CN203596445U

CN203596445U - Socket connector provided with plug port reinforcing structure

Info

Publication number: CN203596445U
Application number: CN201320780435.3U
Authority: CN
Inventors: 霍柱东; 彭国锋
Original assignee: Shenzhen Deren Electronic Co Ltd
Current assignee: Shenzhen Deren Electronic Co Ltd
Priority date: 2013-12-02
Filing date: 2013-12-02
Publication date: 2014-05-14
Anticipated expiration: 2023-12-02

Abstract

The utility model provides a socket connector provided with a plug port reinforcing structure. The connector comprises an insulation body, a conductive terminal set which forms a plug port and is arranged in the insulation body, and a shielding housing which coats the exterior of the insulation body; the shielding housing comprises an upper substrate and a lower substrate; the edge of the front end of the upper substrate of the shielding housing extends in a bent manner, so at least one buckle structure which is of an inverted T-type structure is formed; each buckle part comprises a vertical part and a horizontal part; a groove is arranged in the edge part of the top wall of the insulation body; and when the shielding housing coats the exterior of the insulation body, the vertical part is arranged in the groove, so the horizontal part is used for supporting the top wall. According to the utility model, the buckle structure on the shielding housing is used for supporting the top wall of the insulation body, so the top wall of the insulation body is protected from sinking or even collapsing; and even if sinks or even collapses, the top wall of the insulation body can be supported via the shielding housing, so the plug port is prevented from deforming, and normal butt joint and stable electrical connection between an FFC pin connector and the socket connector are ensured.

Description

There is interface and strengthen the socket connector of structure

Technical field

The utility model relates to a kind of socket connector, especially a kind of socket connector with interface reinforcement structure docking with FFC (Flexible Flat Cable, flexible flat cable) pin connector.

Background technology

The existing socket connector docking with FFC (Flexible Flat Cable) plug, comprises shielding casing, insulating body and is contained in the multiple conducting terminals in insulating body.Wherein, insulating body has the roof and the diapire that are parallel to each other, and conducting terminal is installed in respectively on roof, diapire and forms an interface, docks for FFC pin connector.Shielding casing is coated on the outer surface of insulating body, plays earth-shielded effect.In the socket connector of this conventional structure, because the roof of insulating body is long and thin, the as easy as rolling off a log generation in position in the middle of it sink/is subsided, and makes interface distortion, thereby FFC pin connector can not normally be docked with socket connector.

Summary of the invention

The purpose of this utility model is to provide a kind of socket connector with interface reinforcement structure, and the problem of interface distortion easily occurs to cause while sink/subsiding the roof that solves insulating body in conventional structure.

The purpose of this utility model is achieved through the following technical solutions.

There is interface and strengthen a socket connector for structure, comprising: insulating body, is installed in the conducting end subgroup that forms interface in insulating body, and is coated on the shielding casing of insulating body outside; Described shielding casing comprises upper substrate, infrabasal plate;

The bending downwards of the front end edge edge of the upper substrate of described shielding casing extends to form at least one and is the clamping part of being inverted T shape structure; Described clamping part comprises vertical portion and horizontal part, vertical portion wherein by described front end edge edge along the longitudinal direction of described interface extend to form downwards, horizontal part extends to form along the horizontal direction of described interface by the bottom of vertical portion;

The edge part of the roof of described insulating body is also provided with the groove suitable with described vertical portion, in the time that described shielding casing is coated on insulating body outside, the vertical portion of described clamping part is installed in corresponding groove, upwards holds residence state roof by the horizontal part of roof below that is positioned at insulating body.

Wherein, described horizontal part comprises the first horizontal part and second horizontal part of the left and right sides, bottom that lays respectively at vertical portion.

Wherein, the one or both sides of described groove are equipped with stage portion; Outside shielding casing is coated on insulating body time, the horizontal part of described clamping part is inconsistent with corresponding stage portion, is upwards held in the roof of insulating body by stage portion.

Wherein, it is inverted L shaped that described stage portion is, and each groove forms L shaped groove/inverted T-slot with the lower space of one/two stage portion that are adjacent, suitable with described clamping part.

Wherein, along the horizontal direction of described interface, the width of described vertical portion is greater than the width of described horizontal part.

