CN102157840A

CN102157840A - Socket, metal part and latch structure

Info

Publication number: CN102157840A
Application number: CN2010106023070A
Authority: CN
Inventors: 浅井清
Original assignee: SMK Corp
Current assignee: SMK Corp
Priority date: 2009-12-17
Filing date: 2010-12-13
Publication date: 2011-08-17
Anticipated expiration: 2030-12-13
Also published as: KR101220858B1; TWI438989B; JP2011129355A; JP5013297B2; KR20110069679A; TW201123652A; CN102157840B

Abstract

The invention provides a socket, a metal part and a latch structure. The invention enables a plug-in body plug into the socket via elastic deformation and prevents the plug-in body disengaging from a spring part. And, the socket is small. A socket housing (102), made of a metallic plate, is cylindrical and has an opening (121a) and an accommodating space (121). A first latch (106) has a hole part (109) arranged on the side wall (102a) of the socket housing (102) and is separated from the side wall (102a). The first latch (106) is arranged on the intersecting direction of the side wall (102a) and an edge part (102ab) and is a tongue shape extended along the inner side of a calendaring surface of the side wall (102a) of the edge part (102ab). The first latch (106) clamps a camera module (301) accommodated in the accommodating space (121) to prevent disengaging of the camera module (301). A connection part (110) extends from the root of the first latch (106) with the edge part (102ab) at one side. The other side of the connection part (110) is parallel with the edge part (102ab) with the hole part (109) in between.

Description

Socket, metal parts and latching structure

Technical field

The present invention relates to be formed with the accommodation space that insertion bodies such as camera module are accommodated socket, limit the metal parts of this accommodation space and latching structure that the objects such as insertion body that are used for being located at this socket and metal parts block.

Background technology

In the past, the socket that insertion bodies such as camera module are accommodated required miniaturization.As an example of the technology that solves this problem, in patent documentation 1, disclose integratedly with parts such as contact and insulators, constitute socket 1 by single component, by the reduction of part number, realize simplification, cheap and the low back of the bodyization of assembling procedure.This socket 1 is sheet metal to be carried out punch process form four jiaos of shaped as frame shapes forming resettlement section 1d, and forms breach and bending machining and form a pair of engaging spring 1b at left and right sides face.In the camera module 2 that is contained in this socket 1, adopt to have from two upper corners of its left and right sides face structure towards the rectangular notch part 2b of below.Engaging spring 1b is formed in the way of resettlement section 1d that camera module 2 inserts sockets 1 and blocks notch part 2b, prevents the latching structure that camera module 2 breaks away from from socket 1.

Patent documentation 1: the Japan Patent spy opens 2008-016419 communique (paragraph 0020,0021,0027, Fig. 4～Fig. 7)

Summary of the invention

Invent technical problem to be solved

As the situation of the above-mentioned resettlement section 1d that camera module 2 is contained in socket 1 under, at first, each engage spring 1b by the pushing of the side of camera module 2 and with respect to resettlement section 1d towards the displacement of lateral direction elasticity.Then, when camera module 2 when resettlement section 1d enters more deeply, each engages spring 1b and desires to return towards the interior side direction of resettlement section 1d because of its elasticity, thereby enters each notch part 2b of camera module 2.Consequently, engaging spring 1b engages with notch part 2b, and camera module 2 can not break away from from socket 1.

At this, because the height of the socket 1 of patent documentation 1 record is at least more than the length of engaging spring 1b, so when reducing socket 1, engaging spring 1b also shortens.But engaging spring 1b shortens, and the elasticity of engaging spring 1b diminishes and is difficult for the elasticity displacement, thereby camera module 2 can't be contained in socket 1.

The objective of the invention is to guarantee allow to insert body towards the insertion of socket and the elasticity of the spring portion that breaks away from of the insertion body after preventing to insert by strain, and with the socket miniaturization.

The technical scheme that the technical solution problem is adopted

Socket of the present invention comprises: the resettlement section, and it is formed by metallic plate, forms tubular and has opening, and be formed with the receiving space that the insertion body that inserts from aforementioned opening is accommodated; Spring portion, it is provided with hole portion and does not form discretely from aforementioned metallic plate at the aforementioned metal plate, on the direction of intersecting with the edge portion of the aforementioned metal plate that forms aforementioned opening, extend towards inboard ligule ground from aforementioned edge portion along the calendering face of aforementioned metal plate, the front zone is bent, and it is side-prominent to face aforementioned receiving space from the calendering of aforementioned metallic plate, blocks the aforementioned insertion body that is contained in aforementioned receiving space; And linking part, its root side from aforementioned spring portion is extended, and a side is an aforementioned edge portion, and another side forms abreast across aforementioned apertures portion and aforementioned edge portion.

