FR3012476A1 - PHOSPHORESCENT LONGILIGNE TEXTILE ELEMENT, ELECTRIFICATED CLOSURE AND METHOD FOR MANUFACTURING THE SAME - Google Patents

Abstract

The present invention relates to an elongated textile element (1) formed of several twisted, braided, woven and / or knitted yarns, in which the elongated textile element (1) comprises at least one non-insulated conductive thread disposed at least in part on the contact surface of the elongated textile element. The elongated textile element (1) comprises at least one wire composed of a phosphorescent material visible at least partly from the outside of the elongated textile element. The invention also relates to an electrified fence (8) comprising such an elongated textile element (1), and a method of manufacturing such an elongated textile element (1).

Description

BACKGROUND OF THE INVENTION The present invention relates to electrified fences, especially in the agricultural field to keep animals in a defined space. More particularly, the present invention relates to the elongated elements at least partly conductive used to surround the space to be delimited by the electrified fence. It is known to use electrified fences to prevent animals from leaving a defined space, for example a field or a pen. Such fences conventionally comprise a fence energizing system delivering short-term electrical discharges connected to a conductive element. The conductive element surrounds the space to be delimited and is kept at a distance from the ground for example by holding posts which are insulating or connected to the conductor wire by an insulating element. The conductive element may be in the form of a woven ribbon of which at least one wire is conductive and non-insulated, or in the form of a rope of which at least one wire or at least one twisted wire (that is, -This is formed of several threads twisted together) is conductive and non-isolated. In particular, the conductive element conventionally comprises an appearance and / or colors allowing people circulating in the vicinity to distinguish it and to identify it as being electrified. This color / appearance thus prevents a person from coming in contact with the fence and inadvertently experiencing an electric shock. However, these electrified fences remain active also at night, and can not generally be distinguished by their specific color and / or appearance, which may lead people passing nearby to touch the conductive element without paying attention. OBJECT AND SUMMARY OF THE INVENTION The present invention aims at solving the various technical problems mentioned above. In particular, the present invention aims at providing an elongated element for electrified fencing, that is to say an elongated element intended to transmit an electric discharge to an animal touching it, making it possible to identify and locate the electrified fence 35 or a portion of the fence electrified, especially at night.

Thus, according to one aspect, there is provided an elongated textile element formed of several twisted, braided, woven and / or knitted yarns, wherein the elongate textile element comprises at least one non-insulated conductive thread disposed at least in part on the contact surface of the elongated textile element, that is to say on the exposed surface of the elongate textile element adapted to come into contact with external elements (objects, animals, individuals). The elongate textile element comprises at least one wire composed at least in part of a photoluminescent material, and more particularly phosphorescent, and visible at least partly from the outside of the elongated textile element. The wire composed at least in part of a photoluminescent material may thus be arranged at least partly on the outer surface of the elongate textile element. Alternatively, the wire composed at least in part of a photoluminescent material may be disposed at least partly in a transparent material disposed on the outer surface of the elongate textile element. Photoluminescent material is understood to mean a material capable of absorbing photons and retransmitting them more or less rapidly.

By phosphorescent material is meant a material capable of absorbing photons originating from a source of light, in particular the sun, and capable of emitting photons after exposure to the light source ceases for a period of time. from a few milliseconds to several hours.

The wire composed at least in part of a phosphorescent material (or phosphorescent wire) may, for example at regular intervals, be exposed along the elongate element or, in other words, lead to the outer surface of the elongated element . The phosphorescent wire can then be exposed to a source of excitation, and emit photons which will be visible by persons located near the elongated textile element. The wire composed at least in part of a phosphorescent material may have a diameter that may vary between 0.05 mm and 10 mm, preferably between 0.3 mm and 0.5 mm.

