KR20100053735A - Helical antenna comprising a pair of helical structure - Google Patents

Abstract

PURPOSE: A helical antenna of 2 phases is provided to accomplish the slimming and miniaturization of a device by equipping a helical structure in two layers on both the upper part and the lower part of the antenna. CONSTITUTION: A rod antenna unit(110) comprises a plurality of conductor cylinders formed as a type of multilayered telescope. An antenna supporting unit(130) is connected to the bottom of the rod antenna unit. A first helical structure is formed inside the antenna supporting unit. An antenna head unit(150) is connected to the upper end of the rod antenna unit. A second helical structure is formed inside the antenna head unit. The electrical length of the antenna is expanded through the properties of inductance formed by the first helical structure and the second helical structure.

Description

Two-stage helical antenna. {Helical Antenna comprising a pair of helical structure}

The present invention relates to a helical antenna, and more particularly, to a two-stage helical antenna that separates a helical structure that is easily broken into two stages and forms a position in which a helical structure can be protected from damage.

Mobile communication terminals or broadcast receiving terminals are becoming slimmer and smaller in size with the development of technology, but the size is getting smaller and the functions are becoming more diversified. Accordingly, the technology of the antenna structure is also greatly developed.

Recently, the length of the antenna is reduced according to the slimming and miniaturization of the wireless communication device. The small antenna has a disadvantage in that the bandwidth of the antenna is narrowed due to low input resistance, low antenna efficiency, and large input reactor.

In order to solve such a problem, various antennas have been developed using a helical structure capable of reducing the length of an antenna and simultaneously extending the electrical length in order to meet the propagation characteristics specification.

1 shows the form of a coil used in a helical structure.

In the helical structure used for the helical antenna, the overall size H of the helical structure is determined in consideration of parameters such as pitch height S, length L of the antenna per revolution, diameter A of the antenna wire, and the number of turns N.

By using the coil type helical structure, the length of the antenna can be reduced, and the electrical length required for transmitting and receiving radio waves can be obtained by using the inductance characteristic of the helical structure.

Figure 2 shows an antenna equipped with a helical structure according to the prior art.

In order to apply the antenna length, which is electrically extended to meet the specification of the propagation characteristics, to a small device, the prior art is a telescope type monopole antenna 11, in which a plurality of cylinders are raised to the top as shown in FIG. The helical structure 13 is mounted on the lower end of the helical structure and implements the helical antenna 10 connected to the terminal body by the antenna support 15.

However, in the case of the helical antenna of the prior art shown in FIG. 1, the portion 13 on which the helical structure is mounted is wrapped around the helical structure with a weak strength plastic or the like, and the impact from the outside such as the arrow direction shown in FIG. When an external force is applied, the portions (A, B) to which the helical structure and the conductor of the antenna are connected have a relatively weak strength and thus are easily broken.

In addition, a helical antenna in which a helical is mounted on an upper end of a monopole antenna is implemented as a conventional technology, but even in this case, the helical structure is formed in such a way that the helical structure is formed by wrapping the helical structure using a relatively weak plastic. As in the prior art of 1, there is a problem in that it is easily broken by an external impact or external force.

The present invention is intended to solve the problem of the antenna portion equipped with a helical structure that is easily damaged when an impact or external force is applied to the antenna.

It is also an object of the present invention to provide an antenna having a helical structure having a sufficient inductance while at the same time occupying at least the internal space of the terminal, without sacrificing slimming and miniaturization of the terminal.

In order to solve the above problems, the present invention, in the multi-stage telescope-type helical antenna drawn out from the antenna mounting space inside the terminal, a plurality of conductor cylinders are formed in a multi-stage telescope type to adjust the length A load antenna unit available; An antenna support unit connected to a lower end of the rod antenna unit to support the rod antenna unit and having a first helical structure therein; And an antenna head unit connected to an upper end of the rod antenna unit and having a second helical structure therein, and an electrical length of the antenna through an inductance characteristic formed by the first helical structure and the second helical structure. It is a two-stage helical antenna characterized by extending.

Preferably, when the plurality of conductor cylinders of the rod antenna unit are drawn out in multiple stages, the antenna support unit is installed such that at least a portion thereof is inserted into the case of the terminal body and is inserted into the case of the terminal body. The first helical structure may be located inside a portion of the antenna support on which the antenna support is maintained.

More preferably, the length of the first helical structure may be longer than the length of the second helical structure.

Further, the antenna support portion, the first metal structure located at the lower end of the antenna support; A second metal structure positioned at an upper end of the antenna support part and connected to a lower end of the rod antenna part; A first helical structure positioned between the first metal structure and the second metal structure and connected to the first metal structure and the second metal structure; And a first plastic structure surrounding the first helical structure between the first metal structure and the second metal structure.

