KR101106579B1 - Contact apparatus for internal antenna and internal antenna having the same - Google Patents

Abstract

The present invention relates to a contact device of a built-in antenna and an embedded antenna having the same, forming a via hole in an antenna carrier, forming a mounting groove for mounting a connection pin inside the via hole, and forming an antenna radiator inside the mounting groove. So that the connecting pin and the antenna radiator are connected. The lower portion of the connection pin is formed a clip portion electrically connected to the main board of the wireless communication terminal, so that the antenna radiator is electrically connected to the main board through the connection pin and the clip portion. According to the embodiment of the present invention, it is possible to reduce the time for forming the antenna radiator and to maintain a stable electrical connection between the antenna radiator and the main board.

Built-in Antenna, Contacts

Description

CONTACT APPARATUS FOR INTERNAL ANTENNA AND INTERNAL ANTENNA HAVING THE SAME}

The present invention relates to a built-in antenna, and more particularly, to a contact device of a built-in antenna and a built-in antenna having the same to reduce the antenna manufacturing time, and stably maintain contact with the main board of the wireless communication terminal.

With the recent development of information technology (IT) technology, personal communication service (PCS), personal digital assistant (PDA), global positioning system (GPS), cellular phones, and notebook computers that provide various services through wireless data communication And various wireless communication terminals such as DMB (Digital Multimedia Broadcasting) mobile phones have been developed.

The wireless communication terminal is equipped with an antenna for transmitting and receiving a wireless signal, the antenna is divided into an external antenna and an internal antenna according to the mounting position in the wireless communication terminal.

In the case of an external antenna (for example, a rod antenna or a helical antenna), the antenna is protruded from the wireless communication terminal, so the risk of damage is high and it is not used due to design vulnerability. Instead, the internal antenna of the wireless communication terminal is used. Mounted internal antennas are widely used.

In the case of the built-in antenna, an antenna carrier is used to realize desired radiation characteristics by spaced apart from the main board and antenna radiator of the wireless communication terminal and to reduce the SAR (Spacific Absorption Rate).

The antenna carrier is mounted inside the wireless communication terminal, and the antenna radiator formed on the surface of the antenna carrier is electrically connected to the main board of the wireless communication terminal.

1 is a diagram showing a contact structure of a built-in antenna according to a first embodiment of the prior art.

Referring to FIG. 1, the antenna radiator 50 formed on the surface of the antenna carrier 10 may be connected to the main board 20 by a C-clip 30 formed under the antenna carrier 10. Is electrically connected to the

Here, the antenna carrier 10 is formed on the surface of the antenna radiator 50 using a method such as PDS (Print Direct Structure) or LDS (Laser Direct Structure).

By the way, according to the conventional contact structure according to the first embodiment, the antenna radiator 50 must be formed continuously on three surfaces of the antenna carrier 10. For example, for the electrical connection with the main board 20 through the C-clip 30, the antenna radiator 50 should be formed on the top, front and bottom surfaces of the antenna carrier 10, respectively. .

In this case, it is not only troublesome to perform three operations to form the antenna radiator 50, but also takes a long time to manufacture the internal antenna.

In addition, the C-clip 30 and the antenna radiator 50 formed on the lower surface of the antenna carrier 10 abut each other, so that the part contacting the C-clip 30 is worn out, so that the characteristics of the antenna are reduced. There is a risk of deterioration.

2 is a view showing a contact structure of a built-in antenna according to a second embodiment of the prior art.

Referring to FIG. 2, the antenna radiator 50 formed on the surface of the antenna carrier 10 is electrically connected to the main board 20 by a pogo pin 60.

That is, after the through hole 15 is formed in the antenna carrier 10 and the antenna radiator 50 is formed on the surface of the antenna carrier 10, the pogo pin 60 is formed through the through hole 15. The antenna radiator 50 is electrically connected to the main board 20 by the pogo pin 60.

