JPH0697712A - Antenna for radio equipment - Google Patents

Abstract

PURPOSE:To provide a radio equipment antenna which is freely extendable and storable and also can satisfactorily function even in its storage state. CONSTITUTION:An antenna 16 contains a coil element 22 of 1/8 effective wavelength which is set at the tip of the projecting side of a wire element 18 of 1/2 wavelength that is extendable and can be stored in a frame 10. A feeder spring 34 is electrically connected to the front or rear end of the element 18 in its stored or extended state in the frame 10. A shielding pipe 38 shields coaxially the outer circumference of the element 18 in its stored state. Meanwhile the rear end of the element 18 is grounded via a correction circuit 46. Then the impedance is adjusted at the infinite value by the circuit 46 in a state where the element 18 is viewed from the spring 34.

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an antenna for a wireless device which can be stored and extended and which can sufficiently function as an antenna even in the stored state.

[0002]

2. Description of the Related Art In a portable radio device, if a long rod-shaped antenna element always projects from a housing, it is inconvenient to carry and the antenna element is easily damaged. Therefore, there is a configuration in which the antenna element is configured to be retractable and retractable in a housing, the antenna element is used in an extended state during transmission and reception, and the antenna element is in a retracted state when not in use. In such a configuration, if the antenna element in the housed state does not act as an antenna at all, the call signal cannot be received in the standby state.

In order to solve these problems, actual fair 2-3
In No. 8523, another small antenna is incorporated in the housing, and a high-frequency switch that can be switched according to the housed or expanded state of the main antenna element is provided. In the housed state, the small antenna is connected to the transmission / reception circuit and in the expanded state. We have proposed a technology in which the main antenna element is switched and connected to a transmission / reception circuit.

Similarly, in Japanese Patent Laid-Open No. 3-245603, a coil-shaped antenna element is arranged and connected to the protruding end of a rod-shaped antenna element which can be housed and extended in a housing and connected to an antenna. The present invention proposes a technique in which a coiled antenna element is disposed outside the housing and acts as an antenna even when the antenna is housed.

[0005]

DISCLOSURE OF THE INVENTION Problems to be Solved by the Invention
The technologies proposed in Japanese Patent No. 523 and Japanese Patent Application Laid-Open No. 3-245603, respectively, are capable of receiving a ringing signal in a standby state when the antenna is housed, but the following points should be improved.

First, the technique proposed in Japanese Utility Model Publication No. 2-38523 requires a small antenna in addition to the main antenna element, and also requires a high-frequency switch for switching and selecting two antennas, which leads to miniaturization of a radio device. It is not suitable, and there is a problem that the mechanical or electrical configuration of the high-frequency switch for switching tends to be complicated.

Further, in the technique proposed in Japanese Patent Laid-Open No. 3-245603, radiation from the rod-shaped antenna element in the housing is likely to adversely affect the transmitting / receiving circuit when transmitting with the antenna housed. Therefore, in order to eliminate the influence of radiation, a reliable shield structure for the transmission / reception circuit is required, and the impedance of the antenna seen from the feeding point in the stored state and the extended state changes, making it difficult to obtain matching with the transmission / reception circuit. There is a problem called.

The present invention has been made in view of the above-mentioned circumstances of the prior art, and can be stored and extended, and in any state, matching can be obtained, and a wireless device that functions sufficiently efficiently as an antenna in the stored state. The purpose is to provide an antenna for use.

[0009]

In order to achieve the above object, a radio antenna according to the present invention has a coil-shaped antenna at the protruding end of a rod-shaped antenna element that can be stored and extended in a radio housing. An antenna element is arranged and connected to form an antenna, and a feeding point for electrically connecting to the front end portion or the rear end portion of the rod-shaped antenna element when the antenna is housed and extended is provided in the housing, and in the housed state. A shield cylinder for coaxially blocking the outer circumference of the rod-shaped antenna element is provided, and a correction circuit for electrically connecting the rear end of the rod-shaped antenna element in the housed state is further provided. The antenna element side has a high impedance when viewed from the feeding point, and the impedance on the antenna side when viewed from the feeding point in the extended state and the stored state is equal. Wherein by setting the rod-like antenna element and said coil antenna element is configured to connect to the transceiver circuit the feeding point via a matching circuit so.

Further, the radio antenna of the present invention has an n / 2 wavelength (n
Is a positive integer) and a coiled antenna element having an effective length (2m + 1) / 8 wavelength (m is zero or a positive integer) is arranged and connected to the tip of the protruding side of the rod-shaped antenna element to form an antenna. And a shield tube that shields the outer circumference of the rod-shaped antenna element coaxially when the antenna is housed and extended and is provided with a feeding point that is electrically connected to the front end or the rear end of the rod-shaped antenna element. In addition, a correction circuit is provided to electrically connect the rear end of the rod-shaped antenna element in the housed state, and the rod-shaped antenna element side in the housed state has an infinite impedance when viewed from the feeding point by this correction circuit. The feeding point may be connected to the transmitting / receiving circuit via a matching circuit.