Metal parts of the present invention comprises: spring portion, it is provided with hole portion limiting on the metallic plate will insert the receiving space that body accommodates, and do not form discretely from aforementioned metallic plate, on the direction of intersecting with the edge portion of aforementioned metal plate, extend towards inboard ligule ground from aforementioned edge portion along the calendering face of aforementioned metal plate, the front zone is bent, and it is side-prominent to face aforementioned receiving space from the calendering of aforementioned metallic plate, blocks the aforementioned insertion body that slides from aforementioned edge portion along the calendering face towards the aforementioned metal plate of aforementioned receiving space side and be contained in aforementioned receiving space; And linking part, its root side from aforementioned spring portion is extended, and a side is an aforementioned edge portion, and another side forms abreast across aforementioned apertures portion and aforementioned edge portion.

Latching structure of the present invention comprises: spring portion, it is provided with hole portion on metallic plate, and do not form discretely from aforementioned metallic plate, on the direction of intersecting with the edge portion of aforementioned metal plate, extend towards inboard ligule ground from aforementioned edge portion along the calendering face of aforementioned metal plate, the front zone is bent, and outstanding from the calendering face of aforementioned metallic plate; And linking part, its root side from aforementioned spring portion is extended, and a side is an aforementioned edge portion, and another side forms abreast across aforementioned apertures portion and aforementioned edge portion.

The invention effect

According to the present invention, along with the elasticity displacement of spring portion, the linking part that extends from the root side of spring portion also reverses.Therefore, even spring portion is shortened, also can guarantee enough elasticity by the elasticity of torsion of linking part.Therefore, can guarantee allow to insert body towards the insertion of socket and the elasticity of the spring portion that breaks away from of the insertion body after preventing to insert, and can make the socket miniaturization by strain.

Description of drawings

Fig. 1 is the stereogram of the socket of first execution mode.

Fig. 2 (a) is the rearview of socket.Fig. 2 (b) is the left view of socket.Fig. 2 (c) is the vertical view of socket.Fig. 2 (d) is the right view of socket.Fig. 2 (e) is the rearview of socket.Fig. 2 (f) is the front view of socket.

Fig. 3 (a) is the stereogram that the part of socket is enlarged expression.Fig. 3 (b) is that the A of Fig. 3 (a) is to view.

The action of first kayser when Fig. 4 (a)～Fig. 4 (c) expression is inserted the receiving space of jack housing with camera module is the B-B line cutaway view of Fig. 3 (a).

Fig. 5 is the stereogram of the socket of second execution mode.

(symbol description)

101: socket

102a: sidewall (resettlement section)

102ab: edge portion

106: the first kaysers (spring portion)

109: hole portion

110: linking part

121: receiving space

121a: opening

301: camera module (insertion body)

501: socket

503: metal parts

Embodiment

According to Fig. 1 to Fig. 4 one embodiment is described.For convenience of description, present embodiment is called first embodiment.Present embodiment is the example that is applicable to camera module socket.Fig. 1 is the stereogram of socket 101 (camera module socket).Fig. 2 (a) is the rearview of socket 101.Fig. 2 (b) is the left view of socket 101.Fig. 2 (c) is the vertical view of socket 101.Fig. 2 (d) is the right view of socket 101.Fig. 2 (e) is the rearview of socket 101.Fig. 2 (f) is the front view of socket 101.

Socket 101 has the jack housing 102 as the resettlement section.The sidewall 102a of this jack housing 102 be to tabular hardware carry out punch process, hole portion 109 be set, and further warpage processing and forming.Sidewall 102a forms tubular for the receiving space 121 that forms rectangular shape, and its upper surface is opening 121a, disposes a plurality of contacts 103 in its bottom surface.Be inserted with camera module 301 (with reference to Fig. 4 (a)～Fig. 4 (c)) from opening 121a, and be contained in receiving space 121 as insert.In camera module 301, be formed with rectangular notch 302 (with reference to Fig. 4 (b) and Fig. 4 (c)) towards the below from the upper corner of its side.

