KR102267698B1 - Electronic connector - Google Patents

Abstract

The present invention relates to a board connector for an electronic device to maximize a movable length by elastic movement according to torsional deformation rather than bending deformation according to the immersion of a connection pin part in accordance with the connection with a connection object but also improve a connection force by rotating connection during the operation process. The board connector for the electronic device comprises: a pin plate configured to be formed in a circular plate shape to form a connection support force with a connection object; and a connection pin part protruding into a rod shape by deep drawing molding at a center of the pin plate.

Description

Board connector for electronic devices {Electronic connector}

The present invention relates to a board connection connector for an electronic device, and more particularly, in the board connection connector for an electronic device, the connection pin part is arc-shaped so that the connection pin part is connected in a first minute rotation according to the immersion movement of the connection pin part on the plate support arms on both sides of the pin plate The primary coil spring arm protruded and provided, and the connection pin parts that have been finely rotated to the ends of the both primary coil spring arms are connected to each other in the reverse direction, so that the spring arm connection bars protrude downward, respectively, and the both sides of the spring arm are connected. A secondary coil spring arm provided with arc-shaped protrusions in the opposite direction to the protrusion of the primary coil spring arm so as to increase the rotation amount of the connection pin at the lower end of the bar, elastic support force is applied to the lower part of the secondary coil spring arm on both sides The tertiary coil spring arm is provided with arc-shaped protrusions in the opposite direction to the secondary coil spring arm so as to induce the immersion movement of the connection pin between the ends of the secondary coil spring arms on both sides and the ends of the tertiary coil spring arms. Forms a vertical elastic support force according to the required vertical elastic support, and the plate secondary coil spring arm and plate tertiary coil spring arm are respectively bent to prevent excessive rotational connection of the connection pin during the elastic deformation process and to limit the outward expansion of each coil spring arm. A vertical elastic immersion portion provided to be formed, a solder end formed in a plate shape so as to be mounted on a substrate on both sides of a solder support bar provided perpendicularly to the end of the tertiary coil spring arm, and each provided so as to be engaged with each other. According to the immersion of the connection pin part according to the connection with the object, it is possible to maximize the movable length by elastic movement according to torsional deformation rather than bending deformation, and to improve the connection force by rotation connection during the operation process. is intended for

In general, a board connection connector for an electronic device is mounted on a board of an electronic device so that an electrical connection is made by elastic contact with a connection object such as a battery or a case connected to the board.

The board connection connector for electronic devices as described above is divided into a "C" clip-type board connection connector formed in a "C" shape by bending a plate and a pogo pin type connection connector in which the connection part protrudes in a pin shape.

On the other hand, the pogo pin-type board connection connector is composed of a connector body that is deep-drawn into a rod shape and a connection pin that is elastically supported by a spring to the upper portion of the connector body and protrudes. Deep drawing of the connector body requires a lot of cost. The configuration is composed of a connector body, a connection pin, and a spring, and there is a problem in that a separate assembly process is required, which increases the production cost, and the Republic of Korea Patent No. 10-2194620 "Board connection connector for electronic devices" was developed. and is being applied.

The board connection connector for the previous device is a pin plate 10, a connection pin part 20, a plate fixing arm 31, a plate spring arm 32, a movable elastic part 40, a solder spring arm 50, as disclosed. and a solder stage 60 .

The pin plate 10 is formed in a square plate shape to form a connection support force with the connection object.

The connection pin 20 is formed by deep drawing molding from the center of the pin plate 10 to the top to protrude in the shape of a rod.

The plate fixing arm 31 protrudes parallel to one side of the pin plate 10 at two symmetrical corners among the four corners of the pin plate 10 and is composed of two.

The plate spring arm 32 is a pin plate together with the plate fixing arm 31 according to the immersion movement of the connection pin part 20 according to the connection with the connection object of the connection pin part 20 at the end of the plate fixing arm 31 . (10) is protruding parallel to the side of the pin plate (10) to induce immersion operation.

The movable elastic part 40 has two plate springs in the lower part of the pin plate 10 to form an elastic support force for the immersion movement of the connection pin part 20 according to the connection with the connection object of the connection pin part 20 . It is continuously formed in the arm (32).

