KR20180048017A - Electrical terminal - Google Patents

Abstract

The present invention relates to a terminal for electrical connection, capable of improving durability by preventing an elastic press-fitting part constituting the terminal from being bent more than necessary as in the prior art, and reinforcing tension. The present invention relates to a terminal for electrical connection mounted on a printed circuit board constituting an electronic component, which comprises a connection part and a stopper part, wherein an elastic press-fitting part fixed to an inner surface of a through-hole of the printed circuit board, is integrally provided on the opposite side of a front end of the connection part. The elastic press-fitting part includes a pair of bridges formed in an elliptical shape, and reinforcing pieces facing each other toward the central portion in a deformation space formed between the bridges. Therefore, the present invention can suppress the occurrence of bending more than necessary in the process of inserting the terminal into the through-hole of the printed circuit board, due to a protrusion formed in the deformation space of the elastic press-fitting part, and can improve the durability by reinforcing the tension of the elastic press-fitting part.

Description

[0001] ELECTRICAL TERMINAL [0002]

The present invention relates to an electrical connection terminal, and more particularly, to an electrical connection terminal, which is capable of enhancing durability by reinforcing the tension, as well as preventing the elastic press- Terminal.

Terminals used in various electrical products are made of conductive metal material and have the function of enabling electrical binding.

Such a terminal is usually fixed by a lance or a spacer inside a housing constituting a connector, a rear holder, or soldered and fixed in a state where a part is assembled with a through hole of a printed circuit board.

Recently, a method using a press fit pin or a compliant pin has been proposed as an alternative to soldering bonding technology using lead materials for environmental protection as well as process simplification, There is an increasing interest in techniques that can bond terminals to a substrate without soldering. Examples of such terminals are shown in FIGS. 1 and 2.

In the case of FIG. 1, a conventional terminal is shown in a perspective view, and FIG. 2 is a cross-sectional view of a state where the elastic press-in portion of the terminal is inserted into the through hole of the printed circuit board.

As shown in these drawings, the terminal 1 is made of a conductive metal material, and a connecting portion 2 is formed at a long end thereof. The connecting portion 2 is a portion electrically connected to a terminal (not shown) provided in the connector. The connecting portion 2 is formed in a substantially square pillar shape and is designed to have an appropriate length depending on the application in which the terminal 1 is normally used.

A stopper part 5 is formed at one end of the connection part 2. The stopper portion 5 regulates the extent to which the terminal 1 is inserted into the through hole t of the printed circuit board p. The stopper part 5 protrudes from the one end of the connecting part 2 more than the width of the connecting part 2 and is in close contact with the surface of the printed circuit board p to regulate the degree of insertion of the terminal 1.

The elastic press-in portion 7 is formed in the stopper portion 5 and is provided in the opposite direction in which the connecting portion 2 extends. The elastic press-in portion 7 is a portion press-fitted in the through-hole t of the printed circuit board p in a state of being elastically deformed, so that the two bridges 8 are configured to face each other.

The bridges 8 are formed in an arch shape and vertices protrude in directions opposite to each other. Both end portions of the bridge 8 are connected to each other and portions corresponding to the vertex portions are spaced apart from each other, so that a space between them forms the deformation space 9. [

This deformation space 9 provides a space in which the bridge 8 can be resiliently deformed when it is inserted into the through hole t through the tip end 8 'of the bridge 8. The tip end of the elastic press-in portion 7 extends in a direction opposite to the tip end of the connecting portion 2, and the cross-sectional area becomes narrower toward the tip.

In the conventional terminal 1 having such a configuration, the elastic press-fitting portion 7 is inserted and fixed in a state of being elastically deformed in the through hole t of the printed circuit board p as shown in Fig. That is, each of the vertices of the bridge 8 of the elastic press-fitting portion 7 is elastically deformed to be in contact with the inner surface of the through hole t, and fixed.

However, in the terminal according to the related art as described above, the following problems arise.

The bridge 8 constituting the terminal 1 is installed in close contact with the inner surface of the through hole t and the deformation space 9 formed between the bridges 8 is formed so as to completely pass through the bridges 8 The elastic restoring forces of the bridges 8 should be made to be equal to and greater than the elastic restoring forces of the bridges 8 as a whole.

