CN204045858U - The detection architecture of socket connector - Google Patents

Abstract

The utility model is a kind of detection architecture of socket connector, and it comprises the socket connector that has insulating body, multiple signal terminal and shield shell; At least two contact flat springs being located at shield shell both sides respectively; And the detection terminal that at least two are located at insulating body both sides respectively, and each detection terminal respectively with each contact flat spring movable contact.Whereby, pin connector can be made mutually to dock with socket connector after, allow between each contact flat spring and each detection terminal and produce suitable displacement, and then to block activation signal or to produce the action that the mode of activation signal carries out detecting, and reach that structure is simple, operation is convenient and effectively carry out effect of detecting.

Description

The detection architecture of socket connector

Technical field

The utility model is a kind of detection architecture of socket connector, espespecially a kind of detection architecture of the socket connector for USB connector.

Background technology

General conventional USB connector can be provided with detection terminal usually, so as to detecting the USB plug connector inserted, carrying out enabling signal transmission, power-on supply or reaching other measuring ability.

And conventional Patents technology is as " electric connector " of No. M335059th, TaiWan, China patent, " electric connector " of No. M441957, " electric connector " of No. M450098, " there is the electric connector of switching function " of No. M338462, " high-frequency socket connector of tool plug detecting function " of No. I403028, " electric connector socket " of No. M430040, " electric connector of tool detecting function " of No. M431481, " electric connector structure " of No. M443300, " connector body " of No. M450876 and disclose " USB socket that there is the heteroid special USB plug of standard USB plug and can rabbet with special USB plug " of No. 201312880, but the detection terminal of aforementioned patent case and the combination of connector insulating body are all comparatively complicated, easily cause being not easy to the disappearances such as the opering characteristic of electric apparatus after assembling and assembling is not good.

In view of this, inventor spy of the present utility model concentrates on studies, and develops a kind of detection architecture of socket connector, to improving the disadvantages of above-mentioned common technology.

Utility model content

The purpose of this utility model is the detection architecture providing a kind of socket connector, pin connector can be made mutually to dock with socket connector after, make to produce suitable displacement between each contact flat spring and each detection terminal, and then to block activation signal or to produce the action that the mode of activation signal carries out detecting, and reach that structure is simple, operation is convenient and effectively carry out effect of detecting.

For reaching above-mentioned object, the utility model provides a kind of detection architecture of socket connector, and it includes: one have insulating body, be multiplely located at the signal terminal on insulating body and be coated on the socket connector of shield shell of insulating body outside; At least two correspondences are located at the contact flat spring of shield shell both sides; And at least two correspondence be located at the detection terminal of insulating body both sides, and each detection terminal is corresponding to each contact flat spring movable contact.

In the above embodiments, the insulating body of this socket connector includes a pedestal, and is vertical at the scarfing slot that hyoplastron in pedestal one side and correspondence are located at pedestal both sides, and one end of each signal terminal is located on hyoplastron, the other end then extends to be located on pedestal, and described each detection terminal correspondence is located in each scarfing slot.

In the above embodiments, this shield shell includes the first housing of a coated hyoplastron and the second housing of a coated pedestal, and described each contact flat spring correspondence is located at the both sides in the first shell one end face.

In the above embodiments, the two side ends edge of this first housing upwards extends respectively and is provided with a fixed head, and each of this first housing is respectively equipped with an abutting part, and each contact flat spring correspondence is located at the both sides in the first housing tip face, the both sides of this second housing have a snapping plate be combined with fixed head respectively.

In the above embodiments, each contact flat spring includes an extension be connected with the first housing, a curved face part be connected with extension and is connected with curved face part and with the butting section of detection terminal end thereof contacts.

In the above embodiments, each detection terminal include respectively extend pedestal weld part, a connecting portion connected with weld part, connects with connecting portion and the interference part be connected in scarfing slot and connects with interference part and the kink contacted with butting section, each scarfing slot correspondence is located at the both sides of pedestal end face.

In the above embodiments, the two side ends edge of this first housing is extended with a fixed head downwards respectively, and each of this first housing is respectively equipped with abutting part, and each contact flat spring correspondence is located at the both sides of the first housing bottom end face, the both sides of this second housing and one end have the snapping plate be combined with fixed head respectively.

In the above embodiments, each contact flat spring includes one and is connected and the butting section corresponding with detection terminal one end with curved face part with the extension that the first housing connects, a curved face part be connected with extension and.

