KR102039511B1 - Contact having multi-point and multi-direction of contact - Google Patents

Abstract

The present invention relates to a multi-contact multidirectional contact capable of electrical contact at multiple sites simultaneously in multiple directions. To this end, the present invention is a solder portion that can be fixed to the printed circuit board; A sidewall portion bent vertically from the solder portion; A first elastic portion extending from the solder portion and being bent in an upward direction to have elasticity; An intermediate support part extending forward from the first elastic part; A first contact part extending upward from the intermediate support part to be in contact with an external component; It is formed extending from the first contact portion, and when the first contact portion is pressed down provides a multi-contact multi-directional contact comprising a third elastic portion that protrudes out of the side wall portion to be in contact with external components.
Therefore, according to the present invention, since durability is improved and contact is possible in various directions, it can be applied to various types of electronic components, and there is an advantage of easy installation.

Description

Contact having multi-point and multi-direction of contact}

The present invention relates to a multi-contact multi-directional contact, and more particularly to a multi-contact multi-directional contact capable of electrical contact at multiple sites simultaneously in multiple directions.

BACKGROUND Electronic products such as mobile phones have contacts on printed circuit boards to couple components such as antennas and charging terminals. Such a contact electrically connects two or more electronic components and transmits signals therebetween or plays various roles such as blocking electromagnetic waves.

These contacts must be easy to install on the printed circuit board and ensure electrical contact with the electrical, electronic and communication components, which are inherently functional.

According to Unexamined-Japanese-Patent No. 10-2017-0061917 shown in FIG. 1, the surface mount type connection terminal by a prior art is the solder part 10, the 1st top plate 20, the 2nd top plate 30, and the 1st side wall ( 40), the second side wall 50, the first movable terminal 60, and the second movable terminal 70.

The surface-mount connection terminal is in contact with the first movable terminal 60 and the second movable terminal 70 while the electronic component is lowered from the top, wherein the first movable terminal 60 and the second movable terminal are It is pressed while elastically contacting.

The surface-mount connection terminal has the advantage of reducing the manufacturing cost because the area of the solder portion is reduced, but the contact point is located at one position and one direction at each movable terminal, so if the contact failure occurs at one place, the electronic component works properly. There is a disadvantage that causes a failure. In addition, since the contact direction is one direction, it is difficult to be variously applied to various types of electronic components.

The present invention is to solve the above problems, it is an invention to enable a more stable operation by varying the contact point.

It is another object of the present invention to provide a multi-contact multidirectional contact that is easy to install and has improved durability.

In order to achieve the above object, the present invention is a solder portion that can be fixed to a printed circuit board; A sidewall portion bent vertically from the solder portion; A first elastic portion extending from the solder portion and being bent in an upward direction to have elasticity; An intermediate support part extending forward from the first elastic part; A first contact part extending upward from the intermediate support part to be in contact with an external component; It is formed extending from the first contact portion, and when the first contact portion is pressed down provides a multi-contact contact configured to include a third elastic portion that protrudes out of the side wall portion to be in contact with external components.

A second contact portion may be formed outside the third elastic portion for electrical contact with an external component.

Preferably, the solder portion is formed with an end stopper provided with a groove accommodating an end portion extended from the third elastic portion.

Preferably, a second elastic part is formed between the intermediate support part and the first contact part, and the solder part is provided with an intermediate stopper for supporting the second elastic part.

According to the present invention, since durability is improved and contact is possible in various directions, the present invention can be applied to various types of electronic components, and there is an advantage of easy installation.

In addition, the stable contact is possible, there is an advantage that the failure of the electronic components due to poor contact can be effectively prevented.

1 is a perspective view showing the configuration of a surface mount connection terminal according to the prior art;
2 is a perspective view showing the configuration of a multi-contact contact according to the present invention;
3 to 5 are side cross-sectional views for explaining the operation of the multi-contact contact according to the present invention;
6A and 6B are explanatory diagrams for explaining a process of coupling with electrical, electronic and communication components;
7 and 8 are diagrams showing another embodiment of the multi-contact contact according to the present invention.

The configuration and operation of the embodiments of the present invention will be described in detail with reference to the accompanying drawings.

Figure 2 shows an external perspective view of a multi-contact contact according to the present invention, Figures 3 to 5 show a cross-sectional view from the side.

The multi-contact contact according to the present invention can be configured by forming a hole in one metal plate or bending the metal plate, it can be manufactured using a press device.

In the multi-contact contact according to the present embodiment, the solder part 100, the sidewall part 700, the first elastic part 200, the second elastic part 220, the intermediate support part 300, the first contact part 400, The third elastic part 500, the second contact part 550, the end part 600, the end stopper 120, the intermediate stopper 140, and the upper plate part 800 are configured.

