the 2nd terminal of described the 2nd terminal group dispose with different interval respectively; Described outer cover has the 1st press section, and combination is inserted from the direction of the socket of described shell in the 1st press section, and will press under the described FPC/FFC; Described the 1st terminal and the interlock of described the 1st press section make the upper surface of the 1st contact site of described the 1st terminal contact with the corresponding terminal of the lower surface of described FPC/FFC; When described the 2nd contact site descended along with the rotation of described cam, described the 2nd terminal contacted with the corresponding terminal of the upper surface that is inserted in the described FPC/FFC between described the 2nd contact site and the described resiliency supported portion.

Outer cover of the present invention also has the 2nd press section, and when described FPC/FFC was inserted into described socket, described the 2nd press section contacted with described FPC/FFC before described FPC/FFC and described the 1st terminal and the 2nd termination contact.

The part of described outer cover is inserted into the insertion section of described shell, and described shell also has the platform that prevents that prevents that described the 2nd terminal from contacting with described outer cover.

Brake of the present invention has the 1st projection and the 2nd projection, and the 1st projection and the 2nd projection combine with the 1st groove and the 2nd groove of the diverse location formation of the two sides of described FPC/FFC respectively.

Joint of the present invention can form with the FPC/FFC that has disposed terminal at last/lower surface and be electrically connected, can increase number of terminals at an easy rate, not only can prevent FPC/FFC misplug into, and the active force that can disperse brake to be subjected to, improve durability, in addition, can also prevent the damage to circuit board such as static, prevent contacting of outer cover and terminal.

Description of drawings

Fig. 1 be in the past FPC/FFC with the schematic diagram of joint;

Fig. 2 is the oblique view of the joint that the present invention relates to;

Fig. 3 is the exploded perspective view of the joint that the present invention relates to;

Fig. 4 and Fig. 5 are the oblique views of terminal of the present invention;

Fig. 6 is the oblique view of the lower surface of brake of the present invention.

Fig. 7 is the projection of brake of the present invention and the sectional oblique drawing of FPC/FFC bonding state;

Fig. 8 is the sectional oblique drawing of shell of the present invention and outer cover integrated structure;

Fig. 9 to Figure 13 is the sectional oblique drawing of the FPC/FFC connection procedure of the joint that the present invention relates to; And

Figure 14 is the operation principle schematic diagram of cam of the present invention.

Description of reference numerals

10: the 1 terminals, 20: the 2 terminals, 30: shell, 40: brake, 50: outer cover, 100:FPC/FFC.

Embodiment

Below in conjunction with accompanying drawing embodiments of the invention are elaborated.

Fig. 2 is the oblique view of the joint that the present invention relates to.

Joint of the present invention comprises: the shell 30 that is formed with FPC/FFC100 socket 32; Insert/be set to the 1st terminal group 10 on the shell 30 and insert/be set to the 2nd terminal group 20 on the shell 30 in the other direction from socket 32 directions of FPC/FFC from socket; Under the terminal support of the 2nd terminal group 20, be rotated the brake 40 of motion; The outer cover 50 of parcel shell.

Fig. 3 is the decomposing state schematic diagram of joint of the present invention, possess shell 30 after, the 1st terminal socket 31 that socket 32 sides by shell form is inserted in the shell 30 from the 1st terminal of socket direction with the 1st terminal group 10.In addition, the 2nd terminal socket 33 that the socket by shell forms in the other direction inserts the 2nd terminal of the 2nd terminal group 20 from shell 30 back.

As shown in Figure 4, the 2nd terminal of the 2nd terminal group 20 has the support portion of rotatablely moving the 22, the 2nd contact site 24 and resiliency supported portion 25 respectively in the end arm end of bifurcated, in addition, the 2nd terminal also has the 2nd fixed part 28 and can when the 2nd terminal is inserted into the 2nd terminal socket 33 the 2nd terminal be fixed on the shell with the 2nd weld part 26, the 2 fixed parts 28 that are welded on the circuit board.

The 2nd fixed part 28 also has can combine with the projection that is provided with in the 2nd terminal socket of shell fixing with through hole 29.

In addition, as shown in Figure 5, the 1st terminal of the 1st terminal group 10 has that the 1st contact site 12, the 1 terminals also have the 1st fixed part 18 and the 1st weld part 16, the 1 fixed parts 18 that are welded on the circuit board can be fixed to the 1st terminal on the shell when the 1st terminal is inserted into the 1st terminal socket 31.The terminal of the 1st terminal group 10 is different with the terminal of the 2nd terminal group, does not have the support portion that rotatablely moves of bifurcated, is in-line.

1st, the 1st, 2 terminals of 2

terminal group

10,20 are with different spacing configurations.