The solder spring arm 50 is attached to the lower part of the movable elastic part 40 with respect to the immersion movement of the connection pin part 20 according to the connection with the connection object of the connection pin part 20 . It is provided to form a connection support force.

The solder stage 60 is plate-shaped so that it can be mounted on a substrate on the solder spring arm 50 .

In such a conventional electronic device board connection connector, the connection pin part 20 is integrally formed with the movable elastic part 40, so a separate assembly process is not required, thereby improving productivity, and the plater spring arm and the movable spring arm 41. , the contact support force is maintained through the movable elastic part 40 and the solder spring arm 50 .

However, in the conventional board connection connector for electronic devices as described above, due to its design, rotation is not clear during the lifting and lowering operation of the connection pin part 20, so the contact force is not increased due to rotational contact with the connection object, and the connection pin part ( In the elevating operation process of 20), the elastic support part composed of the plater spring arm, the movable spring arm 41, the movable elastic part 40 and the solder spring arm 50 is extended to the outside to accommodate the electronic device board connection connector. There was a problem in that interference with the inner wall of the housing 1 was induced.

Korean Patent No. 10-2194620

Therefore, the present invention does not increase the contact force due to rotational contact with the connection object because the conventional board connection connector for electronic devices does not rotate clearly during the lifting and lowering operation of the connection pin part by design, as described above, and the connection pin part In order to solve the problem of causing interference with the inner wall of the connector housing that accommodates the board connection connector for electronic devices, the elastic support part consisting of the plater spring arm, the movable spring arm, the movable elastic part and the solder spring arm is extended outward during the lifting operation. will do

That is, the present invention relates to a board connection connector for electronic devices, which is formed in a circular plate shape and provided in a circular plate shape so as to form a connection support force with a connection object, and is formed by deep drawing molding at the center of the pin plate to protrude into a rod shape. Connection pin part, plate support arms each protruding so as to form a symmetry to support the pin plate on both sides of the pin plate, and immersion of the connection pin part according to the connection of the connection pin part with a connection object on one side of the both side plate support arms A primary coil spring arm provided with arc-shaped protrusions each maintaining a certain distance along the outside of the pin plate so that the connecting pin part is connected in a first minute rotation according to movement, and a primary coil spring at the ends of the both sides of the primary coil spring arm Spring arm connection that supports the arm vertically and protrudes downward so that the finely rotated connection pin part can be rotated in the reverse direction while being pulled inward against the downward elastic deformation of the primary coil spring arm according to the continuous immersion of the connection pin part Bar, secondary coils each provided with arc-shaped protrusions in the opposite direction of the protrusion of the primary coil spring arm so as to increase the amount of rotation of the connection pin part in the continuous immersion operation of the connection pin part at the lower end of the spring arm connection bar on both sides. A spring arm, a tertiary coil spring arm provided with an arc-shaped protrusion in the opposite direction of the secondary coil spring arm to induce an elastic support force against the continuous immersion of the connection pin in the lower portion of the secondary coil spring arm on both sides; Between the ends of the secondary coil spring arms on both sides and the ends of the tertiary coil spring arms, a vertical elastic support force is formed according to the immersion operation of the connection pin, and the plate secondary coil spring arm and the plate tertiary coil spring arm are elastically deformed. A vertical elastic immersion part bent in a ">" shape that is spread outward to prevent excessive rotational connection of the connection pin part and to limit the outward spread of each coil spring arm, the ends of the tertiary coil spring arms on both sides Solder support bars provided vertically so as to secure and support an elastic movable distance to the bottom of the tertiary coil spring arm, are formed in a plate shape so that they can be mounted on a substrate on the both sides of the solder support bars, and are provided so that they can be engaged with each other Solder stage It is characterized in that it is composed of

