KR101165558B1 - Contactor - Google Patents

Abstract

PURPOSE: A contactor is provided to maintain a stable connection state with an antenna. CONSTITUTION: A horizontally-extended part(30) is extended in parallel with a fixed plate part(10) in an end of an elastic part. A first inclined part is bent in a direction opposite to the fixed plate part. A second inclined part is bent toward the fixed plate part in an end of the first inclined part. If a contact unit is pressed downward by contacting a terminal, a support part(50) closely contact the fixed plate part.

Description

Contactor

The present invention relates to a contactor for electrically connecting different electronic components, and more particularly, to prevent the deformation of the contact portion when the contact with the terminal side of the electronic component to maintain a safe contact, and also to provide a plurality of contacts The present invention relates to a contactor capable of preventing tangling between the contactors in the case of plating at the same time, and ensuring safety during the contactor operation.

In general, a contactor is used for electrical contact or signal transmission between two or more electronic components, and is applied to an antenna connection terminal of a communication device, a charging terminal of a battery charger, and a contact terminal for connecting a deck and a speaker of an audio device. Parts.

Recently, the importance of the contactor for the excellent performance in the electrical contact or signal transmission between the electronic components, and this is a trend that is making a lot of efforts to develop and improve a variety of contactors.

The type of contactor is broadly classified into a pin type (aka pogo pin) and a leaf spring type in which an elastic portion is formed by bending a metal plate, and the present invention relates to a leaf spring type contactor.

This leaf spring type contactor is used for various purposes. Among them, a technique used for antenna connection for a mobile phone is disclosed in Korean Laid-Open Patent Publication No. 10-2003-17915 (published on March 04, 2003).

 The contactor used for antenna connection for the mobile phone has a fixed end fixed to the PCB, an elastic part bent round from one end of the fixed end, and a contact part extending from the elastic part to contact the antenna and mounted on the mobile phone case. As the received antenna is received and drawn out, the antenna contacts the contact portion to make an electrical connection with the PCB, and the contact portion has a structure in which the contact portion is connected while maintaining a constant elastic force by elastic deformation during the connection between the antenna and the contactor.

In this regard, the Korean Patent Publication No. 10-1001673 (2010.12.15, announcement), as shown in Figure 1, is formed integrally bent to the upper part from the pedestal 10 forming a fixed end to a certain height The stopper 11 is provided with a stopper 11, and the stopper 11 supports the contact 16 from the bottom when the contact 16 descends by contacting the antenna and maintains an equilibrium state of the contact 16. Disclosed is a contactor as an antenna connection application capable of preventing deformation of 16).

However, the contactors disclosed in the publication have lower and both side surfaces of the stopper 11 and the contact portion 16 protruding a certain height upward from the pedestal 10 when a plurality of contacts are entangled with each other in the plating process together. By the open space of the, as shown in Figure 2, while being entangled with each other, the entanglement easily occurs, and even if entanglement occurs, there is a problem that the entanglement is not easily released and plating defects and shape deformation occurs.

In addition, even after the plating process, there is a problem in that the worker has to manually separate the tangled connectors manually.

In addition, the contactor disclosed in the publication, as well as the general contactor, is provided with a support portion 17 which is in contact with the support 10 extending from the end of the contact portion 16 to form a fixed end, such a support portion 17 of the contactor The sheet forming the edge is formed by a cutting operation by a device such as a press.

For this reason, since the support part 17 which forms a contactor edge is very sharp, when the support part 17 is located in the outer side of a contactor, when a worker's physical injury occurs at the time of a contact assembly or a plating operation, Occurs frequently and the work efficiency is lowered.

Korean Patent Publication No. 10-2003-17915 (published Mar. 04, 2003) Korean Registered Patent Publication No. 10-1001673 (Dec. 15, 2010)

The present invention has been devised to solve this problem, and it is possible to prevent deformation of the contact portion when contacting the terminal side of an electronic component such as an antenna, and at the same time, entanglement between the contacts occurs when plating a plurality of contacts together. In addition, by implementing a new type of contactor with a structure that can be easily released even when tangling occurs and reduces physical damage to the operator, it is possible to maintain a safe contact state of the contact portion and to cause poor plating and shape deformation. The purpose of the present invention is to provide a contactor which can reduce product defect rate and, in particular, improve work efficiency.

