NZ512037A - Fence support with sleeve having webs to support wire or other lengths of material - Google Patents

Abstract

A method of construction of a fence support is characterised by the step of fitting a sleeve (1) over a support (4) for a fence, the sleeve (1) having at least one web (2) configured to support lengths of material used in the fence.

Description

512031 WO 01/04440 PCT/NZQO/OOl 04 FENCE SUPPORT Technical Field This invention relates to an improved fence support.

Background art Reference throughout this specification shall be mainly made to use of the present invention for use with electrified fences. However, it should be seen that the present invention can have application to non-electrified fences as well.

Insulators for wires conducting an electrical current arc sometimes manufactured separately from the main support wire, and attached to the support as required.

Security systems employing wall-top fencing are usually installed by attaching insulators to support rods atop the wall.

This process can be labour intensive and time consuming. Further, the insulators and the rods often lack aesthetic appeal.

The aesthetic quality of the insulators is important as wall-top security fencing is 15 commonly employed in the domestic market. Thus, the main support for the insulator and electric fence needs to be configured for both appearance and its ability to support and insulate the fence wires.

The process of erecting both posts and insulators can therefore be time consuming and labour intensive as dedicated supports having aesthetic qualities and "20 providing support can be harder to install than basic supports such as reinforcing rods. 1 It is an object of the present invention to address the foregoing problems or at least to provide the public with a useful choice.

Further aspects and advantages of the present invention will become apparent from the ensuing description which is given by way of example only.

Disclosure of Invention According to one aspect of the present invention there is provided a method of construction of a fence support for a fence, characterised by the step of a) fitting a sleeve over an upright support, the sleeve having at least one web 10 being configured to support lengths of material used in the fence.

According to a further aspect of the present invention there is provided a method of adapting a fence support, characterised by the step of fitting a sleeve over the support, the sleeve having at least one web configured to 15 support lengths of material used in the fence.

According to a further aspect of the present invention there is provided a sleeve configured to fit over a support member for a fence, characterised in that the sleeve has at least one web configured to support lengths of material used in the fence.

Reference to a support may be made with reference to a structure configured to support an electric fence arrangement in a desired manner. 2 Therefore, in preferred embodiments, the sleeve is made from an insulating material, such as plastics.

For example, the support may be a post, rod, beam, pile, block and so forth.

In preferred embodiments the upright support may be a rod.

In some embodiments, the rod may be a standard reinforcing rod, such as that commonly used in constructions of reinforced concrete.

References to a rod should not be seen to be limiting as other supports may be used in accordance with the present invention.

The length of material used in the fence shall now be referred to as wire. 10 However, wire should be seen as a generic term. For example, the wire may include a length of metal wire, electric fence tape, electric braid, mixed metal conductive lengths, and so forth.

In some embodiments, the sleeve may surround the support fully. In other embodiments, the sleeve may only partially extend around the support, for 15 example three-quarters or so. An important factor is that the sleeve surrounds the support sufficiently to be retained in position. In some embodiments, the sleeve may be circular and cross section and have a split along its length.

The sleeve may be formed by a number of ways. However, in preferred embodiments the sleeve is extruded as this is most cost effective for producing a 20 iength of material having a substantially continuous cross section.

The relative thicknesses of the sleeve and the web may vary and in preferred embodiments the sleeve is of greater thickness than the web in so as to ensure 3 PCT/NZOO/OOI04 sufficient strength in the sleeve while saving on material in the web.

Reference throughout this specification shall now be made to the sleeve as being extruded.

The sleeve may have internal projections providing a friction fit between the 5 sleeve and the rod.

In some embodiments the projections may be deformable.

The advantage of deformable projections may be that the sleeve may fit rods of variable diameter.

However, reference to projections should not be seen to be limiting. A friction fit 10 between the support and the sleeve may equally be achieved between the rod and the internal wall of the sleeve.

The term web is envisaged as being a flange or some other projection out from the main body of the sleeve. In some embodiments the web may be continuous along the length of the sleeve.

In other embodiments, there may be a number of webs extending out from the sleeve along the length of the sleeve. For example, the sleeve may be made via an extrusion process initially with a continuous web along the length of the sleeve. Subsequently to be extruded, that web may have portions cut therefrom in order that the webs can support the wires of the fence.

