RU195169U1 - EXTERNAL PROTECTIVE COATING FOR WALLS OF RADIO-TRANSPARENT COVERINGS - Google Patents

Abstract

The utility model relates to antenna technology. The outer protective coating for the walls of radiolucent shelters made of fiberglass is characterized in that the inner layer of the outer protective coating is made of fiberglass impregnated with a binder based on organic resins, and the outer layer of the outer protective coating is made of gelcoat with a total thickness of the outer protective coating of 0, 1 mm to 5 mm, ensuring the passage of electromagnetic waves through the wall of a radiotransparent shelter with attenuation from 0.1 to 2 dB in the range of electromagnetic waves up to 50 GHz. The technical result is to increase the life of the external protective coating and, accordingly, the product as a whole when exposed to adverse climatic factors. 3 s.p. f-ly, 1 ill.

Description

A useful model relates to the field of creating radiotransparent shelters for protecting radar and radio communication antennas from the adverse effects of atmospheric and climatic phenomena, the walls of which are made of fiberglass.

Known radiotransparent shelters (RPU) / Gurtovnik I.G. et al. “Radiolucent fiberglass products”, M., Mir, 2003 - p. 368.

A patent is known for PM RU 164302 RADIO-TRANSPARENT ANTENNA COVERING, which is a panel that is made by vacuum molding in the following sequence: several layers of a release agent are applied to a matrix made of composite materials. Spread on the matrix the required number of layers of prepreg (fiberglass impregnated with a binder), at different angles (0 ° / 90 °) for the formation of the outer skin.

The closest in purpose and technical essence to the claimed utility model includes a radiotransparent shelter for antennas according to the patent for PM No. 181718.

The panels according to the patent for ПМ No. 181718 are made by vacuum molding, a dye and a hydrophobic coating are applied to the surface of the finished panel.

It is known that specialized radiolucent two-component dyes of the type KP-5184, KhS-527, EP-140, which are also applied with a roller, brush or spray gun to the outside of the finished RPU panel, are used as the outer layer of radiotransparent shelters.

The disadvantages of the above external coating of the RPU panel include:

1. Poor decorative characteristics. Dyes applied in this way can have smudges, sagging, contain various kinds of inclusions and debris, as well as high shagreen surface.

2. The increase in the production cycle. Application is possible only after complete polymerization of the fiberglass layer, on which an external protective coating is applied.

3. The inability to change colors according to the RAL catalog, due to the limited color gamut, these dyes produced by the industry.

4. The inability to control the coating layer, which introduces instability in the radio characteristics of the products and reduces repeatability between batches.

5. The short life of the external coating is not more than 3 years, which requires constant updating of the coating.

The technical problem is the creation of RPU, the walls of which are made of radio-transparent fiberglass to provide a range of properties such as durability, radio transparency, stability of the radio characteristics of the product.

The technical result is to increase the life of the external protective coating and, accordingly, the product as a whole when exposed to adverse climatic factors.

The technical problem is solved, and the technical result is achieved by developing an external protective coating for the walls of radiolucent shelters made of fiberglass, which is characterized by the implementation of the outer layer of the protective coating of the walls of gelcoat, the presence of the inner layer of the outer protective coating of fiberglass impregnated with a binder based on organic resins, such as polyester, vinyl ester, epoxy, with a total thickness of the external protective coating from 0.1 mm to 5 mm, allowing the passage of ele netic waves through the radiotransparent wall shelter with attenuation from 0.1 to 2 dB of electromagnetic waves in the range up to 50 GHz (L, C, S, X, K, Ka, Ku).

The passage of electromagnetic waves with a minimum amount of loss (signal attenuation) is ensured by simultaneous, interdependent selection, gelcoat layers, and an intermediate layer of fiberglass with a binder based on organic resins.

As gelcoats, gelcoats of the manufacturers Enguard, Maxguard of the GN, NP, GNC, GW series and other manufactures of Ineos Composites, as well as productions of Bufa, Groupe Soromap, Gurit, Resoltech, Ilpa Adesivi - Levante, Sika, Reichhold, Norpol, Axson Technologies, can be used. TPX, Scott Bader.

As fiberglass impregnated with a binder based on organic resins, T-11, E3 / 100, E3 / 200, T-23, EWR-300/560/720 fiberglass, 600x1250 powder glass mat, which are produced by Russian and foreign industry, can be used, including including Makhachkala Glass Plant OJSC, OSV Fiberglass OJSC, Composite Holding Company JSC, Jushi Power and others.

The use of gelcoat as the outer layer of the coating of the walls of RPU from radiolucent fiberglass has not been studied.

