JPS63254804A - Antenna feeder - Google Patents

Abstract

PURPOSE:To attain sufficient continuity by fitting and fixing a rear contact plate and a front contact plate through a through hole of an insulating film plate and pressing them into contact to a feeding point of a feeding terminal board. CONSTITUTION:Antenna patterns 12, 12' are fixed to the surface of a base 11 made of an insulation film and feeding terminal boards 13, 13' are placed so as to be pressed just above the patterns 12, 12'. In tightening bolts 15, 15', the base 11 is clipped by the rear contact plate 21 and the front contact plate 14 and the feeding terminal boards 13, 13' are pressed to the pattern 12, 12' and allowed to contact. Thus, the feeding terminal boards 13, 13' and the feeding point of the patterns 12, 12' are brought into contact by a sufficient pressing force and sufficient continuity is obtained with less contact resistance.

Description

DETAILED DESCRIPTION OF THE INVENTION The present invention relates to an antenna feeding IIM device that feeds power to an antenna pattern fixedly formed on an ilm, a vinyl chloride film, or the like.

[Prior art and its drawbacks]

Conventionally, there are methods for feeding power to antenna patterns fixed and formed on thin insulating polyester films, chlorinated nitrogen films, paper, etc., as shown in Figures 4 and 5. There was a problem.

FIG. 4 shows a method in which the power supply II1 is connected in advance using studs 5 called eyelets. In Figure 4, 1
2 is a polyester film, 2 is a loop-shaped antenna pattern, 3 is a feed line, 4 is a feed line connection terminal, and 5 is a stud called an eyelet. However, with this method, it is difficult to roll the polyester film into a cylindrical shape and store it in a box, the power supply line 3 becomes a cable and becomes bulky, and extra force is applied to the connection part, causing the polyester film 1 The disadvantage is that it can be damaged.

Moreover, FIG. 5 shows the case of pressure contact using a leaf spring.

In FIG. 5, 6 is a leaf spring, and the portions for fixing the leaf spring 6 and the polyester film 1 are not shown. However, with this method, the antenna pattern 2 becomes gold f.
It is good if it is formed with fEe, but if it is fixed and formed by a printing method with conductive paint such as silver paste or carbon, there is a disadvantage that sufficient conduction cannot be obtained because the contact resistance is large. . In the case of the printing method, for example, conduction occurs when silver particles come into contact with each other, but since the leaf spring 6 cannot obtain sufficient pressing force against these particles, the contact resistance This is because the current becomes large and sufficient conduction cannot be obtained.

[Object of the Invention] The present invention was made in view of the above-mentioned drawbacks, and it solves the problems when rolling a polyester film into a cylindrical shape and storing it in a box. It is an object of the present invention to provide an antenna power feeding device that can obtain sufficient conduction by contacting with a strong pressing force and reducing contact resistance.

[Summary of the Invention] That is, the power feeding device according to the present invention supports the film base from the surface of the film base with respect to the power feeding point of the antenna pattern fixedly formed on the surface of the insulating film base. The back contact plate is abutted and supported, while the feed terminal plate to which the feeder line is connected from the front surface of the film base is brought into contact with the feed point of the antenna pattern, and the feed i! The terminal board is M
It is fixed to a face contact plate, and the back contact plate and front contact plate are tightened and fixed so as to sandwich the insulating film base. Therefore, by loosening the bolt,
Since the film base can be removed from the tsi, the drawbacks of the conventional method can be overcome.

[Embodiment J of the Invention Hereinafter, an embodiment of the present invention will be described with reference to the drawings. In Figure 1, parts other than the lining are partially omitted. In the figure, reference numeral 11 is an insulating base made of a polyester film having a thickness of about 125 μm, for example. Also, 12.12' is the antenna pattern,
The antenna pattern 12.12' is made of silver paste, for example.
It is assumed that it is fixed and formed by a printing method using a conductive paint such as carbon, or it is formed by etching using aluminum foil. Further, 13.13' is a power supply terminal plate, 14 is a surface contact plate, and 13.13' is a power supply terminal plate.
13' is installed. In addition, 15.15' is a bolt, 16 is a cover, and 17 is a cover 16 with a surface contact plate 1.
4 is a screw fixed thereto, and 18 is a parallel feeder line.

FIG. 2(A) shows an exploded view of the power supply device,
A view seen from arrow A in FIG. 1 is shown.

In FIG. 2 (A>), an antenna pattern 12.12' is fixedly formed on the insulating base 11, and the feed terminal position 13.13' is in contact with the antenna pattern 12.12' directly above the antenna pattern 12.12'. tiL is placed.Power supply terminal board 13
, 43' are fixed to the surface abutment plate 14 in a plug-in manner, a side view of which is shown in FIG. 2(B).

