JPH04154307A - Plane antenna - Google Patents

Abstract

(57) [Summary] This bulletin contains application data before electronic filing, so abstract data is not recorded.

Description

DETAILED DESCRIPTION OF THE INVENTION [Field of Industrial Application] The present invention relates to a circularly polarized planar antenna used as a receiving antenna for satellite broadcasting and the like.

[Prior Art] Conventionally, many planar antennas for receiving circularly polarized waves have been put into practical use, using batch elements or annular slot elements obtained by printing or etching as antenna elements. Planar antennas using an element structure are easy to assemble, but have the drawback that reception efficiency is not necessarily high.

On the other hand, a planar antenna with a structure in which the antenna element is raised above the reflective surface has a high reception efficiency, but
Since each element and its support must be individually assembled and mounted on a metal plate surface serving as a reflective surface, there is a drawback that workability is poor and assembly is difficult.

Figures 5(A) and 5(B) respectively show the structure of antenna element installation in a conventional planar antenna. Figure 5(A) shows the case of a helical element, and Figure 5(B) shows the case of a batch element. It shows.

That is, an element support hole 12 is formed in the conductor plate 11, which serves as a receiving and reflecting surface for satellite radio waves, and a support member 13 made of a dielectric material is inserted into the support hole 12.

A small hole 14 is formed in the center of the support 13,
The shaft portion 15a or 16g of the helical antenna element 15 or patch antenna element 16 is connected to this small hole 14.
Insert it. In this way, the helical antenna element 15 or the patch antenna element 16 is fixed to the conductor plate 11.

[Problems to be Solved by the Invention] However, if the antenna element is fixed to the conductor plate with the above structure, for example, when the helical antenna element 15 is used, the conductor plate 11 with a diameter of 30 cm is
For this, it is necessary to drill 168 element support holes 12, manufacture the same number of dielectric supports 13, and mount them in combination with the helical antenna element 15, which increases the manufacturing cost and makes it difficult to lower the price. It is a hindrance.

The present invention has been made in view of the above problems, and even when high reception efficiency is obtained by making the antenna element float above the reflecting surface, the present invention does not take much time to manufacture and assemble, and the cost can be reduced. The purpose is to provide an antenna.

[Means for Solving the Problems] That is, the planar antenna according to the present invention includes a dielectric body installed inside a metal case with a surface opening and having a large number of convex portions formed on the surface thereof, and a surface of this dielectric body. A conductive plate having a large number of holes superimposed on top of the dielectric material and into which the plurality of convex portions of the dielectric material are respectively inserted; an annular short-circuit portion that electrically connects the antenna element provided therein, an outer peripheral edge portion of the metal case and an outer peripheral edge portion of the conductive plate; The converter has a power supply pin inserted in the center.

[In other words, it is not necessary to fabricate a dielectric support for each antenna element and assemble it into the conductor plate. Since it is only necessary to erect the antenna element, assembly becomes easy and manufacturing and work costs can be reduced.

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

FIG. 1 shows the assembled structure of a planar antenna. In the figure, 21 is a disk-shaped metal case, and on the surface of this metal case 21 there is a first plate having approximately the same diameter as the metal case 21. A dielectric 22 is placed. This first dielectric body 22 is made of a dielectric material with a low dielectric constant and low loss, such as foamed polyethylene, and the surface of this dielectric body 22 has 168 element supports, for example, if its diameter is 30,011 mm. Cylindrical convex portion 23. ... are formed at preset intervals, and on the surface of this dielectric 22,
Furthermore, a conductive plate 24 is placed. This conductor plate 24 has each convex portion 23 . A large number of holes 25, . . . corresponding to the holes 25, . Convex portions 23 corresponding to... ... are fitted together and placed on the surface of the first dielectric 22. Here, the metal case 21 and the conductor plate 24 are electrically short-circuited by an annular short-circuit portion 27 surrounding the outer periphery thereof.

A large number of holes 25 are formed on the surface of the conductive plate 24.
．． The convex portion 23 for supporting the element protrudes through the...
As shown by the broken line, the helical antenna element 26 made of copper wire is attached to the upper end surface of the helical antenna element 26.
It is erected by piercing a,...

