KR200479082Y1 - Terminal - Google Patents

Abstract

This invention relates to terminals. The terminal 10 of the present invention has a connecting portion 11 at one end for coupling with a counterpart terminal and a stopper portion 13 protruding from the opposite end of the connecting portion 11. The stopper portion 13 is seated on the surface of the printed circuit board P. And an elastic press-fitting portion 15 is formed on the stopper portion 13 so as to extend to the opposite side of the connection portion 11. [ The elastic press-in portion 15 is constructed such that two intermediate portions of the two bridges 16 and 16 'extend in parallel to each other and both ends are connected to each other. A deformation space 18 is formed between the bridges 16 and 16 'and the deformation space 18 is formed of a portion blocked by the straining plate 20 and a portion penetrated without the straining plate 20. According to the present invention, the terminal 10 can be fixed to the substrate p without being soldered, so that the insertion force is relatively reduced, and the damage of the inner surface of the through hole t is minimized.

Description

Terminal {Terminal}

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a terminal, and more particularly, to a terminal in which a resiliently press-fitting portion is elastically deformed and inserted in a through hole of a printed circuit board.

The terminal is made of a conductive metal material and performs electrical connection. It is installed in a housing of a connector or installed on a printed circuit board. Generally, a terminal installed in a housing of a connector is fixed by a lance, a spacer, a rear holder or the like inside the housing. A terminal provided on a printed circuit board is generally soldered and fixed with a part of the printed circuit board inserted into the through hole.

Recently, however, terminals have been fixed to the printed circuit board without soldering for environmental protection. A terminal having such a configuration is shown in Figs. 1 and 2. Fig.

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

According to the drawing, the terminal 1 is made of a conductive metal material, and a connecting portion 2 is formed at a long end thereof. The connection portion 2 is a portion electrically connected to a terminal (not shown) provided in the connector. The connecting portion 2 has a substantially square pillar shape. The connecting portion 2 is designed to have a proper length depending on the environment in which the terminal 1 is used.

At one end of the connection part 2, a stopper part 5 is formed. 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 5 protrudes from one end of the connecting part 3 more than the width of the connecting part 2 and tightly contacts the surface of the printed circuit board p to regulate the degree of insertion of the terminal 1. [

And an elastic press-fitting part 7 is provided in the direction opposite to the extending direction of the connection part 2 connected to the stopper part 5. [ The elastic press-fitting portion 7 is a portion which is press-fitted in the through hole (t) of the printed circuit board (p) in a state elastically deformed. For this, two bridges 8 are provided on the elastic press-fitting portion 7 so as to face each other. The bridge 8 is formed in an arch shape, and the bridges 8 are formed in such a manner that apexes protrude in mutually opposite directions. The ends of the bridge 8 are connected to each other and portions corresponding to the apexes are spaced apart from each other so that a space between them forms the deformation space 9. [ The deformation space 9 provides a space in which the bridge 8 can be elastically deformed when the bridge 8 is inserted into the passage hole t. The tip end of the elastic press-in portion 7 extends in a direction opposite to the tip end of the connecting portion 3, and the cross-sectional area becomes narrower toward the tip. Reference numeral 8 'denotes a front end portion of the bridge 8.

In the conventional terminal 1 having such a configuration, as shown in Fig. 2, the elastic press-in portion 7 is inserted and fixed in a state of being elastically deformed in the through hole t of the printed circuit board p. That is, the bridges 8 of the elastic press-in portions 7 are fixed by being elastically deformed and brought into close contact with each other at positions where the apexes of the bridges 8 oppose each other on the inner surface of the through hole t.

However, the above-described conventional terminal has the following problems.

The bridge 8 is installed in close contact with the inner surface of the through hole t in the terminal 1. The deformation space 9 formed between the bridges 8 is formed so as to completely pass between the bridges 8. Therefore, since the elastic restoring force of only the bridge 8 must be in close contact with the inner surface of the passage hole t, the elastic restoring force of the bridge 8 as a whole must be made equal and relatively large. Therefore, the inner surface of the through hole (t) may be damaged when the bridge (8) penetrates through the through hole (t).