Contact 103 is that the rubber-like metallic plate is carried out punching press, with the member that its a part of flexagon becomes, overlooks observation and is elongated rectangular shape.Interior side direction towards this contact 103 extends contact site 104 from an end of this contact 103.Contact site 104 from the bottom surface of jack housing 102 towards the opening 121a side warpage of jack housing 102 erect.In addition, substrate connecting portion 105 is outstanding from the other end of contact 103.Substrate connecting portion 105 is side-prominent outwardly from the sidewall 102a of jack housing 102, waits by welding on the electronic circuit board (not shown) of the electronic equipment that is fixed on the side that is positioned at socket 101.Contact 103 is formed with two row row shapes in the bottom surface of socket 101 in its long limit mode respect to one another and arranges contact row 103a.Jack housing 102 and contact 103 and contact 103 are fixed by resin 151 each other.In more detail, will inject between jack housing 102 and the contact 103 by the resin 151 that heating and melting liquefies, reach in contact 103 space each other.By the sclerosis of this resin 151, make the position relation of jack housing 102 and contact 103 and contact 103 position relation each other fixing.

Fig. 3 (a) is the stereogram that the part of socket 101 is amplified expression.Fig. 3 (b) is that the A of Fig. 3 (a) is to view.In two relative sidewall 102a of jack housing 102, be formed with first kayser 106 respectively.In addition, in four sidewall 102a of jack housing 102, be formed with second kayser 107 respectively.In addition, in the present embodiment, first kayser 106 is equivalent to " the spring portion " in the technical scheme.

First kayser 106 and second kayser 107 be all by being provided with hole portion 109 in sidewall 102a, and do not form discretely from this sidewall 102a, and form ligule.In addition, first kayser 106 and second kayser 107 all on the direction that the 102ab of edge portion with the sidewall 102a that forms opening 121a intersects the rising wood 102aa from the sidewall 102a that comprises the 102ab of edge portion hang down, and towards inboard extension along the calendering face of sidewall 102a.In addition, first kayser 106 and second kayser 107 all near this rising wood 102aa part towards receiving space 121 side warpages.In addition, first kayser 106 and second kayser 107 all have the removal stop section 108 that its front zone (zone of the below part of first kayser 106 and second kayser 107) formed towards sidewall 102a side warpage.

Linking part 110 extends from the rising wood 102aa side (root side) of first kayser 106.Linking part 110 is the parts along the horizontal length of the 102ab of the edge portion extension of jack housing 102.The side of the top of linking part 110 is formed by the 102ab of edge portion of jack housing 102.The side of the below of linking part 110 forms abreast across the hole portion 109 and the 102ab of edge portion of jack housing 102.The side of the below of linking part 110 102ab of edge portion best and jack housing 102 extends abreast.

But in the 102ab of edge portion of jack housing 102, the part being positioned at above first kayser 106 is formed with recess 111.Recess 111 caves in towards the below from the 102ab of edge portion of jack housing 102, in first kayser 106 more to form V word shape towards the mode that the inboard along the calendering face of jack housing 102 enters than linking part 110.In addition, the minimum point 112 of recess 111 is positioned on the center line 113 of first kayser 106.

The action of first kayser 106 when Fig. 4 (a)～Fig. 4 (c) represents the receiving space 121 of camera module 301 insertion jack housing 102 is B-B line cutaway views of Fig. 3 (a).Camera module 301 is inserted under the situation of receiving space 121 of the socket 101 that constitutes as mentioned above, camera module 301 is positioned in the opening 121a of jack housing 102, and state moves (Fig. 4 (a)) towards the bottom surface of jack housing 102 (with reference to Fig. 1) according to this.In the way that this moves, the below part of camera module 301 pushes with respect to receiving space 121 first kayser 106 towards lateral direction.Thus, first kayser 106 shown in Fig. 4 (b) with respect to receiving space 121 towards the displacement of lateral direction elasticity.It is important in this that, because laterally formation more longways of linking part 110, so linking part 110 can be along with the elasticity displacement of first kayser 106 is reversed towards direction S.

Follow the words that the state camera module 301 shown in Fig. 4 (b) further moves towards the below, linking part 110 is desired to return towards the direction S ' opposite with direction S because of its elasticity of torsion, in addition, first kayser 106 is desired to return towards receiving space 121 sides because of its elasticity, enters the notch 302 (Fig. 4 (c)) of camera module 301.Consequently, the removal stop section 108 of first kayser 106 engages with the notch 302 of camera module 301, makes camera module 301 can not break away from from socket 101.