The pogo pin 60 is a device used for the electrical connection between the semiconductor device and the tester to test the electrical characteristics of the semiconductor device, and facilitates the connection between the semiconductor device and the tester, the mechanical generated during the connection In order to alleviate the impact, the spring is mounted inside the pogo pin 60.

By the way, when using the pogo pin 60 as a contact structure of the built-in antenna, due to the spring 65 mounted inside the pogo pin 60, the antenna radiator 50 and the main board 20 The electrical connection between them can be affected.

For example, the tension between the antenna radiator 50 and the main board 20 may vary depending on the tension of the spring 65 mounted inside the pogo pin 60. .

Therefore, a method for shortening the manufacturing time of the built-in antenna and making a stable connection between the antenna radiator and the main board while maintaining the characteristics of the antenna is required.

An object of the present invention is to reduce the manufacturing time of the antenna, to provide a built-in antenna with a contact device of the built-in antenna that can achieve a stable connection between the antenna radiator and the main board while maintaining the characteristics of the antenna.

Other objects and advantages of the present invention can be understood by the following description, and more clearly by the embodiments of the present invention. In addition, the objects and advantages of the present invention can be realized by the means shown in the claims and combinations thereof.

According to an aspect of the present invention, there is provided a contact apparatus of a built-in antenna, including: an antenna carrier mounted inside a mobile communication terminal and having an antenna radiator formed on a surface thereof; A via hole penetrating through a portion where the antenna radiator of the antenna carrier is formed; A connection pin inserted into the via hole and mounted; And a clip part formed between the connection pin and the main board of the mobile communication terminal and electrically connecting the connection pin and the main board.

A mounting groove is formed in the via hole in which the upper end of the connection pin is seated.

The antenna radiator is formed inside the seating groove and is electrically connected to the connection pin.

The clip unit may include a flat portion connected to the main board; And a bent part extending from the flat part and connected to the connection pin.

According to the embodiment of the present invention, since the antenna radiator formed on the upper surface of the antenna carrier is electrically connected to the main board by the connecting pin and the clip portion, the three sides (upper surface, front surface, lower surface) of the antenna carrier are respectively provided. There is no need to form an antenna radiator, which saves time, effort, and cost in forming the antenna radiator.

In addition, a connection pin is used instead of a pogo pin having a spring formed therein, and since the connection pin is stably fixed inside the via hole of the antenna carrier, the connection between the connection pin and the clip part is made stable, thereby The electrical connection between the antenna radiator and the main board is stable without any deviation.

3 and 4, a detailed embodiment of a built-in antenna of a built-in antenna and a built-in antenna having the same will be described with reference to FIGS. 3 and 4. However, this is only an exemplary embodiment and the present invention is not limited thereto.

In describing the present invention, when it is determined that the detailed description of the known technology related to the present invention may unnecessarily obscure the subject matter of the present invention, the detailed description thereof will be omitted. In addition, terms to be described below are terms defined in consideration of functions in the present invention, which may vary according to the intention or custom of a user or an operator. Therefore, the definition should be based on the contents throughout this specification.

The technical idea of the present invention is determined by the claims, and the following embodiments are merely means for efficiently explaining the technical idea of the present invention to those skilled in the art to which the present invention pertains.

Figure 3a is a perspective view showing a contact device of the built-in antenna of the present invention, Figure 3b is an exploded perspective view showing a contact device of the built-in antenna of the present invention.

3A and 3B, the contact device of the built-in antenna includes an antenna carrier 110, an antenna radiator 120, a connection pin 130, a clip unit 140, and a main board 160.

The antenna carrier 110 is mounted in a wireless communication terminal (not shown), and realizes radiation characteristics by spaced apart from the main board 160 and the antenna radiator 120 of the wireless communication terminal, and the electromagnetic wave absorption rate ( To reduce SAR).

A via hole 111 is formed in the antenna carrier 110, and the connection pin 130 is inserted into the via hole 111. A mounting groove 114 is formed in the via hole 111, and an upper end of the connection pin 140 is seated and mounted in the mounting groove 114.