Therefore, the present invention relates to a primary coil spring arm provided by arc-shaped protrusion formed so that the connection pin part is connected in a first minute rotation according to the immersion movement of the connection pin part to the plate support arms on both sides of the pin plate and the both sides of the primary coil spring arm. A spring arm connection bar each protruding downward so that the connection pin part rotated at the end can be rotated in the reverse direction, and a primary coil spring arm to increase the rotation amount of the connection pin part at the lower end of the both sides of the spring arm connection bar. The secondary coil spring arms are provided with arc-shaped protrusions in the opposite direction of the protrusion, and arc-shaped protrusions are respectively formed in the opposite direction of the secondary coil spring arms to induce elastic support force in the lower portions of the secondary coil spring arms on both sides. The tertiary coil spring arm, between the ends of the secondary coil spring arm on both sides and the end of the tertiary coil spring arm, forms a vertical elastic support force according to the immersion operation of the connection pin, and the plate secondary coil spring arm and the plate tertiary Vertical elastic immersion portions each bent so as to prevent excessive rotational connection of the connection pin during the elastic deformation process of the coil spring arm and limit the outward bulging of each coil spring arm, perpendicular to the end of the tertiary coil spring arm It is formed in a plate shape so that it can be mounted on the board on both sides of the provided solder support bar and consists of solder ends each provided so that they can be engaged and coupled, so that the immersion of the connection pin according to the connection with the connection object is reduced to torsional deformation of each coil spring arm It is absorbed by the elastic movement and maximizes the movable length of the connection pin, and has the effect of improving the connection force by the rotation connection in the operation process.

1 to 3 are a perspective view and a cross-sectional view showing a conventional connection connector.
4 is a perspective view showing an embodiment of the present invention;
5 is a front view showing an embodiment of the present invention.
6 is a side view showing an embodiment of the present invention.
7 is an exemplary view of the application process of the present invention.

Hereinafter, it will be described in detail with reference to the accompanying drawings.

The present invention is such that the elastic support of the connection pin part according to the connection with the connection object is elastically supported by torsional deformation, so that the support durability and the connection force are improved by the rotation connection of the connection pin part. Terms used in the present specification and claims B words should not be construed as being limited to the ordinary or dictionary meanings, and the present invention is based on the principle that the inventor can appropriately define the concept of the term in order to explain his invention in the best way. It must be interpreted as a meaning and concept consistent with the idea.

Accordingly, the embodiments described in the present specification and the configurations shown in the drawings are only the most preferred embodiment of the present invention, and do not represent all of the technical spirit of the present invention, so they can be substituted at the time of the present application. It should be understood that various equivalents and modifications may exist.

That is, in the present invention, in the board connection connector for electronic devices, the pin plate 110 and the connection pin part 120 , the plate support arm 130 , the primary coil spring arm 140 , the spring arm connection bar 150 , 2 It is composed of a primary coil spring arm 160 , a tertiary coil spring arm 170 , a vertical elastic immersion part 180 , a solder support bar 190 , and a solder stage 200 .

Here, the plate is provided in a circular plate shape to form a connection support force with the connection object.

And, the connection pin part 120 is formed to protrude in the shape of a rod by deep drawing molding in the center of the pin plate (110).

The connecting pin 120 is formed by deep drawing with a length of 1.7 to 1.9 times the diameter, and is formed by deep drawing with a length of 1 to 2 mm as a tubular body having a diameter of 0.5 to 1.5 mm.

In addition, the plate support arm 130 is provided on both sides of the pin plate 110 to form a symmetrical protrusion to support the pin plate 110 .

In addition, the primary coil spring arm 140 is connected to one side of the plate support arm 130 on both sides according to the immersion operation of the connection pin part 120 according to the connection with the connection object of the connection pin part 120 to the connection pin part 120. It is provided with arc-shaped protrusions formed at regular intervals along the outside of the pin plate 110 to be connected to the first minute rotation.

In addition, the spring arm connection bar 150 vertically supports the primary coil spring arms 140 at the ends of the primary coil spring arms 140 on both sides, and the primary coil spring according to the continuous immersion of the connection pin part 120 . The connection pin 120, which is pulled inward against the downward elastic deformation of the arm 140 and rotated finely, is provided to protrude downward so that the connection pin 120 can be rotated in the reverse direction.