Means of the present invention for solving the above problems are as follows.

A fixed plate portion of a flat plate form connected to the PCB side; An elastic part extending from one end of the fixing plate part and bent roundly; A horizontal extension part extending in parallel with the fixed plate part at the end of the elastic part; A first inclined portion bent obliquely toward the opposite direction from the end of the horizontal extension portion, a second inclined portion bent obliquely toward the fixed plate portion at the end of the first inclined portion, and the first inclined portion; A contact portion comprising a contact portion contacting the terminal side with a portion forming a boundary between the portion and the second slope portion; And a support part vertically bent at the end of the second inclination part and extending toward the first inclination part while facing the fixing plate part, wherein the support part has a lower surface of the support part when the contact part contacts the terminal. The contact part is closely supported while making surface contact with the upper surface of the part.

 In addition, when the contact portion is pressed by a large force further includes a wing portion on both sides of the support vertically bent upward to block the side space of the contact portion formed over the first inclined portion, the contact portion and the second inclined portion The wing portion supports the contact portion to prevent deformation of the contact portion. .

In addition, the fixing plate portion is formed with a positioning hole to be fitted to the fastening projections provided on the PCB substrate to determine the position where the contactor is to be mounted on the PCB substrate while the contactor can be stably maintained on the PCB substrate during soldering have.

Here, the end portion of the support portion extends to have a gap distance smaller than the thickness of the plate forming the contact portion and the contactor, and the side slope of the contact portion and the first slope of the support portion and the contact portion when plating a plurality of contacts together. Prevents contactors from tangling through gaps between parts.

The contact portion of the contact portion may further include an embossing protrusion having a predetermined area and contacting the terminal side to increase contact area with the terminal side, thereby improving contactability.

In addition, fillets are provided at both ends of the fixing plate in the width direction for adhesion to the PCB substrate.

The present invention made by the means as described above has the following effects.

First, when the contact portion is pressed to the fixed plate portion side by the contact with the terminal side, the supporting portion total area against the load applied to the entire contact portion is supported by the support portion extending in contact with the fixed plate portion in parallel contact with the fixed plate portion. The reaction force is applied in a direction opposite to the direction in which the contact portion is pressed, thereby preventing deformation of the contact portion, thereby maintaining a stable connection with the antenna side.

Next, even when the contact portion is subjected to a load more than specified, and the contact portion is excessively pressed in the state of maintaining the surface contact with the fixed plate portion by the support portion, the formed wing portions projecting vertically on both sides of the support portion support the contact portion from below. It is possible to maintain a stable restoration performance by preventing the deformation of the product has the advantage of maintaining the original life of the product.

In addition, the sharp end of the contactor, that is, the end of the supporting portion forming the edge portion is toward the inside of the contactor, even if the worker grasps the contactor by hand, there is no fear of physical damage, and thus the workability is greatly improved.

Lastly, the support and both wings completely cover the bottom of the contact portion and the open side surfaces of the elliptical shape so that the contactors are intertwined with each other into the open space of the contact when plating a plurality of contacts together. The phenomenon does not occur at all, which greatly improves the plating quality, which is a benefit in that the contact performance of the contactor is greatly improved.

1 is a perspective view showing a contactor corresponding to the prior art of the present invention
Figure 2 is a state diagram showing a state tangled with each other in the case of plating a plurality of contacts corresponding to the prior art shown in FIG.
3A and 3B are perspective views illustrating a contactor according to an embodiment of the present invention.
4 is a side view showing a contactor according to an embodiment of the present invention.
5 is a cross-sectional view showing an operating state of a contactor according to an embodiment of the present invention.
6A and 6B are cross-sectional views illustrating a state of use of a contactor according to an embodiment of the present invention.

Hereinafter, an antenna connection apparatus according to an embodiment of the present invention will be described in detail with reference to the accompanying drawings.