Non-insulated conductor wire (or stripped conductor wire) is a conductive wire whose conductive portion is exposed, at least partially, that is to say a conductive wire devoid, at least partially, of an insulating portion such as an insulating sheath. The uninsulated conductor wire can thus, for example at regular intervals, be exposed along the elongate element or, in other words, open on the surface of the elongated element, and thus come into contact with an individual or an animal. which he can transmit an electric shock. The non-insulated conductor wire may be for example aluminum, copper, stainless steel and / or galvanized steel. The non-insulated conductor wire can have a diameter that can vary between 0.05 mm and 10 mm, preferably between 0.1 mm and 0.5 mm. Thus, thanks to the elongated textile element as described above, it becomes possible to view at night, without additional energy source, an electrified fence or an electrified fence part. In addition, even in case of accidental power failure, for example by stopping the energizing system or by breaking the elongated element, the latter continues to be able to emit photons and remain visible: it is then possible to continue to identify the limit of an area in which potentially dangerous animals are located. Moreover, the phosphorescent material is used as the raw material of at least one yarn of the elongated textile element, which makes it possible to guarantee a minimum visibility and a satisfactory mechanical strength. Preferably, the phosphorescent material comprises at least one phosphorescent compound, for example one or more rare earths, in a polymeric matrix, for example polyethylene or polypropylene. It is thus possible to form a phosphorescent polymeric material capable of forming the non-conducting son of the elongated textile element. The phosphorescent material is therefore an integral part of the elongated textile element. The phosphorescent compound may represent at least 1%, for example at least 5% or even at least 20% by weight of the polymeric matrix. The wires may be mono-filamentary and / or multi-filamentary. Preferably, the yarns are polymeric, with the exception of the non-insulated conductive yarn (s). The polymeric threads may then be composed of the phosphorescent material formed of at least one phosphorescent compound, for example one or more rare earths, in a polymeric matrix, for example a polyamide, a polyester or a polyolefin such as polyethylene or polyethylene. polypropylene. Thus, when the non-conducting wires are polymeric, the whole of the elongate element, with the exception of the conducting wires, is formed with the phosphorescent material, which makes it possible to obtain a large quantity of phosphorescent material in the elongated element and therefore to obtain a phosphorescent effect consistent in terms of intensity and duration. In particular, the phosphorescent material present in the elongated textile element is comparable to a reservoir capable of storing photons, and to release them over a longer period of time the greater the amount of phosphorescent material is important. Alternatively, the non-insulated wire and / or the wire composed of a phosphorescent material is a cover wire, for example a covered wire or a wire deposited and secured, for example by gluing, on the exposed surface of the twisted wires, braided, woven and / or knitted of the elongated textile element. In this case, the phosphorescent material is positioned in priority on the surface of the elongate element, firstly to reduce the amount of phosphorescent material in case of unfavorable cost, and secondly to optimize the phosphorescent effect of the element. longiligne by promoting the excitation of the exposed phosphorescent material and the emission of light by said phosphorescent material. Alternatively, the non-insulated conductive yarn and / or the phosphorescent material yarn are twisted, braided, woven and / or knitted with the other yarns of the elongated textile element. In this case, the phosphorescent wires are inserted into the product to replace a polymeric wire, by integrating the phosphorescent wire instead of a polymeric wire. The phosphorescent wire is then incorporated in the elongated element, and is less subject to wear (by friction for example) or fraying in case of breakage.

The elongated textile element has for example the form of a ribbon, a rope or a cable. Ribbon means a textile element formed by weaving threads, rope or cable textile elements formed by twisted or braided son. According to another aspect, the invention also relates to an electrified fence, particularly for the agricultural field, comprising an elongated textile element as described above.

