KR101370528B1 - Antenna provided with one piece helical element - Google Patents

Abstract

The present invention relates to an antenna having an integrated helical element, and more particularly, to reduce the manufacturing process and the number of parts by reducing the manufacturing process and the number of parts by machining the connector and the coil unit integrally with a metal material and at the same time eliminates the need for bobbins to support the coil. The present invention relates to an antenna provided with an integrated monolithic helical element.
Integrated helical antenna according to an embodiment of the present invention, the helical section is made of a metallic material having a tube and conductive, and formed by spiral machining on one side of the tube; A thread formed by tapping on the other side of the pipe; It includes a first flange formed by the step machining inside the screw portion.

Description

ANTENNA PROVIDED WITH ONE PIECE HELICAL ELEMENT}

The present invention relates to an antenna having an integrated helical element, and more particularly, to reduce the manufacturing process and the number of parts by reducing the manufacturing process and the number of parts by machining the connector and the coil unit integrally with a metal material and at the same time eliminates the need for bobbins to support the coil. The present invention relates to an antenna provided with an integrated monolithic helical element.

In general, a wireless communication terminal is provided with an antenna for transmitting and receiving radio waves containing an electrical signal.

In such an antenna, the structure of the antenna has a high correlation with the wavelength of radio waves to be transmitted and received. When the length of the antenna is an integer multiple of 1/2 of the wavelength, the antenna becomes resonant and can effectively receive radio waves of this wavelength. Thus, many antennas whose antennas are one-half or one-fourth the wavelength in length are used in the case of rod antennas, which are several tens of centimeters in length. The rod antenna has such a long length that it is practically and aesthetically problematic. Especially, in the case of portable terminals such as mobile phones and vehicle terminals, which are widely used recently, the antenna is not useful for DMB viewing in the frequency band of 174 MHz to 216 MHz. Many methods have been developed to reduce the length of the receiver but do not lose reception efficiency, such as using a helical antenna, inserting a loading coil, and using a helical antenna and a load antenna in combination.

In particular, recently, a method of increasing a resonance frequency by inserting a loading coil into a rod antenna is widely used. The structure of such an antenna is a connector that forms an electrical connection, a coil processed in a helical shape, and a bobbin, which is a reinforcing material that maintains the shape of the coil. It consists of a plastic injection molding which covers the coil and forms an external appearance.

1 shows an example of an antenna equipped with a loading coil. As shown in Figure 1, in manufacturing a conventional helical antenna, it is shown that consists of a plurality of components that require a variety of molding or processing techniques.

In addition, the Republic of Korea Patent No. 10-0536572 Helical antenna and its manufacturing method is registered.

The present invention relates to a helical antenna and a method of manufacturing the same. More specifically, two dielectric bodies each having a helical groove formed on an outer circumferential surface thereof are separately formed, and the antenna is formed using MEMS (Micro Electro Mechanical System) process technology or injection molding. The present invention relates to a helical antenna capable of forming a very small size of the helical antenna, and to a simple manufacturing and mass production, and a method of manufacturing the same.

This invention utilizes MEMS process technology to reduce the manufacturing process of helical antenna and enable mass production, but has the difficulty that the parts must be correctly joined by using two dielectric bodies divided symmetrically. This also has a problem to be solved in mass production.

In order to facilitate mass production, the process must be simplified, the number of parts and the manual labor must be reduced. For mass production of helical antennas, parts development should be made in this respect as well.

The present invention has been made in order to solve the above-mentioned requirements, the one-piece integrally made to reduce the manufacturing process and the number of parts and increase the productivity by eliminating the need for bobbins to support the coil while processing the connector and the coil unit integrally with a metal material The object is to provide an antenna with a helical element.

In order to achieve the above object, the antenna provided with an integrated helical element according to an embodiment provided as an aspect of the present invention is made of a metallic material having a tube and a conductivity, and formed by spiral machining on one side of the tube. A helical section; A thread formed by tapping on the other side of the pipe; It includes a first flange formed by the step machining inside the screw portion.

Preferably, the method further comprises a second flange spaced inside the first flange and formed by step machining.

In addition, a knurling portion is formed between the first flange and the second flange.

Preferably, in all the examples described above, the metal material is made of copper.