Wherein, described clamping part also comprises that one is positioned at the kink of upper end, vertical portion, and this kink is 90 degree by described front end edge edge and is bent to form downwards.

Wherein, the quantity of described clamping part is 1, and it is positioned at the position, middle of the front end edge edge of described upper substrate.

Wherein, the quantity of described clamping part is M, and described M is greater than 1.Now, described clamping part is even or anisotropically spaced apart on the whole front end edge edge of described upper substrate; Or, the even or middle part of the front end edge edge in described upper substrate spaced apart anisotropically of described clamping part; Or centered by the center line of the longitudinal direction of described interface, all clamping parts are symmetrical distribution.

Compared with prior art, beneficial effect is the utility model:

In the utility model embodiment, by the buckle structure of setting up on shielding casing, the roof of insulating body is held, avoid the roof of insulating body that the even generation of collapse phenomenon of sinking occurs, even occur to sink while even subsiding at the roof of insulating body, also can support the roof of insulating body by shielding casing, avoid the distortion of interface, guaranteed that FFC pin connector docks and stable electric connection with the normal of socket connector.

Accompanying drawing explanation

Fig. 1 is the three-dimensional exploded view of socket connector in the utility model embodiment;

Fig. 2 is the three-dimensional combination figure of socket connector in the utility model embodiment;

Fig. 3 is the vertical view of socket connector in the utility model embodiment;

Fig. 4 is the upward view of socket connector in the utility model embodiment;

Fig. 5 is the end view of socket connector and the partial enlarged drawing of clamping part in the utility model embodiment;

Fig. 6 is along the socket connector cutaway view of the line of A-A shown in Fig. 5 and the partial enlarged drawing of clamping part.

Embodiment

In order to make the purpose of this utility model, technical scheme and advantage clearer, below in conjunction with drawings and Examples, the utility model is further elaborated.Should be appreciated that specific embodiment described herein is only in order to explain the utility model, and be not used in restriction the utility model.

Socket connector of the present utility model is to supply LVDS pin connector to inserting, and what LVDS pin connector connected is FFC (Flexible Flat Cable) flexible flat cable.Incorporated by reference to shown in Fig. 1 to Fig. 4, socket connector mainly comprises: shielding casing 1, insulating body 2, conducting end subgroup 3.

Insulating body 2 comprises roof 21, diapire 22 and two side 23, and conducting end subgroup 3 is installed in and between roof 21, diapire 22, forms an interface 24.

Shielding casing 1 comprises upper substrate 11, infrabasal plate 12 and biside plate 13; this shielding casing 1 is coated on outside insulating body 2; upper substrate 11 is contacted with the upper and lower surface of insulating body 2 respectively with infrabasal plate 12, thereby insulating body 2 is covered, play the effect of protection and shielded signal.

In the present embodiment, as Fig. 1, 2, 5, shown in 6, cause interface distortion in order to prevent that the roof 21 of insulating body 2 from sink/subsiding, the bending downwards of the front end edge edge of the upper substrate 11 of shielding casing 1 extends to form several and is the clamping part 14 of being inverted T shape structure, this clamping part 14 is from top to bottom successively by integrated kink 143, vertical portion 141 and horizontal part 142 form, kink 143 is 90 degree by the front end edge edge of upper substrate 11 and is bent to form downwards, vertical portion 141 is extended to form downwards along the longitudinal direction of interface 24 by the bottom of kink 143, horizontal part 142 is extended to form along the horizontal direction of interface 24 by the bottom of vertical portion 141, horizontal part 142 comprises the first horizontal part and second horizontal part of the left and right sides, bottom that lays respectively at vertical portion 141.The edge part of the roof 21 of insulating body 2 is also provided with several grooves 211, and its quantity and position are consistent with clamping part 14, for installing the vertical portion 141 of clamping part 14.

As shown in Figure 2, be coated on insulating body 2 when outer at shielding casing 1, the vertical portion 141 of clamping part 14 is installed in corresponding groove 211, the two ends of horizontal part 142 be positioned at insulating body 2 roof 21 below and contact with it, when sinking in roof 21 middle parts or subsiding, play the effect that roof 21 is produced to upwards supporting role power, to prevent interface distortion.The quantity of clamping part 14 is not limit, space distance is not also limit, can evenly be arranged at intervals at the whole front end edge edge of the upper substrate 11 of shielding casing 1, also can adopt a small amount of distribution to be arranged at the middle part of the front end edge edge of upper substrate 11, preferably execution mode is that the both sides, center of the front end edge edge of the upper substrate 11 at shielding casing 1 as shown in Figure 1 arrange respectively 2 clamping parts 14.Clamping part 14 also can adopt L shaped structure, and its action principle is identical with inverted T shape structure, repeats no more herein.