Among these, the solder part 100, the side wall part 700, and the upper plate part 800 constitute a non-movable part, and the first elastic part 200, the second elastic part 220, and the intermediate support part 300. ), The first contact part 400, the third elastic part 500, the second contact part 550, and the end part 600 constitute a movable part.

The solder portion 100 forms a bottom, and is provided with an end stopper 120 and an intermediate stopper 140 to be described later. The solder part may be provided in a flat, rectangular shape as a whole and may be fixed to a printed circuit board. That is, the solder portion may be soldered to the printed circuit board and connected.

The solder part 100 is bent upward from the rear side (right side in the drawing) and forms a first elastic part 200. That is, the first elastic portion 200 is formed between the solder portion 100 and the intermediate support portion 300 is the first elastic deformation when an external force is applied to the multi-contact contact. The first elastic portion 200 is preferably provided in a semi-circular shape when no external force is applied.

An intermediate support part 300 is formed at a portion extending from the first elastic part 200. The intermediate support portion 300 is preferably maintained to be horizontally parallel to the solder portion 100 at a predetermined height when no external force is applied.

In front of the intermediate support portion 300 is formed a second elastic portion 220 bent approximately vertically. The second elastic portion 220 is bent upward from the intermediate support portion. The second elastic part 220 serves to position the external elastic part together with the first elastic part 200 so as to facilitate contact with external components and to return it to its original state when the external force is removed. . In this case, the degree of elasticity is preferably such that the first elastic portion can be deformed more than the second elastic portion.

An intermediate stopper 140 protruding from the solder part 100 to support the second elastic part is provided below the second elastic part. The intermediate stopper not only supports the second elastic part, but also serves to naturally deform the second elastic part 500 to be protruded forward by naturally deforming the second elastic part when an external force is applied.

On the other hand, the first contact portion 400 is formed in a curved shape extending upward from the second elastic portion. The first contact portion 400 protrudes upward when there is no external force, and when external force is applied by an external part, the first contact part 400 is electrically connected to the external part and pressed down.

In this embodiment, the side wall portion 700 is formed by bending vertically from the side of the solder portion 100. The side wall part 700 is formed on both side surfaces of the solder part, and only the first contact part 400 and the third elastic part 500 among the movable parts are exposed to the outside by the side wall part 700.

When the first contact portion is pressed by an external force, the third elastic portion 500 naturally protrudes forward of the side wall portion 700. That is, when there is no external force, nothing protrudes in front of the side wall part 700, but when external force is applied, the third elastic part 500 protrudes in front of the side wall part 700.

Since the side wall part 700 covers most of the movable part including the first elastic part 200 and is bent upward from both sides of the solder part 100 to be formed in a flat shape, only the solder part 100 during manufacturing is a printed circuit. Instead of being coupled to the substrate, the sidewall portion 700 may be coupled to the printed circuit board. That is, according to the present invention, since three sides may be coupled to the printed circuit board, it can be installed for various purposes according to various situations.

Meanwhile, a bending guide hole 710 is formed at the lower end of the side wall part 700. The bending guide hole 710 makes it possible to recognize the naturally bent position when bending the side wall and reduce the bent portion so that it can be easily and surely bent. That is, when the side wall is bent in the unfolded state of the metal plate, it is naturally bent along one surface of the bending guide hole, so that the sidewall portion 700 may be easily manufactured by the bending guide hole 710.

The upper end of the side wall portion 700 is bent vertically again to form the upper plate portion 800. The upper plate portion 800 has a structure covering the upper portion of the intermediate support portion 300 and the first elastic portion 200, it is prevented that the first contact portion 400 is lifted upward beyond the elastic limit by the upper plate portion. That is, when a phenomenon in which the first contact part is physically excessively upward due to an external locking phenomenon or the like occurs, the intermediate support part 700 touches the end of the upper plate part 800 so as not to be raised above the elastic limit.

The second contact portion 550 may be provided on an outer circumferential surface of the third elastic portion 500. Preferably, the second contact portion 550 is formed of a conductor, and the second contact portion may contact external parts with protrusions protruding to the outside so that electrical, electronic, and communication signals may be better transmitted.

Meanwhile, an end stopper 120 is formed in the solder part 100. The end stopper 120 is a groove in which the end portion 600 is accommodated. When an external force is applied and the first contact portion is pressed, the end portion 600 is no longer pushed by the end stopper 120. Therefore, when the external force is applied by the external component, the third elastic portion 550 is prevented from being pushed into the side wall portion 700.