[0011]

In the invention described in claim 1, the rod-shaped antenna element and the coil-shaped antenna element function as an antenna in the extended state, but only the coil-shaped antenna element functions as an antenna in the stored state. Here, in the housed state, since the impedance of the rod-shaped antenna element viewed from the feeding point is high impedance, the impedance of the antenna viewed from the feeding point is almost determined by the coiled antenna element. If the rod-shaped antenna element and the coil-shaped antenna element are set so that the impedance of the antenna in the extended state is equal to the impedance of the antenna in the extended state, one matching circuit is used for transmission in both the extended state and the retracted state. Matches with the circuit.

According to the second aspect of the invention, the rod-shaped antenna element and the coil-shaped antenna element function as a 5/8 wavelength antenna in the extended state, and the coil-shaped antenna element in the stored state. As an example, it operates as a 1/8 wavelength antenna. And
In the housed state, the rod-shaped antenna element is connected to the correction circuit to have an infinite impedance, and the impedance seen from the feeding point is determined by the coil-shaped antenna element. The impedance of the 5/8 wavelength antenna in the extended state and the impedance of the 1/8 wavelength antenna in the housed state are equal. Therefore, with one matching circuit, matching between the antenna and the transmission / reception circuit can be obtained regardless of whether the antenna is in the extended state or the housed state. Further, in the housed state, the rod-shaped antenna element is housed in the shield cylinder, and the radiation from the rod-shaped antenna element does not affect the transmission / reception circuit.

[0013]

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS An embodiment of the present invention will be described below with reference to FIGS. FIG. 1 is a vertical cross-sectional view of an embodiment of a wireless device antenna of the present invention in a state where the antenna is housed,
2 is a vertical cross-sectional view of the antenna for a wireless device shown in FIG. 1 in an antenna extended state, FIG. 3 is a diagram for explaining impedance seen from a feeding point in the antenna extended state, and FIG. It is a figure explaining the impedance seen from the feed point in a state.

1 and 2, the housing 1 of the radio device
No. 12 is engraved, and an antenna holding metal fitting 14 having a cylindrical shape made of a conductor and having a male thread on its outer peripheral surface and a flange portion on the outer end is screwed into the male thread 12. The antenna 16 is inserted into the antenna holding bracket 14 so as to be movable in the axial direction. The antenna 16 has a sleeve 20 which is also made of a conductor and fixed by caulking or the like at the tip of a wire element 18 as a rod-shaped antenna element made of a conductor. This sleeve 20
In the state where the antenna 16 is housed, a part of the antenna is inserted into the antenna holding metal fitting 14 to ensure electrical connection with the antenna holding metal fitting 14. A coil element 22 made of a conductor and serving as a coil-shaped antenna element is fixedly connected to the tip of the sleeve 20, and the sleeve 20 is covered with a cap 24 made of resin.
Is fixed. Then, the wire element 18 is covered with a tube 26 made of resin. Further, a stopper 28 which is made of a conductor and regulates the expansion is fixed to the rear end of the wire element 18 by caulking or the like. A part of the stopper 28 is inserted into the antenna holding metal fitting 14 in a state where the antenna 16 is extended to ensure electrical connection with the antenna holding metal fitting 14. In addition, the antenna holding metal fitting 14 is provided with an axial split groove to provide radial elasticity in order to ensure electrical connection with the sleeve 20 and the stopper 28.

A feeding spring 34 made of a conductive material and elastically connected to a matching circuit 32 housed in a shield case 30 fixed in the housing 10 is elastically contacted with the outer periphery of the antenna holding metal member 14 to feed the power. It is said that The matching circuit 32 is
It is connected to a transmitting / receiving circuit (not shown) via the coaxial cable 36 and the like.

Further, a shield tube 38 made of a conductor is arranged in the housing 10 so that the wire element 18 of the antenna 16 in the housed state is inserted. Further, a contact piece 40 made of a conductor is fixed by a cover pipe 42 made of resin so that the rear end of the stopper 28 of the wire element 18 makes elastic contact. A grounding metal 44 made of a conductor is provided at the rear end of the cover pipe 42. Then, in the cover pipe 42, the correction circuit 46 is interposed between the contact piece 40 and the grounding metal 44. The grounding metal 44 is appropriately grounded by the grounding means 48.

By the way, the wire element 18 has a half wavelength of the transmission / reception carrier wave and the coil element 22.
Has an effective length of 1/8 wavelength. Therefore, the antenna 16
In the extended state, the antenna has an effective length of 5/8 wavelength as shown in FIG. 3, and the impedance seen from this feeding point is Z ₁
Then, by setting the input impedance of the matching circuit 32 to Z ₁ , matching between the antenna 16 and the transmitting / receiving circuit can be achieved.