3A and 3B are perspective views illustrating a contactor according to an embodiment of the present invention, and FIG. 4 is a side view illustrating the contactor according to an embodiment of the present invention.

As shown in Figures 3a and 3b and 4, the contactor 100 is provided with a contact end 40 for contact with the fixed end and the terminal side consisting of a fixed plate portion 10 for connection with the PCB side It is composed of a free end integrated structure, the fixed plate portion 10 is electrically connected to the PCB side through soldering, etc., the contact portion 40 is the elasticity of the elastic portion 20 according to the contact with the terminal side The deformation causes the rising and lowering operation to be repeated.

The fixing plate 10 is fixed to the PCB and solder in the form of a rectangular flat plate, for this purpose, a plurality of semi-circular fillets 12 are formed at opposite ends of the fixing plate 10 in the width direction.

 At this time, the fillet 12 is a portion where the lead in the molten state is filled and solidified at the time of soldering, thereby soldering about two fillets 12, thereby reducing the possibility of contact failure, These two fillets 12 can disperse the deformation load applied to the fixed plate portion 10 and can also exhibit considerable resistance to the horizontal force in the direction of the fillet 12 due to the deformation load in all directions. It is possible to secure the firmness by increasing the adhesion when mounting.

In addition, the bottom surface constituting the fixing plate 10 is a rectangular positioning hole 11 that is fitted to the fastening protrusion (not shown) provided on the PCB substrate when the contactor 100 is mounted on the PCB substrate. .

The positioning hole 11 determines the position of the contactor 100 to be mounted on the PCB substrate during the SMD process, and can be stably maintained at the position where the contactor 100 is to be mounted on the PCB substrate during soldering. Play a role.

Here, SMD is a process of arranging small parts, devices, and the like in a work order, and assembling them using a robot, etc., in particular, assembling devices applied to a small mobile phone small device such as a mobile phone to a substrate.

On the other hand, the elastic portion 20 is formed in a shape that is bent in a circular shape, that is, bent in a circular shape while extending from one end of the fixed plate portion 10, the end of the elastic portion 20 at this time is parallel to the fixed plate portion 10 Will be achieved.

 The elastic portion 20 serves to restore the contact portion 40 to its initial position at all times by exerting its own elastic force while elastically supporting the entire free end including the contact portion 40.

  A horizontal extension part 30 is formed between the elastic part 20 and the contact part 40 to extend horizontally to be parallel to the fixed plate part 10 at the end of the elastic part 20.

At the end of the horizontal extension portion 30, a contact portion 40 which is operated up and down is formed as a portion that is in contact with the internal and external antennas substantially in contact.

The contact portion 40 extends from the end of the horizontal extension portion 30 as a whole and has a curved shape having a constant curvature, that is, a semicircular shape in which the convex portion faces upward.

In other words, the first inclined portion 41 and the end of the first inclined portion 41 are extended from the end of the horizontal extension portion 30 to bend in an inclined direction opposite to the fixed plate portion 10, that is, the upper direction. The second inclined portion 43 is bent to be inclined toward the fixed plate portion 10, that is, the lower direction in the portion forming the boundary between the first inclined portion 41 and the second inclined portion 43 Consisting of the contact portion 42 substantially in contact with the terminal side while forming the apex of the convex portion of the semicircle becomes a semicircular shape as a whole.

On the other hand, the contact portion 42 constituting the upper surface of the contact portion 42 is formed with a curved convex portion, that is, embossing 42a having the same curvature as the contact portion 42 over a predetermined width of the upper surface, the contact portion It is possible to increase the overall thickness of (42), and thus it is possible to have a wider contact area closer to the surface contact when contacting the terminal side, thereby maintaining excellent contactability.

The contactor 100 according to the present invention can prevent deformation of the contact portion 40 when contacting the terminal and at the same time, the entanglement is easily pulled out even when entanglement occurs between the contacts when plating a plurality of contacts together. It is intended to be made of a structure that can reduce the physical damage to the worker.