The two bridges 8 of the elastic press-fitting portion 7 of the terminal 1 are respectively in close contact with the inner surfaces of the through holes t of the printed circuit board p facing each other. Therefore, the bridges 8 provide an adhesive force in the direction of the arrow A in Figure 2. However, no adhesive force is provided at all in the direction orthogonal to the arrow A, and when the external force acts in this direction, So that there is a problem that the connection with the partner terminal is not properly performed.

In the conventional terminal 1, when an external force (acting when the counterpart terminal is separated) acts due to a relatively small contact area and contact position between the elastic press-fitting portion 7 and the inner surface of the through hole t, there is also a problem that the terminal 1 can easily fall off.

SUMMARY OF THE INVENTION Accordingly, it is an object of the present invention to solve the above-mentioned problems of the prior art and to provide a terminal that is more firmly fixed to a substrate without soldering.

Another object of the present invention is to minimize the damage of the through-hole in the process of inserting the terminal into the through-hole of the substrate.

Another object of the present invention is to prevent the terminals from being disengaged arbitrarily while the terminals are mounted on the board without soldering.

According to an aspect of the present invention, there is provided a terminal mounted on a through hole formed in a printed circuit board, comprising: a connection portion electrically connected to a counterpart terminal; And an elastic press-fitting part formed to extend in a direction opposite to the extending direction of the connection part and formed with a part connected to the straining plate between the pair of bridges and a deformation space penetrating without a straining plate and being closely attached to the inner surface of the through- The portion of the deformation plate, which is penetrated without the strainer, is elliptical or circular, and the portion of the strainer connected to the bridge is a curved surface on both sides.

delete

Wherein the pair of bridges constituting the elastic press-in portion includes an elastic section corresponding to a portion penetrated without the straining plate, a first latch section connected to each other by the straining plate and corresponding to a tip end of the elastic press-in portion, And a second latching section connected to the elastic pressing section and corresponding to the connection section side.

And a stopper portion formed between the connection portion and the elastic press-in portion to have a width greater than that of the connection portion and supported on the surface of the printed circuit board.

The intermediate portions of the pair of bridges constituting the elastic press-fitting portion extend in parallel with each other and are connected to each other at both ends.

In the terminal according to the present invention, the following effects can be obtained.

First, in the terminal according to the present invention, the middle portion in the longitudinal direction of the elastic press-in portion is relatively elastically deformed and the both ends are relatively less elastically deformed so that the insertion force becomes relatively small after the initial insertion of the elastic press- There is an effect that the damage of the through hole is prevented and the workability of the operator is improved.

In the present invention, since elastic deformation of a portion of the elastic press-in portion which is in close contact with a portion corresponding to both openings of the through-hole of the substrate is made relatively less, the elastic press-in portion is firmly fixed to the inner surface of the through- There is an effect that the elastic press-fitting portion of the terminal, in which the elastic press-fitting portion is strongly tightly adhered to the inner surface of the through-hole, can be omitted.

1 is a perspective view showing a configuration of a conventional terminal.
FIG. 2 is a sectional view showing a state where the terminal shown in FIG. 1 is installed in a through hole of a substrate. FIG.
3 is a perspective view showing a configuration of a preferred embodiment of the terminal according to the present invention.
4 is a plan view showing the configuration of the elastic press-fitting portion of the present embodiment.
5 is a perspective view showing a longitudinal section of the elastic press-in portion of the present embodiment.
6 is a cross-sectional view showing a state where the terminal of the present embodiment is inserted into a through hole of a substrate.

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

As shown in Fig. 3 to Fig. 5, the terminal 10 is made of a conductive metal material and is used for electrical connection with a mating terminal (not shown). The terminal 10 is produced by sequentially processing a strip-shaped metal strap through a progressive metal mold.

