CN204088673U - Electric connector - Google Patents

Abstract

The utility model discloses a kind of electric connector, comprising: insulating body, the hyoplastron that described insulating body comprises base portion and extends forward from described base portion, described hyoplastron bottom surface is provided with multiple terminal groove; Multiple conducting terminal, described multiple conducting terminal edge buries and takes shape in described insulating body, and described in each, conducting terminal comprises contact site, and described contact site is in described terminal groove; Reinforced sheet, described reinforced sheet and described multiple conducting terminal are by same metallic plate integral molding, and described reinforced sheet edge buries and takes shape in described insulating body and be exposed to described hyoplastron end face; The utility model electric connector by reinforced sheet and multiple conducting terminal shaping by same metallic plate stamping-out, only need use one set of die, be conducive to saving material and reducing manufacturing cost simultaneously.

Description

Electric connector

[technical field]

The utility model relates to a kind of electric connector, and espespecially a kind of have the electric connector strengthening structure.

[background technology]

Existing electric connector generally comprises, one insulating body, be fixed on the multiple conducting terminal on described insulating body and be sheathed on a shielding casing of described insulating body periphery, the hyoplastron that described insulating body comprises a base portion and extends forward from described base portion, described shielding casing is coated on the surrounding of described hyoplastron and forms a docking chamber, with for butt-jointed electric connector grafting, described hyoplastron bottom surface is provided with multiple terminal groove, described multiple conducting terminal has a contact site respectively and is exposed in described multiple terminal groove, in order to contact with the conducting terminal of butt-jointed electric connector, to realize Signal transmissions.

But, described electric connector in use needs often to be plugged on described butt-jointed electric connector, and some butt-jointed electric connectors compare and compact after inserting, and need unavoidably to pull up and down and just can extract, therefore be easy to cause described hyoplastron to rupture, reduce the useful life of described electric connector.

In order to solve the problem, existing producer establishes a metal reinforcement strip above described hyoplastron, for increasing the structural strength of described hyoplastron, prevent described hyoplastron from rupturing, but, it in the fabrication process, first metal reinforcement strip described in punch forming on a sheet metal, conducting terminal described in punch forming on another sheet metal, described conducting terminal and described metal reinforcement strip edge being buried takes shape on described hyoplastron again, it is metal reinforcement strip and described conducting terminal described in punch forming respectively, need two molds, and described metal reinforcement strip and the punch forming on different sheet metals of described conducting terminal, be unfavorable for saving material and reducing manufacturing cost.

Therefore, be necessary that a kind of new technical scheme of research is to overcome the problems referred to above.

[utility model content]

For background technology institute problems faced, the purpose of this utility model is to provide a kind of electric connector can saved material and reduce manufacturing cost.

For achieving the above object, the utility model adopts following technological means:

A kind of electric connector, it is characterized in that, comprising: insulating body, the hyoplastron that described insulating body comprises base portion and extends forward from described base portion, described hyoplastron bottom surface is provided with multiple terminal groove; Multiple conducting terminal, described multiple conducting terminal edge buries and takes shape in described insulating body, and described in each, conducting terminal comprises contact site, and described contact site is in described terminal groove; Reinforced sheet, described reinforced sheet and described multiple conducting terminal are by same metallic plate integral molding, and described reinforced sheet edge buries and takes shape in described insulating body and be exposed to described hyoplastron end face.

Further, conducting terminal front end described in each has the first bridge connecting portion, described reinforced sheet front end has the second bridge connecting portion, before described multiple conducting terminal and described reinforced sheet edge bury and take shape in described insulating body, described first bridge connecting portion and described second bridge connecting portion are connected on same bridge.

Further, the corresponding described first bridge connecting portion in described hyoplastron front end is provided with the first perforate, the corresponding described second bridge connecting portion in described hyoplastron front end is provided with the second perforate, and described first bridge connecting portion and described second bridge connecting portion are revealed in described first perforate and described second perforate respectively.

