JPH0641376Y2 - Satellite broadcasting antenna - Google Patents

Description

DETAILED DESCRIPTION OF THE INVENTION (Industrial field of application) The present invention relates to a satellite broadcasting receiving antenna, and more particularly to a satellite broadcasting receiving antenna with improved appearance, weather resistance and pollution resistance of the surface of the antenna.

(Prior Art) Today, household small satellite broadcasting receiving antennas are used as a means for receiving television broadcasting using SHF band broadcasting satellites, and a radio wave reflector such as aluminum is used for these antennas. In some cases, it was adhered to a substrate made of metal and coated on it for the purpose of preventing rust and improving weather resistance.

(Problems to be solved by the invention) However, since the antenna having the above structure depends on the rust prevention and weather resistance of the coating and the coating is also a decorative coating, uneven coating is not allowed and the finish Goodness was required, and the painting itself required a great deal of skill and effort.

Further, the effects of rust prevention and weather resistance are unavoidable to be reduced by long-term use, and there is a problem that the coating peels off or the appearance is deteriorated. And, as it has almost no stain resistance, it was a cause of impairing the appearance.

When aluminum is attached to the surface of a resin substrate as a radio wave reflector, it is generated from inside the substrate after molding.
The problem that the surface of aluminum is swollen by a gas such as N ₂ or CO ₂ often occurs especially when a substrate made of a foamed molded product is used.

SUMMARY OF THE INVENTION The present invention aims to solve the above problems and provide an antenna for satellite broadcasting reception which can easily and surely have rust prevention, weather resistance, and pollution resistance, and which prevents bulging of the surface. And

(Means for Solving the Problems) In order to achieve the above objects, the present invention has a plurality of holes on the surface of a receiving antenna formed of a foamed molded product of a thermoplastic resin having a parabolic morphology surface and the hole diameter thereof. But
It is characterized in that a radio wave reflector having a hole ratio of 0.1 to 1 mm and an aperture ratio of 3 to 30% and a microporous fluororesin film are laminated in this order.

Further, the thickness of the fluororesin film is preferably in the range of 20 to 100 μm for the reason described later.

(Function) The antenna for satellite broadcasting reception of the present invention has a plurality of holes on the surface of the substrate, the diameter of the holes is 0.1 to 1 mm, and the aperture ratio is 3
-30% radio wave reflector and microporous fluororesin film are laminated in this order. The fluororesin film has excellent weather resistance and stain resistance, does not easily get dirty, and can be used for a long time. In addition, it has multiple holes and its diameter is 0.1-1mm, and the open area ratio is 3-30%.
The radio wave reflector is capable of releasing the gas generated from the inside of the substrate made of foamed thermoplastic resin without accumulating between the substrate and the radio wave reflector, and the microporous fluorine provided on the surface. Resin film
Since it has the property that it allows gas such as N ₂ and CO _{2 to} pass through but does not allow water to pass through, it does not generate gas that has been generated inside the substrate made of a thermoplastic resin foam molding and has passed through the holes of the radio wave reflector. Furthermore, it can be discharged to the outside, and rainwater, etc. will not enter the inside from the outside.

Embodiments Embodiments of the present invention will be described in detail below with reference to the accompanying drawings.

A satellite broadcasting receiving antenna (1) shown in FIG. 1 is an antenna having a parabolic shape surface, and a radio wave reflector (4) having a plurality of holes on a surface of a substrate (2) made of a thermoplastic resin foam molding. ), And a microporous fluororesin film (3) are laminated.

Substrate (2) is acrylic resin, AAS resin, modified PPO resin, AB
It is made of foamed thermoplastic resin, such as S resin, PC resin, and modified PPE resin.

