KR200312365Y1 - Structure of terminal for electric-connector - Google Patents

Abstract

The present invention forms a terminal body in which a plurality of terminals are integrally manufactured in a stamp form with a double carrier structure in the front and rear directions, and the deflection preventing projection piece is integrally formed in the end side carrier to compensate for the height deviation between the bent end and the lead. The present invention is to provide a dual carrier structure of the terminal body for an electronic connector, which prevents the terminal from being deformed, thereby improving flatness and product reliability.

The dual carrier structure of the electronic connector terminal body of the present invention for achieving the above object is formed on one side of the lead and the lead for connecting to an external circuit and U-shaped portion for coupling to the slot of the electronic connector body from therefrom A terminal body in which a plurality of terminals formed of a contact portion protrudingly formed and a bent end portion for closing the U-shaped portion is integrally press-molded into a stamp shape, each lead formed of a plate having a predetermined width and arranged at equal intervals; An end side carrier integrally connected and molded integrally with the bent ends of each of the terminals formed in a plate shape having a predetermined width and arranged at equal intervals is integrally formed.

In addition, a pair of opposing sag prevention protrusion pieces for forming punching on the end-side carrier to maintain the bent end of the terminal and the height deviation of the lead at the bottom thereof is formed at equal intervals, and the pair of opposing sag The end of the prevention projection piece is characterized in that the arc-shaped bending formed inward.

In addition, the end-side carrier is characterized in that the incision is formed at a predetermined interval by a predetermined number of terminals in a group.

Description

Dual carrier structure of terminal for electronic connector {STRUCTURE OF TERMINAL FOR ELECTRIC-CONNECTOR}

The present invention relates to a double carrier structure of a terminal body for an electronic connector, and in particular, a terminal body in which a plurality of terminals are integrally manufactured in a stamp form is formed in a double carrier structure in the front-rear direction, and the end side carrier has a bent end and a lead. It is to provide a terminal body for the electronic connector with improved flatness and reliability of the product by preventing the deformation of the terminal by integrally forming the deflection preventing projection piece to compensate for the height deviation of the.

In general, it is well known that an electronic connector is used to connect electrical signals of a circuit which is very complicated on a printed circuit board as a whole, or to distribute electrical signals therefrom.

In addition, the main configuration of the electronic connector as described above is roughly divided into a socket coupled to the main circuit board and a plug coupled thereto, a plurality of terminals are coupled to the socket and the plug.

On the other hand, since the electronic connector is mainly used in small electronics, the size of the terminal is very small, and in order to connect a complex circuit, a large number of terminals are formed to be coupled, and in particular, the production and handling of the terminal are considered very important.

Thus, in the form of the respective terminals produced in the prior art, a lead for connecting to an external circuit and a vertical U-shaped portion formed on one side of the lead for coupling to the slot of the electronic connector body and a contact portion protruding therefrom; It is made of a bent end for closing the U-shape, the lead and the bent end has a height deviation with the bent end somewhat higher depending on the coupling structure of the electronic connector body.

In addition, since each terminal formed in such a shape is formed in a very small size, the handling thereof is very difficult when produced individually, and is usually provided as a terminal body integrally manufactured in a stamp form. In the form, the leads of the respective terminals were integrally formed at equal intervals by a plate-shaped carrier having a predetermined width.

However, according to the conventional terminal body, since each terminal formed on one side of the plate carrier is fixed only by the lead, the U-shaped portion or the bent end portion of the terminal interferes with other objects during handling or storage, and thus the spacing, position or shape is deformed. The problem arises.

That is, according to the terminal body structure in which the carrier is formed only on one side as described above, the spacing between the terminals is easily deformed or positioned in the vertical direction even for small external interference during the handling, such as forming, plating, cutting or joining of the terminal body. There was a problem that fluctuations easily occur.

In addition, such a problem is not limited thereto, and when the terminal of the modified terminal body is coupled to each slot of the electronic connector, problems such as a poor contact of the electronic connector and a decrease in contact force are caused. The problem of degradation was brought about.

In addition, when deformation or defect occurs between each terminal of such a terminal body, it is very difficult to identify and very difficult to restore or correct it.

