JPH02278901A - Wireless antenna system - Google Patents

Abstract

PURPOSE:To improve the gain in the front face direction and the directivity by providing a shield case incorporating an amplifier and a frequency converter to a position at the back side of a front face antenna element section apart by a 1/4 wavelength and working the shield case like a reflection element. CONSTITUTION:A couple of main antenna element 3 and sub antenna element 4 are provided to a front face of a printed circuit board 2 of a front face antenna element section 1 as patterns and a vertical antenna element 6 projecting backward the board 2 connects to an outer terminal of a part 4b parted from each antenna sub antenna element 4. Then a shield case 8 with an amplifier and a frequency converter or the like built therein is placed at a position apart from the front face antenna element section 1 by 1/4lambda. Since the shield case for the amplifier and the frequency converter is used as an antenna reflecting element in this way, the front direction gain is improved, and the directivity is improved thereby extending the range of use of a transmitter.

Description

DETAILED DESCRIPTION OF THE INVENTION Field of the Invention The present invention relates to a wireless antenna device in a wireless system used in schools, hotel banquet halls, halls, theaters, etc.

2. Description of the Related Art Hitherto, the configurations shown in FIGS. 4 and 5 have been known as this type of wireless antenna device. 4 and 5, 21 is an antenna element, 22 is a power feeding section to which the antenna element 21 is connected, and a high frequency amplifier,
It has a built-in frequency converter, etc. Reference numeral 23 denotes a mounting angle, and the power supply unit 22 and the like are mounted at a desired location on a wall 26 or a ceiling ridge. 24 is a wireless receiver, and 25 is a coaxial cable connecting the power feeding section 22 and the wireless receiver 24.

Next, the operation of the above conventional example will be explained.

Radio waves emitted from the wireless microphone 27, which is a transmitter, are excited by the antenna element 21 that resonates with this transmission frequency, are amplified and frequency-converted by the amplifier and frequency converter built into the power feeding section 22, and are sent to the coaxial cable 2.
5 to the receiver 24.

In this way, even with the above conventional wireless antenna device,
An efficient wireless system can be constructed by selecting the location where the antenna is installed, matching the plane of polarization, limiting the location where the transmitter is used, etc.

Furthermore, directivity can be improved by using an external Yagi antenna 28 as shown in FIG.

Problems to be Solved by the Invention However, in a dipole type such as the conventional wireless antenna device described above, when it is attached to a wall 26 as shown in FIG. Susceptible to side interference and co-channel transmitters. Further, if the wall 26 or the ceiling is made of metal, the directivity may be disturbed depending on the installation direction and location. Furthermore, since the antenna element 21 is exposed, the aesthetic appearance may be impaired depending on the installation location. Furthermore, the wireless microphone 27, which is a transmitter, has directivity in directions other than the direction in which it is used, which is inefficient.

The present invention solves these conventional problems, and can improve the front gain, improve the directivity, and expand the usable range of the transmitter, and reduce the back gain. It is an object of the present invention to provide a wireless antenna device that can be made less susceptible to the influence of the surrounding environment, such as the installation location, and can improve the degree of freedom in the installation location.

Means for Solving the Problems In order to achieve the above object, the present invention provides a front antenna element portion having a patterned antenna element on the front surface of a substrate, and a position spaced 1/4 wavelength behind the front antenna element portion. provided with a high frequency amplifier,
It has a shield case with a built-in frequency converter.

The present invention has the following effects due to the above configuration.

A shield case with a built-in amplifier and frequency converter is installed at a position 1/4 wavelength away from the rear of the front antenna element, and can be operated as a reflection element.
Gain in the front direction can be improved and directivity can be improved.

EXAMPLES Hereinafter, examples of the present invention will be described with reference to the drawings.

1 to 3 show a wireless antenna device according to an embodiment of the present invention, FIG. 1 is a partially cutaway perspective view, and FIGS. 2(a), (bl, (C), (dl, ) are a plan view, a front view, a bottom view, a left side view, and a right side view of the antenna element portion, respectively, and FIG. 3 is an explanatory view of the operation of use.

As shown in FIGS. 1 and 2, the front antenna element section 1 has a pair of main antenna elements 3 and sub antenna elements 4 provided in a pattern on the front surface of a substrate 2. As shown in FIGS. Each main antenna element 3 has an outer part 3
The inner part 3b is arranged so as to be substantially parallel, and the inner part 3b has a right angle part and an inclined part following the parallel part of the outer part 3a.

