JP3165465B2 - Mobile antenna - Google Patents

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a mobile antenna which can be advantageously installed on a roof such as a railway car and a bus.

[0002]

2. Description of the Related Art A typical prior art is shown in FIG. The antenna element wires 1 and 2 of the dipole antenna are arranged horizontally, and at a feeding point 3 are fed for transmission and connected for reception. In such a plan view of the dipole antenna shown in FIG. 7, the directivity is as indicated by reference numeral 4, and therefore, it is not possible to receive radio waves from all directions.
As shown by, it is not possible to receive a radio wave from the axial direction of the antenna wires 1 and 2.

[0003] Therefore, the dipole antenna is a so-called low profile type having a low height, and its dimensions and shape are suitable for a moving body. Can not.

[0004]

SUMMARY OF THE INVENTION An object of the present invention is to provide a mobile antenna having a low height and a non-directional characteristic.

[0005]

According to the present invention, there is provided a whip antenna having a rising portion fixed to a moving body, wherein the dipole antenna is constituted by a pair of antenna element wires which are curved in a horizontal plane and formed in a ring shape. In the mobile antenna configured to fix one free end of each antenna element of the dipole antenna in the middle of the rising part of the whip antenna, the other free end of each antenna element of the dipole antenna is supported. Equipped with a support fixed to the moving body,
A mobile object antenna characterized in that the other free end of each antenna element wire of the dipole antenna is used as a feeding point.

Further, according to the present invention, a dipole antenna is constituted by a pair of antenna element wires which are curved in a horizontal plane and formed into a ring shape, and a rising portion fixed to a moving body and a horizontal portion bent from the rising portion. A whip antenna having a horizontal portion extending to the whip antenna, and a mobile antenna for fixing one free end of each antenna element wire of the dipole antenna in the middle of the rising portion of the whip antenna. A mobile object antenna, comprising: a support portion fixed to the mobile object, the support portion supporting the other free end of the strand and the horizontal portion of the whip antenna.

Further, the present invention is characterized in that the one free end of each of the antenna element wires of the dipole antenna is a feeding point at the other free end.

[0008]

According to the present invention, a rising portion of a whip antenna is fixed on a roof of a moving body, and a horizontal portion which is bent and extends horizontally from the rising portion is formed. In the middle of the rising portion, one free end of each antenna element of the dipole antenna formed into a ring by a pair of antenna elements is fixed, and thus omnidirectionality can be achieved by this whip antenna. However, this whip antenna has a horizontal portion as described above, and can be configured to have a low height. At this time, almost no omnidirectionality is maintained, and there is no problem that the antenna characteristics are deteriorated. One end of each antenna element wire of the dipole antenna is fixed in the middle of the rising portion of the whip antenna, the other end is supported by a support fixed to a moving body, and the other free end Is used as a feed point, and when the dipole antenna and the whip antenna are combined to obtain a wavefront diversity effect, the feed point of the whip antenna and the other free end of each antenna element wire of the dipole antenna are used. , So that not only the wavefront diversity effect but also the space diversity effect can be obtained at the same time.

A whip antenna can receive a vertically polarized signal from a broadcasting station, for example, and a dipole antenna can receive a horizontally polarized signal. Generally, in a city, even if a vertically polarized signal is radiated from a broadcasting station, a large horizontal polarization component may appear due to the reflection of radio waves from a building, and therefore, there is a possibility that a broadcast receiving state using only a whip antenna may deteriorate. Yes, and when a horizontally polarized signal is radiated from a broadcasting station, the vertical polarization component may appear large due to the reflection of radio waves by the building, etc. Therefore, it is difficult to receive a stable broadcast with a dipole antenna alone. . Therefore, according to the present invention, it is possible to achieve the polarization plane diversity using the dipole antenna and the whip antenna, and the excellent effect that it is easily possible is achieved, and the deterioration of the reception state due to the generation of multipath noise is achieved. Can be suppressed. Since one free end of each antenna element wire of the dipole antenna was fixed in the middle of the rising part of the whip antenna, and the other free end was fixed to the support part supporting the horizontal part of the whip antenna. In a moving body having a lot of vibration, it is possible to use a combination of a dipole antenna and a whip antenna.