In this way, a large number of helical antenna elements 26. ... is placed upright in a floating state, the second dielectric 28 is placed on the conductor plate 24. This second dielectric body 28 has a number of cylindrical holes 29 formed on its lower surface side corresponding to the upright positions of the helical antenna elements 26 . As shown by the broken line C, each of the winding portions of the helical antenna element 26 is accommodated, and each of the convex portions 23 . The upper end portions of... are fitted and placed and superimposed on the conductor plate 24. Here, a cover 30 is provided further outside the second dielectric 28.
or may be provided.

On the other hand, a power supply hole 31 is formed in the center of the metal case 21, and a converter 32 is provided on the lower surface thereof, and a power supply bottle 32a of the converter 32 is inserted into the center of the lower surface of the first dielectric 22. and a received signal is derived. The received signal frequency-converted through the converter 32 is supplied to a receiver through a cable 33.

FIG. 2 shows a cross-sectional structure of the antenna main body from the metal case 21 to the conductor plate 24 of the above-mentioned planar antenna, and shows the helical antenna element 26. The arrangement interval of ... is one wavelength (
λ) or less, and the holes 25. The hole diameter of ... is set to 2 to 5 m+sφ. Also, metal case 2
1 and the conductor plate 24 is set to 1/2 wavelength, and the metal case 2
1 peripheral short circuit part 27 and outer peripheral side helical antenna element 26
The interval between them is set to 1/4 wavelength.

Here, the receiving frequency of satellite broadcasting is 11.7 to 12G, and the diameter of the antenna body is 30 cm.

The number of elements of the helical antenna element 26 is 168, the element wire diameter is 0.5 mm, the helical pitch is 1.8111%, the diameter of 2 turns of winding is 811I11, the height from the conductor plate 24 to the helical start position is 1 mm, If the length of the shaft portion 26H at the center of the antenna is set to 2 mm, and the length of the shaft portion 26H at the outer circumference of the antenna is set to 7.5 mm, approximately 31 d.
A gain of B is obtained.

In this case, each helical antenna element 26. ... through the first dielectric 22 in the metal case 21 to the power supply pin 3
The received signal transmitted to 2a becomes a traveling wave.

Figures 3(A) and 3(B) respectively show the mounting structure of the antenna element in the above-mentioned planar antenna.
A) shows the case of a helical element, and (B) of the same figure shows the case of a patch element. In this case, either the shaft portion 26a of the helical element 26 or the shaft portion 34a of the patch element 34 is
The convex portion 23 of the dielectric 22. ... is inserted and erected into a through hole 23a formed along the center.

Therefore, according to the planar antenna having the above configuration, the helical antenna element 26. Convex portions 23 .・
... is formed, and this convex portion 23. A large number of holes 25. are inserted into the holes 25. After placing the conductor plate 24 on which the convex portions 23 . . . . each helical antenna element 26. Since the antenna main body is constructed by inserting the shaft portions 26a, . Each helical antenna element 26. It is only necessary to erect only the..., which simplifies assembly and reduces production and work costs.

Further, the upper part of the antenna main body is covered with a second dielectric material 28.
, and further covered by the cover 30, it is possible to obtain highly efficient and stable reception characteristics even when installed in a place with a bad environment due to wind, snow, etc.

Note that the first dielectric 22 in the above embodiment is made of a material whose surface is coated with copper foil, etc., and holes 25 are formed in the copper foil by etching or the like. By forming..., a very thin conductor plate 24 can be realized.

Further, in the above embodiment, the first dielectric 22 is overlapped with the metal case 21 and the conductive plate 24 without leaving any space, but for example, the first dielectric 22 is overlapped with the convex portion 22 corresponding to the arrangement position of the antenna element. ．． ...and its surroundings only to the required height,
The dielectric material in other areas is formed thinly and the metal case 2 is
1 and the conductor plate 24 may be configured to leave a space.