Further, described first bridge connecting portion upwards bends from described contact site front end and extends to form, and described second bridge connecting portion bends downwards from described reinforced sheet front end and extends to form.

Further, described reinforced sheet front end has two the second bridge connecting portions, and the second bridge connecting portion described in each is between adjacent two described first bridge connecting portions.

Further, described first bridge connecting portion and described second bridge connecting portion all do not exceed the front end face of described hyoplastron.

Further, before described multiple conducting terminal and described reinforced sheet edge bury and take shape in described insulating body, described reinforced sheet extends to form with the angle folding of 180 degree backward from the front-end edge of described multiple conducting terminal.

Further, described multiple conducting terminal is connected by a bridge with described reinforced sheet, and described bridge comprises a bending part, and described bending part is provided with multiple breach.

Further, described reinforced sheet end both sides are respectively equipped with a location division, and described location division edge is embedded in described base portion, and the corresponding described location division of described base portion is provided with the location hole running through described base portion up and down.

A kind of electric connector, comprise: an insulating body, inlay the multiple conducting terminal and a reinforced sheet that are embedded on described insulating body, and be sheathed on a shielding casing of described insulating body periphery, the hyoplastron that described insulating body comprises a base portion and extends forward from described base portion, described shielding casing is coated on the surrounding of described hyoplastron and forms a docking chamber, described hyoplastron bottom surface is provided with multiple terminal groove, described multiple conducting terminal lays respectively in described multiple terminal groove, it is characterized in that: described reinforced sheet and described multiple conducting terminal shaping by same metallic plate stamping-out, described reinforced sheet is exposed to described hyoplastron end face.

Compared with prior art, the utility model has following beneficial effect:

The utility model electric connector by reinforced sheet and multiple conducting terminal shaping by same metallic plate stamping-out, only need use one set of die, be conducive to saving material and reducing manufacturing cost simultaneously.

[accompanying drawing explanation]

Fig. 1 is the solid combination schematic diagram of the utility model electric connector;

Fig. 2 is the perspective exploded view of the utility model electric connector;

Fig. 3 is another angle schematic diagram after Fig. 2 incorporating aspects;

Fig. 4 is the shaping schematic view of the utility model electric connector conducting terminal and reinforced sheet;

Fig. 5 is the schematic diagram that the utility model electric connector conducting terminal and reinforced sheet are molded in insulating body;

Fig. 6 is the cutaway view that corresponding first position of opening of Fig. 5 carries out cutting;

Fig. 7 is the cutaway view that corresponding second position of opening of Fig. 5 carries out cutting.

The drawing reference numeral of embodiment illustrates:

Insulating body 1	Base portion 11	Location hole 111	Hyoplastron 12
				Terminal groove 13	First perforate 14	Second perforate 15	Conducting terminal 2
Contact site 21	First bridge connecting portion 22	Weld part 23	Reinforced sheet 3
				Main part 31	Through hole 311	Second bridge connecting portion 32	Location division 33
Shielding casing 5	Welding foot 51	Material strip 10	Bridge 20
				Bending part 201	Breach 202	?	?

[embodiment]

For ease of better understanding the purpose of this utility model, structure, feature and effect etc., existing the utility model is described in further detail with embodiment by reference to the accompanying drawings.

Refer to Fig. 1, Fig. 2 and Fig. 3, the utility model electric connector is a Micro-USB connector, for with butt-jointed electric connector (not shown) grafting, it comprise an insulating body 1, edge bury the multiple conducting terminals 2 and a reinforced sheet 3 that take shape in described insulating body 1 and the shielding casing 5 being sheathed on described insulating body 1 periphery.