Preferably, the electrified fence also comprises at least one holding post of the elongate textile element composed of a phosphorescent material and / or at least one insulating element composed of a phosphorescent material. In this embodiment, the visibility of the fence at night is improved and enhanced by the use of other elements of said fence phosphorescent material, including insulating elements or elements traditionally made of polymeric material. According to another aspect, the invention also relates to a method of manufacturing an elongated textile element as described above in which the son, and possibly the non-insulated wire and / or the wire formed of a phosphorescent material, are twisted, braided, woven and / or knitted. Preferably, the method comprises a step of twisting, braiding, weaving and / or knitting yarns and then a step of wrapping, preferably with non-contiguous turns, of the non-insulated conductive yarn and / or the yarn formed of a phosphorescent material around twisted, braided, woven and / or knitted yarns. The wrapping of the non-insulated conductor wire and / or the phosphorescent wire makes it possible to position this or these on the surface of the elongated textile element, and thus to promote its function (transmission of an electric current for the non-insulated conductor wire absorption and emission of photons for the phosphorescent wire). Alternatively, the method may comprise a step of covering the bare conductive wire and / or the wire formed of a phosphorescent material around wires, to form a wired element (or strand), then a step of twisting, braiding, weaving and / or or knitting the wired element (or strand) and other wires. BRIEF DESCRIPTION OF THE DRAWINGS The invention and its advantages will be better understood on reading the detailed description of two particular embodiments, taken as non-limiting examples and illustrated by the appended drawings, in which: FIG. portion of a phosphorescent elongated ribbon for electrified fence according to the invention, seen from above; - Figure 2 shows the end of a phosphorescent rope for electrified fence according to the invention; FIG. 3 is a sectional view of an example of a phosphorescent polymeric yarn that can be used to produce a ribbon or a rope as represented in FIGS. 1 and 2; and - Figure 4 shows schematically an electrified fence according to the invention.

DETAILED DESCRIPTION OF THE INVENTION FIG. 1 illustrates an exemplary embodiment of an elongated textile element according to the present invention. The elongated textile element is in the form of a ribbon 1 formed, in particular by weaving, of several wires, some of which are non-conductive wires 2 and others are non-insulated conductive wires 3 making it possible to transmit a discharge The lead wires 3 are preferably wires arranged in the longitudinal direction, i.e. in the warp direction. The conductive son 3 can thus be for example warp son of a woven ribbon. Lead wires 3 are wires conventionally used for electrified fence applications. Thus, the non-insulated conductor son 3 may comprise, or consist of, copper, aluminum, copper alloy, aluminum alloy or even stainless steel or galvanized. The non-insulated conductor wires 3 can have diameters that can vary between 0.05 mm and 10 mm, preferably between 0.1 mm and 0.5 mm. The ribbon 1 may comprise between one and thirty conductor wires 3, preferably between one and ten conductive wires 3. The non-conductive wires 2 are preferably polymeric wires, for example formed of a polyolefin, a polyester or a a polyamide.

The non-conductive wires 2 may thus be made of polypropylene or polyethylene, preferably of high-density polyethylene. The non-conductive wires 2 can have diameters that can vary between 0.05mm and 10mm, preferably between 0.3mm and 0.5mm. The ribbon 1 may comprise between one and sixty non-conductive wires 2, preferably between fifteen and thirty non-conductive wires 2.

In the example shown in FIG. 1, it is considered that the non-conducting wires 2 are phosphorescent polymeric wires. More particularly, it is considered that the polymeric material used to form the non-conductive wires 2 comprises phosphorescent elements such as certain rare earths known to those skilled in the art for its photon emission properties after exposure to a source of light. excitation, including after stopping said excitation source. Since all the non-conducting wires 2 are formed of phosphorescent material, it is then possible to obtain an intensity and a duration of photon emission after stopping the excitation source adapted to night visibility. Moreover, since the phosphorescent material is incorporated in the constituent material of the non-conductive wires 2, there is no risk of damaging the phosphorescent properties by delamination or friction of the surface of the ribbon 1. Alternatively, only a few wires Polymers 2 may comprise a phosphorescent material, for example some or all of the warp or weft threads. FIG. 2 illustrates another exemplary embodiment of an elongated textile element according to the present invention. The elongated textile element is in the form of a rope 4 formed, in particular by twisting, of several wires, some of which are non-conductive wires 2 and others are non-insulated conductive wires 3 making it possible to transmit a electric discharge to an animal coming into contact with the rope 4. More precisely, in the example illustrated in FIG. 2, the rope 4 is formed by twisting of three multi-filament yarns or twists or strands 5, which are themselves each formed by twisting seven non-conductive wires 2 and two non-insulated conductor wires 3. The rope 4 may comprise between two and six strands 5, each strand 5 may comprise between two and twenty wires 2, 3. polymeric wires 2 of the rope 4 can all be phosphorescent. Alternatively, only one strand 5 may comprise phosphorescent wires, or even comprise only phosphorescent wires, the non-insulated wires being integrated in the other strands 5.

