RU2567734C1 - Antenna dome from layered fibreglass - Google Patents

Abstract

FIELD: radio engineering, communication.

SUBSTANCE: offered antenna dome consists of the set the layers of high-strength fibreglass implemented in the form of separate sectors. Fibreglass layers are made on the base of fibre glass fabric of the mutually intertwining threads of the base and the weft mutually arranged at the angle 90°. The sectors of layers implemented in the form of spherical triangles are interconnected in tops with formation of the organic whole in the form of multipetal layer and are profiled along the width so that on the spherical surface of edge of the neighbouring sectors are located closely to each other. Each subsequent layer is rotated with reference to the previous one so that the angle between the centrally located threads of the base of the previous layer and weft threads of the subsequent layer is ranging within 10-12°. Polar and face zones are strengthened by additional layers , alternating with multipetal layers, along internal surface of the segment.

EFFECT: invention allows to expand scope of antenna dome with simplification of technological process of production and improvement of strength and reliability.

12 cl, 3 dwg

Description

The invention relates to mechanical engineering and can be used in the construction of protective devices for various kinds of radio equipment, in particular all kinds of antennas, both stationary and mobile, for example, in the aviation, rocket and space fields.

A known method of manufacturing an aircraft antenna fairing with a monolithic wall of fiberglass, obtained by impregnating a binder under pressure of a dry glass filler, laid in a cavity between an airtight punch and a matrix (I.G. Gurtovnik, V.N. Athlete. Fiberglass for radio engineering purposes. M: Chemistry, 1987, p. 91-100).

Its disadvantages are low and unstable physical, mechanical and electrical characteristics of the obtained material of construction, due to the used technological process.

A known antenna cone containing a single layer wall of dielectric material, the thickness of which is selected depending on the electromagnetic wavelength and dielectric constant of the material of the single layer wall (RF patent 2054763, priority 1993.04.12, IPC H01Q 01/42).

Its disadvantage is a rigid dependence of the wall thickness on electrical characteristics, regardless of the dimensions of the structure and the necessary strength under the action of external mechanical loads.

Known antenna fairing, including the inner and outer sheathing, the middle layer of high-strength fiberglass based on a thermosetting binder and layers of fiberglass, located between the inner skin and the middle layer and between the middle layer and the outer skin, while the middle layer is made of at least three sublayers, each of which: consists of sectors (RU 2186444 C1 IPC H01Q 1/42). The known fairing has low strength under the action of external mechanical loads distributed over the surface and especially local, in view of the content in the construction of fiberglass based on three-dimensional honeycomb structures. In addition, the use of layers from individual sectors leads to increased complexity in manufacturing due to the need for a clear location of each individual sector on the form is fixed relative to each other and within the entire layer as a whole. The resulting gaps between neighboring sectors lead to a violation of the homogeneity of the material and, as a consequence, to a violation of the physicomechanical and electrical characteristics of the structure.

Antenna fairing according to patent RU 2186444 C1 IPC H01Q 1/42 is the closest to the claimed technical essence and the achieved result and is selected as the closest analogue (prototype).

The technical problem to which the invention is directed is the development of a relatively simple and most technologically advanced construction of an antenna cowl with enhanced performance characteristics.

The technical result that can be obtained by using the invention is to expand the range of applicability of antenna fairings by executing them in the form of layers of homogeneous materials, ensuring the preservation of high levels of reliability and performance of the structure, as well as the necessary strength under the action of external mechanical loads due to volume-homogeneous material, as well as improving manufacturability and operational and economic efficiency of the structure obtained by the method Ohm pressing in a given mode (R kgf / mm ² - Т ° C) due to the use of multilayer layers located on a spherical surface without the formation of cracks.