Refer to Fig. 2, Fig. 4 and Fig. 5, as seen from Figure 4, described multiple conducting terminal 2 and described reinforced sheet 3 are by same metallic plate integral molding, described reinforced sheet 3 extends to form with the angle folding of 180 degree backward from the front-end edge of described multiple conducting terminal 2, before described multiple conducting terminal 2 and described reinforced sheet 3 edge bury and take shape in described insulating body 1, described conducting terminal 2 one end is connected on a material strip 10, the other end and described reinforced sheet 3 are connected on a bridge 20 jointly, described bridge 20 has a bending part 201, described bending part is provided with multiple breach 202, so that easier, described bridge 20 is bent, described multiple conducting terminal 2 and described reinforced sheet 3 are positioned in a mould (not shown) to carry out insulating body 1 described in cast molding, after shaping described insulating body 1, cutting apparatus (not shown) is used to cut off described material strip 10 and described bridge 20 respectively.The hyoplastron 12 that described insulating body 1 comprises a base portion 11 and extends forward from described base portion 11, described hyoplastron 12 bottom surface is provided with multiple terminal groove 13, described hyoplastron 12 front end is provided with multiple first perforate 14 and two the second perforates 15, and described first perforate 14 and described second perforate 15 are arranged in the two rows be parallel to each other.

Refer to Fig. 2, Fig. 5 and Fig. 6, conducting terminal 2 described in each comprises a contact site 21, one first bridge connecting portion 22 upwards bends from described contact site 21 front end and extends to form, for connecting one end of described bridge 20, one weld part 23 extends back from described contact site 21, described contact site 21 is positioned at described terminal groove 13, described first bridge connecting portion 22 is embedded in described hyoplastron 12 and is revealed in described first perforate 14 of described hyoplastron 12 front end respectively, described first bridge connecting portion 22 is positioned at the rear of described hyoplastron 12 front end face, described weld part 23 extends outside described base portion 11, for being welded on a circuit board (not shown).

Refer to Fig. 2, Fig. 5 and Fig. 7, described reinforced sheet 3 comprises the main part 31 that is exposed to described hyoplastron 12 end face and bends two the second bridge connecting portions 32 extended to form from described main part 31 front end downwards, described second bridge connecting portion 32 is for connecting the other end of described bridge 20, described main part 31 is provided with multiple through hole 311, described multiple through hole 311 respectively with described multiple conducting terminal 2 one_to_one corresponding, described main part 31 end both sides are respectively equipped with a location division 33, described location division 33 is fixed in described base portion 11, corresponding described location division 33 place, described base portion 11 both sides is respectively equipped with the location hole 111 that runs through described base portion 11 upper and lower surface, when described reinforced sheet 3 and described multiple conducting terminal 2 are positioned at and carry out insulating body 1 described in cast molding in described mould (not shown), the die (not shown) of described mould is by reinforced sheet 3 described in described location hole 111 clamping position, by conducting terminal 2 described in described through hole 311 clamping position, described reinforced sheet 3 and described conducting terminal 2 to be positioned at the exact position in described mould (not shown), described main part 31 is exposed to described hyoplastron 12 end face, described second bridge connecting portion 32 is embedded in described hyoplastron 12 and is revealed in described second perforate 15, described second bridge connecting portion 32 is positioned at the rear of described hyoplastron 12 front end face equally.

Refer to Fig. 1 and Fig. 3, described shielding casing 5 is roughly in frame shaped, be coated on described insulating body 1 peripheral, jointly a grafting chamber is formed with described hyoplastron 12, for butt-jointed electric connector (not shown) grafting, described shielding casing 5 is provided with multiple welding foot 51, for by described electric connector welding in circuit board (not shown).

In sum, the utility model electric connector has following beneficial effect:

(1). the multiple conducting terminal of the utility model 2 and reinforced sheet 3 are by same metallic plate integral molding, compared to existing technology middle conducting terminal 2 and reinforced sheet 3 individually shaping, which save one set of die, be conducive to saving material and reducing manufacturing cost simultaneously.

(2). described multiple conducting terminal 2 is connected by same bridge with described reinforced sheet 3, after insulating body 1 described in forming, only can the bridge 20 of described conducting terminal 2 and described reinforced sheet 3 front end need be cut away by once cutting simultaneously, compared to existing technology middle conducting terminal 2 and reinforced sheet 3 individually shaping, bridge must be carried out to described conducting terminal 2 and described reinforced sheet 3 respectively to cut, which save production process, be conducive to enhancing productivity.