In the above embodiments, each detection terminal includes the weld part, extending pedestal respectively and is connected and the flat part corresponding with butting section with kink with the kink that weld part connects and, and each scarfing slot correspondence is located at the both sides of pedestal bottom surface.

The advantage of the detection architecture of socket connector of the present utility model is, pin connector can be made mutually to dock with socket connector after, make to produce suitable displacement between each contact flat spring and each detection terminal, and then to block activation signal or to produce the action that the mode of activation signal carries out detecting, and reach that structure is simple, operation is convenient and effectively carry out effect of detecting.

Accompanying drawing explanation

The following drawings is only intended to schematically illustrate the utility model and explain, does not limit scope of the present utility model.Wherein:

Fig. 1 is the perspective exploded view of the utility model first embodiment.

Fig. 2 is the three-dimensional appearance schematic diagram of the utility model first embodiment.

Fig. 3 be the utility model first embodiment overlook view.

Fig. 4 is the A-A generalized section of the utility model Fig. 3.

Fig. 5 is the using state schematic diagram of the utility model first embodiment.

Fig. 6 is the vertical view of the utility model first embodiment using state.

Fig. 7 is the B-B generalized section of the utility model Fig. 6.

Fig. 8 is the perspective exploded view of the utility model second embodiment.

Fig. 9 is the three-dimensional appearance schematic diagram of the utility model second embodiment.

Figure 10 be the utility model second embodiment overlook view.

Figure 11 be the utility model second embodiment look up view.

Figure 12 is the C-C generalized section of the utility model Figure 11.

Figure 13 is the using state schematic diagram of the utility model second embodiment.

Figure 14 is the vertical view of the utility model second embodiment using state.

Figure 15 is the D-D generalized section of the utility model Figure 14.

Main element label declaration:

Socket connector 1,1a

Insulating body 11

Pedestal 111,111a

Hyoplastron 112

Scarfing slot 113,113a

Signal terminal 12,12a

Shield shell 13,13a

First housing 131,131a

Fixed head 1311,1311a

Abutting part 1312,1312a

Second housing 132,132a

Snapping plate 1321,1321a

Contact flat spring 2,2a

Extension 21,21a

Curved face part 22,22a

Butting section 23,23a

Detection terminal 3,3a

Weld part 31

Connecting portion 32

Interference part 33

Kink 34

Weld part 35a

Kink 36a

Flat part 37a

Pin connector 4

Embodiment

For fully understanding the purpose of this utility model, feature and effect, existing by following specific embodiment, and the accompanying drawing appended by coordinating, the utility model is described in detail, illustrates as after.

Refer to shown in Fig. 1, Fig. 2, Fig. 3 and Fig. 4, be respectively the perspective exploded view of the utility model first embodiment, the three-dimensional appearance schematic diagram of the utility model first embodiment, the A-A generalized section of overlooking view and the utility model Fig. 3 of the utility model first embodiment.As shown in the figure: the utility model is a kind of detection architecture of socket connector, it is at least made up of socket connector 1, at least two contact flat spring 2 and at least two detection terminals 3.

Above-mentioned carried socket connector 1 is USB connector, it includes an insulating body 11, multiple shield shell 13 be located at the signal terminal 12 on insulating body 11 and be coated on this insulating body 11 outside, wherein this insulating body 11 includes the scarfing slot 113 that a pedestal 111, is vertical at the hyoplastron 112 in pedestal 111 one side and is located at pedestal 111 end face both sides respectively, and one end of each signal terminal 12 is located on hyoplastron 112, the other end then extends to be located on pedestal 111; And this shield shell 13 includes the first housing 131 of a coated hyoplastron 112 and the second housing 132 of a coated pedestal 111, wherein the two side ends edge of this first housing 131 is upwards extended with a fixed head 1311 respectively, and each of this first housing 131 is respectively equipped with abutting part 1312, separately the both sides of this second housing 132 have the snapping plate 1321 be combined with fixed head 1311 respectively.

Each contact flat spring 2 is located at the both sides of the first housing 131 top end face set by shield shell 13 respectively, and each contact flat spring 2 include curved face part that an extension 21, be connected with the first housing 131 is connected with extension 21 22 and be connected with curved face part 22 and with the butting section 23 of detection terminal 3 end thereof contacts.