Therefore, the present invention has been proposed to solve the above problems, the main purpose of the stamp-shaped terminal body integrally press-formed by the carrier, the plating process of the terminal body or when coupled to the electronic connector body The present invention is to provide a double carrier structure of a terminal body for an electronic connector in which carriers are integrally press-molded on the lead side and the end side of the terminal, respectively, in order to prevent the occurrence of deformation and defects of the terminal and to maintain a gap between the terminals.

Another object of the present invention is to compensate for the height deviation of the carrier formed on the lead side and the carrier formed on the end side in the double carrier structure of the terminal body of each terminal to be generated during storage and handling or processing of the terminal body An object of the present invention is to provide a double carrier structure of a terminal body for an electronic connector in which a deflection preventing projection piece punched at equal intervals in place of one carrier is integrally formed to prevent deformation.

In still another object of the present invention, in forming the deflection preventing projection piece, the double carrier of the terminal member for an electronic connector in which the end of the deflection prevention projection piece is arcuately curved inward to prevent the hooking and interference with other objects. To provide a structure.

In still another object of the present invention, in forming the terminal member, a double carrier structure of a terminal member for an electronic connector in which a cutout is formed by a predetermined number of terminals in one carrier on one side of the carrier is formed to facilitate bending during press molding. Is to provide.

1 is a perspective view showing a terminal body for an electronic connector of the present invention.

Figure 2 is a longitudinal sectional view showing a terminal body for an electronic connector of the present invention.

Figure 3 is a cross-sectional view showing a terminal body for an electronic connector of the present invention.

Figure 4 is an exploded view illustrating the terminal body for an electronic connector of the present invention.

5 is a cross-sectional view of the coupling of the present electronic connector.

<Brief description of symbols for the main parts of the drawings>

1: terminal body 10: terminal

12: lead 14: bend end

20: lead side carrier 30: end side carrier

32: deflection prevention projections 34: incision

The dual carrier structure of the terminal body for an electronic connector of the present invention for achieving the above object,

A plurality of terminals comprising a lead for connecting to an external circuit, a U-shaped portion formed at one side of the lead and coupled to a slot of the electronic connector body, a contact portion protruding therefrom, and a bent end for closing the U-shaped portion In the terminal body integrally press-molded in a stamp shape,

A lead-side carrier formed integrally with the leads of each of the terminals formed in a plate shape having a predetermined width and arranged at equal intervals;

An end side carrier formed integrally with the bent ends of each of the terminals formed in a plate shape having a predetermined width and arranged at equal intervals is formed integrally.

In addition, a pair of opposing sag preventing protrusion pieces for punching on the end side carrier and maintaining the bent end of the terminal and the height deviation of the lead on its bottom surface is formed at equal intervals.

At this time, the ends of the pair of opposing sag preventing projection pieces are formed arc-shaped bent inward.

In addition, the end-side carrier is formed by cutting a predetermined number of intervals in a group of a predetermined number of terminals.

Looking at the present invention in detail by the accompanying drawings as follows.

1 is a perspective view showing a terminal body for an electronic connector of the present invention.

Figure 2 is a longitudinal sectional view showing a terminal body for an electronic connector of the present invention.

Figure 3 is a cross-sectional view showing a terminal body for an electronic connector of the present invention.

Figure 4 is an exploded view illustrating the terminal body for an electronic connector of the present invention.

5 is a cross-sectional view of the coupling of the present electronic connector.

The terminal body 1 for an electronic connector according to the present invention is integrally connected to a plurality of terminals 10 and the lead 12 of the terminal 10, which are formed in the shape of equal intervals as shown in FIGS. 1 to 4. And an end side carrier 30 integrally connected and molded to the bent end 14 of the terminal 10.

Accordingly, the terminal 10 is formed on one side of the lead 12 and the lead 12 for connecting to an external circuit, and a vertical U-shaped portion for coupling to a slot of the main body of the electronic connector 100 and protruding therefrom. It is made of a bent end 14 for closing the contact portion and the U-shaped portion, wherein the lead 12 and the bent end 14 has a somewhat higher bent end 14 according to the coupling structure of the main body of the electronic connector 100. It has a height deviation in the state.