In one embodiment provided by another aspect of the present invention, the antenna rod; An integral helical element inserted below the antenna rod; A connector to which the integral helical element is screwed; It includes a hinge pipe to which the connector is rotatably coupled, the integral helical element is made of a metallic material having a tube and conductive, helical section formed by the spiral machining on one side of the tube, the tapping on the other side of the tube There is provided an antenna comprising a screw portion formed by the first flange formed by the step processing inside the screw portion, and a second flange formed by the step processing spaced apart from the inside of the first flange.

The main components of the helical antenna, the connector and the coil part are processed in one piece of metal, and the bobbin supporting the coil is eliminated, thereby reducing the manufacturing process and the number of parts and increasing productivity.

It is easy to mass production by using the integrated helical element that the manufacturing process is simple and batch operation by CNC machine is possible.

1 is a perspective view and an exploded perspective view of a helical antenna according to the prior art.
2 is a perspective view of an integrated helical antenna element according to an embodiment of the present invention.
3 is a front view of the integrated helical antenna according to another embodiment of the present invention.
4 is an exploded perspective view of an integrated helical antenna as an embodiment provided by another aspect of the present invention.
5 is a cross-sectional view of the combination of FIG.

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings.

The subject matter of the present invention relates to an integrated helical element and an antenna provided with the integrated helical element.

An integral helical element provided as an aspect of the present invention includes a helical section 10 formed of a metallic material having a tube and having a conductivity, and formed by spiral machining on one side of the tube; A thread portion 20 formed by tapping on the other side of the tube; The first flange 30 is formed inside the threaded portion 20 by step machining.

First, in order to grasp the characteristics through comparison with the prior art, Figure 1 is an exploded perspective view of the helical antenna according to the prior art. As shown in FIG. 1, the structure of a general helical antenna having a built-in loading coil includes a lower connector forming an electrical connection, a coil processed in a helical shape, a bobbin (or insulator) and a bobbin (or insulator), which is a reinforcing material that maintains the coil shape. It consists of an upper member, a rod antenna, and the like for supporting.

Incorporating a coil into the antenna increases the resonant frequency, thereby reducing the length of the antenna and increasing reception efficiency. In particular, the coil used in the helical antenna is used as a loading coil, which is usually formed by winding an enamel wire in a coil shape on an insulator, or forming a spiral receiving groove on the surface of the insulator. A method of filling a conductive compound to provide a loading coil is used.

However, in order to improve productivity while improving reception sensitivity, it is necessary to automate while reducing the complicated process required in the case of using enameled coils or inserting a large amount of conductive compound. There is. Therefore, the present invention leads to a method for reducing the helical antenna components and at the same time simplifying and standardizing the production process.

According to the present invention, by processing the metal material in the form of a tube by a CNC machine, it is possible to produce an integral helical element, and also to easily produce in large quantities, and to make an antenna using the same.

The configuration of an integrated helical element according to an embodiment of the present invention will be described in detail. 2 is a perspective view of an integrated helical element according to an embodiment of the present invention, and FIG. 3 is a front view of the integrated helical element according to another embodiment of the present invention.

Referring to FIG. 2, a rod or tube having a diameter corresponding to the outer circumferential surface of the helical element portion and a length from the helical element portion to the threaded portion is a processing material. Of course, depending on the processing sequence, it may be processed by cutting long rods or intestines with diameters corresponding to the outer circumferential surface into unit lengths after processing.

CNC machining is performed using the basic materials that are conductive such as rods and tubes as above. The following is an example of CNC machining process.

First, when the material is a rod, the rod is fixed to the CNC machine and the hole is formed around the axis to form a hole 11 passing through the rod in the longitudinal direction. Thereafter, the helical section 10 is formed by spirally machining the outer circumferential surface of one side of the rod (pipe). After that tapping on the other side of the rod (tube) to form a screw portion (20). Thereafter, the step is processed into the inside of the screw portion 20 to form the first flange 30 to be completed.

The integrated operation is possible by the CNC machine without the need for separate manual work or other work processes, so that an integrated helical element with high precision and suitable for mass production can be produced.

Referring to FIG. 3, an integrated helical antenna according to another embodiment of the present invention will be described. Including the configuration of the above-described example, the second flange 40 is formed by performing step processing at a position spaced inwardly of the first flange. The knurling portion 50 is formed between the first flange and the second flange by knurling processing.

The knurling portion 50 may serve to seat the molded workpiece or fix the rod antenna.

