KR101185502B1 - The terminal for press fit card edge connector and method of manufacturing the same - Google Patents

Abstract

PURPOSE: A press fit card edge connector terminal and a manufacturing method thereof are provided to increase shape precision of an elastic arm. CONSTITUTION: Raw materials of a strap shape are prepared(S1). The thickness of an elastic arm processing area is reduced by phased forge processes two times(S2). A connection protrusion shaping area is blanked and pressed to process the shape of a connection protrusion portion(S3). A bent structure of an elastic arm is formed by bending the elastic arm processing area(S4). [Reference numerals] (S1) Step of preparing raw materials of a strap shape; (S2) Step of blanking and forging an elastic arm processing area; (S3) Step of blanking and pressing a connection protrusion shaping area; (S4) Step of bending the elastic arm processing area

Description

Terminal for press fit card edge connector and manufacturing method thereof {THE TERMINAL FOR PRESS FIT CARD EDGE CONNECTOR AND METHOD OF MANUFACTURING THE SAME}

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a card edge connector, and more particularly, to a press fit card edge connector terminal having a simple manufacturing process and a low manufacturing cost, and a method of manufacturing the same.

Various kinds of connectors for electrical connection are used in electronic devices, and card edge connectors are widely used in recent years.

This card edge connector is configured to receive a coupling edge of a circuit card and a plurality of contact pads adjacent thereto. In general, the card edge connector includes a housing having a long slot for receiving a coupling edge of the circuit card, and a plurality of terminals are spaced at regular intervals on one side or both sides of the slot. Each terminal has an elastic arm having contact portions for electrically coupling the coupling edges of the circuit card, and a connection projection portion electrically connected to the printed circuit board side. The contact portion is electrically connected to the coupling edge of the circuit card by the elastic force of the elastic arm, and the connection protrusion of the terminal is mounted to be electrically connected to the printed circuit board side. In general, a circuit card is referred to as a 'daughter board', and a printed circuit board to which a terminal of a connector is connected is referred to as a 'mother board'.

On the other hand, in the manufacture of the terminal for the card edge connector in the conventional drawing process is required for the bending of the elastic arm, the entire manufacturing process is very complicated, as well as the manufacturing cost is high.

The present invention has been made in view of the above-mentioned, card terminal connector terminal and its manufacturing method which can realize the simplification of the manufacturing process and the reduction of manufacturing cost by processing the elastic arm of the terminal through a step forging process The purpose is to provide.

The present invention for achieving the above object is a method of manufacturing a terminal for a card edge connector for manufacturing a terminal for a card edge connector having an elastic arm and a connection protrusion of the bent structure,

A strap that processes a raw material of strap shape made of metal material with a certain width and length, and is divided into an elastic arm processing area for processing an elastic arm and a connection protrusion processing area for processing a connection protrusion. Raw material preparation step of the shape;

Blanking and forging of the elastic arm processing region to reduce the thickness of the elastic arm processing region step by step through two or more step forging process after the blanking process to process the primary appearance of the elastic arm in the elastic arm processing region step;

A blanking and pressing step of the splicing protrusion processing region for performing a blanking step and a press step to process the outer shape of the splicing protrusion; And

And bending the elastic arm processing region to form a bent structure of the elastic arm by bending the elastic arm processing region.

In the elastic arm processing region of the raw material, a blanking process for processing the blanking portion to form the primary outer shape of the elastic arm is carried out, and after the step of forging the elastic arm processing region step by step, after the final forging process Finishing the outer shape of the elastic arm by final blanking the processing area to correspond to the design contour of the elastic arm.

In the blanking and pressing step of the connection protrusion processing region, the elastic arm is first processed by the blanking and pressing process of the fitting contact portion and the engaging portion of the connection protrusion during the forging process of the elastic arm processing region. After the final forging process of the machining area is characterized in that the appearance of the connection protrusion with the elastic arm through the final blanking process.