In other embodiments the web may be spaced along the length of the sleeve.

In some embodiments, the web may have slots for retaining the electric fence 4 wire. The slots may in some embodiments be hook shaped and configured to retain the wire against natural movement of the wire, say by wind.

The number of webs provided may vary according to necessity.

In some embodiments, there may be two webs, with oppositely angled slots, for 5 retaining the electric fence wire.

In other embodiments there may be a single web, although this should not be seen to be limiting.

In some embodiments the sleeve may have detents at set lengths.

This may enable standard size lengths to be cut.

Therefore if the standard lengths are placed along side each other, the wire holding means will be substantially aligned, providing a uniformly formed electric fence.

In some embodiments, the sleeve may have conductive areas imbedded in the moulding for various purposes.

In preferred embodiments, the sleeve may be manufactured from a substantially rigid material.

For example, this may include plastic, metal, Kevlar. ceramics, glass and so forth.

Preferably, the rigidity of the material may be such that it may withstand blows from a hammer to place the sleeve over the rod.

At least part of the sleeve may be manufactured for an electrically insulating material, such that the web or the wire supports are insulated.

The sleeve may aiso include a cap configured to attach to the top of the sleeve. Alternatively there may be supplied a cap that fits onto the rod held within the sleeve.

In preferred embodiments, the cap may be configured to positively lock the sleeve to the support.

One advantage of the cap may be to reduce the ability of intruders to remove the sleeve from the support and breaching the electric fence.

The cap may have fingers that insert into the sleeve and lock it into position on 10 the support.

The cap may preferably be waterproof.

This has an advantage that mild steel or other cheaper materials with less resistance to corrosion may be used in the support because the cap will prevent or greatly minimise the amount of moisture that will come in contact with the 15 support, and therefore reducing the risk of moisture corrosion.

The cap also improves the aesthetic appeal of the sleeve.

A further advantage of having the cap is in the actual physical construction of the fence.

Fences made in accordance with the present invention are envisaged to be fairly 20 rugged. Thus, it is envisaged that in constructing the fence, the sleeve and cap are placed over the rod and then hammered into position quite vigorously. The 6 PCT/NZOO/00104 hammering may be sufficient to force the cap to be secured in place with respect to the sleeve and the rod. thus not requiring any other means of fixing the cap such as adhesives and the like.

The present invention may have provision for advertising and promotional 5 printing space on the sleeve. This may be included on the web.

In some embodiments of the present invention, the fence may be constructed as previously described, but then the rods subsequently removed from the sleeves to provide a less expensive fence, even if less secure. For example, the present invention could be used to construct a pet enclosure or to exclude predators by 10 hammering the sleeve and rod into the ground and then subsequently removing the rod once the sleeve is secured.

The present invention provides a number of potential advantages.

The present invention provides a simple, cost effective and less time consuming method and apparatus for providing an electric fence wire support, with improved 15 aesthetic appeal.

Whereas previously, dedicated supports were required to be erected with insulators attached in a separate process, the present invention allows simple cheap main supports to be used for the electric fence support, without compromising aesthetic appeal, with the easily installed sleeve fitting over the 20 support having an integrally formed provision for an insulated wire support.

Brief Description of Drawings Further aspects of the present invention will become apparent from the following 7 description which is given by way of example only and with reference to the accompanying drawings in which: Figure 1 shows a cross sectional view of one embodiment of the present invention, and Figure 2 shows a side-on cross sectional view of a preferred embodiment of the present invention attached to a support.

Figure 3 shows a further embodiment, having two webs.

Best Modes for Carrying out the Invention According to Figure 1 there is shown a plan view of one embodiment of the 10 present invention.

The sleeve (I) is substantially cylindrical, but includes a web (2) formed on the exterior of the cylindrical section. The sleeve (1) is mounted a top a wall (3), and has been slid over a rod (4) which is in turn embedded or otherwise fixably attached to the walltop (3).

It is envisaged that the sleeve (1) may be hammered or forced over the rod (4), to provide a tight friction fit.

In order to allow for variable rod diameters, projections (5) are formed on the inside of the sleeve projecting towards the centre. These projections (5) may be deformable to a degree, to provide a tight friction fit between the projections and 20 the rod (4) whilst the deformabilitv allows for variations in rod diameter.