Alternatively, a single polymeric wire 2 per strand 5 may be phosphorescent, or even a single polymeric wire 2 in the cord 4 may be phosphorescent. It is also possible to have a rope 4 in which the polymeric threads 2 of the strands 5 do not comprise phosphorescent material, but in which one or more phosphorescent material yarns are wrapped around the twisted strands. FIG. 3 represents a sectional view of an example of a particular polymeric yarn 2 that can be used as a phosphorescent polymeric yarn in the ribbon 1 or rope 4. The polymeric yarn 2 comprises in particular a core 6 comprising, for example, a non-polymeric material -phosphorescent, and a sheath 7 phosphorescent polymeric material. Thus, a reduced amount of phosphorescent material is obtained with respect to a phosphorescent polymeric wire of the same diameter, while maintaining a high absorption and emission effect by virtue of the arrangement of the phosphorescent material at the surface of the polymeric wire. Figure 4 shows an example of electrified fence 8 according to the present invention. The electrified fence 8 thus comprises a ribbon 1 as described above, intended to surround the space to be delimited and supported by stakes 9. The stakes 9 may be insulating, or the ribbon 1 may be attached to the stakes by insulating elements 10. The stakes 9 and / or the insulating elements 10 may be phosphorescent material. The electrified fence 8 finally comprises an energizing system 25 connected on the one hand to the ribbon 1 by a connector 12, and on the other hand to the ground. The elongate element according to the present invention thus makes it possible to visualize and identify an electrified fence in the dark, without requiring specific power supply and without modifying the characteristics of the electrified fence.

Claims (12)

REVENDICATIONS1. Longiline textile element (1, 4) formed of several twisted, braided, woven and / or knitted yarns, in which the elongated textile element comprises at least one non-insulated conductive thread (3), for example made of aluminum, copper, steel stainless steel and / or galvanized steel, arranged at least partly on the contact surface of the elongated textile element, characterized in that the elongated textile element comprises at least one wire (2) composed at least in part of a material phosphorescent and visible at least partly from the outside of the elongated textile element. 2. elongated textile element (1, 4) according to claim 1 wherein the phosphorescent material comprises at least one phosphorescent compound, for example one or more rare earths, in a polymeric matrix, for example polyethylene or polypropylene. 3. Longiline textile element (1, 4) according to claim 1 or 2 wherein the son (2, 3) are mono-filament and / or multifilament. 4. Longiline textile element (1, 4) according to any one of the preceding claims wherein the son (2) are polymeric, with the exception of the non-insulated lead son (3). 5. longiline textile element (1, 4) according to the preceding claim wherein the polymeric son (2) are composed of the phosphorescent material. Longitudinal textile element (1, 4) according to any one of Claims 1 to 4, in which the non-insulated conductive wire (3) and / or the wire composed of a phosphorescent material (2) is a cover wire. for example a wrapped yarn or a yarn secured to the exposed surface of the twisted, braided, woven and / or knitted yarns of the elongated textile element. Longitudinal textile element (1, 4) according to any one of claims 1 to 5 wherein the non-insulated wire (3) and / or the son composed of a phosphorescent material (2) sontretordus, braided, woven and / or knitted with the other threads of the elongated textile element. Longitudinal textile element (1, 4) according to any one of the preceding claims, having the form of a ribbon (1), a rope (4) or a cable. 9. electrified fence (8), in particular for the agricultural field, comprising an elongated textile element (1, 4) according to any one of the preceding claims. 10.Electrified fence (8) according to the preceding claim also comprising at least one holding stake (9) of the elongate textile element (1, 4) composed of a phosphorescent material and / or at least one insulating element (10). composed of a phosphorescent material. 11.Process for manufacturing an elongated textile element (1, 4) according to any one of claims 1 to 8 wherein the son, and optionally the non-insulated wire and / or the wire formed of a phosphorescent material , are twisted, braided, woven and / or knitted. 12.Procédé according to the preceding claim comprising a step of twisting, braiding, weaving and / or knitting son and a step of wrapping uninsulated conductor wire (3) and / or wire formed of a phosphorescent material (2) around twisted, braided, woven and / or knitted yarns.