After the blanking and forging step of the elastic arm processing area, and the blanking and pressing step of the connection projection processing area is finished, the processing is performed such that a plurality of terminals are connected in a line to the unprocessed area of the raw material.

The bending step of the elastic arm processing region, the bending process of the elastic arm by bending the elastic arm processing region of each terminal at a predetermined angle through a bending mechanism while a plurality of terminals are connected in a line to the raw region of the raw material It is characterized by forming a structure.

According to the present invention as described above, by bending the elastic arm in a state in which the elastic arm processing region of the raw material is subjected to stepwise forging process and the thickness thereof is reduced step by step, the shape accuracy of the elastic arm is improved, and There is an advantage that can be implemented to simplify and reduce the manufacturing cost.

1 is a cross-sectional view showing a card edge connector to which the terminal of the present invention is applied.
2 to 10 are diagrams showing step by step a method of manufacturing a terminal for a card edge connector according to an embodiment of the present invention,
2 is a plan view showing a step of preparing a raw material of the strap shape,
3 is a plan view showing a state in which the blank portion is processed in the elastic arm processing region of the raw material,
4 is a plan view showing a state in which the elastic arm processing region of the raw material is primarily forged,
5 is a cross-sectional view taken along line AA of FIG. 4 showing a state where the elastic arm processing region of the raw material is primarily forged.
6 is a plan view showing a state in which the elastic arm processing region of the raw material is secondary forged,
7 is a cross-sectional view of the elastic arm processing region of the raw material along the line BB of FIG.
8 is a cross-sectional view showing a state in which the elastic arm processing region of the raw material is forged three times;
FIG. 9 is a plan view showing the shape of the elastic arm of the terminal for an edge card connector and the external appearance of the connection protrusion;
FIG. 10 is a view showing a shape of a terminal for an edge card connector according to the present invention along arrow C in FIG. 9; FIG.
11 is a process chart showing a method of manufacturing a terminal for an edge card connector according to an embodiment of the present invention.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings.

1 is a cross-sectional view showing a card edge connector to which the terminal of the present invention is applied.

As shown, the card edge connector 100 has a housing 110 having an elongated slot 111 in which the mating edge 51 of the circuit card 50 is accommodated, and on both sides of the slot 111 of the housing 110. It includes a plurality of terminals 120 arranged at a constant pitch.

Each terminal 120 of the elastic arm 121 and the printed circuit board 60 is bent at a predetermined angle so as to have a contact portion 123 for electrically coupling the coupling edge 51 of the circuit card 50. The connection protrusion part 122 which press-fits into the through-hole 61 side is provided.

A plurality of conductive contact pads 52 are formed on the coupling edge 51, and contact portions 123 of each terminal 120 are hermetically contacted by the elastic force of the elastic arm 121 to each conductive contact pad 52. Accordingly, the contact portion 123 of each terminal 120 is electrically connected to the conductive contact pad 52 side of the coupling edge 51.

The connection protrusion 122 has a pair of fitting contact portions 122a protruding symmetrically in the lateral direction thereof, so that the connection protrusion 122 is pressurized to a through hole (not shown) of the printed circuit board (not shown). When fitted, the fitting contact portion 122a of the connection protrusion 122 is connected to the inner diameter surface of the through hole of the printed circuit board.

Further, at least one locking portion 124 protrudes between the elastic arm 121 and the connection protrusion 122, and the locking portion 124 is formed at the locking groove 112 formed in the slot 111 of the housing 110. Is engaged in the

2 to 11 illustrate a method for manufacturing a terminal for a card edge connector according to an embodiment of the present invention.

As shown in FIG. 11, the method for manufacturing a terminal for a card edge connector according to the present invention includes a step of preparing a raw material of a strap shape (S1), a blanking and forging step (S2) of an elastic arm processing area, and a connection protrusion processing area. Blanking and pressing step (S3), the bending step (S4) of the elastic arm processing area.