And a connection portion 11 is provided so as to extend to one end of the terminal 10. The connecting portion 10 is formed in a rectangular shape having a rectangular cross section in the present embodiment, which is narrow and has a long length. The shape of the connecting portion 11 is not necessarily rectangular, but may be cylindrical or polygonal.

A stopper portion 13 is provided on the opposite side of the tip of the connection portion 11. The stopper portion 13 serves to regulate the extent to which the terminal 10 is inserted into the through hole t of the printed circuit board p. The stopper portion 13 is formed so as to protrude more than the side surface of the connection portion 11. Generally, the stopper portion 13 protrudes from opposite sides of the connection portion 11 in opposite directions. Of course, the stopper portion 13 may be formed around the entire outer surface of the connection portion 11, or may be intermittently formed.

And an elastic press-fitting part 15 extending from the stopper part 13 to the opposite side of the connection part 11. [ The elastic press-fitting portion 15 is formed to extend in the direction opposite to the direction in which the connection portion 11 extends from the stopper portion 13. [ The elastic press-fitting portion 15 is a portion press-fitted into the through hole t of the printed circuit board p in a state elastically deformed. Therefore, the corresponding width of the elastic press-fitting portion 15 is formed to be slightly larger than the width of the through hole t.

The elastic press-in portion 15 is composed of two bridges 16 and 16 '. The bridges 16 and 16 'are formed so as to extend in parallel with each other, and both ends thereof are connected to each other. The intermediate portions of the bridges 16 and 16 'are straight so that both sides extend in parallel with each other. The space between the bridges 16 and 16 'forms a deformation space 18.

The deformation space 18 is formed of a portion blocked by a straining plate 20 connecting a portion formed between the bridges 16 and 16 'and both ends of the bridges 16 and 16'. Portions formed through the bridges 16 and 16 'which are not clogged with the strainer 20 are elliptical in this embodiment. This is to prevent stress from concentrating between the strainer 20 or the strainer 20 and the bridges 16 and 16 '. The portion penetrated in the deformation space 18 may be circular. The portion of the strainer 20 connected to the bridges 16 and 16 'has a curved surface on both sides. This is well known from FIG. 3 and FIG. This is so that the force generated when the bridges 16 and 16 'are inserted into the through holes t of the printed circuit board P can be distributed evenly to the strainer 20.

The bridges 16 and 16 'are formed in an arch shape having an intermediate portion as a whole, and are divided into three sections according to the position of the deformation space 18.

The sections of the bridges 16 and 16 'corresponding to the penetrated portions of the deformation space 18 are the elastic sections 21. The elastic section 21 can easily undergo elastic deformation as compared with the first hook section 22 and the second hook section 23 which will be described below. Therefore, when this portion passes through the through hole (t) of the printed circuit board (P), relatively less force is applied.

Next, the section of the bridge 16 or 16 'corresponding to the portion where the straining plate 20 is present at the tip end side of the elastic deformation portion 15 is the first latching section 22. The first latching section 22 is a portion of the passage hole t of the printed circuit board P that is in close contact with the inner surface of the outlet side.

The second hanging section 23 is a section of the bridge 16 or 16 'corresponding to the portion where the deforming plate 20 is present on the stopper section 13 in the elastic deforming section 15. The second hanging section 22 is a portion which is in close contact with the inner surface of the inlet hole of the through hole t of the printed circuit board P. [

The bridge 20 is connected to the bridges 16 and 16 'in the first latching interval 22 and the second latching interval 23 as shown in FIG. 5, It is relatively thin compared to the bridges 16 and 16 'so that elastic deformation can be achieved. Particularly, the portion where the strainer 20 is connected to the bridges 16 and 16 'is curved so that a force applied to the bridges 16 and 16' is dispersed and transmitted to the strainer 20, .

Hereinafter, the use of the terminal according to the present invention having the above-described configuration will be described in detail.

