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A WIRE SUPPORT
STATEMENT OF CORRESPONDING APPLICATIONS
This application is based on the Provisional specification filed in relation to New Zealand Patent
Application Number 599142, the entire contents of which are incorporated herein by reference.
TECHNICAL FIELD
The present invention relates to a wire support. The invention has particular application to use
with electrical fencing line.
BACKGROUND ART
Throughout the specification, discussion of the present invention will be made with reference to
electrified fencing systems. However, it should be appreciated that many of the principles
discussed may also be applied to aspects of non-electrified fencing systems, and the reference
to electrified fencing systems should not be seen to be limiting.
Portable electric fencing is an important aspect of livestock and pasture management. It is
often used for the purpose of animal containment to ensure that livestock do not graze in an
undesired area, or to set up temporary enclosures for animals to prevent the animals from
extensive roaming. Controlling the area of pasture grazed by livestock is an important element
of sustainable farm practice, where managing pasture growth assists in maximising food
supplies and reducing the amount of supplementary feed required.
On a regular basis, a farmer will partition off sections of the pasture to exclude or contain
livestock in order to permit pasture to recover from grazing activity. Portable electric fencing
systems allow this to be achieved relatively easily.
A portable electric fence consists of three key components; a conductive wire, an energiser,
and one or more fence posts to carry the wire. The energiser is a source of power for
supplying an electric current to the wire. To energise a portable electric fence, a farmer will
typically use a portable energiser, although a portable electric fence can also be powered via
connection to a nearby permanent electric fence. An animal or person coming into contact with
the wire will receive an electric shock.
The fence posts support the electric wire along its length to hold it in an elevated position
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above the ground. Typically, pigtail fencing standards are used for this purpose in portable
electric fencing systems, as these are relatively lightweight and are generally considered simple
to transport and install. shows a prior art pigtail fencing standard (generally indicated by
arrow 1). The standard 1 includes a metal rod 2, which is twisted in a coil 3 at one end. The
coil 3 is covered in a plastic sheath 4. The coil 3 carries an electric wire 5 and acts as an
insulator so that contact with the standard 1 will not result in an electric shock or shorting to
ground.
In operation, as the wire 5 is pulled though the coil 3 it wears against the plastic sheath 4.
Eventually this contacts the metal rod 2 beneath the sheath 4 which shorts out the electric
fence.
United States Patent No. 2,899,487 discloses an insulator coil made of bent thermoplastic
tubing which is subsequently attached to a metal stand. While such a structure may not short
the fence in the case of the wire wearing through the insulator, wearing though a wall of the
tube would create a significant mechanical weakness. Further, the need to bend the tubing to
form the insulator limits the range of materials useful for its manufacture.
The traditional pigtail arrangement also has a number of usability issues. For example, the
open end of the coil (see tail 6 of catches on wires, and tangles with other standards
during storage and transportation. Further, the angle between the sections of coil 3 where it
bends back over (see point 7 of creates another point on which objects may become
caught.
United States Patent No. 4,470,579 discloses a post in which insulator clips are moulded
directly to the shaft of the post. However, while the traditional pigtail coil has usability issues, it
is a generally elegant solution which farmers are familiar with using. As such, it is seen as
desirable to refine and/or improve the pigtail design rather than replacing it with another type of
wire support.
Referring to the standard 1 typically includes a foot 8 which may be used by the user as
a footrest to drive the standard 1 into the ground, and act as a stabiliser. This bent rod foot 8 is
typically welded or crimped to the rod 2. Carrying this out, as well as the need to manufacture
the foot separately, adds additional steps to the manufacturing process – adding complexity,
time, and therefore cost.
The typical hooked shape of the foot 8 also adds an additional point at which the standard 1
may become tangled with other standards. This can be exaggerated by the foot becoming bent
during use – particularly when attempting to drive the standard 1 into hard ground.
US 4,470,579 also discloses a foot press having blades which cut into the ground, and act as
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fins to provide stability. Such blades would be less likely to tangle with other standards than
foot 8 of However, one common use of the foot of fence standards is to hold a fence
wire down close to the ground to create a gateway for the passage of a vehicle or stock. The
blades are unsuited to such a task – they are more likely to cause damage to the wire than
retain it in position.
It is an object of the present invention to address the foregoing problems or at least to provide
the public with a useful choice.
All references, including any patents or patent applications cited in this specification are hereby
incorporated by reference. No admission is made that any reference constitutes prior art. The
discussion of the references states what their authors assert, and the applicants reserve the
right to challenge the accuracy and pertinency of the cited documents. It will be clearly
understood that, although a number of prior art publications are referred to herein, this
reference does not constitute an admission that any of these documents form part of the
common general knowledge in the art, in New Zealand or in any other country.
Throughout this specification, the word "comprise", or variations thereof such as "comprises" or
"comprising", will be understood to imply the inclusion of a stated element, integer or step, or
group of elements integers or steps, but not the exclusion of any other element, integer or step,
or group of elements, integers or steps.
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 THE INVENTION
According to one aspect of the present invention there is provided a method of manufacturing a
fence standard having at least two components including a shaft and a wire support including
an open ended loop, the method including the step of:
a) moulding the wire support to the shaft.
According to another aspect of the present invention there is provided a fence standard
including:
a shaft; and
a wire support including an open ended loop,
characterised in that
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the wire support is moulded onto the shaft.
Reference to a fence standard should be understood to be any means by which a wire is
supported or held in a desired position, particularly relative to the ground. In a particularly
preferred embodiment a fence standard is self supporting, and able to be easily relocated.