In addition, the secondary coil spring arm 160 is the primary to increase the amount of rotation of the connection pin part 120 in the continuous immersion operation of the connection pin part 120 at the lower end of the spring arm connection bar 150 on both sides. Each of the coil spring arms 140 is provided with arc-shaped protrusions in opposite directions.

In addition, the tertiary coil spring arm 170 is opposite to the secondary coil spring arm 160 so as to induce an elastic support force against the continuous immersion of the connection pin part 120 in the lower portion of the secondary coil spring arm 160 . It is provided with arc-shaped protrusion in the direction.

In addition, the vertical elastic immersion part 180 forms a vertical elastic support force according to the immersion operation of the connection pin part 120 between the ends of the secondary coil spring arms 160 and the ends of the tertiary coil spring arms 170 on both sides. In addition, the plate secondary coil spring arm 160 and the plate tertiary coil spring arm 170 prevent excessive rotational connection of the connection pin part 120 during the elastic deformation process, and limit the outward bulging of each coil spring arm. Each of them is bent and formed in a ">" shape that opens outward.

In addition, the solder support bars 190 are provided vertically at the ends of the tertiary coil spring arms 170 on both sides so that they can be supported by securing an elastic movable distance to the bottom of the tertiary coil spring arm 170 .

In addition, the solder end 200 is formed in a plate shape so as to be mounted on the substrate on both sides of the solder support bar 190 is characterized in that it is configured with each provided so as to be engaged with each other.

An engaging groove 211 is formed in one solder end 200 of the both sides of the solder end 200 , and an engaging protrusion 212 is formed in the other solder end 200 .

Solder binding holes 220 are formed through the solder stage 200 to increase binding force with the solder during the mounting process.

On the other hand, each spring arm is composed of a wire rod having a square cross section.

Hereinafter, the effect of the application of the present invention will be described as follows.

As described above, in the board connection connector for electronic devices, the pin plate 110 is formed and provided in a circular plate shape so as to form a connection support force with the connection object, and a deep drawing molded rod is formed at the center of the pin plate 110 . The connection pin part 120 protruding in a shape, the plate support arms 130 each protruding so as to form a symmetry so as to support the pin plate 110 on both sides of the pin plate 110 , and the both sides of the plate support arm Along the outside of the pin plate 110 so that the connection pin part 120 is connected to the first fine rotation according to the immersion operation of the connection pin part 120 according to the connection with the connection object of the connection pin part 120 on one side of the 130. The primary coil spring arms 140 are provided with arc-shaped protrusions formed at regular intervals, respectively, and the primary coil spring arms 140 are vertically supported at the ends of the both sides of the primary coil spring arms 140, and the connection pin part 120 ), which is pulled inward against the downward elastic deformation of the primary coil spring arm 140 according to the continuous immersion of the spring arm connection, each protruding downward so that the finely rotated connection pin part 120 can be rotated in the reverse direction. Bar 150, the primary coil spring arm 140 to increase the amount of rotation of the connection pin part 120 in the continuous immersion operation of the connection pin part 120 at the lower end of the spring arm connection bar 150 on both sides. The secondary coil spring arm 160, which is provided with arc-shaped protrusions formed in opposite directions of the protrusion, can induce elastic support force against the continuous immersion of the connection pin part 120 in the lower part of the secondary coil spring arm 160 on both sides. The tertiary coil spring arm 170 is provided with arc-shaped protrusions in the opposite direction of the secondary coil spring arm 160, the ends of the secondary coil spring arm 160 on both sides and the tertiary coil spring arm 170 Forms a vertical elastic support force according to the immersion operation of the connection pin part 120 between the ends of the plate secondary coil spring arm 160 and the plate secondary coil spring arm 170 in the elastic deformation process of the connection pin part 120 ) to prevent excessive rotational connection and to limit the outward expansion of each coil spring arm. The vertical elastic immersion part 180 provided by bending in a ">" shape, and the bottom of the tertiary coil spring arm 170 at the ends of the both sides of the tertiary coil spring arm 170 can be supported by securing an elastic movable distance. The present invention consisting of solder support bars 190 provided vertically so as to be mounted on a substrate on the both sides of the solder support bars 190, and solder ends 200 provided respectively so that they can be engaged and engaged. When applied and implemented, the immersion of the connection pin part 120 according to the connection with the connection object is absorbed by the elastic movement according to the torsional deformation of each coil spring arm, thereby maximizing the movable length of the connection pin part 120 .