Preferably, when the plurality of conductor cylinders of the rod antenna unit are pulled out from the folding space inside the terminal in multiple stages, the first helical structure of the antenna supporting portion is kept inserted in the folding space inside the terminal. A pullout blocking protrusion may be formed at an upper portion of the folding space inside the terminal and at a lower end of the second metal structure.

The antenna head unit may further include a third metal structure connected to an upper end of the rod antenna unit; A second helical structure connected with the third metal structure; And a second plastic structure surrounding the second helical structure.

Further, the second metal structure of the antenna support part and the lower end of the rod antenna part may be connected to the hinge to support the rod antenna part by the antenna support part, and the rod antenna part may be rotatable around the antenna support part.

According to the present invention, an antenna portion equipped with a helical structure in which an impact is applied to the antenna by mounting an antenna portion equipped with a helical structure that is easily damaged when an impact or external force is applied to the antenna is maintained to be inserted into the terminal. Since it is transmitted to the case of the terminal, the antenna is not damaged even by external force or impact.

In addition, it is possible to provide an antenna having a helical structure having sufficient inductance at the same time without disturbing the slimming and miniaturization of the terminal by distributing the helical structure in two stages by distributing it in two parts of the antenna.

BRIEF DESCRIPTION OF THE DRAWINGS The above and other objects, features and advantages of the present invention will become more apparent from the following detailed description of the present invention when taken in conjunction with the accompanying drawings.

3 shows one embodiment of a helical antenna having a two-stage structure according to the present invention.

As shown in FIG. 3, the two-stage helical antenna 100 according to the present invention is schematically composed of a rod antenna unit 110, an antenna support unit 130, and an antenna head unit 150.

The rod antenna unit 110 is a monopole antenna having a plurality of conductor cylinders formed in a multi-stage telescope type and having a length adjustable. The rod antenna unit 110 may be a monopole antenna having a single-ended type but may be a reverse monopole antenna. It may be.

The antenna support unit 130 is connected to the lower end of the rod antenna unit 110 to support the rod antenna 110 and a helical structure is inserted therein.

The antenna head unit 150 is connected to the top of the rod antenna unit 110 and a helical structure is inserted therein.

As shown in FIG. 1, the helical structure has a constant length according to each parameter. In the present invention, one helical structure having a certain length according to each parameter is separated into two helical structures and mounted on the antenna. Therefore, the combined length of two helical structures satisfies the length of the helical structure required in consideration of each parameter.

4 illustrates a configuration of the antenna support 130 according to the present invention.

In the antenna support 130 according to the present invention, the first metal structure 135 is located at the bottom of the antenna support 130 and the second metal structure 137 is located at the top of the antenna support 130. The first helical structure 131 is installed between the 135 and second metal structures 137, and the first helical structure 131 is electrically connected to the first metal structures 135 and the second metal structures 137. Is connected.

The first helical structure 131 is surrounded by the first plastic structure 133, and the first plastic structure 133 is connected to the first metal structure 135 and the second metal structure 137 so that the first helical structure inside is formed. 131 is protected.

The second metal structure 137 is connected to the rod antenna unit 110. In FIG. 4, the conductor is coupled to the second metal structure 137 so that the rod antenna unit 110 can be supported by the antenna support unit 130. The connecting end 115 is formed at the end of the cylinder 111.

5 shows the configuration of the antenna head unit 150 according to the present invention.

The antenna head 150 according to the present invention is positioned on the third metal structure 155 and the third metal structure 155 connected to the upper end of the rod antenna unit 110 and the third metal structure 155 and An electrically connected second helical structure 151 is installed, and the second helical structure 151 is surrounded by the second plastic structure 153 to be protected.

As described above, in the present invention, the general helical structure is divided into two stages and distributed and installed in the upper and lower portions of the antenna, thereby deriving the effect of extending the length of the antenna by the helical structure.

The two-stage helical antenna according to the present invention can be applied not only to a mobile communication terminal but also to a broadcast receiving terminal. FIG. 6 is an embodiment showing a part of a two-stage helical antenna according to the present invention mounted on the terminal.

Inside the terminal 200, there is an antenna ground space 210 into which an antenna can be inserted, and the helical antenna 100 is drawn out from the ground space 210 to the outside to be raised and expanded to a multi-stage telescope type.

At this time, at least a portion of the antenna support 130 is maintained in a state inserted into the folding space 210 of the terminal body, a part of the antenna support 130 is maintained in the state inserted into the folding space 210 of the terminal. In the first helical structure 131 is located.

As shown in FIG. 6 in order to keep a portion of the antenna support 130 inserted into the folding space 210 of the terminal, the upper part of the folding space of the terminal and the second metal structure of the antenna support 130 ( By forming an extraction blocking protrusion that prevents the extraction of the antenna at the lower end of the 137, it is possible to prevent the antenna support 130 from being drawn out to a certain portion or more.