So, in the socket 101 of present embodiment, by being provided with linking part 110, along with the elasticity displacement of first kayser 106 is also reversed linking part 110.That is,, make the elasticity of first kayser, 106 integral body become big by linking part 110.Therefore, even first kayser 106 is shortened, can guarantee that also camera module 301 is out of shape required enough elasticity when inserting receiving space 121.Therefore, can guarantee to allow camera module 301 towards the insertion of socket 101 and the elasticity of first kayser 106 that breaks away from of the camera module 301 after preventing to insert, and can make socket 101 miniaturizations by strain.

In addition, in the socket 101 of present embodiment, be formed with recess 111 at the 102ab of edge portion of jack housing 102.By this recess 111, linking part 110 becomes thinner, produces at linking part 110 easily and reverses, and it is big that the elasticity of torsion of linking part 110 becomes.Therefore, first kayser 106 further can be shortened, can make socket 101 further miniaturizations.

Then, according to Fig. 5 another execution mode is described.For convenience of description, present embodiment is called second embodiment.In addition, in a second embodiment, also omit its explanation for the identical symbol of part mark identical with first embodiment.Present embodiment is the example that is applicable to the metal parts that constitutes camera module socket.

Fig. 5 is the stereogram of socket 501 (camera module socket).In the present embodiment, socket 501 has a pair of plastic board 502 and pair of metal part 503.A pair of plastic board 502 toward each other.First kayser 106 and second kayser 107 all are not set in this plastic board 502.In addition, pair of metal part 503 also toward each other.In this metal parts 503, be provided with first kayser 106 and second kayser 107.In addition, plastic board 502 and metal parts 503 are differently fixed mutually side by side and by fixed component (not shown), thereby form the receiving space 121 of rectangular shape.

In the present embodiment, camera module 301 also is located in the opening 121a of jack housing 102, and state moves along the calendering face slip of metal parts 503, thereby is contained in receiving space 121 towards the bottom surface of jack housing 102 according to this.In addition, in the present embodiment, the below part of camera module 301 also pushes with respect to receiving space 121 first kayser 106 towards lateral direction, make the 106 elasticity displacements of first kayser, and linking part 110 is reversed towards direction S.Then, because the elasticity of first kayser 106 and the elasticity of torsion of linking part 110, first kayser 106 is desired to return towards receiving space 121 sides, and first kayser 106 enters the notch 302 of camera module 301.That is, in the present embodiment, the removal stop section 108 of first kayser 106 also engages with the notch 302 of camera module 301, and camera module 301 can not break away from from socket 101 yet.

In addition, be applicable to linking part 110 being extended and the latching structure that constitutes and of socket 501 of the socket 101 of first embodiment and second embodiment, can certainly be applicable to other part not only applicable to socket 101 from first kayser 106.

Claims

1. a socket is characterized in that, comprising:

The resettlement section, this resettlement section is formed by metallic plate, forms tubular and has opening, and be formed with the receiving space that the insertion body that inserts from described opening is accommodated;

Spring portion, this spring portion is provided with hole portion and does not form discretely from described metallic plate on described metallic plate, on the direction of intersecting with the edge portion of the described metallic plate that forms described opening, extend towards inboard ligule ground from described edge portion along the calendering face of described metallic plate, the front zone is bent, and it is side-prominent to face described receiving space from the calendering of described metallic plate, thereby block the described insertion body that is contained in described receiving space; And

Linking part, this linking part extends from the root side of described spring portion, and a side is a described edge portion, and another side forms abreast across described hole portion and described edge portion.

2. socket as claimed in claim 1 is characterized in that,

The edge portion of described metallic plate more caves in towards the inboard of calendering face along described metallic plate than described linking part in described spring portion recessedly.

3. a metal parts is characterized in that, comprising:

Spring portion, this spring portion is provided with hole portion limiting on the metallic plate will insert the receiving space that body accommodates, and do not form discretely from described metallic plate, on the direction of intersecting with the edge portion of described metallic plate, extend towards inboard ligule ground from described edge portion along the calendering face of described metallic plate, the front zone is bent, and it is side-prominent to face described receiving space from the calendering of described metallic plate, blocks the described insertion body that slides from described edge portion along the calendering face towards the described metallic plate of described receiving space side and be contained in described receiving space; And

4. metal parts as claimed in claim 3 is characterized in that,

5. a latching structure is characterized in that, comprising:

Spring portion, this spring portion is provided with hole portion at metallic plate, and do not form discretely from described metallic plate, on the direction of intersecting with the edge portion of described metallic plate, extend towards inboard ligule ground from described edge portion along the calendering face of described metallic plate, the front zone is bent, and outstanding from the calendering face of described metallic plate; And

6. latching structure as claimed in claim 5 is characterized in that,