When an external force is applied to the first contact portion 400, the third elastic portion 500 naturally protrudes forward of the sidewall portion 700 while being elastically supported by the second elastic portion 220. When the end portion 600 touches the floor, the third elastic portion is elastically deformed to protrude further forward. At this time, since the end portion 600 is stopped by the end stopper 120, the third elastic portion is not pushed further and maintains the protruding state.

In addition, the intermediate stopper 140 is protruded from the solder part 100 so that when the first contact part 400 is pressed by an external force, the intermediate stopper 140 is no longer pressed and helps the elastic deformation of the second elastic part. The contact portion 400 and the third elastic portion 500 serves to hold the posture in the correct position. In order to naturally open the second elastic part, the upper portion of the intermediate stopper 140 is preferably provided in a convex curved shape.

Next, the operation of the multi-contact contact according to the present invention will be described with reference to FIGS.

When no external force is applied, as shown in FIG. 3, the intermediate support part 300 maintains a horizontal state, and the first contact part 400 protrudes upward and the third elastic part 400 is located inside the side wall part 700. It is in a state.

At this time, when an external force is applied to the first contact part 400 and pressed downward, the intermediate support part 300 starts to be tilted downward while the first elastic part 200 starts to elastically deform as shown in FIG. 4.

When the first contact portion 400 is completely pressed by the external component, as shown in FIG. 5, the second elastic portion 220 is supported by the intermediate stopper 140 with elastic force, and the third elastic portion 500 is a side wall portion ( 700) Protrude forward. At this time, as the end portion 600 of the movable portion is stopped by the end stopper 120, the first contact portion 400 and the third elastic portion 500 maintain a posture in which the external parts can be reliably contacted.

Therefore, according to the present invention, since the horizontal contact and the vertical contact are possible, contact failure occurs because the contact occurs in two places even when the components of the vertically bent shape in the form of 'a' as shown in FIGS. 6a and 6b. It can significantly reduce the likelihood and increase the stability of the part.

Next, referring to FIGS. 7 and 8, the multi-contact contact according to the present embodiment has a wing portion 650 and an insertion portion 160.

The wing portion 650 is bent at the end portion is provided in a shape to block the semi-circular side space, and serves to prevent deformation of the first contact portion. That is, when an abnormal load is applied to the first contact portion and the first contact portion is excessively pressed, the wing portion 650 supports to prevent excessive deformation of the first contact portion.

In addition, the insertion unit 160 is inserted into the substrate and serves to couple the multi-contact contact to the substrate, it is possible to quickly and conveniently combine the multi-contact contact when the multi-contact contact is coupled.

Although the above has been described with reference to the embodiments of the present invention, those skilled in the art may variously modify and modify the present invention without departing from the spirit and scope of the present invention as set forth in the claims below. It will be appreciated that it can be changed.

100 solder part 120 end stopper
140: intermediate stopper 200: the first elastic portion
300: intermediate support portion 400: first contact portion
500: third elastic portion 550: second contact portion
600: end portion 700: side wall portion
710: bending guide hole

Claims (4)

Solder unit that can be fixed to the printed circuit board;
A sidewall portion bent vertically from the solder portion;
A first elastic portion extending from the solder portion and being bent in an upward direction to have elasticity;
An intermediate support part extending forward from the first elastic part;
A first contact part extending upward from the intermediate support part to be in contact with an external component;
It is formed extending from the first contact portion, and when the first contact portion is pressed down is configured to include a third elastic portion protruding to the outside of the side wall portion to be in contact with the external component,
And the solder portion has an end stopper for stopping movement of the end portion of the third elastic portion.
The method of claim 1,
The multi-contact multi-directional contact, characterized in that the second contact portion for the electrical contact with the external component is formed outside the third elastic portion. The method of claim 1,
A second contact portion is formed between the intermediate support portion and the first contact portion, the solder portion is a multi-contact multi-directional contact, characterized in that the intermediate stopper for supporting the second elastic portion is provided.
Solder unit that can be fixed to the printed circuit board;
A sidewall portion bent vertically from the solder portion;
A first elastic portion extending from the solder portion and being bent in an upward direction to have elasticity;
An intermediate support part extending forward from the first elastic part;
A first contact part extending upward from the intermediate support part to be in contact with an external component;
It is formed extending from the first contact portion, and when the first contact portion is pressed down is configured to include a third elastic portion protruding to the outside of the side wall portion to be in contact with the external component,
The end portion of the third elastic portion is a multi-contact multi-directional contact, characterized in that the wing is bent at the end of the third elastic portion to block the side space of the first contact portion.

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