In the present invention, the portion of the helical structure is formed so as to be positioned on the folding space inside the terminal, so that the transmitted force is transmitted to the terminal body, not the portion of the helical structure, even when an impact or external force is applied to the antenna. The helical antenna can be protected from impact.

Furthermore, the present invention forms the length of the first helical structure 131 to be longer than the length of the second helical structure 151, which is to reduce the antenna mounting space inside the terminal according to the miniaturization and slimming of the mobile communication terminal. Since there is no choice but to minimize the size of the terminal, the length of the first helical structure 131 is adjusted and the length of the insufficient helical structure is formed as the second helical structure 151 so that the second helical structure 151 is relatively free from the risk of damage. To the top of the secure antenna.

Therefore, since the first helical structure 131 is not drawn out of the terminal, the first helical structure 131 can be protected from damage, and at the same time, the length of the insufficient helical structure is formed as the second helical structure 151 to contribute to the miniaturization of the mobile communication terminal. At the same time, it is possible to configure a helical antenna having good radio wave transmission and reception efficiency.

In addition, in the present invention, as shown in Figure 6 for the convenience of the user, the lower portion of the rod antenna unit 110 and the portion of the second metal structure 137 of the antenna support 130 is connected to the hinge structure 139 The rod antenna unit 110 is supported by the antenna support unit 130 and at the same time, the rod antenna unit 110 can be rotated around the antenna support unit 130, so that the transmission and reception efficiency can be maximized. Antenna direction can be adjusted.

The foregoing description is merely illustrative of the technical idea of the present invention, and various changes and modifications may be made by those skilled in the art without departing from the essential characteristics of the present invention. Accordingly, the embodiments described in the present invention are not intended to limit the technical spirit of the present invention but to describe the technical spirit of the present invention. The protection scope of the present invention should be interpreted by the following claims, and all technical ideas within the equivalent scope should be interpreted as being included in the scope of the present invention.

1 shows a helical structure mounted to a helical antenna,

Figure 2 shows an antenna equipped with a helical structure according to the prior art,

Figure 3 shows one embodiment of a two-stage helical antenna according to the present invention,

Figure 4 shows the configuration of the antenna support in the present invention,

5 shows a configuration of an antenna head portion in the present invention,

Figure 6 is an embodiment showing a part of a two-stage helical antenna according to the present invention mounted on a terminal.

<Description of Major Symbols in Drawing>

10: helical antenna according to the prior art,

100: two-stage helical antenna according to the present invention,

110: rod antenna unit,

130: antenna support,

131: first helical structure,

150 antenna head portion,

151: Second helical structure.

Claims (7)

In the multi-stage telescope-type helical antenna, which is drawn out from the antenna mounting space inside the terminal, A rod antenna unit having a plurality of conductor cylinders formed in a multi-stage telescope type, the length of which can be adjusted; An antenna support unit connected to a lower end of the rod antenna unit to support the rod antenna unit and having a first helical structure therein; And Is connected to the top of the rod antenna portion includes an antenna head portion having a second helical structure therein, A two-stage helical antenna, characterized in that to extend the electrical length of the antenna through the inductance characteristics formed by the first helical structure and the second helical structure. The method of claim 1, When the plurality of conductor cylinders of the rod antenna unit are drawn out in multiple stages, the antenna support unit is installed such that at least a portion thereof is inserted into the case of the terminal body. And a first helical structure is positioned inside a part of the antenna support part in which the inserted state is maintained in the case of the terminal body. The method according to claim 1 or 2, And a length of the first helical structure is longer than a length of the second helical structure. The method of claim 3, wherein The antenna support portion, A first metal structure positioned at a lower end of the antenna support; A second metal structure positioned at an upper end of the antenna support part and connected to a lower end of the rod antenna part; A first helical structure positioned between the first metal structure and the second metal structure and connected to the first metal structure and the second metal structure; And And a first plastic structure surrounding the first helical structure between the first metal structure and the second metal structure. The method of claim 4, wherein When the plurality of conductor cylinders of the rod antenna unit are pulled out from the folding space inside the terminal in multiple stages, the first helical structure of the antenna supporting portion is kept inserted in the folding space inside the terminal, A two-stage helical antenna, characterized in that the extraction blocking projection is formed on the upper portion of the folding space and the lower end of the second metal structure inside the terminal. The method of claim 5, The antenna head unit, A third metal structure connected to an upper end of the rod antenna unit; A second helical structure connected with the third metal structure; And And a second plastic structure surrounding the second helical structure. The method of claim 6, The second metal structure of the antenna support portion and the lower end of the rod antenna portion is connected to the hinge, the rod antenna portion is supported by the antenna support portion, the rod antenna portion is characterized in that the rotatable around the antenna support portion Helical antenna.

Images