The technical problem is solved, and the technical result is achieved by the fact that the antenna cowl, consisting of a set of layers of high-strength fiberglass, made in the form of separate sectors, according to the invention is made in the form of a spherical segment of laminated fiberglass based on fiberglass from interwoven warp and weft, located between each other at an angle of 90 °, the sectors of the layers are made in the form of spherical triangles located with their axis of symmetry along the meridians of the segment, interconnected at the vertices with the formation of a single whole in the form of a multilobal layer and profiled in width so that on the spherical surface the edges of neighboring sectors are located close to each other, with each subsequent layer deployed relative to the previous one so that the angle between the centrally located warp threads of the previous layer and weft threads of the next layer is in the range from 10 ° to 12 °, the entire set of layers of the segment has a dielectric constant in the range from 4.3 to 4.8 in the frequency range from 1.25 GHz to 1.6 GHz, and the pole and torus evaya zone reinforced by additional layers, alternating with layers multilobal, the inner surface of the segment, and in particular embodiments of the invention amplification pole groups formed circular layers with stepwise increasing diameter; multi-petal layers are made on the basis of at least two grades of woven materials that differ in physical, mechanical and / or electrical characteristics; layers based on one brand of woven material are grouped in at least one bag; the fairing contains three packages, the middle of which is made on the basis of one woven material, and the outer and inner of another; the thickness ratio of the three layer packets is 2: 1: 1 in the direction from the outside; of the three packages, the outer and inner ones have a dielectric constant of 4.3, and the average one has 4.8 at frequencies ranging from 1.25 GHz to 1.6 GHz; all or some of the multi-petal layers are made of two symmetrical halves; the number of petals in the multilayer layer is 8; the direction of the weft or warp threads coincides with the axis of symmetry of the at least one sector; the relative thickness of the segment δ / R is predominantly constant and ranges from 0.037 to 0.043, where R is the internal radius of the segment; the relative height of the segment h / R is in the range from 0.52 to 0.54, where R is the internal radius of the segment.

Distinctive features of the prototype signs of the claimed reinforced shell are the following:

a) the signs that ensure the receipt of a technical result in all cases to which the requested amount of legal protection applies:

- made in the form of a spherical segment;

- from laminated fiberglass based on fiberglass from interwoven warp and weft, located at an angle of 90 °;

- the sectors of the layers are made in the form of spherical triangles, located with their axis of symmetry along the meridians of the segment, interconnected at the vertices with the formation of a single whole in the form of a multi-petal layer and profiled in width so that the edges of adjacent sectors are located close to each other on a spherical surface;

- in this case, each subsequent layer is deployed relative to the previous one so that the angle between the centrally located warp threads of the previous layer and the weft threads of the next layer is in the range from 10 ° to 12 °;

- the entire set of layers of the segment has a dielectric constant in the range from 4.3 to 4.8 in the frequency range from 1.25 GHz to 1.6 GHz;

- the pole and end zones are reinforced with additional layers, alternating with multi-petal layers, on the inner surface of the segment.

b) signs characterizing the invention in special cases:

- pole reinforcement is made by groups of circular layers with stepwise increasing diameter;

- multi-petal layers are made on the basis of at least two grades of woven materials that differ in physical, mechanical and / or electrical characteristics;

- layers based on one brand of woven material are grouped in at least one bag;

- contains three packages, the middle of which is made on the basis of one woven material, and the outer and inner of another;

- the ratio of the thicknesses of the packet layers is 2: 1: 1 in the direction from the outside;

- the outer and inner packets have a dielectric constant of 4.3, and the average - 4.8 at frequencies ranging from 1.25 GHz to 1.6 GHz;

- all or some of the multi-petal layers are made of two symmetrical halves;

- the number of petals in the multilayer layer is 8;

- the direction of the weft or warp threads coincides with the axis of symmetry of at least one sector;

- the relative thickness of the segment δ / R is mainly constant and ranges from 0.037 to 0.043, where R is the internal radius of the segment;

- the relative height of the segment h / R is in the range from 0.52 to 0.54, where R is the internal radius of the segment.

These distinctive features, individually and collectively, are aimed at achieving the stated result and are significant. In the prior art, the set of known and distinctive features presented in the claims is unknown and, therefore, the invention meets the criterion of "novelty."

Antenna fairing, unlike the fairing of the prototype, has higher strength and stiffness under the action of external mechanical influences in view of the spherical shape and uniformity of the wall, has high adaptability due to the use of single multilobe layers, which reduces the time required to set the required package and fix them relative to each other in the manufacture, as well as improved performance, in particular physico-mechanical and electrical, due to the production of better glass an eraser in sight of his uniform.

In the particular case of execution, in order to expand the strength, stiffness and operational characteristics, the pole reinforcement is made by groups of circular layers with a stepwise increasing diameter, multi-petal layers are made on the basis of at least two grades of woven materials that differ in physical, mechanical and / or electrical characteristics, layers based on one brand of woven material are grouped in at least one package, the fairing contains three packages, the middle of which is made on the basis of one fabric material, and the outer and inner of the other, the ratio of the thicknesses of the three packets of layers is 2: 1: 1 in the direction from the outside, the outer and inner of the three packets have a dielectric constant of 4.3, and the average is 4.8 at frequencies ranging from 1.25 GHz to 1.6 GHz, all or some of the multi-petal layers are made of two symmetrical halves, the number of petals in the multi-petal layer is 8, the direction of the weft or warp threads coincides with the axis of symmetry of at least one sector, the relative thickness of the segment δ / R advantages venno constant and ranges from 0.037 to 0.043, where R - radius of the inner segment, the segment height h / R is from 0.52 to 0.54, where R - radius of the inner segment.