(3). the first bridge connecting portion 22 upwards bends from described contact site 21 front end and extends to form and be embedded in described hyoplastron 12, second bridge connecting portion 32 bends downwards from described reinforced sheet 3 main part 31 front end and extends to form and be embedded in described hyoplastron 12, is conducive to preventing described terminal 2 front end from sticking up pin and described reinforced sheet 3 departs from described hyoplastron 12.

More than describe the explanation being only the preferred embodiment of the utility model in detail, non-ly therefore limit to the scope of the claims of the present utility model, so the equivalence techniques change that all this creation of utilization specifications and diagramatic content are done, is all contained in the scope of the claims of the present utility model.

Claims (10)

1. an electric connector, is characterized in that, comprising:

Insulating body, the hyoplastron that described insulating body comprises base portion and extends forward from described base portion, described hyoplastron bottom surface is provided with multiple terminal groove;

Multiple conducting terminal, described multiple conducting terminal edge buries and takes shape in described insulating body, and described in each, conducting terminal comprises contact site, and described contact site is in described terminal groove;

Reinforced sheet, described reinforced sheet and described multiple conducting terminal are by same metallic plate integral molding, and described reinforced sheet edge buries and takes shape in described insulating body and be exposed to described hyoplastron end face.

2. electric connector as claimed in claim 1, it is characterized in that: conducting terminal front end described in each has the first bridge connecting portion, described reinforced sheet front end has the second bridge connecting portion, before described multiple conducting terminal and described reinforced sheet edge bury and take shape in described insulating body, described first bridge connecting portion and described second bridge connecting portion are connected on same bridge.

3. electric connector as claimed in claim 2, it is characterized in that: the corresponding described first bridge connecting portion in described hyoplastron front end is provided with the first perforate, the corresponding described second bridge connecting portion in described hyoplastron front end is provided with the second perforate, and described first bridge connecting portion and described second bridge connecting portion are revealed in described first perforate and described second perforate respectively.

4. electric connector as claimed in claim 3, it is characterized in that: described first bridge connecting portion upwards bends from described contact site front end and extends to form, described second bridge connecting portion bends downwards from described reinforced sheet front end and extends to form.

5. electric connector as claimed in claim 4, it is characterized in that: described reinforced sheet front end has two the second bridge connecting portions, the second bridge connecting portion described in each is between adjacent two described first bridge connecting portions.

6. electric connector as claimed in claim 3, is characterized in that: described first bridge connecting portion and described second bridge connecting portion all do not exceed the front end face of described hyoplastron.

7. electric connector as claimed in claim 1, it is characterized in that: before described multiple conducting terminal and described reinforced sheet edge bury and take shape in described insulating body, described reinforced sheet extends to form with the angle folding of 180 degree backward from the front-end edge of described multiple conducting terminal.

8. electric connector as claimed in claim 7, is characterized in that: described multiple conducting terminal is connected by a bridge with described reinforced sheet, and described bridge comprises a bending part, and described bending part is provided with multiple breach.

9. electric connector as claimed in claim 1, is characterized in that: described reinforced sheet end both sides are respectively equipped with a location division, and described location division edge is embedded in described base portion, and the corresponding described location division of described base portion is provided with the location hole running through described base portion up and down.

10. an electric connector, comprise: an insulating body, inlay the multiple conducting terminal and a reinforced sheet that are embedded on described insulating body, and be sheathed on a shielding casing of described insulating body periphery, the hyoplastron that described insulating body comprises a base portion and extends forward from described base portion, described shielding casing is coated on the surrounding of described hyoplastron and forms a docking chamber, described hyoplastron bottom surface is provided with multiple terminal groove, described multiple conducting terminal lays respectively in described multiple terminal groove, it is characterized in that: described reinforced sheet and described multiple conducting terminal shaping by same metallic plate stamping-out, described reinforced sheet is exposed to described hyoplastron end face.