FIGS. 4(A) and 4(B) respectively show the planar configuration of the first dielectric 35 and its cross-sectional configuration on the line A-A as another embodiment of the above-mentioned planar antenna. The body 35 has a convex portion 2 corresponding to the arrangement position of the antenna element.
3. . . . and only its surrounding area and outer peripheral edge, the conductor plate 24
Support pillar 36. . . . or it is raised as a support wall 37, and the other areas are formed as thin plate portions 38. Furthermore, three power supply bin insertion holes into which the power supply bins 32a of the converter 32 are inserted are formed in the center of the dielectric body 35. In this case, the support column 36 of the dielectric 35 may be configured to have a prismatic shape or the like instead of a cylindrical shape.

That is, by using the first dielectric 35 having the above configuration, high frequency loss in the dielectric can be minimized,
Even better reception characteristics can be obtained.

Furthermore, although the antenna element in the above embodiment is configured using a helical antenna element or a patch antenna element, it may be configured using, for example, a spiral antenna.

[Effects of the Invention] As described above, according to the present invention, there is provided a dielectric body installed inside a metal case with a frontage and a large number of convex portions formed on the surface thereof, and a polymerized material on the surface of the dielectric body. a conductive plate having a large number of holes into which the large number of convex portions of the dielectric are respectively inserted; and an upper end surface of each of the convex portions of the dielectric that are fitted through the large number of holes of the conductive plate. an antenna element;
an annular short-circuit portion that electrically connects the outer peripheral edge of the metal case and the outer peripheral edge of the conductor plate; and a power supply provided on the non-opening side of the metal case and inserted into the center of the dielectric. Since it is configured with a converter having a bin,
Even when high reception efficiency is obtained by making the above-mentioned antenna element float above the reflecting surface (conductor plate), it is possible to provide a planar antenna that can be manufactured at a low price without requiring much time and effort in the assembly process. .

[Brief explanation of the drawing]

FIG. 1 is a diagram showing the assembled structure of a planar antenna according to an embodiment of the present invention, FIG. 2 is a diagram showing a cross-sectional structure of the antenna body from the metal case to the conductor plate of the above-mentioned planar antenna, and FIG. A) and (B) are cross-sectional views showing the structure of the mounting of the antenna element in the above-mentioned planar antenna, respectively.
Figures (A) and (B) respectively show the planar configuration of the first dielectric as another embodiment of the above-mentioned planar antenna and its A-A.
5(A) and 5(B) are cross-sectional views showing the mounting structure of an antenna element in a conventional planar antenna. 21... Metal case, 22. 35... First dielectric, 23... Convex portion of dielectric, 24... Conductor plate, 25...
...Hole of conductor plate, 26...Helical antenna element, 2
6a... Shaft part of helical element, 27... Short circuit part, 2
8... Second dielectric, 29... Helical element accommodation hole, 3o... Cover 31... Feed fE hole, 32...
Converter, 32a... Power supply bin, 33... Cable, 34... Patch antenna element, 34a... Shaft of patch element, 36... Dielectric support column, 37 dielectric support wall, 38... Dielectric thin plate portion, 39... Power supply bottle insertion hole. Applicant's representative Patent attorney Takehiko Suzue Figure (A) Figure (A) Figure (B) Figure (B) Figure

Claims (3)

[Claims] (1) A dielectric material installed inside a metal case with an opening on one side and having many convex portions formed on its surface, and a dielectric material that is superimposed on the surface of this dielectric material and the many convex portions of the dielectric material are respectively fitted and inserted. a conductive plate having a large number of holes, an antenna element installed upright on the upper end surface of each of the convex parts of the dielectric material, which is fitted through the large number of holes in the conductive plate; A converter comprising: an annular short-circuit portion that electrically connects the outer peripheral edge of the conductor plate; and a converter having a power supply pin provided on the non-opening side of the metal case and inserted into the center of the dielectric. A flat antenna featuring: (2) The planar antenna according to claim 1, wherein the conductive plate is made of a conductive foil film adhered to the surface of the dielectric. (3) The dielectric is formed upright so that only its outer peripheral edge, a large number of convex portions, and the peripheral portions of the convex portions correspond to the conductive plate;
2. The planar antenna according to claim 1, wherein the other regions are formed into a thin plate shape.