To this end, the contactor 100 forms an end of the contact portion 40 while the support portion 50, which is in contact with and fixed to the fixed plate portion 10, faces the inside of the contactor 100 and faces the fixed plate portion 10. While making contact with each other, it has a shape that is closely contacted with each other in parallel.

More specifically, the support part 50 has a rectangular plate shape having a width substantially the same as that of the fixed plate part 10, and thus the inner side of the contactor 100 at the end of the second inclined part 43 of the contact part 40, that is, the first part. It is bent toward the inclined portion 41 has a structure extending a predetermined length to face the fixed plate portion 10. Therefore, the lower surface of the support part 50 is in close contact with the upper surface of the fixed plate part 10 while making a surface contact with the upper surface of the fixed plate part 10 when the contact part 42 contacts with the terminal side.

The support part 50 may have a wide contact support area with the fixed plate part 10 when the contact part 40 is pressed to serve to prevent deformation of the contact part 40.

At this time, the end of the support 50 extends close to the first inclined surface 41 of the contact portion 40. In more detail, the end of the support part 50 extends to have a gap distance smaller than the thickness of the plate constituting the first inclined part 41 and the contactor.

This is to minimize the gap between the support part 50 and the contact part 40, that is, the gap between the end of the support part 50 and the first inclined part 41 of the contact part 40, when plating a plurality of contacts together. This is to prevent the contacts from getting tangled between the contacts.

On the other hand, on both sides of the support portion 50 is formed wing portion 60 to block the semi-circular side space formed over the first inclined portion 41, the contact portion 42 and the second inclined portion 43 do. At this time, the wing portion 60 is formed to be integrally extended from both side edges of the support portion 50 to be vertically bent in a semicircular shape toward the contact portion 42.

The wing portion 60 serves to prevent deformation of the contact portion 40 together with the support 50. In other words, the contact portion 40 serves to support the contact portion 40 from the bottom when the contact portion 40 is excessively pressed by applying an abnormal load such as an impact to the contact portion 40. It is possible to prevent the deformation of the.

In addition, the wing portion 60 also covers both side spaces having a semicircular shape formed by the contact portion 40, and also serves to prevent entanglement between each other when plating a plurality of contacts together.

Particularly, in the present invention, the wings 60 may be easily formed by pulling both extended sides of the support part 50 having a plate shape into a semicircle shape by a cutting tool such as a press, and then bending them vertically. It is advantageous in that it is easy to manufacture and does not take long to manufacture.

And the support 50 is bent in a rounded form at the end of the second inclined portion 43, the cut end of the support 50 is located inside the contactor 100, the operator's plating process or assembly process Even when gripping the contactor 100 with bare hands at the time, the sharp end is not affected and there is no fear of physical injury as in the prior art.

5 is a cross-sectional view showing an operating state of a contactor according to an embodiment of the present invention.

As shown in FIG. 5, here, when the strain load is applied to the contactor, the state before and after the strain is shown.

When the contact portion 40 is pressed toward the fixed plate portion 10 by the contact with the antenna side, the support portion 50 is held in parallel contact with the fixed plate portion 10 in a state of being in surface contact with each other to apply the entire contact portion 40. Reaction force is applied in a direction opposite to the direction in which the contact portion 40 is pressed over the entire area of the support portion 50 against the load, thereby preventing the deformation of the contact portion 40 and maintaining a stable connection with the antenna side.

At this time, even when the contact portion 40 is subjected to a load more than specified, even if the contact portion 40 is excessively pressed, the wing portion 60 protruding vertically from both sides of the support portion 50 supports the contact portion 40 from below. By preventing the deformation of the contact portion 40 can be maintained while maintaining a stable connection with the antenna side with the support 50.

6A and 6B are cross-sectional views showing a state of use of the contactor according to the present invention.

As shown in Figs. 6A and 6B, for the sake of convenience of explanation, an example of a contactor used for connecting an antenna and a PCB substrate to an electronic device will be described. In addition to the intended use, it can be used for various purposes.

The contactor 100 is fixed by soldering to the PCB substrate 200 of the mobile phone through the fixing plate part 10, and the contact part 40 at the free end is connected to the connection part 150 of the antenna 140 in a contact manner. do.

