RU223771U1 - RADIATING CABLE - Google Patents

Abstract

The utility model relates to electrical engineering and antenna technology, in particular to radiating cables.

The radiating cable contains, in the direction from the inner side to the outer side, an inner conductor, an insulating layer, an outer conductor and an outer protective sheath, while the outer conductor contains a plurality of rectangular slot holes, independent of each other, located parallel to each other, with the elongated side perpendicular to the axis of the outer one. conductor, the slot holes are located in one row along the axis of the outer conductor, and in the top view, the length of each slot hole is from 0.25 to 0.75 of the diameter of the outer conductor, the width of each slot hole is from 0.2 to 0.75 of its length, where the plurality of holes consists of repeating sections that are successive first single hole, three pairs of holes and a second single hole, the distance between the holes in each pair is less than the distance between adjacent pairs, and the distance between the first or second single hole and the nearest hole of a pair is greater than the distance between adjacent pairs, the distance between single holes of adjacent repeating sections is greater than the distance between the first or second single holes and the nearest hole of a pair included in one repeating section.

The technical result consists in effective focused unidirectional radiation of the cable up to 170 degrees. 2 ill.

Description

The utility model relates to electrical engineering and antenna technology, in particular to radiating cables.

From the level of technology according to the description of the invention of the Russian Federation No. 2753842 (IPC H01Q 13/20, publication date 08.24.2021, a radiating cable is known, selected as a prototype, containing in the direction from the inside to the outside an internal conductive body, an insulating layer, an external a conductive body and an outer protective shell, wherein a plurality of slot sections are formed on the wall of the outer conductive body, the slot sections are at equal distances from each other, each slot section consists of a plurality of slot blocks, each slot block contains a plurality of slot elements independent of each other , and each slot element has a length from 1 to 200 mm and a width from 0.1 to 10 mm. In a particular case, the slot elements can intersect perpendicularly or obliquely with the axial direction of the outer conductive body; the radial radiation angle of each slot unit can be from 170 degrees to 360 degrees; the slot elements of each slot block may be spaced apart and not communicate with each other, and the distance between two adjacent end portions of two adjacent slot elements on the deployed wall of the outer conductor may be from 0.5 mm to 50 mm ; each slot section may contain at least one slot block, and the slot blocks may be placed along the axial direction of the outer conductive body, in which case the distance between adjacent slot blocks of the same slot section along the axial direction may be from 1 mm to 1200 mm, and the directions of adjacent slot blocks of the same section of slots may be identical to each other or different from each other; the slot sections may be spaced from each other by the same distance along the axial direction of the outer conductive body, and the distance may be from 5 mm to 2000 mm; the end part of each slot element can be rounded with a radius of curvature from 0 mm to 5 mm.

The disadvantage of the radiating cable known according to the description of the invention of the Russian Federation No. 2753842 is scattered radiation and insufficient efficiency when it is necessary to obtain focused directional radiation, for example, in the absence of equipment on one side of the radiating cable, in wireless communication systems installed in tunnels, mines, underground or closed rooms requiring radial radiation angles up to 170 degrees.

The technical problem of the utility model is the development of a radiating cable with directional radiation up to 170 degrees.

The technical problem is solved due to the fact that the radiating cable contains, in the direction from the inside to the outside, an inner conductor, an insulating layer, an outer conductor and an outer protective sheath, while the outer conductor contains a plurality of rectangular slot holes, independent of each other, located in parallel each other, with the elongated side perpendicular to the axis of the outer conductor, the slot holes are located in one row along the axis of the outer conductor, and in the top view, the length of each slot hole is from 0.25 to 0.75 of the diameter of the outer conductor, the width of each slot hole is from 0. 2 to 0.75 of its length, where the plurality of holes consists of repeating sections, which represent a successive first single hole, three pairs of holes and a second single hole, the distance between the holes in each pair is less than the distance between adjacent pairs, and the distance between the first or second single hole and the nearest hole of a pair is greater than the distance between adjacent pairs, the distance between the single holes of adjacent repeating sections is greater than the distance between the first or second single holes and the nearest hole of a pair included in one repeating section.

In one of the special cases of the design of the radiating cable, when projected onto the longitudinal cross-sectional plane passing through the center axis, the end parts of each slot hole have a radius of curvature from 0.2 mm to 0.5 mm.

In another particular case of the radiating cable, the radial radiation angle is up to 170 degrees.

The technical result consists in effective focused unidirectional radiation of the cable up to 170 degrees.

The essence of the utility model is illustrated by drawings, where figure 1 shows a radiating cable; Figure 2 shows a top view of the outer conductor of the radiating cable.