In the strap-shaped raw material preparation step (S1), as shown in FIG. 3, the strap-shaped raw material 20 made of a metal material is processed to have a predetermined width and a predetermined length, and the elastic arm is formed on the strap-shaped raw material 20. An elastic arm processing region 21 for processing 121 and a connection projection processing region 22 for processing the connection protrusion 122 are displayed.

In the blanking and forging step S2 of the elastic arm processing region, blanking is performed to process an approximate (primary) contour of the elastic arm 121 in the elastic arm processing region 21 of the raw material 20, and then process the elastic arm. The area 21 is forged in stages.

Specifically, as illustrated in FIGS. 3 to 3, after the blanking process of processing the primary outer shape of the elastic arm 121 in the elastic arm processing region 21, through two or more stepwise forging processes. The thickness t1, t2, t3 of the elastic arm processing region 21 is reduced in steps.

First, as shown in FIG. 3, the blanking portion 23a is processed by the blanking process in the elastic arm processing region 21 of the raw material 20 to form a primary external shape of the elastic arm 121, and then the raw material 20 Primary arm forging the elastic arm processing area (21). Here, FIG. 3A in FIG. 3 refers to the primary edge 23a of the blanking portion 23.

Through such primary forging, the elastic arm processing region 21 is processed to a primary forging thickness t1 that is thinner than the original thickness t of the raw material 20 as shown in FIG. 5. By the forging process, a part 21a of the elastic arm processing region 21 is extended to the blanking part 23 side, and as shown in FIG. 4, the secondary edge 23b of the blanking part 23 is before the first forging process. It enters inward from the primary edge 23a, and the width of the blanking part 23 becomes narrow.

Subsequently, when the elastic arm processing region 21 is secondary forged, it is processed to a secondary forging thickness t2 that is thinner than the primary forging thickness t1 as shown in FIG. In addition, the elastic arm processing region 21 extends to the blanking part 23 by the secondary forging process, and as shown in FIG. 6, the third edge 23c of the blanking part 23 is the secondary edge before the second forging process. It enters inward rather than 23b, and the width | variety of the blanking part 23 becomes narrower. After the secondary forging process, the slot 24 may be molded into a portion corresponding to the elastic arm 121 through a blanking process, and the elastic arm 121 may be more easily bent through the slot 24. In addition, the elastic force of the elastic arm 121 can be adjusted appropriately.

Then, as the elastic arm processing region 21 is forged third, the elastic arm processing region 21 is processed to a third forging thickness t3 that is thinner than the second forging thickness t2 as shown in FIG. 8. After the third forging process, as shown in FIG. 9, the final shape of the elastic arm 121 is finished by blanking the elastic arm processing region 21 to correspond to the design contour of the elastic arm 121.

As described above, the forging is performed three times in the forging step S2 of the elastic arm processing region according to the present invention with reference to FIGS. 3 to 9, but the present invention precisely processes the elastic arm 121. And it is not limited to only the number of times the forging process to proceed more than two times to realize the reduction of manufacturing costs.

The blanking and pressing step (S3) of the process area of the connection protrusion may be performed simultaneously with the blanking and forging process (S2) of the elastic arm processing area, or may be performed separately after the blanking and forging process (S2) of the elastic arm processing area. It may be.

In the blanking and pressing step (S3) of the connection protrusion processing region, the connection protrusion is processed after the blanking process and the pressing process are performed on the connection protrusion processing region 22 of the raw material 20 to process the outer shapes of the plurality of connection protrusions 122. By processing the fitting contact portion 122a, the locking portion 124, etc. of the 122, it is made to finish the external molding of the connection protrusion 122.

For example, as shown in FIG. 6, the blanking part 25 is formed through the blanking process during the forging process of the elastic arm processing region to process the external shape of the connection protrusion 122, and the fitting contact portion of the connection protrusion 122 is pressed through a pressing process. 122a) and forming the primary outer shape of the elastic arm 121 by processing the engaging portion 124, and after the third forging of the elastic arm processing region as shown in Figure 9 the elastic arm 121 through the final blanking process The final shape of the connection protrusion 122 can be finished together.

