JPH04142802A - Antenna system - Google Patents

Abstract

PURPOSE:To improve the mount of each reception antenna and to lead each reception signal through one cable up to a television receiver by supporting a composite reception antenna with one support and synthesizing each of reception signals in one cable and leading out the synthesized signal. CONSTITUTION:VHF and UHF band reception antennas 13a, 13b and 12 are mounted to a plane antenna 11 for satellite broadcast reception and the composite reception antenna is supported with one support 15, and each of reception signals from the satellite broadcast reception antenna 11, the VHF reception antennas 13a, 13b and the UHF reception antenna 12 is synthesized and led out through one cable 19. Thus, it is not required to mount separately each reception antenna at the VHF band, the UHF band and the satellite broadcast band, the mount performance is improved and each reception signal is led to a television receiver through the one cable 19.

Description

DETAILED DESCRIPTION OF THE INVENTION [Field of Industrial Application] The present invention relates to an antenna device that receives any of satellite broadcast waves, VHF broadcast waves, and UHF broadcast waves.

[Prior Art] In conventional broadcast receiving antennas, most of the VHF band receiving antenna and UHF band receiving antenna are arranged separately in the upper and lower parts of one pillar, Since the antenna has a sharp directivity, it is installed independently from the VHF receiving antenna and the UHF receiving antenna.

In other words, conventional flat antennas for receiving satellite broadcasting have low reception efficiency and a narrow half-power width of 1 to 2 degrees. There was a problem in that the reception output was likely to drop rapidly due to the pointing error.

However, as mentioned above, VHF broadcasting.

U If the receiving antennas for HF broadcasting and satellite broadcasting were installed separately, not only would the mounting positions of each antenna be different, but also two poles would be required, which would be costly and uneconomical. .

On the other hand, as the power of satellite broadcasting increases and antenna efficiency improves, satellite broadcasting receiving antennas become smaller and the half power width becomes significantly wider to 5 to 6 degrees, allowing reception even when subjected to some wind or vibration. This will no longer cause a decrease in output.

Therefore, in the future, it is conceivable that a satellite broadcast receiving antenna may also be attached to the pillar to which the VHF band receiving antenna and the UHF band receiving antenna are attached.

[Problem to be solved by the invention] However, for the above-mentioned one pillar, for example, VH
Even if it is installed as an F-band receiving antenna, a UHF-band receiving antenna, or a satellite broadcasting signal antenna, separate installation work is still required, which has the disadvantage of poor workability.

In the future, television receivers will be equipped with VHF band, U
It has become common for tuners for both the HF band and the satellite broadcasting frequency (BS) band to be built-in, but in this case, the received signal is transmitted to the television receiver through a single cable. It is desirable to

The present invention has been made in view of the above-mentioned problems, and
An antenna device that improves installation workability without the need to separately install each receiving antenna for the HF band and satellite broadcasting band, and also allows each received signal to be guided to the television receiver through a single cable. The purpose is to provide

[Means and effects for solving the problem] In other words, the antenna device according to the present invention includes a planar antenna for receiving satellite broadcasting equipped with a VHF band and a UHF band receiving antenna,
This composite receiving antenna is supported by one pillar, and the above-mentioned satellite broadcasting receiving antenna and VHF receiving antenna.

It is configured so that each received signal from a UHF receiving antenna is combined into one cable and derived.

[Example code] An embodiment of the present invention will be described below with reference to the drawings.

Figure 1 shows the configuration of the antenna device. In the figure, 11 is a flat antenna for receiving satellite broadcasting (BS);
12 is an antenna for UHFHF borrowing, 13a, 13
b is a dipole antenna for VHFHF borrowing reception, and includes a loop antenna 12 and dipole antennas 13a and 13b.
Both are integrally attached to the outer peripheral edge of the planar antenna 11 with a rotating metal fitting 14 interposed therebetween.

Here, loop antenna 12 and dipole antenna 1
3a and 13b are provided by the rotating metal fitting 14,
The rotation angle of the planar antenna 11 can be freely set, and in this case, the dipole antennas 13a, 13
A telescopic rot antenna is used for b.

The planar antenna 11 is attached to the support column 15 through a metal fitting 16 provided on the back surface thereof such that the angle in the azimuth and elevation directions can be freely changed. For example, a variable angle metal fitting provided on the head of a tripod for installing a camera is used.