Each sub-antenna element 4 is provided so as to be connected in the orthogonal direction at the feeding point 5 of each main antenna element 3, and the side 4 of each sub-antenna element 4 is spaced apart from the orthogonal connection portion 4a with the main antenna element 3.
b is arranged in a direction perpendicular to the parallel outer portion 3a of the main antenna element 3. A vertical antenna element 6 that protrudes vertically to the rear of the substrate 2 is connected to the outer end of the separated side 4b of each sub-antenna element 4, and the vertical antenna elements 6 are arranged such that their surfaces are perpendicular to each other. It is located. Each main antenna element 3
If the length of the outer part 3a is A11, the length of the right angle part of the side surface 3b is 81, and the length of the inclined part is C, then A+B+C=1
/4λ. If the length of the outer portion 4b of each sub-antenna element 4 is D1, the length of orthogonal connection portion 4a is E1, and the length of each vertical antenna element 6 is F, then D+E+F=1/4λ. That is, each sub-antenna element 4 and vertical antenna element 6 are set to have a wavelength of 1/4. The antenna element section configured in this manner is arranged on the front side of the support frame 7 made of an insulating material so that the main antenna element 3 and the sub-antenna element 4 are on the outer surface side. A shield case 8 is attached to the inside of the back plate 7a of the support frame 7, and this shield case 8 has an amplifier, a frequency converter, etc. built therein. This shield case 8 is set to be spaced 0.25λ (1/4λ) from the front antenna element portion 1. The equipment inside the shield case 8 and the feeding point 5 of the main antenna element 3 are connected by a cable 9, and the equipment inside the shield case 8 and the receiver are connected by a coaxial cable 10. A cover 11 is placed over the antenna element portion, shield case 8, and the like.

These cover 11 and support frame 7 are attached through holes 12.
By using 13, it is attached to a desired location such as a wall 14 or a ceiling.

Next, the operation of the above embodiment will be explained.

The radio waves emitted from the wireless microphone 15 (see Figure 3), which is a transmitter, are excited by the antenna element 3.4.6 that resonates at the transmission frequency, and are transmitted via the cable 9 to the amplifier built in the shield case 8 and the frequency. The signal is amplified and frequency converted by a converter, and sent to a receiver via a coaxial cable 10. At this time, the shield case 8, which acts as a reflector for the front antenna element section 1,
Gain in the front direction can be improved and directivity can be improved. By providing the shield case 8, which is a reflector, at a position 1/4 wavelength behind the front antenna element section 1 in this way, the front gain can be improved, and the range of use of the wireless microphone 15 can be expanded. be able to. Also, the gain on the back side of the wall 14 can be reduced! 14 interference from the other side,
It is less susceptible to interference and can be installed in any location as it is less susceptible to interference from metal etc. on the back of the installation location.Especially in the UHF and SHF bands, the effect of the shield case 8 is greater, it is small and has a high gain. An integrated antenna can be constructed.

In addition, as described above, each main antenna element 3 is
By setting the wavelength to 1/2, mutual interference between elements can be suppressed and the element can be operated as a basic 1/2 wavelength dipole. On the other hand, each sub antenna element 4
By orthogonal to the main antenna element 3 at the feed point 5, interference with the main antenna element 3 can be suppressed and changes in the plane of polarization can be accommodated. Further, a vertical antenna element 6 is connected to the outer end of the sub-antenna element 4, and the sub-antenna element 4 and the vertical antenna element 6 are set to have a quarter wavelength, and the vertical antenna elements 6 are orthogonal to each other. Therefore, mutual interference can be suppressed. Therefore, in the front direction, the main antenna element 3 and the sub-antenna element 4 can ensure gain in each polarization plane, and in the side direction, the vertical antenna element 6 can ensure gain.

Further, by providing the cover 11, the appearance can be improved.

Effects of the Invention As described above, according to the present invention, there is a front antenna element portion having a patterned antenna element on the front surface of the substrate, and a front antenna element portion having a patterned antenna element on the front surface of the substrate, and a
It is installed at a distance of /4 wavelengths and is equipped with a shield case containing a high frequency amplifier and a frequency converter. In this way, since the shield case of the amplifier and frequency converter is used as the antenna reflection element, a directional antenna can be constructed without the need for a special reflection element. Since the directional gain can be improved, the range of use can be expanded. In addition, it is less susceptible to interference from the rear of the installation location, and is less susceptible to interference from metal at the rear of the installation location (
The flexibility of the installation location can be improved.

[Brief explanation of drawings]

1 to 3 show a wireless antenna device according to an embodiment of the present invention, FIG. 1 is a partially cutaway perspective view, and FIG. 2 (a), (bl, (C1, (dl, e) are respectively a plan view, a front view, a bottom view, a left side view, and a right side view of the antenna element portion; FIG. 3 is an explanatory diagram of the operation of use; FIGS. 5 is a perspective view showing the relationship between the antenna element portion and the wireless receiver, FIG. 6 is an explanatory diagram of the operation, and FIG. 7 is a diagram showing another conventional wireless antenna device. It is a perspective view of an antenna element part. 1... Front antenna element part, 2... Board|substrate, 3
...Main antenna element, 4...Sub antenna element, 5...Power feeding section, 6...Vertical antenna element, 7...Support frame, 8...Shield case, 10...Coaxial cable , 11...Cover Tomi Figure 1 Agent's name Patent attorney Shigetaka Awano Idiot 1 person 2 Figure 3 Figure 4 Figure -m- 5-・- -1- 8-・- #1f17 Futenaement Department l! Constant main antenna support sotenna feed point l1117'

Claims (1)

[Claims] a front antenna element section having a patterned antenna element on the front surface of the substrate; and a front antenna element section provided at a position 1/4 wavelength apart behind the front antenna element section;
A wireless antenna device equipped with a shield case containing a high frequency amplifier and frequency converter.