The terminal 10 of the present invention is press-fitted into the through-hole t of the printed circuit board P so that the elastic press-fitting portion 15 of the terminal 10 is elastically deformed in the through hole t without soldering As shown in FIG. Such a state is well shown in Fig.

The first hooking section 22 and the second hooking section 23 of the elastic press-fitting section 15 are tightly fixed to the outlet and the inlet of the through hole t, respectively. That is, the first hook section 22 and the second hook section 23 are less elastically deformed than the elastic section 21 of the bridges 16 and 16 '. Therefore, in the first latching section 22 and the second latching section 23, the elastic section 21 is pressed into the through hole t with a greater force.

This makes it relatively difficult for the elastic press-in portion 15 to escape from the through-hole t. That is, the elastic pressing portion 15 of the terminal 10 is firmly fixed relative to the through hole t of the printed circuit board P.

A process of inserting the resilient pressing portion 15 of the terminal 10 into the passage hole t will be briefly described.

The tip end of the elastic press-in portion 15, that is, the first hook section 22 is first inserted into the through hole t when the elastic press-in portion 15 is inserted into the through hole t. When the first latching section 22 is inserted into the passage hole t to some extent, the elastic section 21 is also inserted into the passage hole t. Since the elastic section 21 can be elastically deformed relatively easily even if the first hook section 22 and the elastic section 21 enter the through hole t at the same time, Is not increased in proportion to the degree of penetration into the through hole (t).

The first hooking section 22 and the second hooking section 23 are connected to the outlet and inlet of the passage hole t, respectively, when the second hooking section 23 is inserted into the passage t. And the elastic section 21 is located in the middle of the passage hole t.

When the elastic press-fitting part 15 is inserted, the first hook part 22 is inserted into the inner surface of the inlet of the hole t, and the elastic part 21 is inserted A relatively small adhering force is applied, and again the second hook section 23 is inserted again and the second hook section 23 again applies the closing force. That is, the inner surface of the through hole (t) has an adhesive force to such an extent that the elastic press-fitting portion 15 can be fixed at first, a relatively small adhesion force is applied and the elastic press- So that breakage can be relatively less than in the prior art.

The scope of the present invention is not limited to the embodiments described above, but is defined by the claims, and those skilled in the art will be able to make various changes and modifications within the scope of the claims It is self-evident.

For example, in the illustrated embodiment, the stopper portion 15 is provided between the connection portion 11 and the elastic press-fitting portion 15, but the stopper portion 15 is not necessarily required.

In addition, the configuration of the connection portion 11 is not limited to the illustrated embodiment as described above, and may have various shapes.

10: Terminal 11: Connection
13: stopper portion 15: elastic pressing portion
16,16 ': Bridge 18: Variation space
20: strain plate 21: elastic section
22: first hanging section 23: second hanging section

Claims (5)

A terminal provided in a through hole formed in a printed circuit board,
A connection portion electrically connected to the partner terminal,
And a deformation space which is formed integrally with the opposite end of the connecting portion and extends in a direction opposite to the extending direction of the connecting portion and which is connected to the straining plate between the pair of bridges and the deformation plate, And an elastic press-fitting portion provided in close contact with the elastic pressing portion,
Wherein a portion of the deformed space which is penetrated without a strain plate is elliptical or circular, and a portion of the deformable plate connected to the bridge is curved at both sides.
delete [2] The apparatus according to claim 1, wherein the pair of bridges constituting the elastic press-in portion includes an elastic section corresponding to a portion penetrated without the straining plate, and a first latch section connected to each other by the straining plate, And a second hanging section connected to the deforming plate and corresponding to the connecting portion of the elastic pressing portion. The terminal according to any one of claims 1 to 3, further comprising a stopper portion formed between the connection portion and the elastic press-in portion, the stopper portion being formed to be wider than the connection portion and supported on the surface of the printed circuit board.
The terminal according to claim 4, wherein the pair of bridges constituting the elastic press-in portion each extend in parallel with each other and are connected to each other at both ends thereof.

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