An accommodating groove 117 is formed in the lower portion of the antenna carrier 110 to accommodate the clip 140. That is, in order to provide a space in which the clip unit 140 may be located between the antenna carrier 110 and the main board 160, the accommodation groove 117 is disposed below the antenna carrier 110. To form.

The antenna radiator 120 receives an external signal or transmits a signal generated by the mobile communication terminal to the outside. The antenna radiator 120 is formed on the surface of the antenna carrier 110.

In this case, the antenna radiator 120 may be formed by a PDS (Printing Direct Structuring) or LDS (Laser Direct Structuring) method, but is not limited thereto and may be formed using various methods.

The antenna radiator 120 has excellent radiation characteristics and a decrease in electromagnetic wave absorption rate when the antenna radiator 120 is spaced a predetermined distance from the ground plane formed on the main board 160. To this end, the antenna radiator 120 has a predetermined height and volume on the antenna carrier 110. The antenna radiator 120 is formed.

The antenna radiator 120 should have a sufficient length and width suitable for the frequency band, and may be formed on various surfaces (eg, top, slope, front, side, etc.) of the antenna carrier 110. .

The antenna radiator 120 is also formed inside the seating groove 114, whereby the connection pin 130 is electrically connected to the antenna radiator 120 in the via hole 111.

The connection pin 130 serves to electrically connect the antenna radiator 120 and the main board 160. For example, an upper end of the connection pin 130 is connected to the antenna radiator 120 in the seating groove 114, and a lower end of the connection pin 130 is connected to the main board through the clip unit 140. It is connected to 160.

A locking jaw 131 is formed at an upper end of the connection pin 130 so that the connection pin 130 penetrates the via hole 111 and is seated in the seating groove 114. Is made in a blunt shape to widen the area in contact with the clip portion 140.

The connection pin 130 does not have a spring inside like a pogo pin, and thus there is no fear that a variation in the degree of connection by the spring, such as a pogo pin, may be maintained and the same connection degree may be maintained.

The connection pin 130 may be formed through an insert injection method when the antenna carrier 110 is formed. In detail, when the injection molding of the antenna carrier 110 is performed, after inserting the connection pin 130 into the via hole 111 and performing an insert injection process, the connection pin 130 is inserted into the via hole 111. It can be fixed and formed.

In addition, the connection pin 130 may be fixed in the via hole 111 through a fitting method. Specifically, when forming a projection (for example, a reverse triangular projection) having an upward inclined surface on the outer peripheral surface of the connecting pin 130, and forming a groove corresponding to the projection on the inner wall of the via hole 111, The connection pin 130 may be fixed by being fitted into the via hole 111. At this time, when the connecting pin 130 is inserted into the via hole 111 once, the protrusion formed on the outer circumferential surface is coupled to the groove formed in the inner wall of the via hole 111 so as not to fall out again from the via hole 111. do.

In addition, the connection pin 130 is inserted into the via hole 111, and then the connection pin 130 and the via hole 111 are bonded to each other (for example, welding or using a conductive adhesive) to connect the connection pin ( 130 may be fixed to the inside of the via hole 111, and the connection pin 13 may be inserted into the via hole 111 by using a screw coupling method. The connection pin 130 may be inserted and fixed in the via hole 111 through various methods.

The clip unit 140 is formed between the connecting pin 130 and the main board 160 in the receiving groove 117 of the antenna carrier 110, the connecting pin 130 and the main board ( 160 is electrically connected.

The clip portion 140 is a flat portion 141 in contact with the circuit pattern 165 of the main board 160 and a bent portion 144 extending from the flat portion 141 and in contact with the connection pin 130. ). The bent portion 144 has a shape in which a portion is recessed so that the lower end of the connection pin 130 is stably seated and in contact.

In other words, the clip portion 140 is a modified form of the C-clip, the clip portion 140 in the shape of the C-clip to allow the connection pin 130 is seated and contacted (depressed portion) This is formed to extend.