[0010]

FIG. 1 is a perspective view of one embodiment of the present invention.
The mobile object antenna 7 is provided on a roof 8 made of a metal or an electrically insulating material such as a railway car or a bus,
It has a dipole antenna 9 and a whip antenna 10. The dipole antenna 9 has a pair of antenna wires 11,
The antenna element wires 11 and 12 have an axis in a horizontal plane and are formed in a curved ring shape. Each of the antenna wires 11 and 12 includes a first portion 11a, 12a, a second portion 11b, 12b extending perpendicularly from the first portion 11a, 12a, and a second portion 11b, 12b.
And third portions 11c and 12c extending vertically from.
The free ends of the first portions 11a and 12a are feed points as indicated by reference numeral 13. The free ends 14 and 15 of the third portions 11c and 12c are connected to the rising portion 1 of the whip antenna 10.
In the middle of 6, as shown by reference numeral 35, it is fixed with an electrically insulating synthetic resin or the like.

The whip antenna 10 has the rising portion 16 and a horizontal portion 17 which is bent from the rising portion and extends horizontally. Reference numeral 18 indicates the base end of the rising portion 16.
It is a feeding point as shown by. Feeding point 13 of dipole antenna 9 and feeding point 1 of whip antenna 10
8 are supplied to an amplification circuit 20 via a changeover switch 19, amplified, and retransmitted from an antenna 21 provided in the vehicle. Thus, in a car, for example, AM (amplitude modulation) broadcasts and FM (frequency modulation) broadcasts can be received by individually owned radio receivers. The comparison circuit 22 includes the antennas 9 and 10
From the amplifier circuit 20.
, The switching state of the switch 19 is switched.

FIG. 2 is a plan view of the dipole antenna 9. First portions 11a and 12a of dipole antenna 9
And the length L of the second portions 11b and 12b
2 can be made omnidirectional with respect to the horizontally polarized signal by configuring each side of the square in the horizontal plane. Actually, the first portions 11a, 1a of the antenna wires 11, 12
2a, the radiation amount of the third portions 11c and 12c is large. Therefore, even if L1 <L2 is selected, omnidirectionality can be obtained, and in this case, downsizing can be achieved. FM
In a broadcast frequency band of 76 to 90 MHz, L1 = L
2 = 45 cm, and when the wavelength of the broadcast to be received is λ,

[0013]

(Equation 1)

FIG. 3 is a side view of the whip antenna 10. When the height of the rising part 16 is L3, the length of the horizontal part 17 is L4, and the wavelength of the broadcast to be received is λ,

[0015]

(Equation 2)

According to an experiment conducted by the inventor of the present invention, the height L3 of the rising portion 16 is λ / 10 from the viewpoint of improving reception sensitivity.
Or more, particularly preferably λ / 8 to
It is preferable to select λ / 9 or more. The roof 8 may be made of grounded or ungrounded metal, but may be an insulating material. When the roof 8 is made of metal, the height L5 (see FIG. 1) of the dipole antenna attached to the rising portion 16 of the whip antenna 10 is:
For example, it is preferable to set it to 20 cm or more from the viewpoint of improving sensitivity. For receiving FM broadcasts, for example, L3 is set to 30 cm and L4 is set to 60 to 70 cm.

The dipole antenna 9 receives a horizontally polarized signal, and the whip antenna 10 receives a vertically polarized signal. Thus, by the operation of the switch 19 and the comparison circuit 22, a polarization plane diversity antenna can be realized. . In addition, two antennas 9 and 10 can be provided in one relatively small space, which is preferable for a mobile body that needs to be downsized. Thus, a stable reception state can always be achieved by the polarization diversity antenna, especially in response to the disturbance of the polarization plane in the FM broadcast band.

FIG. 4 is a simplified perspective view of another embodiment of the present invention. This embodiment is similar to the previous embodiment, and corresponding parts are denoted by the same reference numerals. On the roof 8 of the moving body, a cylindrical body 32 made of an electrically insulating material, for example, a synthetic resin,
The rising portion 16 of the whip antenna 10 is inserted into the cylindrical body 32 as shown in FIG. 5, and the horizontal portion 17 protrudes from the cylindrical body 32 so that another one is formed.
It is supported through three cylindrical bodies 33. The cylinder 33 is the cylinder 3
2 is made of the same material. The third portions 11c and 12c of the antenna wires 11 and 12 of the dipole antenna 9 are shown in FIG.
The cylindrical body 32 is inserted as shown in FIG. First portion 1 of antenna wires 11 and 12
1 a and 12 a are supported by the cylindrical body 33.