Preferably, in all the above-described examples, the metal material is made of copper.

As the integral helical element is processed by the collective operation by the CNC machine as described above, the manual work in the case of working the enameled coil is unnecessary, and the components of the bobbin required to support the shape of the coil are also unnecessary. Therefore, mass production becomes easy and it becomes possible to standardize.

In another aspect of the present invention, there is provided an antenna provided with the aforementioned integral helical element, which will be described in detail.

An antenna having an integrated helical element provided as another aspect of the present invention includes: an antenna rod 130; An integral helical element 100 inserted below the antenna rod 130; A connector 110 to which the unitary helical element 100 is screwed; The connector 110 includes a hinge pipe 120 that is rotatably coupled, the integral helical element 100 is a helical section formed of a metallic material with a conductive pipe, and formed on one side of the tube by spiral machining And a threaded portion formed by tapping on the other side of the pipe, a first flange formed by stepping on the inside of the threaded portion, and a second flange spaced apart from the inside of the first flange by stepped processing. .

An embodiment of an antenna having an integrated helical element will be described with reference to FIGS. 4 and 5.

The hinge pipe 120 includes a lower pipe part 126 inserted into a portable terminal and the like, and a hinge part 121 to which the connector 110 described later is hinged. The pipe part 126 is inserted into the portable terminal to secure a space in which the antenna can be inserted when the antenna is not used, and the hinge part 121 is connected to the portable terminal when the antenna is pulled out of the portable terminal. Allow exposure to the outside. The upper portion of the hinge portion 121 is formed with a straight groove 122 at the center, and a through groove 123 extending vertically to the outside of the hinge portion 121 is formed at the center of the straight groove 122.

The connector 110 is formed with a circular tube 111 having a screw groove 112 in the upper portion and a flat plate 113 having a through hole 114 in the lower portion thereof. The flat plate 113 of the connector 110 is inserted into the flat groove 122 of the hinge pipe 120, the through groove 123 formed in the flat groove 122 of the hinge pipe 120 and the flat plate of the connector 110 It is rotatably coupled by a pin 125 connecting the through hole 114 formed in the 113.

The integrated helical element 100 is applied to the integrated helical element of the above-described embodiment. The lower threaded portion of the unitary helical element 100 is screwed into the threaded groove 112 of the connector 110.

Antenna rod 130 is a general multi-stage antenna of the rod shape. The integrated helical element 100 is inserted into the lower end of the antenna rod 130, and the antenna rod 130 is coupled to the nulling portion 50 of the integrated helical element 100. Although not shown, a sealing member may be coupled to a portion where the antenna rod 130 and the connector 110 are connected to each other to increase mutual coupling while maintaining airtightness, and the antenna rod 130 and the connector 110 may be The site to be joined may be joined by electro welding.

In addition, although not shown, the integrated helical antenna according to the present invention may be used independently in constructing the antenna, or may be used in combination with a linear antenna.

Although the present invention has been described in connection with the above-mentioned preferred embodiments, it will be apparent to those skilled in the art that various modifications and variations can be made without departing from the spirit and scope of the invention, It is obvious that the claims fall within the scope of the claims.

10 helical section 20 threads
30 1st flange 40 2nd flange
50 Knurled 100 Helical Element
110 End Connection 120 Hinge Pipe
130 load antenna

Claims (5)

Made of a metallic material which is made of a tube and is conductive,
A helical section formed by a spiral machining on an upper side of the pipe;
A thread formed by tapping on the lower side of the pipe; And
And a first flange formed between the screw portion and the helical section through a step machining.
A second flange is formed through the step processing between the first flange and the helical section while being spaced apart from the first flange,
An integral helical element, wherein a knurling portion is formed between the first flange and the second flange through a knurling process.
delete delete The unitary helical element according to claim 1, wherein the metal material is made of copper.
Antenna rod;
An integral helical element inserted below the antenna rod;
A connector to which the unitary helical element is screwed; And
It includes a hinge pipe to which the connector is rotatably coupled,
The unitary helical element is made of a metallic material having a tube and has a conductive property, and is formed by a helical section on one side of the tube, a thread formed by tapping on the other side of the tube, and the inside of the screw portion. A helical antenna comprising a first flange formed by the step processing, and a second flange formed by the step processing spaced apart from the inside of the first flange.

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