In the present embodiment, shown in Fig. 1, Fig. 4 and Fig. 5, in order to coordinate better clamping part 14 to complete the supporting role of the roof 21 to insulating body 2, on the edge part of the roof 21 of insulating body 2, the both sides of each groove 211 are also provided with stage portion 212, it is inverted L shaped that stage portion 212 is, and each groove 211 forms an inverted T-slot with the lower space of two stage portion 212 that are adjacent, suitable with clamping part 14.Shielding casing 1 be coated on insulating body 2 when outer vertical portion 141 and the horizontal part 142 of clamping part 14 be all installed in T-slot, and the both sides of horizontal part 142 are upwards held in respectively stage portion 212, stably support the roof 21 of insulating body 2 by the strength of the upper substrate 11 of shielding casing 1, make it to be difficult for subsiding, guarantee the reliability being electrically connected.In addition, in order to guarantee steadiness, wider width need be chosen in the vertical portion 141 of clamping part 14, and optimal way is the half that is not less than the length of horizontal part 142.

The foregoing is only preferred embodiment of the present utility model; not in order to limit the utility model; all any modifications of doing within spirit of the present utility model and principle, be equal to and replace and improvement etc., within all should being included in protection range of the present utility model.

Claims

1. there is interface and strengthen a socket connector for structure, comprising: insulating body, is installed in the conducting end subgroup that forms interface in insulating body, and is coated on the shielding casing of insulating body outside; Described shielding casing comprises upper substrate, infrabasal plate; It is characterized in that,

2. the socket connector with interface reinforcement structure as claimed in claim 1, is characterized in that, described horizontal part comprises the first horizontal part and second horizontal part of the left and right sides, bottom that lays respectively at vertical portion.

3. the socket connector with interface reinforcement structure as claimed in claim 1 or 2, is characterized in that, the one or both sides of described groove are equipped with stage portion; Outside shielding casing is coated on insulating body time, the horizontal part of described clamping part is inconsistent with corresponding stage portion, is upwards held in the roof of insulating body by stage portion.

4. the socket connector with interface reinforcement structure as claimed in claim 3, it is characterized in that, it is inverted L shaped that described stage portion is, and each groove forms L shaped groove/inverted T-slot with the lower space of one/two stage portion that are adjacent, suitable with described clamping part.

5. the socket connector with interface reinforcement structure as claimed in claim 1, is characterized in that, along the horizontal direction of described interface, the width of described vertical portion is greater than the width of described horizontal part.

6. the socket connector with interface reinforcement structure as claimed in claim 1, is characterized in that, described clamping part also comprises that one is positioned at the kink of upper end, vertical portion, and this kink is 90 degree by described front end edge edge and is bent to form downwards.

7. the socket connector with interface reinforcement structure as claimed in claim 1, is characterized in that, the quantity of described clamping part is 1, and it is positioned at the position, middle of the front end edge edge of described upper substrate.

8. the socket connector with interface reinforcement structure as claimed in claim 1, is characterized in that, the quantity of described clamping part is M, and described M is greater than 1.

9. the socket connector with interface reinforcement structure as claimed in claim 8, is characterized in that, described clamping part is spaced apart on the whole front end edge edge of described upper substrate.

10. the socket connector with interface reinforcement structure as claimed in claim 8, is characterized in that the middle part of the described clamping part front end edge edge in described upper substrate spaced apart.

11. socket connectors with interface reinforcement structure as claimed in claim 9, is characterized in that, described clamping part is evenly spaced apart on the whole front end edge edge of described upper substrate.

12. socket connectors with interface reinforcement structure as claimed in claim 4, is characterized in that, described clamping part is the middle part of the front end edge edge in described upper substrate spaced apart evenly.

13. interfaces that have as described in claim 9 or 10 are strengthened the socket connector of structure, it is characterized in that, centered by the center line of the longitudinal direction of described interface, all clamping parts are symmetrical distribution.