After the blanking and forging step S2 of the elastic arm processing area and the blanking and pressing step S3 of the connection protrusion processing area are completed, as shown in FIG. 9, the plurality of terminals 120 are processed in the unprocessed area of the raw material 20 ( It is preferable to shape | mold so that it may be connected in line with 20a). Thus, when the bending step S4 of the elastic arm processing region is performed in a state in which the plurality of terminals 120 are connected in line with the raw region 20a of the raw material 20, the elastic arms 121 for the plurality of terminals 120 are provided. ) Bending can proceed at the same time, the processing can be carried out very easily and precisely.

In the bending step S4 of the elastic arm processing region, the elastic arm processing region 21 of each terminal 120 is predetermined through a bending mechanism while the plurality of terminals 120 are connected in a row in the raw material 20 side. By bending at an angle, the bent shape of the elastic arm 121 and the contact portion 123 are formed, and then separated from the unprocessed area 20a of the raw material 20 to form the shape of the terminal 120 as shown in FIG. Complete Then, the completed plurality of terminals 120 are assembled to the slot 111 side of the housing 110.

According to the present invention as described above, the elastic arm 121 is bent in the state in which the elastic arm processing region 21 of the raw material 20 is gradually reduced in thickness (t <t1 <t3) through a stepwise forging process. Thereby, while improving the shape accuracy of the elastic arm 121, there is an advantage that can simplify the manufacturing process and reduce the manufacturing cost.

20: Raw material of strap shape 21: Elastic arm processing area
22: connection protrusion machining area 23, 25: blanking part
24: slot 110: housing
111: slot 121: elastic arm
122: connection protrusion 123: contact portion

Claims (6)

In the manufacturing method of the terminal for the press-fit card edge connector to manufacture the terminal for the card edge connector having a bent structure elastic arm and the connection protrusion,
A strap that processes a raw material of strap shape made of metal material with a certain width and length, and is divided into an elastic arm processing area for processing an elastic arm and a connection protrusion processing area for processing a connection protrusion. Raw material preparation step of the shape;
Blanking and forging of the elastic arm processing region to reduce the thickness of the elastic arm processing region step by step through two or more step forging process after the blanking process to process the primary appearance of the elastic arm in the elastic arm processing region step;
A blanking and pressing step of the splicing protrusion processing region for performing a blanking step and a press step to process the outer shape of the splicing protrusion; And
And bending the elastic arm processing region to form the bent structure of the elastic arm by bending the elastic arm processing region. The method of claim 1,
In the elastic arm processing region of the raw material, a blanking process for processing the blanking portion to form the primary outer shape of the elastic arm is carried out, and after the step of forging the elastic arm processing region step by step, after the final forging process A method of manufacturing a terminal for a press fit card edge connector, characterized by finishing the outer shape of the elastic arm by final blanking the processing area to correspond to the design contour of the elastic arm. The method of claim 1,
The blanking and pressing step of the connection projection processing area,
During the forging process of the elastic arm processing region, the blanking and pressing process of the fitting contact portion and the engaging portion of the connection protrusion is primarily performed to form the external appearance of the connection protrusion, and then the final blanking process of the elastic arm processing region is performed. The method of manufacturing a terminal for a press fit card edge connector, characterized in that to finish the external shape of the connection protrusion with the elastic arm through. The method of claim 1,
After the blanking and forging step of the elastic arm processing area, and the blanking and pressing step of the connection projection processing area is finished, the press fit card, characterized in that the processing is performed so that a plurality of terminals are connected in line with the raw area of the raw material. Method for manufacturing terminal for edge connector. The method of claim 1,
The bending step of the elastic arm processing region, the bending process of the elastic arm by bending the elastic arm processing region of each terminal at a predetermined angle through a bending mechanism in a state in which a plurality of terminals are connected in line with the raw region of the raw material A method of manufacturing a terminal for a press fit card edge connector, characterized in that for molding the structure. A terminal for a press fit card edge connector, which is formed by any one of claims 1 to 5.

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