The web (2) includes incisions, indicated by arrow 6 along the length of the web. 8 the incisions configured to receive electric fence wire length (7).

The sleeve (1) is preferably manufactured from an insulating material such as plastic. However, the sleeve will meet the objects of the present invention as long as the web or the web/wire (7) contact point/incisions (6) is electrically insulated.

The sleeve (1) may be manufactured from other insulating materials such as glass, wood, Kevlar and so forth.

With reference to Figure 2. there is shown a side-on cross-sectional view of the sleeve shown in Figure 1. The rod (4) is fixably attached to a wall (3). The sleeve (1) can be seen to be slid over the rod (4), the friction fit being provided 10 between the rod (4) and projections (5) on the interior of the sleeve (1).

Incisions (6) are better shown in the web (2) and retain electric fence wire (7). which is shown passing through the page.

Also provided is a cap (8) which may seal the open top of the sleeve (1).

The cap (8) may also have projecting fingers, that are configured to positively 15 lock the cap (8), rod (4) and sleeve (1) together. This reduces the ability of a potential intruder to remove the sleeve (1) from the rod (4), thereby breaching the security provided by the electric fence wires (7).

The cap (8) also improves aesthetic appeal. The cap (81 also prevents or greatly minimises the amount of water or moisture accumulation within the sleeve f I). 20 potentially preventing or greatly reducing the corrosive effects of moisture on the rod (4).

Therefore, cheaper materials may be used in the manufacture of rod (4). reducing 9 PCT/NZOO/OOl 04 the overall cost of providing the electric fence support.

It can be seen from the plan view of Figure 1 that the substantially cross-sectional uniform shape of the sleeve (I) will enable the sleeve to be manufactured by extrusions.

With reference to Figure 3 there is shown a plan view with a further embodiment of the present invention. The numbered features on Figure 3 are the same as for Figures 1 and 2, except that the web (2) is replaced with two webs (9) and (10). The webs (9) and (10) work in concert with each other to retain the electric wire (7). The webs (9) and (10) include slots (11) and (12), respectively, which may 10 be cut at opposing angles to work in concert to retain the electric wire (7) in position on the sleeve (T).

Aspects of the present invention have been described by way of example only and it should be appreciated that modifications and additions may be made thereto without departing from the scope of the appended claims.

Claims (17)

WO 01/04440 PCT/NZ00/00104 THE CLAIMS DEFINING THE INVENTION ARE:

1. A method of construction of a fence support for a fence, characterised by the step of a) fitting a sleeve over an upright support for a fence, the sleeve having at least one web configured to support lengths of material used in the fence.

2. A method as claimed in claim 1 wherein the fence is an electric fence.

3. A method as claimed in either claim 1 or claim 2 wherein the sleeve is made from an at least partially made from insulating material.

4. A method as claimed in any one of claims 1 to 3 wherein the upright support is a rod.

5. A method as claimed in any one of claims 1 to 4 wherein the sleeve has internal projections providing a friction fit between the sleeve and the support.

6. A method as claimed in claim 5 wherein the projections are deformable.

7. A method as claimed in any one of claims 1 to 6 wherein the sleeve is extruded or moulded.

8. A method as claimed in any one of claims 1 to 7 characterised by the further step of attaching a cap to the top of sleeve/support combination. 11 WO 01/04440

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17. PCT/NZ00/00104 A method of adapting a fence support characterised by applying the method as claimed in any one of claims 1 to 8. A sleeve configured to fit over a support member for a fence characterised in that the sleeve has at least one web configured to support lengths of material used in the fence. A sleeve as claimed in claim 10 which is extruded or moulded. A sleeve as claimed in either claim 10 or claim 11 which has internal projections providing a friction fit between the sleeve and the support. A sleeve as claimed in claim 12 wherein the projections are deformable. A sleeve adapted to receive a cap that fits over the sleeve and the support. A method of construction of a fence support for a fence substantially as herein described with reference to and as illustrated by the accompanying drawings. A method of adapting a fence support substantially as herein described with reference to and as illustrated by the accompanying drawings. A sleeve substantially as herein described with reference to and as illustrated by the accompanying drawings. END OF CLAIMS 12