Brake 40 comprises as Fig. 2, Fig. 3 and shown in Figure 6: the axle 43 of two side ends, and this 43 is inserted in the support portion 22 that rotatablely moves of the 2nd terminal; And to cam 44 and the 1st, 2

projectioies

41,42 of the 2nd contact site 24 pressurization of the 2nd terminal.Axle 43 is inserted in the axle slot 34 of shell, supports rotatablely moving of brake 40 with the cam 44 that rotatablely moves between support portion 22 and the 2nd contact site 24 that is inserted into the 2nd terminal.In addition, the 1st, 2

projectioies

41,42 that combine with the 1st, 2 grooves 101,102 that the diverse location of the two sides of FPC/FFC forms not only can can't close brake when the front-back of FPC/FFC is done to occur on the contrary mispluging respectively, and as shown in Figure 7, the 1st, 2

projectioies

41,42 are combined with the 1st, 2 grooves 101,102 respectively, guarantee that the corresponding terminal of the 1st, 2 terminals and FPC/FFC100 contacts in correct position.

The metal material that outer cover 50 adopts the outer cover of general joint to use is made, as shown in Figure 3, outer cover have from the socket direction of shell insert in conjunction with and with under the FPC/FFC by the 1st press section 51.In addition, also have the 2nd press section 52, when FPC/FFC was inserted into socket, the 2nd press section 52 contacted with FPC/FFC before FPC/FFC and the 1st, 2 termination contact.Therefore, the static that accumulates on the FPC/FFC will flow to ground plane by outer cover, thereby can not cause damage to the electronic unit that is electrically connected with the 1st, 2 terminals.In addition, as shown in Figure 1, the part of outer cover 50 is inserted into the insertion section 35 that forms on the shell, firm support housings, and simultaneously as shown in Figure 8, the insertion degree that prevents 36 pairs of outer covers of platform by outer casing back limits, and it can not be contacted with the 2nd terminal 20.

Below, the operation principle of joint of the present invention is described.

Figure 9 shows that FPC/FFC 100 is inserted into the oblique view that brake 40 before the joint is open state, Figure 10 is along the generalized section of A-A ' line among Fig. 9, expression FPC/FFC partly is inserted into the state of joint inside, Figure 11 is along the generalized section of B-B ' line among Fig. 9, expression FPC/FFC is inserted into the state of the 1st contact site of inner the 1st terminal group of joint, Figure 12 is along the generalized section of B-B ' line among Fig. 9, expression FPC/FFC is inserted into the state of the 2nd contact site of inner the 2nd terminal group of joint, Figure 13 be among Fig. 9 along the generalized section of B-B ' line, the state of the brake effect of being under pressure of the contact site of expression FPC/FFC by being inserted into inner the 2nd terminal group of joint.

Among Figure 10 to Figure 13,, omitted the shade of expression section for description architecture more clearly.

For FPC/FFC100 is inserted in the joint, at first will be as shown in Figure 9, open brake 40.Then, FPC/FFC100 is inserted in the joint, before FPC/FFC100 arrives the 1st terminal and the 2nd terminal 20, as shown in figure 10, FPC/FFC will contact with the 2nd press section 52.Like this, the static of FPC/FFC100 will flow on the outer cover by the 2nd press section 52, and the ground plane by the circuit board that is connected with outer cover is removed again.

Then, as shown in figure 11, FPC/FFC100 will further be inserted into joint inside, be inserted between the 1st press section 51 and the 1st terminal 10 that is oppositely arranged.At this moment, the 1st press section 51 and the 1st terminal 10 can apply elastic pressure to the upper and lower surface of FPC/FFC100, also can regulate the nose thickness of FPC/FFC100, make it narrower than the interval between the 1st press section 51 and the 1st terminal 10.

The front end of the FPC/FFC100 of the contact site 12 by the 1st terminal 10 as shown in figure 12, the socket end of shell will be inserted into, at this moment, elastic deformation will take place in the 1st terminal 10 and the 1st press section 51, and the 1st contact site 12 of the 1st terminal 10 contacts with the corresponding terminal of FPC/FFC lower surface.Present embodiment is provided with the nose thickness of FPC/FFC100 narrower than the interval between the 1st press section 51 and the 1st terminal 10, the thickness in corresponding terminal zone that will be corresponding with the 1st contact site 12 then is provided with thicklyer, thereby FPC/FFC100 can be inserted smoothly, and increase the thickness of the corresponding terminal position contact with the 1st contact site 12, to guarantee effectively to apply elastic pressure.If suitably choose the elasticity of the 1st terminal 10 and the 1st press section 51,, also can make the 1st contact site 12 and corresponding terminal not form electrical connection even do not change the thickness of FPC/FFC100.The front end of FPC/FFC100 will be inserted between the resiliency supported portion 25 and the 2nd contact site 24 of the 2nd contact site 24 lower ends that the 2nd terminal 20 has, and at this moment, the 2nd contact site 24 is not exerted pressure to the corresponding terminal 110 of FPC/FFC100 upper surface.

The 2nd contact site 24 will be along with the rotation of brake 40, under cam 44 effects that rotatablely moving between support portion 22 and the 2nd contact site 24, as shown in figure 13, to the corresponding terminal pressurization of FPC/FFC100 upper surface.

Like this, the 1st, 2

contact sites

12,24 will be connected with the corresponding terminal that the FPC/FFC100 upper and lower surface forms respectively.