Therefore, the terminals 10 of the shape are arranged in one direction while maintaining a constant interval, and the predetermined interval is equal to each slot interval of the electronic connector 100. That is, it is a structure for coupling the terminal body 1 having a plurality of terminals 10 arranged at equal intervals to a plurality of slots formed in the electronic connector 100 by one process.

The lead side carrier 20 is integrally formed with the lead 12 of the terminal 10 and is formed in a plate shape having a predetermined width.

The end side carrier 30 is integrally connected to the bent end 14 of the terminal 10 and is formed in a plate shape with a predetermined width.

Therefore, a plurality of terminals 10 are integrally press-molded in a state in which a plurality of terminals 10 are maintained at a predetermined interval by a double carrier structure composed of the lead side carrier 20 and the end side carrier 30.

At this time, a height deviation d occurs in the lead side carrier 20 and the end side carrier 30 according to the height deviation between the lead 12 and the bent end 14 of the terminal 10. A deflection preventing projection piece 32 for maintaining the height deviation d of the end side carrier 30 is formed.

As described above, the deflection preventing projection piece 32 is formed to be punched on the end side carrier 30 at equal intervals so as to protrude by the height deviation (d) to the bottom thereof, such a deflection preventing projection piece ( 32 is formed in opposing pairs, in particular its ends being bent inward arcing.

In addition, the end side carrier 30 is formed with a cutout portion 34 cut at every predetermined interval by using a predetermined number of terminals 10 as a pair. That is, the predetermined number of terminals 10 is set to any one of about 5 to 20, and the cutouts 34 cut along the bent ends of the terminals 10 are formed at intervals of the predetermined number of terminals 10.

According to the terminal body dual carrier structure of the present invention having such a configuration by fixing both the lead 12 side and the bent end 14 side of the terminal 10, to prevent the deformation of each terminal 10, The deflection preventing protrusion piece 32 compensates for the height deviation d generated in the lead 12 and the bent end 14, thereby preventing the occurrence of a defect by the height horseshoe d.

According to the dual carrier structure of the electronic connector terminal body of the present invention as described above, the carrier is integrally press-molded on the lead side and the end side of the terminal, so that each terminal is handled when the terminal body is plated or coupled to the electronic connector body. There is an effect of preventing the occurrence of defects by preventing the occurrence of deformation and defects and maintaining the interval between each terminal.

In addition, the bending end portion of the terminal is bent or deformed by compensating for the height deviation of the carrier formed on the lead side and the carrier formed on the lead side by integrally molding the sag-preventing projection pieces punched at equal intervals in place of the end side carrier. There is an effect that prevents.

In addition, since the end of the deflection preventing projection piece is arc-shaped bent inwardly, there is an effect of preventing the jamming and interference with other objects and tangling with the mutual terminal body.

In addition, since the cutouts are formed by a predetermined number of terminals in one pair of carriers on one side, the effect of easy bending during press molding is exerted.

Furthermore, according to the dual carrier structure of the terminal body for an electronic connector of the present invention, it prevents deformation of a plurality of terminals formed in the terminal body, thereby minimizing the failure rate and improving the reliability of the product. The electronic connector and the electronic device coupled to each other are used to prevent the occurrence of defects and improve the reliability of the product.

Claims (4)

A plurality of terminals comprising a lead for connecting to an external circuit, a U-shaped portion formed at one side of the lead and coupled to a slot of the electronic connector body, a contact portion protruding therefrom, and a bent end for closing the U-shaped portion In the terminal body integrally press-molded in a stamp shape, A lead-side carrier formed integrally with a lead of each of the terminals formed in a plate shape having a predetermined width and arranged at equal intervals; And An end carrier formed integrally with the bent ends of each of the terminals formed in a plate shape having a predetermined width and arranged at equal intervals is integrally formed. The electronic device as claimed in claim 1, wherein a pair of deflection preventing projection pieces are formed at equal intervals to be punched on the end-side carrier so as to maintain a height deviation between the bent end of the terminal and the lead at its bottom surface. Dual carrier structure of terminal body for connector. 3. The double carrier structure of a terminal body for an electronic connector according to claim 2, wherein the opposite ends of the pair of anti-sag protrusions are formed in an arc shape inwardly. The double carrier structure of a terminal body for an electronic connector according to claim 1, wherein said end-side carrier has cutouts formed at predetermined intervals by using a predetermined number of terminals in a group.