When the antenna 16 is housed, the impedance of the coil element 22 as viewed from the feeding point is Z.
If it is ₂ , the antenna has an effective length of ⅛ wavelength as shown in FIG. 4A, which is almost the same as the impedance Z ₁ . Then, the impedance Z ₃ on the wire element 18 side viewed from the feeding point is adjusted by the correction circuit 46 to be infinite as shown in FIG. 4B. The correction circuit 46 may be set so that the effective length of the wire element 18 having a wavelength of approximately ½ is, for example, ¼ wavelength.
Therefore, as shown in FIG. 4C, the antenna 1 viewed from the feeding point
The impedance Z of 6 is equal to the impedance Z ₂ of the coil element 22, that is, the impedance Z ₁ of the extended antenna 16. Therefore, even if the antenna 16 is stored, the matching circuit 3
2 allows the antenna 16 and the transmitting / receiving circuit to be matched.

Further, in the housed state of the antenna 16, even if radiation is made from the wire element 18, the shield tube 3
8 reliably shields and does not affect even if the transmitting and receiving circuits are arranged close to each other.

Further, in the above embodiment, the effective length of the coil element 22 is set to 1/8 wavelength so that the protruding amount of the antenna 16 in the housed state becomes the shortest. (2m + 1) / 8 wavelength (m
Is zero or a positive integer). Further, although the wire element 18 has a half wavelength, the invention is not limited to this.
It may be n / 2 wavelengths (n is a positive integer) such as wavelengths.

The impedance Z ₃ on the wire element 18 side viewed from the feeding point in the housed state does not necessarily need to be adjusted to infinity by the correction circuit 46, and may be set to high impedance. Then, the impedance Z of the antenna in the housed state is the high impedance Z ₃ on the wire element 18 side and the impedance Z ₂ on the coil element 22 side connected in parallel, and the impedance Z ₂ on the coil element 22 side is almost the same.
Determined by. Therefore, the impedance Z of the antenna 16 can be appropriately set by adjusting the effective length of the coil element 22. Furthermore, by appropriately adjusting the wire element 22 with a length close to ½ wavelength, the impedance seen from the feeding point of the antenna 16 in the housed state and the extended state can be set to be equal. Therefore, the antenna 16 is provided with one matching circuit 32 regardless of whether it is in the extended state or the stored state.
Therefore, it is possible to achieve matching and efficient transmission / reception is possible.

[0022]

As described above, since the wireless device antenna of the present invention is constructed, the following special effects are achieved.

The impedance of the antenna seen from the feeding point is substantially constant regardless of whether the antenna is extended or in the housed state, and the antenna and the transmission / reception circuit are matched by one matching circuit. It enables efficient transmission and reception. Moreover, even if there is radiation from the rod-shaped antenna element in the stored state, reliable shielding is performed by the shield tube, and there is no adverse effect even if the transmission / reception circuit is arranged in proximity,
That is suitable for downsizing the radio device.

[Brief description of drawings]

FIG. 1 is a vertical sectional view of an embodiment of a wireless device antenna of the present invention in a state where the antenna is housed.

2 is a vertical cross-sectional view of the wireless device antenna shown in FIG. 1 in an antenna extended state.

FIG. 3 is a diagram illustrating impedance seen from a feeding point in an antenna extended state.

FIG. 4 is a diagram illustrating impedance viewed from a feeding point in a state where the antenna is housed.

[Explanation of symbols]

 DESCRIPTION OF SYMBOLS 10 Housing 14 Antenna holding metal fitting 16 Antenna 18 Wire element 22 Coil element 32 Matching circuit 34 Feeding spring 38 Shield tube 46 Correction circuit 48 Grounding means

Claims (2)

[Claims] 1. An antenna in which a coil-shaped antenna element is arranged and connected to a protruding end of a rod-shaped antenna element which can be stored and extended in a housing of a radio, and the antenna is housed in the housing. And a feed point for electrically connecting to the front end or the rear end of the rod-shaped antenna element in the extended state, and a shield cylinder for coaxially blocking the outer circumference of the rod-shaped antenna element in the stored state, and further stored state In this case, a correction circuit for electrically connecting the rear end of the rod-shaped antenna element is provided, and by this correction circuit, the side of the rod-shaped antenna element in the stored state has a high impedance when viewed from the feeding point, and in the extended state and the stored state. The rod-shaped antenna element and the coil-shaped antenna element are set so that the impedance on the antenna side as viewed from the feeding point becomes equal, An antenna for a radio device, characterized in that the feeding point is connected to a transmitting / receiving circuit through a matching circuit. 2. An effective length (2m + 1) / 8 wavelengths (where m is a value) at the tip of the protruding side of a rod-shaped antenna element of n / 2 wavelengths (n is a positive integer) that can be stored and extended in a housing of a radio device. A coiled antenna element of zero or a positive integer) is arranged and connected to form an antenna, and is electrically connected to the front end or the rear end of the rod-shaped antenna element in the housing in a housed and extended state of the antenna. A feeding point is provided, and a shield cylinder that coaxially shields the outer circumference of the rod-shaped antenna element in the housed state is provided, and a correction circuit that electrically connects the rear end of the bar-shaped antenna element in the housed state is provided. It is characterized in that the correction circuit forms an infinite impedance on the side of the rod-shaped antenna element in the housed state when viewed from the feeding point, and connects the feeding point to a transmission / reception circuit via a matching circuit. Radio antenna.