FIG. 2(B) is an exploded view of the B-8' cross section in FIG. 2(A). In the figure, bolt 15.15'
is inserted into the through hole 19°19' provided in the surface contact plate 14, and is inserted into the through hole 20 provided in the insulating base 11.
．． 20' and screwed into nuts 22 and 22' inserted into the back contact plate 21. Back side plate 21
A double-sided adhesive tape 23 is attached to the insulating base 11 and fixed to the insulating base 11 with adhesive. Further, the parallel feeder 18 is soldered to the power supply terminal plate 13.13', and its state is shown in FIG. 2(B). 24 is the soldering part. The cover 16 is provided to cover the vicinity of the soldering portion 24 so as not to make the appearance unsightly. or,
Reference numeral 25 indicates the antenna pattern side of the feed terminal plate 13, 13', which protrudes from the lower surface of the front contact plate 14 by the thickness of the plate. Therefore, it is possible to make good contact with the antenna pattern 12, 12'. That is, when the bolts 15 and 15' are tightened, the insulating base 11 is sandwiched between the back contact plate 21 and the front contact plate 14, and the supply 7M ml daughter plate 1
3.13' is pressed against the antenna pattern 12.12' and can be brought into contact with the antenna pattern 12.12'. Therefore, the feed terminal plate 13.13' and the feed point of the antenna pattern 12.12' can be brought into contact with a sufficient pressing force, and sufficient conduction can be obtained by reducing the contact resistance. .

FIG. 4 shows an antenna device according to the present invention for FM (76 to 9
0MH2) This shows the case where it is applied to the receiving antenna. In the figure, reference numeral 31 denotes an insulating base 32 made of a polyester film, 32' an antenna pattern, and 33 a power feeding section, each of which has the structure shown in FIGS. 1, 12 (A) and 12 (B). 34 is a parallel feeder, and 35° and 35' are optical terminals connected to an antenna terminal (not shown) of an FM tuner.

Note that the insulating base 11 may be made of, for example, vinyl chloride, nylon, polyimide, or paper. Further, the thickness of the film may be thick or thin as long as it can be rolled into a cylindrical shape.

[Effects of the Invention] As described above, according to the present invention, it is possible to reliably connect to the feeding point of the antenna pattern fixed and formed on a thin polyester film, etc., thereby improving the reliability of the connection. It is possible to provide an antenna feeding T1 device which has the advantage that it is very large and the feeding part is easy to attach and detach, and the polyester film can be rolled up and stored, making it very easy to pack.

[Brief explanation of drawings]

FIG. 1 is a diagram showing the power supply device of the present invention, FIG. 2 (A) is a view of the power supply device in FIG. 1 in the direction of arrow A, and FIG. 2 (B)! the second
FIG. f! A diagram showing a state in which the device is actually connected to an FM receiving antenna, FIG. 4, and FIG. 45 are diagrams each showing a conventional antenna power feeding device. 1... Polyester film, 3... Power supply line, 4...
...Power line connection terminal, 5...Grotmet, 6...Plate spring, 11...Insulation base, 2, 12.12', 32
．． 32'... antenna pattern, 13.13'...
Supply 'R terminal board, 14...Surface contact plate, 15, 15'...
・Bolt, 16...Cover, 17...Screw, 18°34...Parallel feeder, 19.19', 20.2
0'...Through hole, 21...Back contact plate, 22.22
'... Nut, 25... Protrusion on the antenna pattern side, 33... Power feeding part. Applicant's Representative Patent Attorney Takehiko Suzue Figure 1 (A) CB) Figure 2 Figure 4 Figure 5 Procedural Amendment Document Showa Mao 2.5130 Day 1, Case Indication Patent Application No. 1988-88177 2, Name of the invention: Antenna power feeding device 3. Relationship with the person making the amendment: Patent applicant (881) Yagi Antenna Co., Ltd. 4, Agent: UBE Building 7, 3-7-2 Kasumigaseki, Chiyoda-ku, Tokyo.
Contents of the amendment (1) On page 5, line 18 of the specification, the phrase "terminal position" is corrected to read "terminal board." (2) In the 7th line of page 7 of the specification, "Figure 4" is corrected to "Figure 3." (3) Figure 3 of the drawing will be corrected as shown in the attached sheet.

Claims (2)

[Claims] (1) a back contact plate that is supported in contact with the feed point of the antenna pattern fixedly formed on the surface of the insulating film base from the back surface of the film base; and a power supply terminal board to which a feeder wire is connected, and a front contact plate to which the power supply terminal board is fixed, and the back contact plate and the front contact plate are provided on the insulating film base. An antenna power supply device characterized in that the power supply terminal plate is pressed into contact with a power supply point of an antenna pattern to be supplied with power while being tightened and fixed using a fitting fixing means through a through hole. (2) The antenna pattern is formed by fixing a conductive paint such as silver paste or carbon by a printing method, or by fixing and forming a metal foil such as aluminum foil. The antenna power feeding device according to item 1.