Each detection terminal 3 is located in each scarfing slot 113 of pedestal 111 end face both sides set by insulating body 11 respectively, and each detection terminal 3 respectively with each contact flat spring 2 movable contact, and each detection terminal 3 includes connecting portion 32, that the weld part 31, that extends pedestal 111 and weld part 31 connect respectively connects with connecting portion 32 and the interference part 33 and be connected in scarfing slot 113 connects and the kink 34 contacted with butting section 23 with interference part 33.

Refer to shown in Fig. 5, Fig. 6 and Fig. 7, be respectively the using state schematic diagram of the utility model first embodiment, the vertical view of the utility model first embodiment using state and the B-B generalized section of the utility model Fig. 6.As shown in the figure: when the utility model is in time using, the weld part 31 of the welding ends of each signal terminal 12 and each detection terminal 3 can be welded in (not shown) on motherboard, and (please coordinate and consult Fig. 1 ~ Fig. 4) when using can for carrying out docking to relevant pin connector 4 simultaneously, and after this pin connector 4 docks mutually with socket connector 1 of the present utility model, this pin connector 4 is received by the first housing 131, each abutting part 1312 of this first housing 131 is made to be resisted against each side periphery of pin connector 4 respectively, and make each terminal (not shown) of pin connector 4 and each signal terminal 12 form conducting, and after completing aforesaid docking action, the top end face of this pin connector 4 just can promote the curved face part 22 of each contact flat spring 2, and then allow curved face part 22 coordinate extension 21 to produce displacement upwards, originally the butting section 23 contacted with kink 34 set by each detection terminal 3 is departed from, the butting section 23 of each contact flat spring 2 is allowed no longer to contact with the kink 34 of each detection terminal 3, now each detection terminal 3 just can produce truncated signal (representing that pin connector 4 docks mutually with socket connector 1), and the detection signal allowing motherboard receive each detection terminal 3 to send, so as to carrying out follow-up start matters, and it is simple to reach structure, operation is convenient and effectively carry out effect of detecting.

Refer to shown in Fig. 8, Fig. 9, Figure 10, Figure 11 and Figure 12, be respectively the perspective exploded view of the utility model second embodiment, the three-dimensional appearance schematic diagram of the utility model second embodiment, the C-C generalized section looking up view and the utility model Figure 11 of overlooking view, the utility model second embodiment of the utility model second embodiment.As shown in the figure: the utility model is carried except structure kenel except above-mentioned first embodiment, more can be the structure kenel that this second embodiment is put forward, and its difference is, shield shell 13a set by this socket connector 1a is provided with a fixed head 1311a respectively to downward-extension on the both sides ora terminalis and end face of the first housing 131a, and each of this first housing 131a is respectively equipped with abutting part 1312a, and each contact flat spring 2a is located at the both sides of the first housing 131a bottom end face respectively, both sides and one end of another this second housing 132a have the snapping plate 1321a be combined with fixed head 1311a respectively, and each scarfing slot 113a is located at the both sides of pedestal 111a bottom surface respectively, each contact flat spring 2a includes one and is connected and the butting section 23a corresponding with detection terminal 3a one end with curved face part 22a with the curved face part 22a that extension 21a is connected and with the extension 21a that the first housing 131a connects, each detection terminal 3a is located in each scarfing slot 113a of both sides, pedestal 111a bottom surface respectively, and each detection terminal 3a includes the weld part 35a, extending pedestal 111a is respectively connected and flat part 37a corresponding to and discontiguous butting section 23a with kink 36a with the kink 36a and that weld part 35a connects.

Refer to shown in Figure 13, Figure 14 and Figure 15, be respectively the using state schematic diagram of the utility model second embodiment, the vertical view of the utility model second embodiment using state and the D-D generalized section of the utility model Figure 14.As shown in the figure: when the utility model is in time using, the weld part 35a of the welding ends of each signal terminal 12a and each detection terminal 3a can be welded in (not shown) on motherboard, and (please coordinate and consult Fig. 8 ~ Figure 12) when using can for carrying out docking to relevant pin connector 4 simultaneously, and after this pin connector 4 docks mutually with socket connector 1a of the present utility model, this pin connector 4 is received by the first housing 131a, each abutting part 1312a of this first housing 131a is made to be resisted against each side periphery of pin connector 4 respectively, and make each terminal (not shown) of pin connector 4 and each signal terminal 12a form conducting, and after completing aforesaid docking action, the top end face of this pin connector 4 just can promote the curved face part 22a of each contact flat spring 2a, and then allow curved face part 22a coordinate extension 21a to produce downward displacement, the butting section 23a corresponding with flat part 37a set by each detection terminal 3a is originally made to be contact condition, the butting section 23a of each contact flat spring 2a is allowed to contact conducting with the flat part 37a of each detection terminal 3a, now each detection terminal 3a just can produce activation signal (representing that pin connector 4 docks mutually with socket connector 1a), and the detection signal allowing motherboard receive each detection terminal 3a to send, so as to carrying out follow-up start matters, and it is simple to reach structure, operation is convenient and effectively carry out effect of detecting.