Accordingly, the inner surface of the through hole t may be damaged in the process of pushing the bridge 8 through the through hole t.

The terminal 1 is brought into close contact so that the two bridges 8 constituting the elastic press-fitting portion 7 are opposed to each other in the through hole t of the printed circuit board p. Therefore, although the bridges 8 provide an adhesive force in the direction of the arrow A in FIG. 2, no adhesive force is provided in the direction orthogonal to the arrow A, so that when an external force acts in this direction, This can not be done properly.

Moreover, the conventional terminal 1 has a structure in which the contact area and the contact position between the elastic press-fitting portion 7 and the inner surface of the through hole t are relatively small, (1) can easily fall out.

Title of invention: Terminal. Open Patent No. 10-2012-0124760 (Nov. 14, 2012) Title of invention: Insertion-type terminal and connector using the same. Open No. 10-2015-0016842 (published Feb. 13, 2015) Title of invention: Fork terminal. Name of Design: Terminal. Public utility model 20-2012-0000756 (2012.02.02 disclosure) Name of design: Terminal.

SUMMARY OF THE INVENTION The present invention has been made in view of the above problems, and it is an object of the present invention to provide an elastic press-in portion which can prevent the elastic press-in portion constituting the terminal from being bent more than necessary, So that the durability of the terminal can be further improved.

According to another aspect of the present invention, there is provided an electrical connection terminal mounted on a printed circuit board constituting an electrical component, the connection terminal having a connecting portion and a stopper portion, Wherein the elastic press-fitting part includes a pair of bridges formed in an elliptical shape, and a reinforcing piece facing each other toward the center in the deformation space formed between the bridges.

Here, the reinforcing piece may be formed by combining hemispherical projections and flat portions so as to face toward the central portion in the deformation space formed inside the both bridges, and combining flat surfaces and inclined surfaces, or combining a ladder-like projection and a flat portion have.

Further, it is possible to form a ladder-like projection from the arcuate circular arc surface so as to face each other.

According to the present invention, it is possible to suppress the occurrence of warping more than necessary in the process of inserting the terminal into the through-hole of the printed circuit board due to the protrusion formed in the communication space of the elastic press-fitting portion, The durability can be further improved by reinforcing the tension.

1 is a perspective view showing a configuration of a terminal according to the related art,
Fig. 2 is a sectional view of the terminal shown in Fig. 1,
Figure 3 is a perspective view illustrating an embodiment of an improved terminal,
4 is a plan view showing the configuration of the elastic press-
5 is a perspective view showing a longitudinal section of the elastic press-in portion,
6 is a cross-sectional view of a state where a terminal is disposed in a through hole on a substrate,
Fig. 7 is a configuration diagram showing a main part of an improved terminal,
8 is a view showing an assembled state of Fig. 7,
9A to 9C are enlarged sectional views of the elastic press-fitting portion,
10 is a view showing a modified example of the elastic press-fitting portion.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings, but the specific structures and functions of the present invention are not limited to the embodiments described in the present specification.

As shown in FIGS. 3 to 6, the terminal 10 is made of a conductive metal material and can be manufactured by sequentially processing a band-shaped metal strap through a progressive die.

The terminal 10 is provided with a connecting portion 11 which is elongated in one direction. The connecting portion 11 is formed in a column shape having a narrow width, a long length and a rectangular cross-section.

A stopper portion 13 is provided on the opposite side of the tip of the connection portion 11 to regulate the extent to which the terminal 10 is inserted into the through hole t of the printed circuit board p. The stopper part 13 is configured to protrude in opposite directions from both sides of the connection part 11 and may be formed around the entire outer surface of the connection part 11 or intermittently.

The elastic press-fitting portion 15 formed to extend from the stopper portion 13 to the opposite side of the connecting portion 11 is a portion press-fitted into the through hole t of the printed circuit board p. Therefore, the corresponding width of the elastic pressing portion 15 is formed to be slightly larger than the width of the through hole t.

The elastic press-fitting portion 15 is formed of two bridges 16 and 16 'and extends in parallel with each other, and both ends are connected to each other. The intermediate portions of the bridges 16 and 16 'extend in parallel to each other to form the deformation space 18.