In addition, the connection force is improved by the fine rotation of the primary coil spring and the reverse rotation by the spring arm connection bar 150 and the secondary coil spring arm 160 .

1: Connector housing
10: pin plate
20: connection pin part
31: plate fixing arm 32: plate spring arm
40: movable elastic part
41: movable spring arm
50: solder spring arm
60: solder stage
110: pin plate
120: connection pin part
130: plate support arm
140: primary coil spring arm
150: spring arm connection bar
160: secondary coil spring arm
170: tertiary coil spring arm
180: vertical elastic immersion part
190: solder support bar
200: solder stage
211: interlocking groove
212: engaging projection
220: solder binding hole

Claims (4)

A board connection connector for electronic devices;
A pin plate 110 formed in a circular plate shape to form a connection support force with a connection object, and a connection pin part 120 formed to protrude into a rod shape by deep drawing molding at the center of the pin plate 110, the Plate support arms 130 each protruding so as to form a symmetry to support the pin plate 110 on both sides of the pin plate 110, and the connection pin part 120 on one side of the both sides of the plate support arms 130. According to the immersive operation of the connection pin part 120 according to the connection with the connection object, the connection pin part 120 is formed by arc-shaped protrusions while maintaining a certain distance along the outside of the pin plate 110 so that the first minute rotation connection is made. The primary coil spring arm 140 vertically supports the primary coil spring arm 140 at the ends of the primary coil spring arms 140 on both sides and the primary coil spring arm according to the continuous immersion of the connection pin part 120 . The spring arm connection bar 150, the both sides of the spring arm connection bar, each protruding downward so that the connection pin 120, which is pulled inward against the downward elastic deformation of 140 and rotated in the reverse direction, can be rotated in the reverse direction ( 150), each arc-shaped protrusion is formed in the opposite direction of the protrusion of the primary coil spring arm 140 so as to increase the amount of rotation of the connection pin unit 120 in the continuous immersion operation of the connection pin unit 120 at the lower end. The secondary coil spring arm 160, the opposite direction of the secondary coil spring arm 160 to induce an elastic support force against the continuous immersion of the connection pin part 120 in the lower portion of the secondary coil spring arm 160 on both sides The tertiary coil spring arm 170 provided with an arc-shaped protrusion is formed with each, and the connecting pin 120 is moved between the ends of the secondary coil spring arms 160 on both sides and the ends of the tertiary coil spring arm 170 . Forms a vertical elastic support force according to the above, and the plate secondary coil spring arm 160 and plate tertiary coil spring arm 170 prevent excessive rotational connection of the connection pin part 120 during the elastic deformation process, and each coil spring arm Vertical elastic immersion portion 180, each of which is bent and provided to limit the outer bulging of the tertiary coil spring arm 170 Solder support bars 190 provided vertically so that they can be supported by securing an elastic movable distance to the bottom of the tertiary coil spring arm 170 at the end of the tertiary coil spring arm 170, and can be mounted on the substrate on the solder support bars 190 on both sides. It is formed in a plate shape so that it is composed of solder stages 200 each provided so as to be engaged with each other;
The connection pin part 120 is formed by deep drawing with a length of 1.7 to 1.9 times the diameter, and is a tube body having a diameter of 0.5 to 1.5 mm, and is formed by deep drawing to a length of 1 to 2 mm.
The method of claim 1 ;
The vertical elastic recessed portion 180 is an electronic device board connection connector, characterized in that formed in a ">" shape spread outward.
The method of claim 1 ;
An engaging groove 211 is formed in one solder end 200 of the both sides of the solder end 200 and an engaging protrusion 212 is formed in the other solder end 200.
The method of claim 1 ;
Each of the spring arms is an electronic device board connection connector, characterized in that it is composed of a wire with a square cross section.

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