Figure 14 shows that the state that rotatablely move support portion 22 and 2nd contact site 24 between work of the cam 44 of brake, only illustrate among the figure and describe required structure at the 2nd terminal.

(a) among Figure 14 is the schematic diagram that brake is in open state, and (b) among Figure 14 is the view that brake is rotated with pressurized state, and (c) among Figure 14 is the schematic diagram that brake is in final pressurized state.

Cam 44 comprises: it is open that blocking portion 446, this blocking portion 446 prevent that brake from continuing at open state; The 1st fixed part 444, the 1 fixed parts 444 are formed by tabular surface, and at the fixing brake of final pressurized state; Enlarged portion 442, this enlarged portion 442 are used for moving the 2nd contact site 44; And rotation contact site 448, this rotation contact site 448 contacts with the support portion 22 that rotatablely moves, and rotatablely moves with support.

In addition, the 2nd contact site 24 comprises: rake 242, and this rake 242 contacts with enlarged portion 442, so that the 2nd contact site 24 moves down; The 2nd fixed part 244, the 2 fixed parts 244 are formed by tabular surface, finish rotation when brake, and when being in final pressurized state, the 2nd fixed part 244 contacts with the 1st fixed part 444, and is open under external force to prevent brake; Termination contact portion 246, when the 2nd contact site 24 descended, this termination contact portion 246 contacted with the corresponding terminal of FPC/FFC100.

Shown in (a) among Figure 14, when brake was in open state, the rotation contact site 448 of cam 44 contacted with the support portion 22 that rotatablely moves.The axle 43 and the rotation contact site 448 that forms by the brake two sides that rotatablely move of brake supports.

Shown in (b) among Figure 14, when brake rotates in order to realize pressurized state, enlarged portion 442 will contact with rake 242, and according to the shape and the rotation of cam, enlarged portion 442 will contact rake 242, and the 2nd contact site 24 is moved downwards.

Then, shown in (c) among Figure 14, when brake was in final pressurized state, the 1st fixed part 444 that is formed by tabular surface will form face relatively with the 2nd fixed part 244 and contacts respectively.Because when forming cam, distance from the pivot of brake to enlarged portion 442 is greater than the distance to fixed part 444, the 2nd contact site 12 in arriving Figure 14 before the state shown in (c) farthest to downside generation elastic deformation, in arriving Figure 14 during the state shown in (c), mobile a little to upside again then.Therefore, even unexpected external force effect is arranged, as long as external force is not enough so that the 1st fixed part 444 and the 2nd fixed part 244 are returned to the state shown in (b) among Figure 14, brake just can not opened, and joint will keep connection status always.

Claims

1. a joint is characterized in that, this joint comprises: the shell that is formed with the socket of flexible print circuit board/flexible flat winding displacement; Insert/be set to the first terminal group on the described shell and insert/be set to second terminal group on the described shell from the direction of described socket from the opposite direction of described socket; Under the support of the terminal of described second terminal group, be rotated the brake of motion; And the outer cover that wraps up described shell; Wherein, the first terminal of forming described the first terminal group does not possess the support portion that rotatablely moves of bifurcated, and integral body is in-line; Second terminal of forming described second terminal group has the support portion of rotatablely moving, second contact site, reaches resiliency supported portion in the terminal arm end of bifurcated; The cam of described brake rotatablely moves between the support portion and second contact site described second terminal; Second terminal of the first terminal of described the first terminal group and described second terminal group disposes with different interval respectively; Described outer cover has first press section, and combination is inserted from the direction of the socket of described shell in this first press section, and will press under described flexible print circuit board/flexible flat winding displacement; Described the first terminal and the interlock of described first press section make the upper surface of first contact site of described the first terminal contact with the corresponding terminal of the lower surface of described flexible print circuit board/flexible flat winding displacement; When described second contact site descended along with the rotation of described cam, described second terminal contacted with the corresponding terminal of the upper surface that is inserted in the described flexible print circuit board/flexible flat winding displacement between described second contact site and the described resiliency supported portion.

2. joint according to claim 1, it is characterized in that, described outer cover also has second press section, when described flexible print circuit board/when the flexible flat winding displacement is inserted into described socket, described second press section contacted with described flexible print circuit board/flexible flat winding displacement before described flexible print circuit board/flexible flat winding displacement and described the first terminal and second termination contact.

3. joint according to claim 1 is characterized in that, the part of described outer cover is inserted into the insertion section of described shell, and described shell has the platform that prevents that prevents that described second terminal from contacting with described outer cover.

4. joint according to claim 1, it is characterized in that, described brake has first projection and second projection, and this first projection and second projection combine with first groove and second groove of the diverse location formation of the two sides of described flexible print circuit board/flexible flat winding displacement respectively.

5. joint according to claim 1, it is characterized in that, described second terminal also has the fixing through hole of use, and when described second terminal was inserted in the second terminal socket of described shell, described fixing usefulness through hole can combine with the projection in this second terminal socket.