On the other hand, a converter 17 is disposed on the back surface of the planar antenna 11. This converter 7 has a planar antenna 11
12G) Iz satellite broadcast signal received by IGH
The satellite broadcast reception signal frequency-converted by this converter 7 is sent to the synthesizer 1.
8. This combiner 18 combines the UHF received signal (Su) supplied from the loop antenna 12 and the V
It combines the HF received signal (Sv) and the satellite broadcast received signal (SBS), and the combined received signal (S Bs-υV) from the combiner 18 is sent to the television via one receiving cable 19. Supplied to the receiver. In this case, the reception cable 19 is supported by the cable holding fitting 20 with respect to the support column 15 so as not to be affected by wind or the like.

And the above-mentioned composite antenna 11, 12.13a.

The support column 15 with the attached support 13b is attached to a support 2 prepared in advance.
1 is firmly fixed using metal fittings 22a and 22b.

In this embodiment, the plane area of the planar antenna 11 is about 0.05 to 0.2M, the diameter of the loop antenna 12 is about 0.2m, and the length of the dipole antennas 13a and 13b is about 0.9m. be.

FIGS. 2(A) and 2(B) respectively show the above planar antenna 1.
FIG. 1 is a plan view and a side sectional view showing the structure of the antenna.
a and 23b, and the spacing between these flat plates is set to be narrower than the satellite broadcasting wavelength. The pair of circular flat metal plates 23a and 23b have their outer peripheries connected to a metal ring 2.
The round metal plate 23a on the front side has a large number of radiation holes 25 with a diameter of 3 mm.
a, 25b, . . . are formed at intervals of -wavelength or less, and each of the group 1]=1 holes 25a, 25b, . . . has a helical element 26a.

26b... are inserted and supported upright by an insulator (not shown). In this case, each helical element 26a.

The circumference of 26b is approximately -wavelength (25 mm), the pitch angle is 4 degrees, and the number of turns is 2, and the outer circumference of the coupling element is longer. This large number of helical elements 26a, 2
The surface side of the planar antenna 11 on which the antennas 6b, . . . are arranged is as follows.
It is covered by a cover 27.

On the other hand, the circular metal plate 23 on the back side of this planar antenna 11
The converter 17 disposed at b has a built-in converter board 28 for amplifying and frequency converting the satellite broadcast reception signal. A probe 30 is erected corresponding to the hole 29.

In other words, the satellite broadcasting wavelength antenna is 11.7 to 1.2 G.
t(z) passes through the cover 27 and each helical element 26a
, 26b, . . . as circularly polarized waves. Then, a pair of circular flat metal plates 23a appear.

23b is excited, and the helical elements 26a26b, .
The received signals from ... are synthesized in the same phase in the probe 30, and then the satellite broadcasting received signal is amplified and frequency-converted by the converter 7 and is outputted from the output connector 31 to the synthesizer 18. . With this type of planar antenna 11, extremely high reception efficiency of 80 to 100% can be obtained.

In addition, the rotary fitting 14 for mounting the loop antenna 12 and the dipole antenna 1.3a,], B3 is as follows:
Metal ring 2 forming the outer periphery of this planar antenna 11
4, a loop antenna 12 and a dipole antenna 13a.

13b is on the metal ring 24 of the planar antenna]1,
It is rotatably mounted.

Figure 3 shows the received signal synthesis system of this antenna device.
Received signal (Su) and dipole antenna 1.3a13
The VI (F received signal (Sv)) received by b is
The UV mixer is supplied to the UV mixer 8a and synthesized. The BS received signal (S B5) received by the planar antenna 11 and frequency-converted through the converter 17 is
The signal is supplied to the B5-UV mixer 18b and is combined with the UV composite signal (Suv) supplied from the UV mixer 8a.

As a result, the BS-UV from the B5-UV mixer 8b
The composite signal (S n5-uv ) is supplied to the television receiver through the receiving cable 19. In other words, the B5-UV composite signal (S
n5-uv), FM.

The received signals of VHF-TV, UHF-TV, and BS are frequency-divided and exist.

Next, the procedure for installing the antenna device with the above configuration in Tokyo will be explained.