The radiating cable according to the claimed utility model contains, in the direction from the inside to the outside, an inner conductor 1, an insulating layer 2, an outer conductor 3 and an outer protective sheath 4, while the outer conductor 3 contains a plurality of rectangular slot holes 5, independent of each other, located parallel to each other, with the elongated side perpendicular to the axis of the outer conductor 3, the slot holes 5 are located in one row along the axis of the outer conductor 3 (Fig. 1-2).

The inner conductor 1 can be copper, aluminum, aluminum with copper cladding, copper with tin or tin-lead plating, copper with silver plating, steel with copper cladding. The insulating layer 2 used as a coating on the outer side of the inner conductor 1 may be made of polyethylene foam, polypropylene, ethylene copolymer or perfluoroethylene-propylene copolymer. The outer conductor may contain copper, aluminum, tin or silver, for example, it can be made in the form of corrugated copper tape. The outer protective shell can be made of polyethylene, cross-linked polyethylene, polyolefin, thermoplastic elastomer or a halogen-free polymer composition of the “ng (A) - HF” or “ng (A) - FRHF” (“Hr” - does not support combustion, “A” - fire safety class, “HF” “HalogenFree” - “halogen-free”, “FRHF” - “FlameRetardantHalogenFree” - “flame retardant without halogens.” The cable may also contain a fire-resistant barrier in the form of a winding made of fire-resistant tape (not shown in the figure).

In the top view (Fig. 2), the length h of each slot hole 5 is from 0.25 to 0.75 of the diameter D of the outer conductor, the width of each slot hole 5 is from 0.2 to 0.75 of its length h, where the plurality of holes 5 consists of repeating sections that are successive first single hole, three pairs of holes and a second single hole, the distance between the holes in each pair is less than the distance between adjacent pairs, and the distance between the first or second single hole and the nearest hole of the pair greater than the distance between adjacent pairs, the distance between the single holes of adjacent repeat regions is greater than the distance between the first or second single holes and the nearest hole of the pair included in the same repeat region.

In the particular case of the radiating cable, when projected onto a longitudinal cross-sectional plane passing through the center axis, the end parts of each slot hole 5 have a radius of curvature from 0.2 mm to 0.5 mm.

The radial radiation angle is up to 170 degrees.

In the best example of the design of the radiating cable, the inner conductor 1 has a circular cross-section and is made in the form of a corrugated copper tube formed by welding in the longitudinal direction a strip of copper on which spiral or transverse ribs are extruded. The insulating layer 2 is made of foamed polyethylene. The outer conductor is made in the form of corrugated copper tape. The outer protective shell is made of a halogen-free polymer composition of the “ng (A) - HF” or “ng (A) - FRHF” design.

With a diameter D of the outer conductor of 28-48 mm, each slot hole5 has a length of 15-17 mm and a width of 3-5 mm. The distance between repeating hole sections is 85-115 mm, between the first or second single hole and the nearest hole of a pair of holes is 24-26 mm, the distance between pairs of slot holes is 15-17 mm, and the distance between holes in each pair is 6-8 mm. In such an embodiment, the radiating cable has a radial radiation angle of 170 degrees and is compatible with operating characteristics from 30 MHz to 2700 MHz.

The claimed utility model of the radiating cable has effective focused unidirectional radiation and can be widely used in wireless communication systems installed in tunnels, mines, underground or enclosed spaces, requiring radial radiation angles of up to 170 degrees.

Claims (3)

1. A radiating cable containing, in the direction from the inside to the outside, an inner conductor, an insulating layer, an outer conductor and an outer protective sheath, wherein the outer conductor contains a plurality of rectangular slot holes, independent from each other, located parallel to each other, with an elongated side perpendicular to the axis of the outer conductor, characterized in that the slot holes are located in one row along the axis of the outer conductor, and in the top view, the length of each slot hole is from 0.25 to 0.75 of the diameter of the outer conductor, the width of each slot hole is from 0.2 up to 0.75 of its length, where the plurality of holes consists of repeating sections that represent a successive first single hole, three pairs of holes and a second single hole, the distance between the holes in each pair is less than the distance between adjacent pairs, and the distance between the first or second single hole and the nearest hole of a pair is greater than the distance between adjacent pairs, the distance between the single holes of adjacent repeating sections is greater than the distance between the first or second single holes and the nearest hole of a pair included in one repeating section. 2. The radiating cable according to claim 1, characterized in that when projected onto the longitudinal cross-sectional plane passing through the center axis, the end parts of each slot hole have a radius of curvature from 0.2 mm to 0.5 mm. 3. Radiating cable according to claim 1, characterized in that the radial radiation angle is up to 170 degrees.