At this time, when the antenna 140 is pulled out upward, the contactor 100 receives a pressing force by the connecting portion 150 of the antenna 140, and this force acts as a deformation load of the contactor 100. , The deformation load first acts on the contact portion 40 of the contactor 100 so that deformation occurs in the elastic portion.

Since the contact part 40 maintains the elastic support state to the fixed plate part 10 by the deformation of the elastic part, the contactor 100 can maintain a stable connection state as a whole.

At this time, as the support part 50 which contacts the support part 40 to the fixed plate part 10 is supported by the fixed plate part 10 in a surface contact state, it is possible to maintain a more stable connection state, in particular to the contact part 40. Even when a large load is applied and the contact portion 40 is excessively pressed, the contact portion 40 is supported by the wing portions provided on both sides of the support portion 50 so that deformation is prevented so that there is no performance change due to stable restoration. There is an extended advantage.

As described above, the contactor of the present invention can implement a connection form that is electrically connected to the PCB side through soldering, and also maintains the surface contact state with the fixed plate portion while maintaining the equilibrium of the support portion formed in a flat shape, The wings are bent vertically on both sides of the support so that the By covering the side spaces, it is possible to obtain an advantage of not only excellent supporting force but also preventing deformation of the contact portion to secure a stable contact state continuously.

The above description is merely illustrative of the technical idea of the present invention, and various modifications, changes, and substitutions may be made by those skilled in the art without departing from the essential characteristics of the present invention. will be. Accordingly, the embodiments disclosed in the present invention and the accompanying drawings are not intended to limit the technical spirit of the present invention but to describe the present invention, and the scope of the technical idea of the present invention is not limited by the embodiments and the accompanying drawings. . The scope of protection of the present invention should be construed according to the following claims, and all technical ideas falling within the scope of the same shall be construed as falling within the scope of the present invention.

10: fixing plate part 11: positioning hole
12: fillet 20: elastic portion
30: horizontal extension part 40: contact part
41: first inclined portion 42: contact portion
42a: embossed portion 43: second inclined portion
50: support part 60: wing part

Claims (6)

A fixed plate portion 10 having a flat plate connected to the PCB side;
An elastic part 20 extending from one end of the fixing plate part 10 and bent roundly;
A horizontal extension part 30 extending in parallel with the fixed plate part 10 at the end of the elastic part 13;
A first inclined portion 41 extending inclined in an inclined direction from the end of the horizontal extension portion 30 to the opposite direction of the fixed plate portion 10, and the fixed plate portion 10 at the end of the first inclined portion 41; The second inclined portion 43 is bent and inclined toward the () direction and the contact portion 42 in contact with the terminal side to form a boundary between the first inclined portion 41 and the second inclined portion 43 A contact portion 40 configured; And
At the end of the second inclined portion 43 is bent and extended toward the first inclined portion 41 and the fixed plate portion 10 facing each other, the contact portion 40 is pressed down in contact with the terminal And a flat plate support part (50) which is tightly supported in a state of being in surface contact with the fixed plate part (10).
The contact part 40 of claim 1, wherein both sides of the support part 50 are vertically bent upwardly to form the first inclined part 41, the contact part 42, and the second inclined part 43. Contactor, characterized in that it further comprises a wing (60) for blocking the side space.
The method of claim 1, wherein the fixing plate 10 is formed with a positioning hole 11 to be fitted to the fastening projections provided on the PCB substrate to determine the position where the contactor 100 is to be mounted on the PCB substrate during the soldering The contactor (100) is characterized in that it can be stably maintained on the PCB substrate.
3. The contactor according to claim 2, wherein an end of the support portion (50) extends to have a gap distance smaller than the thickness of the plate forming the contact portion (41) and the contactor.
5. The contactor according to claim 4, wherein the contact portion (42) of the contact portion (40) further comprises an embossing (22) having a predetermined area and protruding into a flat surface to contact the terminal side.
6. The contactor according to claim 5, wherein both ends of the fixing plate (10) in the width direction are provided with fillets (12) for adhesion upon mounting on the PCB substrate.

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