This deformation space 18 is constituted by a portion blocked by a straining plate 20 connecting between a portion formed between the bridges 16 and 16 'and both ends of the bridges 16 and 16'. The portions formed through the bridges 16 and 16 'that are not clogged with the strainer 20 are elliptical so that stress is concentrated between the strainer 20 and the strainer 20 and the bridges 16 and 16' .

As shown in FIGS. 3 and 5, the deformable plate 20 has a curved surface on both sides connected to the bridges 16 and 16 ', and the bridges 16 and 16' So that the force generated when it is inserted into the through hole (t) of the strainer (20) can be uniformly dispersed and transmitted to the strainer (20).

The bridges 16 and 16 'are generally formed in an arch shape having a flat middle portion and are divided into three sections according to the position of the deformation space 18. [ The tip end of the elastic deformation portion 15 is connected to the first hanging section 22 at the outlet side of the through hole t of the printed circuit board P It is a part that comes in close contact with the inner surface. The second hanging section 23 is a portion which is brought into close contact with the inner surface of the opening of the through hole t of the printed circuit board P toward the stopper portion 13.

The first hanging section 22 and the second hanging section 23 have bridges 16 and 16 'connected to the straining plate 20 and the straining plate 20 is connected to the bridges 16 and 16 '), Elastic deformation can occur. In particular, the straining plate 20 connected to the bridges 16 and 16 'is formed as a curved surface so that the force applied to the bridges 16 and 16' is dispersed in the straining plate 20 to cause elastic deformation.

Therefore, as shown in Fig. 6, the terminal 10 does not require additional soldering, and the resilient indentation 15 is kept deformed in the through hole t.

Since the first hook section 22 and the second hook section 23 are relatively difficult to elastically deform relative to the elastic sections 21 of the bridges 16 and 16 ' The elastic pressing portion 15 of the terminal 10 is pressed into the through hole t of the printed circuit board P as the pressing portion 23 is pressed into the through hole t with a greater force than the elastic portion 21, As shown in FIG.

When the elastic press-in portion 15 is inserted into the through-hole t, the elastic portion 21 is relatively easily inserted into the through-hole t as the first hook portion 22 and the elastic portion 21 sequentially enter the through- The insertion force does not increase in proportion to the degree of insertion of the elastic pressing portion 15 into the through hole t.

The first hook section 22 and the second hook section 23 are located at the outlet and the inlet of the through hole t respectively The elastic section 21 is positioned in the middle of the through hole t.

When the elastic press-fitting portion 15 is inserted, the first hook portion 22 is inserted into the inner surface of the opening of the through-hole t, and the elastic portion 21 has a relatively small adhesion force And the second hook section 23 is inserted again to apply the adhesion force.

However, in the case of the terminal 10 as described above, there are various items to be supplemented in the process of manufacturing the actual product. In other words, since a separate straining plate 20 other than the deformation space 18 must be formed in the bridges 16 and 16 'constituting the elastic press-fitting unit 15, the manufacturing process by the mold structure is difficult, And the durability may be deteriorated because the elastic part is weak.

7 to 10 are views showing a modified example of the electrical connection terminal. In the same manner as described above, the terminal 10 is made of a conductive metal material and has a connection portion 11 formed to be long toward the front end, (Not shown) provided in the connector by the connector 11.

The connecting portion 11 has a substantially rectangular column shape and is designed to have an appropriate length depending on the application in which the terminal 10 is normally used.

A stopper portion 13 is formed at one end of the connection portion 11. The stopper portion 13 protrudes from one end of the connection portion 11 more than the width of the connection portion 11, (p) so as to regulate the degree of insertion of the terminal (10).

The elastic press-in portion 15 is formed in the stopper portion 13 in a direction opposite to the direction in which the connection portion 11 extends. This elastic press-in portion 15 is a portion press-fitted in the through hole t of the printed circuit board p in a state of being elastically deformed, so that the two bridges 16 and 16 'are opposed to each other.

The bridges 16 and 16 'are formed in an arch shape and vertically protrude in mutually opposite directions, and both ends of the bridges 16 and 16' are connected to each other, So that the space between them forms the deformation space 18.

The deformation space 18 is formed in a bridge shape when the deformation space 18 is inserted into the through hole t through the tip of the bridge 16 or 16 ' 16 and 16 'are elastically deformable. The tip end of the elastic press-in portion 15 extends in a direction opposite to the tip end of the connection portion 11, and the cross-sectional area becomes narrower toward the tip end.