First, install the flat antenna 1 in the direction of the broadcasting satellite at an azimuth of 210° and an elevation of 38° by variably adjusting the metal fittings 16, making fine adjustments to maximize the actual receiving output, and then firmly fixing it. . Then, the rotation angle of the loop antenna 12 and the inclination angle of the dipole antennas 13a and 13b are adjusted and fixed by the rotary fitting 14 so that the received image quality is the best while actually receiving UHF broadcasting and VHF broadcasting, respectively. In this case, best point adjustment during UHF reception and VH
It is preferable to repeat the best point adjustment at the time of F reception two or three times by changing the order.

Therefore, according to the antenna device having the above configuration, FM,
A decoding antenna capable of receiving VHF-TV and UHF-TV BS is supported by one pillar 15, and each of the above received signals can be guided to the television receiver through one receiving cable. Therefore, the workability of attaching the antenna body can be improved, and the wiring system of the receiving cable can be simplified.

FIG. 4 shows the configuration of an antenna device installed in a place where there is little influence from wind. In this case, a stand 32 is used as a support means for the support column 5. In the case of the embodiment shown in FIG. 4, a square antenna is used as the planar antenna, and the loop antenna 12 and dipole antennas 13a and 13b are connected to the planar antenna 11.
For the jib structure, a rotating metal fitting 14 having a rotation adjustment function similar to that of the antenna device shown in FIG. 1 is used.

FIG. 5 shows the configuration of an antenna device that is attached to a corner of the outside wall of a house using a metal fitting 33. In this case, the pillar 15 supporting the planar antenna 11 is mounted using the metal fitting 33.
The loop antenna 12 and the dipole antennas 13a, 1:3b are integrally mounted from the top of the outer periphery of the planar antenna 11 via a rotating metal fitting 4 and a metal fitting 34.

In each of the above embodiments, a metal fitting that can be adjusted in the azimuth and elevation directions is used as the bracket 16 for supporting the planar antenna 11 on the support 15, but the rotation angle of the support 15 itself is Since the azimuth angle can be adjusted through adjustment, the above-mentioned mounting may be performed as long as the metal fitting 16 has an adjustment function in the elevation angle direction.

Further, in each of the above embodiments, the planar antenna 1 for BS reception
1, helical elements 26a and 26b.

For example, a radial slot antenna, a waveguide antenna, a microstrip antenna, etc. may be used.

Furthermore, a small antenna with about 2 to 3 elements may be used as the UHF and VHF receiving antenna in each of the above embodiments.

In this case, it goes without saying that the UHF and VHF antennas must not interfere with BS reception radio waves.

[Effects of the Invention] As described above, according to the present invention, VHF band and UHF band receiving antennas are attached to a flat antenna for receiving satellite broadcasting, this composite receiving antenna is supported by one support, and the above-mentioned The configuration is such that the received signals from the satellite broadcasting antenna, VHF receiving antenna, and UHF receiving antenna are combined into one cable, so the VHF band, UHF band,
The antenna device eliminates the need to separately install each receiving antenna for the HF satellite broadcasting band, improves installation work efficiency, and allows each received signal to be guided to the television receiver through a single cable. Can be provided.

[Brief explanation of drawings]

FIG. 1 is an external view showing the structure of an antenna device according to an embodiment of the present invention, and FIGS. 2 (A) and (B) are a plan view and a side sectional view showing the structure of a planar antenna in the antenna device, respectively. FIG. 3 is a diagram showing a received signal combining system of the antenna device, and FIGS. 4 and 5 are external views showing a +111 configuration of other embodiments of the antenna device. 11... Planar antenna, 12... Loop antenna,
13a, 13b...Dipole antenna, 14.Rotating metal fitting, 15.Strut, 16..Mounting metal fittings, 17..Converter, ]8..Synthesizer, 18a..UV mixer, 1
8b...B 5-UV mixer, 19...Receiving cable, 20...Cable holding fitting, 23a. 23b... circular metal flat plate, 24... metal ring, 2
6a, 26b...Helical element, 27...Cover, 28...Converter board, 30...Probe, 3
1... Output connector.

Claims (2)

[Claims] (1) VHF band and U
An HF band receiving antenna is attached, this composite receiving antenna is supported by one support, and each received signal from the satellite broadcasting receiving antenna, VHF receiving antenna, and UHF receiving antenna is combined into one cable. An antenna device characterized by deriving. (2) VH for the above flat antenna for receiving satellite broadcasting
2. The antenna device according to claim 1, wherein the mounting portion of each of the F-band and UHF-band reception antennas is constituted by a rotating metal fitting that can be rotated to any mounting angle.