At present, the dielectric properties of gelcoat affecting the dielectric constant of radiolucent fiberglass having an external gelcoat layer are unknown. Thus, the calculation of the dielectric properties of the wall of a radiotransparent shelter, consisting of at least fiberglass on polyester, vinyl ether, epoxy binders and the outer layer of gelcoat, was currently unknown from the prior art.

The use of the calculated thickness as an external coating layer of gelcoat for coating walls of radiolucent plastics with a thickness that correlates with the wavelength and associated with the radio technical properties of radiolucent fiberglass allows:

To ensure the passage of electromagnetic waves, a radio signal through radio-transparent fiberglass and gelcoat layer without introducing interference, losses in the radiation pattern of more than 1.5 dB;

Ensure control of the coating layer and ensure stability in the radio technical characteristics of products and repeatability between batches;

Ensure the use of external coating throughout the life of the product.

The invention is illustrated in FIG. 1, where a section of an external radiolucent sheeting is shown, where 1 is the wall of the radiolucent sheath made of fiberglass, 2 is the outer layer of the sheeting made of gelcoat, 3 is the inner layer of the sheathing made of fiberglass impregnated with a binder.

Description of utility model in statics.

According to FIG. 1 shows an external protective coating for the walls 1 of a radiotransparent shelter. In this case, the protective coating is made of gelcoat 2 and the inner layer of the outer protective coating of fiberglass 3 with a binder based on organic resins with a layer thickness of 0.1 mm to 5 mm.

Gelcoat is applied in a negative matrix using a brush or spray gun as the outer layer of a radiotransparent shelter. The thickness of the applied gelcoat layer leaves the calculated value depending on the total thickness of the external protective coating, which ensures the passage of electromagnetic waves through the wall of the radiotransparent shelter with attenuation from 0.1 to 2 dB in the range of electromagnetic waves up to 50 GHz (L, C, S, X, K , Ka, Ku).

The utility model provides products with a low value of surface electrical resistance and increased strength.

The utility model was developed at the level of design documentation and was used in the manufacture of a prototype of a radiotransparent shelter. Tests in the actual operating conditions of a radiolucent cover confirmed the advantages of a protective external coating made of gelcoat applied in a negative matrix as an external layer, compared with the known radio-transparent shelters, the external layer of which is made by applying two-component or specialized radiolucent paints by spraying or brushing.

The use of a two-layer coating ensures the passage of electromagnetic waves through the wall of a radiotransparent shelter with attenuation from 0.1 to 2 dB in the range of electromagnetic waves up to 50 GHz.

Operation, including in extreme conditions, has confirmed high operational properties, strength characteristics and high stability of radio technical characteristics, ensuring the passage of electromagnetic energy in the ranges ensuring the passage of electromagnetic waves through the wall of a radiotransparent shelter with attenuation from 0.1 to 2 dB in the range of electromagnetic waves from 1 GHz to 50 GHz (L, C, S, X, K, Ka, Ku).

An external protective coating with a layer thickness of 0.1 to 5 mm with an external gelcoat layer for walls of radiotransparent shelters (RPU) provides resistance to the following climatic factors:

ambient temperatures from minus 60 ° С to plus 60 ° С;

relative air humidity up to 100% ± 2% at a temperature of plus 35 ° C;

integral flux density of solar radiation: 1120 W / m ² ; at + 55º;

UV radiation: 68 W / m ² ;

atmospheric pressure: from 83.9 to 106.7 kPa (from 630 to 800 mm Hg);

to the effects of salt fog dispersion up to (1-10) microns (95% drops) and density up to (2-3) g / m3;

to the effects of static dust - air circulation with sand sprayed in it at a speed of up to 1 m / s;

to the effects of dynamic dust - air circulation with sand sprayed in it at a speed of up to 15 m / s.

The specified characteristics ensure the durability of the coating for up to 10 years.

Claims (4)

1. The outer protective coating for the walls of radiolucent shelters made of fiberglass, characterized in that the inner layer of the outer protective coating is made of fiberglass impregnated with a binder based on organic resins, and the outer layer of the outer protective coating is made of gelcoat with a total thickness of the outer protective coating of 0.1 mm to 5 mm, ensuring the passage of electromagnetic waves through the wall of a radiotransparent shelter with attenuation from 0.1 to 2 dB in the range of electromagnetic waves up to 50 GHz. 2. The outer protective coating of radiolucent shelters according to claim 1, characterized in that the inner the outer protective coating layer is made of fiberglass impregnated with a binder based on polyester resin. 3. The outer protective coating of radiolucent shelters according to claim 1, characterized in that the inner layer of the outer protective coating is made of fiberglass impregnated with a binder based on vinyl ester resin. 4. The outer protective coating of radiolucent shelters according to claim 1, characterized in that the inner layer of the outer protective coating is made of fiberglass impregnated with a binder based on epoxy resin.

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