According to the embodiment of the present invention, since the antenna radiator formed on the upper surface of the antenna carrier is electrically connected to the main board by the connecting pin and the clip portion, the three sides (upper surface, front surface, lower surface) of the antenna carrier are respectively provided. There is no need to form an antenna radiator, which saves time, effort, and cost in forming the antenna radiator.

In addition, a connection pin is used instead of a pogo pin having a spring formed therein, and since the connection pin is stably fixed inside the via hole of the antenna carrier, the connection between the connection pin and the clip part is made stable, thereby The electrical connection between the antenna radiator and the main board is made stable without deviation.

4 is a cross-sectional view showing a contact device of a built-in antenna of the present invention.

Referring to FIG. 4, in a state where the upper end of the connection pin 130 is seated in the seating groove 114 of the antenna carrier 110, the connection pin 130 is disposed in the via hole 111 of the antenna carrier 110. Inserted and mounted.

Here, the antenna radiator 120 is formed inside the seating groove 114, and the connection pin 130 is electrically connected to the antenna radiator 120 in the seating groove 114.

In addition, the lower end of the connecting pin 130 is connected to the clip unit 140 located in the receiving groove 117 of the antenna carrier 110. In detail, the lower end of the connection pin 130 is seated at a recessed portion of the bent portion 144 of the clip portion 140 and is electrically connected to the clip portion 140.

Since the flat part 141 of the clip part 140 is formed to be connected to the circuit pattern 165 of the main board 160, the antenna radiator 120 is connected to the connection pin 130 and the clip part 140. By the main board 160 is electrically connected to.

Although the present invention has been described in detail through the exemplary embodiments above, those skilled in the art to which the present invention pertains can make various modifications to the above-described embodiments without departing from the scope of the present invention. I will understand.

Therefore, the scope of the present invention should not be limited to the described embodiments, but should be determined not only by the claims below but also by the equivalents of the claims.

1 is a view showing a contact structure of a built-in antenna according to a first embodiment of the prior art.

2 is a view showing a contact structure of a built-in antenna according to a second conventional embodiment.

Figure 3a is a perspective view showing a contact device of the built-in antenna of the present invention.

Figure 3b is an exploded perspective view showing a contact device of the built-in antenna of the present invention.

4 is a cross-sectional view showing a contact device of a built-in antenna of the present invention.

Explanation of symbols on the main parts of the drawings

110: antenna carrier 111: via hole

114: seating groove 117: storage groove

120: antenna radiator 130: connection pin

131: locking jaw 140: clip portion

141: flat portion 144: bent portion

160: motherboard 165: circuit pattern

Claims (8)

An antenna carrier mounted inside the mobile communication terminal and having an antenna radiator formed on a surface thereof; A via hole penetrating through a portion where the antenna radiator of the antenna carrier is formed; A connection pin inserted into the via hole and having a protrusion having an upwardly inclined surface on an outer circumferential surface thereof; And And a clip part formed between the connection pin and the main board of the mobile communication terminal and electrically connecting the connection pin and the main board. A groove corresponding to the protrusion is formed in an inner wall of the via hole, and the connection pin is fixed in the via hole in combination with the groove when the connection pin is inserted into the via hole. delete delete The method of claim 1, A mounting groove is formed in the via hole in which the upper end of the connection pin is seated. The antenna radiator is formed in the seating groove is electrically connected to the connecting pin, the built-in antenna contact device. The method of claim 1, The antenna carrier, A contact device of a built-in antenna is formed in the lower portion of the antenna carrier for receiving grooves for receiving the clip. The method of claim 1, The clip unit, A flat part connected to the main board; And And a bent portion extending from the flat portion and connected to the connection pin. The method of claim 6, The bent portion, Part of the bent portion is made of a recessed shape that the lower end of the connection pin, the contact device of the built-in antenna. The method according to any one of claims 1 or 4 to 7, Built-in antenna comprising the contact device.

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