The turn of each subsequent layer relative to the previous one so that the angle between the centrally located warp threads of the previous layer and the weft threads of the next layer is in the range from 10 ° to 12 ° ensures smoothing of the unevenness of the physico-mechanical and electrical characteristics on the segment surface due to the anisotropy of the characteristics in woven materials in the directions of warp and weft, and the presence of tissue breaks along the conjugate lines of sectors. The use of layers based on different grades of woven material and their different proportions, with their structural homogeneity, allows you to change the physico-mechanical and / or electrical characteristics of the resulting fiberglass material while maintaining its overall uniformity.

The invention is illustrated by a description of a specific, but not limiting, example of implementation and the accompanying drawings.

In FIG. 1 presents the claimed antenna fairing, in FIG. 2 is a plan view of the fairing, in FIG. 3 is a sectional view of a cowl wall.

Antenna fairing 1 consists of a set of layers 2 of high-strength fiberglass, made in the form of separate sectors 3. The layers of fiberglass 2 are made of fiberglass from interwoven warp threads 4 and weft 5, located at an angle of 90 °. Sectors of layers 3, made in the form of spherical triangles, are interconnected at the vertices 6 with the formation of a single whole in the form of a multi-petal layer and profiled in width so that on the spherical surface the edges of neighboring sectors are located close to each other - 7, 8 - the edges of neighboring sectors top and subsequent layers respectively. Each subsequent layer is deployed relative to the previous one so that the angle between the centrally located warp threads 4 of the previous layer and the weft threads 5 of the subsequent layer is in the range from 10 ° to 12 °. The pole and end zones are reinforced with additional layers 7 and 8, respectively, alternating with multi-petal layers 2, along the inner surface of the segment.

The layers of the fairing are divided into three packages 11, 12, 13, on average of which 12 layers 15 from one brand of woven material are collected, and in packets 11 and 13, layers 14 and 16, respectively, from another woven material.

Experimental verification confirmed the high strength and reliability of the proposed design with the required level of radio transparency in a given frequency range.

Claims (12)

1. Antenna fairing, consisting of a set of layers of high-strength fiberglass, made in the form of separate sectors, characterized in that it is made in the form of a spherical segment of laminated fiberglass based on fiberglass from interwoven warp and weft, located at an angle of 90 °, sectors of the layers made in the form of spherical triangles located with their axis of symmetry along the meridians of the segment, interconnected at the vertices with the formation of a single whole in the form of a multi-petal layer and profile spaced so that the edges of adjacent sectors are spaced on each other on a spherical surface, with each subsequent layer being deployed relative to the previous one so that the angle between the centrally located warp threads of the previous layer and the weft threads of the next layer is in the range from 10 ° to 12 °, the entire set of segment layers has a dielectric constant in the range from 4.3 to 4.8 in the frequency range from 1.25 GHz to 1.6 GHz, and the pole and end zones are reinforced with additional layers alternating with a multi-petal Vym layers on the inner surface of the segment. 2. The fairing according to claim 1, characterized in that the pole reinforcement is made by groups of circular layers with a stepwise increasing diameter. 3. The fairing according to claim 1, characterized in that the multi-petal layers are made on the basis of at least two grades of woven materials that differ in physical, mechanical and / or electrical characteristics. 4. Fairing according to claim 3, characterized in that the layers based on one brand of woven material are grouped in at least one package. 5. The fairing according to claim 3 or 4, characterized in that it contains three packages, the middle of which is made on the basis of one woven material, and the outer and inner of the other. 6. The fairing according to claim 5, characterized in that the ratio of the thicknesses of the packet layers is 2: 1: 1 in the direction from the outside. 7. The fairing according to claim 5, characterized in that the outer and inner packets have a permittivity of 4.3 and an average of 4.8 at frequencies ranging from 1.25 GHz to 1.6 GHz. 8. The fairing according to claim 1, characterized in that all or some of the multi-leaf layers are made of two symmetrical halves. 9. The fairing according to claim 1, characterized in that the number of petals in the multi-petal layer is 8. 10. The fairing according to claim 1, characterized in that the direction of the weft or warp threads coincides with the axis of symmetry of at least one sector. 11. The fairing according to claim 1, characterized in that the relative thickness of the segment δ / R is mainly constant and is in the range from 0.037 to 0.043, where R is the inner radius of the segment. 12. The fairing according to claim 1, characterized in that the relative height of the segment h / R is in the range from 0.52 to 0.54, where R is the inner radius of the segment.

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