The radio wave reflector (4) is used as a radio wave reflection plate and is made of a metal film such as aluminum and has a plurality of holes. The substrate (2) is a foamed molded body as described above, and gas such as N ₂ and CO ₂ is generated from the surface after molding, but by forming a hole in the radio wave reflector (4), the substrate (2) is removed from the substrate (2). The generated gas can be discharged to the outside of the radio wave reflector (4) through the hole, and the bulge of the radio wave reflector (4) can be prevented. The diameter of the holes provided in the radio wave reflector (4) in order to sufficiently discharge the gas generated from the substrate (2) is set in the range of 0.1 to 1 mm, and the holes occupy the entire area of the radio wave reflector (4). The area ratio, that is, the open area ratio is set within the range of 3 to 30%.
If the hole diameter is less than 0.1 mm, the gas cannot be sufficiently discharged, and if it exceeds 1 mm, the original purpose of the radio wave reflector (4) to reflect radio waves becomes insufficient, which is not preferable. Further, if the porosity is less than 3%, the gas cannot be discharged and a large amount of swelling occurs, and if it exceeds 30%, the ability to reflect radio waves becomes insufficient, which is not preferable. Further, the thickness thereof is about 50 μm.

Further, a fluororesin film (3) is laminated on the radio wave reflector (4) to prevent corrosion of a metal film such as aluminum forming the radio wave reflector. This fluororesin film (3) uses a microporous film, and the gas that has passed through the holes of the radio wave reflector (4) can be further discharged to the outside.

As the microporous fluororesin film (3), a resin film having a microporous structure composed of a polyvinyl fluoride resin film, an unbaked tetrafluoroethylene resin film or the like can be mentioned. For example, a trade name Tedlar (DuPont) is used. To be done.

If the thickness is too thin, the durability will be impaired, and if it is too thick, the gas permeability will be impaired, so that the thickness is in the range of 20 to 100 μm, preferably around 40 μm. In addition, if a fluororesin film that is colored in advance is used, the appearance will be improved and there will be no need for decorative coating.

The fluororesin film (3) may be adhered to the substrate (2) provided with the radio wave reflector (4) with an adhesive, or the radio wave reflector (4) may be formed when the substrate (2) is molded. At the same time, it is also possible to set and mold in a mold at the same time, and fuse them.

By adopting the above configuration, the microporous fluororesin film (3) can protect the radio wave reflector (4) without passing water or dust and has gas permeability. Radio wave reflector (4) generated from the substrate (2)
The gas that has come out through the holes can be discharged. The substrate (2), the radio wave reflector (4) and the fluororesin film (3) are provided by means such as adhesion or fusion as described above. Also, a PE having a hole between the substrate (2) and the radio wave reflector (4) for protecting the radio wave reflector (4).
It is also possible to laminate a resin film made of T or the like.

(Effect) As described above, the satellite broadcasting receiving antenna of the present invention has a plurality of holes on the surface of the substrate made of the thermoplastic resin foam molding, the hole diameter is 0.1 to 1 mm, and the aperture ratio is 3 to 30.
It has a structure in which a radio wave reflector such as a radio wave reflector and a microporous fluororesin film are laminated, and as described above, it is possible to easily finish with excellent weather resistance and stain resistance. The microporous fluororesin film can protect the radio wave reflector without transmitting water and dust. Also, since the substrate is a foamed molded product, gases such as N ₂ and CO ₂ generated from the surface are discharged to the outside of the radio wave reflector through the holes of the radio wave reflector, and the gas is a microporous fluororesin film. Since it can be further discharged to the outside, bulging of the antenna surface can be prevented, and by using a pre-colored fluororesin film, it is possible to obtain a satellite broadcast receiving antenna having an excellent appearance.

[Brief description of drawings]

FIG. 1 is a cross-sectional view showing an embodiment of a satellite broadcast receiving antenna having a parabolic shape. (1) …… Satellite broadcasting reception antenna (2) …… Substrate (3) …… Fluororesin film (4) …… Radio wave reflector

Claims (2)

[Scope of utility model registration request] 1. A satellite broadcast receiving antenna using a substrate made of a thermoplastic resin foam-molded body having a parabolic morphology has a plurality of holes on its surface and has a hole diameter of 0.1.
An antenna for satellite broadcasting reception, characterized in that a radio wave reflector having a porosity of 3 mm to 1 mm and a microporous fluororesin film are laminated in this order. 2. The thickness of the fluororesin film is 20-100 μm.
The satellite broadcast receiving antenna according to claim 1, wherein the antenna is within the range.