Inside the deformation space 18, reinforcing pieces 19 facing from the inner wall of both bridges 16 and 16 'toward the central portion are provided. The reinforcing pieces 19 are elastically deformed when the bridges 16 and 16 'are inserted into the through holes t of the printed circuit board p to reinforce the tension force or improve the durability.

9A to 9C, in the case of the reinforcing pieces 19, the hemispherical projections (not shown) are formed in the deformation space 18 formed inside the both bridges 16 and 16 ' 24 and the flat surface portion 24a or a combination of the flat surface 25 and the inclined surface 25a or a combination of the ladder-like projection 26 and the flat surface portion 26a.

10, ladder-like projections 27 are formed in the deformation space 18 formed inside the both bridges 16 and 16 'from the arcuate arc surface 27' so as to face toward the center, It can also be configured to face each other.

When the elastic pressing portion 15 is assembled into the through hole t of the printed circuit board p as shown in Figs. 7 and 8, the terminal 10 having the above-described shape is inserted into the elastic pressing portion 15 So that an elastic force acts on the bridge () constituting it.

That is, the inner surface of the through hole t has an adhesive force enough to fix the elastic press-fitting portion 15, and a relatively large adhesive force acts on the bridges 16 and 16 ' They can be securely fixed as they are elastically deformed at the mutually facing positions on the inner surface.

For example, when the through hole (t) size of the printed circuit board p is 1.4 mm and the width of the elastic press-fitting portion 15 of the terminal 10 is 1.7 mm, The through hole can pass through the through hole t of 1.4 mm in size because it can be deformed in width by 0.3 mm.

As a result, it is possible to restrain a portion where warpage more than necessary can be suppressed, and the tension of the elastic press-fitting portion 15 can be reinforced, so that the durability can be greatly improved.

Although the present invention has been fully described in connection with the preferred embodiments thereof with reference to the accompanying drawings, it is to be understood that the present invention is not limited thereto. It is to be understood that the invention is not limited to the disclosed embodiments, but, on the contrary, is intended to cover various modifications and equivalent arrangements included within the spirit and scope of the appended claims.

1: Terminal 2: Connection
5: stopper portion 7: elastic pressing portion
8: Bridge 8 ': Tip
9: Variation space 10: Terminal
11: connecting portion 13: stopper portion
15: Elastic press-in portion 16, 16 ': Bridge
18: deformation space 19: reinforcing piece
20: strain plate 21: elastic section
22: first hanging section 23: second hanging section
24: hemispherical projection 24a: plane portion
25: flat surface 25a: inclined surface
26: ladder-like projection 26a:
27: projection 27a: arched circular arc surface

Claims (5)

An electrical connection terminal mounted on a printed circuit board constituting an electrical component,
An elastic press-fitting portion 15 which has a connecting portion 11 and a stopper portion 13 and is fixed to the inner surface of the through hole t of the printed circuit board p at the opposite side of the front end of the connecting portion 11, ,
The elastic press-in portion 15 includes a pair of bridges 16 and 16 'formed in an elliptical shape, and a deformation space 18 formed between the bridges 16 and 16' Wherein the reinforcing member (19) is provided with a reinforcing member (19). The method according to claim 1,
The reinforcing piece 19 is formed by combining the hemispherical projections 24 and the flat surface portion 24a so as to face toward the central portion in the deformation space 18 formed inside the both bridges 16 and 16 ' Terminals for electrical connection. The method according to claim 1,
The reinforcing piece 19 is formed by combining a flat surface 25 and an inclined surface 25a so as to face toward a central portion in a deformation space 18 formed inside of both bridges 16 and 16 ' Terminal for connection. The method according to claim 1,
The reinforcing piece 19 is formed by combining a ladder-like projection 26 and a flat surface portion 26a so as to face toward a central portion in a deformation space 18 formed inside of both bridges 16 and 16 ' Terminal for electrical connection. The method according to claim 1,
The reinforcing piece 19 is formed by combining protrusions 27 extending from the arcuate arc surface 27a so as to face toward the center in the deformation space 18 formed inside the both bridges 16 and 16 ' Terminal for electrical connection.

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