In sum, according to content disclosed above, the utility model really can reach the expection object of design, by the detection architecture of this kind of socket connector, pin connector can be made mutually to dock with socket connector after, allow between each contact flat spring and each detection terminal and produce suitable displacement, and then to block activation signal or to produce the action that the mode of activation signal carries out detecting, and reach that structure is simple, operation is convenient and effectively carry out effect of detecting.

The foregoing is only the schematic embodiment of the utility model, and be not used to limit scope of the present utility model.Any those skilled in the art, the equivalent variations done under the prerequisite not departing from design of the present utility model and principle and amendment, all should belong to the scope of the utility model protection.And it should be noted that, each part of the present utility model is not limited in above-mentioned overall applicability, the each technical characteristic described in specification of the present utility model can select one to adopt separately or select the multinomial use that combines according to actual needs, therefore, the utility model covers other relevant with this case inventive point in the nature of things and combines and embody rule.

Claims (9)

1. a detection architecture for socket connector, is characterized in that, the detection architecture of described socket connector comprises:

One socket connector, includes an insulating body, multiple shield shell be located at the signal terminal on described insulating body and be coated on described insulating body outside;

Two contact flat springs, correspondence is located at the both sides of described shield shell; And

Two detection terminals, correspondence is located at the both sides of described insulating body, and each described detection terminal is corresponding and each described contact flat spring movable contact.

2. the detection architecture of socket connector as claimed in claim 1, it is characterized in that, the insulating body of described socket connector includes a pedestal, and is vertical at the scarfing slot that hyoplastron in described pedestal one side and correspondence are located at described pedestal both sides, and one end of each described signal terminal is located on described hyoplastron, the other end then extends to be located on described pedestal, and each described detection terminal correspondence is located in each described scarfing slot.

3. the detection architecture of socket connector as claimed in claim 2, it is characterized in that, described shield shell includes the first housing of a coated described hyoplastron and the second housing of a coated described pedestal, and each described contact flat spring correspondence is located at the both sides in described first shell one end face.

4. the detection architecture of socket connector as claimed in claim 3, it is characterized in that, the two side ends edge of described first housing upwards extends respectively and is provided with a fixed head, and each of described first housing is respectively equipped with abutting part, and each described contact flat spring correspondence is located at the both sides in described first housing tip face, the both sides of described second housing have the snapping plate be combined with described fixed head respectively.

5. the detection architecture of socket connector as claimed in claim 3, it is characterized in that, each described contact flat spring includes an extension be connected with described first housing, a curved face part be connected with described extension and is connected with described curved face part and with the butting section of described detection terminal end thereof contacts.

6. the detection architecture of socket connector as claimed in claim 5, it is characterized in that, each described detection terminal include respectively extend described pedestal weld part, a connecting portion connected with described weld part, connects with described connecting portion and the interference part be connected in described scarfing slot and connects with described interference part and the kink contacted with described butting section, each described scarfing slot correspondence is located at the both sides of described pedestal end face.

7. the detection architecture of socket connector as claimed in claim 3, it is characterized in that, the two side ends edge of described first housing is provided with a fixed head to downward-extension respectively, and each of described first housing is respectively equipped with abutting part, and each described contact flat spring correspondence is located at the both sides of described first housing bottom end face, the both sides of described second housing and one end have the snapping plate be combined with described fixed head respectively.

8. the detection architecture of socket connector as claimed in claim 7, it is characterized in that, each described contact flat spring includes one and is connected and the butting section corresponding with described detection terminal one end with described curved face part with the curved face part that described extension is connected and with the extension that described first housing connects.

9. the detection architecture of socket connector as claimed in claim 8, it is characterized in that, each described detection terminal includes the weld part, extending described pedestal respectively and is connected and the flat part corresponding with described butting section with described kink with the kink that described weld part connects and one, and each described scarfing slot correspondence is located at the both sides of described pedestal bottom surface.