The whip antenna 10 is, for example, 530
It can also be used for AM broadcast reception at １1700 kHz, and thus FM and AM broadcasts can be received using antennas 9 and 10. By listening to an AM broadcast using such a whip antenna 10, amplifying the signal and retransmitting it in a railway car,
In the vehicle, it is sufficiently possible to listen to the AM broadcast by the radio receiver in the vehicle even if the window is not crowded.

In the above embodiment, the feed point 13 of the dipole antenna 9 is used as the whip antenna 1
The free ends 14 and 15 of the antenna wires 11 and 12 on the opposite side from those fixed on the way of the rising portion 16 of the zero are connected to the feeding points 13 of the dipole antenna 9.
You may make it.

[0021]

As described above, according to the present invention, one free end of an antenna element wire of a dipole antenna is fixed in the middle of a rising portion of a whip antenna provided on a roof of a moving body, The whip antenna has a horizontal portion which is bent from a rising portion and extends horizontally, and thus has a reduced height, and can achieve nondirectionality by the whip antenna.

Further, the whip antenna receives a vertically polarized signal, the dipole antenna receives a horizontally polarized signal,
Therefore, an excellent effect that, for example, a polarization diversity antenna can be easily realized is achieved, which is important for a mobile object. In particular, according to the present invention, in the middle of the rising portion of the whip antenna, one free end of each antenna element wire of the dipole antenna is fixed, and the other free end is fixed to the support, and the other free end is fixed. Since the end is a feed point, not only the wavefront diversity effect, but also the space diversity effect by separating the feed point at the rising part of the whip antenna and the feed point at the other free end of the dipole antenna as described above. Is also achieved at the same time. Further, according to the present invention, while fixing one free end of each antenna element wire of the dipole antenna in the middle of the rising portion of the whip antenna,
Since the other free end and the horizontal portion of the whip antenna are supported and fixed by the support portion, the dipole antenna and the whip antenna can be used in combination even in a mobile body having a lot of vibration. Become like

[Brief description of the drawings]

FIG. 1 is a perspective view showing an entire configuration of an embodiment of the present invention.

FIG. 2 is a plan view of the dipole antenna 9 shown in FIG.

FIG. 3 is a side view of the whip antenna 10 shown in FIG.

FIG. 4 is a perspective view of another embodiment of the present invention.

FIG. 5 is a cross-sectional view of the vicinity of an upper portion of a cylindrical body 32.

FIG. 6 shows a dipole antenna 9 attached to a cylinder 32.
FIG. 10 is a cross-sectional view of the vicinity of ends 14, 15 of the third portions 11c, 12c.

FIG. 7 is a plan view of a prior art dipole antenna.

[Explanation of symbols]

 7 Antenna for mobile object 8 Roof 9 Dipole antenna 10 Whip antenna 11, 12 Antenna element wire 13, 18 Feed point 14, 15 Free end 16 Rise 17 Horizontal part 32, 33 Cylindrical body

──────────────────────────────────────────────────の Continued on the front page (58) Field surveyed (Int.Cl. ⁷ , DB name) H01Q 21/24 H01Q 21/28-21/30 H01Q 1/22

Claims (3)

(57) [Claims] 1. A dipole antenna is formed by a pair of antenna element wires curved in a horizontal plane to form a ring, a whip antenna having a rising portion fixed to a moving body is formed, and a rising portion of the whip antenna is formed. In the middle of the above, in a mobile body antenna for fixing one free end of each antenna element wire of the dipole antenna, supporting the other free end part of each antenna element wire of the dipole antenna, fixed to the mobile object A mobile object antenna comprising a support portion, wherein the other free end of each antenna element wire of the dipole antenna is used as a feeding point. 2. A dipole antenna comprising a pair of antenna element wires bent in a horizontal plane and formed in a ring shape, a rising portion fixed to a moving body, and a horizontal extending from the rising portion and extending horizontally. A whip antenna having a portion, and in the middle of the rising portion of the whip antenna, a mobile antenna fixing one free end of each antenna element wire of the dipole antenna; A moving object antenna, comprising: a supporting portion fixed to a moving object, the supporting portion supporting the other free end portion and the horizontal portion of the whip antenna. 3. The mobile antenna according to claim 2, wherein the other free end of each of the antenna element wires of the dipole antenna is used as a feeding point.