Reference to a wire support should be understood to mean a member configured to support or
otherwise retain a fencing wire. It should be appreciated that reference to fencing wire is not
intended to be limited to a drawn out thread of metal, and that the wire support may be used to
support other types of fencing components – for example polytape, braid, or rope.
Reference to a loop should be understood to mean a shape produced by a length of material
bending around to double onto or cross over itself. An open ended loop is one in which an end
of the length of material does not join to the remainder of its length – creating a gap between
the opposing sections of the loop through which a wire may be passed into the centre of the
loop.
Such a loop may provide a mechanically simple means for retaining a wire, the operation of
which may be familiar to users of traditional pigtail style fencing standards. Exemplary
embodiments of the loop will be discussed further below.
Preferably the wire support is made of an electrically non-conducting material.
In a preferred embodiment the wire support is made of glass filled nylon. It is considered that
this material has properties which are particularly suited to the function of a wire support – for
example a high abrasion resistance in order to withstand wear due to drawing of fence wire
through the support as it is wound onto a reel, and also having sufficient structural and impact
strength to endure the physical and thermal shocks typical in a farming environment.
It should be appreciated that other electrically non-conductive materials known to those skilled
in the art may be used in place of, or together with, glass filled nylon - for example a fibre filled
polyolefin, polyethylene, or polypropylene material.
It should further be appreciated that this is not intended to be limiting, and that the wire support
may be made of an electrically conducting material. Where electrical insulation between the
wire and the ground is desired, this may be achieved using one or more intermediate insulating
components.
Reference to moulding should be understood to mean a process of manufacturing by shaping
pliable raw material using a rigid frame – in particular by inserting liquid or molten material into
a mould where it hardens or sets to adopt the shape of the mould.
Preferably the wire support is injection moulded. However, it should be appreciated that other
forms of moulding known to a person skilled in the art may also be applied to the present
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invention.
It is envisaged that moulding may permit the manufacture of wire supports using materials
previously not contemplated in the art. This is considered to be particularly applicable to wire
supports utilising an open ended loop, where previously manufacture required bending of the
plastic, or metal shaft. Such previous designs traded abrasive resistance or hardness for the
flexibility necessary for manufacture.
Further, by moulding the wire support directly onto the shaft an intimate connection between
the shaft and wire support may be formed – assisting in preventing rotation or other movement
of the components relative to each other. Also, the number of steps in the manufacturing
process may be minimised, for example removing the need to store and transport the wire
supports prior to attaching to the shafts.
Preferably the wire support, and in particular the loop, is made of solid material. It is envisaged
that this may improve rigidity and mechanical strength, and thus resistance to damage in the
physically harsh conditions in which the fence standards are intended to be used. Further, a
solid wire support will be less likely to have its structural integrity compromised by wear of the
wire against it – or at the very least have a longer life span than a tubular structure.
It should be appreciated that the wire support may include hollowing features in order to reduce
the volume of material required. It is envisaged that these may be incorporated into the
sections of the wire support moulded to the shaft.
Preferably the entire cross-section of the open ended loop is electrically isolated from the shaft.
In doing so, even if wear occurs the wire will not be shorted out as with traditional pigtail
standards. This may be achieved, for example, by moulding the loop out of solid, non-
conductive material as discussed above.
As another way of assisting in reducing the likelihood of the wire being shorted as the result of
wear, the open ended loop may extend beyond an end of the shaft to which the wire support is
moulded. As the shaft presents the greatest risk of shorting, having the loop extend from the
end of the shaft helps to ensure that the two components are isolated.
It is also envisaged that moulding the wire support may assist in the use of alternative
configurations and shapes of wire supports not previously contemplated in the art. This may
enable a manufacturer to tailor the appearance of the wire support to align with a common
design theme, or at least provide a more aesthetically unique appearance. Further, such
configurations may provide advantages with regard to usability of the standard – particularly
reducing the likelihood of fence standards becoming tangled with each other.
For example, in a preferred embodiment the open ended loop is substantially centred about a
longitudinal axis of the shaft.
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One of the issues with the traditional pigtail fence standard is that the coil extends sideways
from the shaft as the result of the manufacturing process, which together with the gap creates a
lip. This lip can catch on objects – particularly other standards – during storage and
transportation, leading to tangling of the standards.
Centring the loop relative to the shaft may help to reduce this lip, making the wire support less
likely to catch on objects such as other standards.
According to another aspect of the present invention there is provided a wire support including:
an open ended loop having at least two opposing sections,
characterised in that
the loop has a non-uniform thickness such that the thickness of at least one of the
opposing sections is less than the greatest thickness of the loop.
Reference to thickness of the loop should be understood to mean the cross-sectional
dimension through opposing surfaces of the length of the material forming the loop, along the
axis about which the loop turns.
One of the issues with the traditional pigtail fence standard is that the coil extends sideways
from the shaft as the result of the manufacturing process, which together with the gap creates a
lip. This lip can catch on objects – particularly other standards – during storage and
transportation, leading to tangling of the standards.
By reducing the thickness of the loop at the opposing sections, it is envisaged that the overall
dimensions of the wire support may be reduced while still meeting strength requirements as
well as usability in terms of the size of the gap allowing passage of the wire.
Further, this may assist in maintaining an overall shape of the wire support. Containing the
opposing sections within a visually consistent profile may assist in making the wire support less
prone to catching on objects in its surrounding environment, and thus be more readily
transported and installed.
In a preferred embodiment the thickness of a central portion of the loop between the opposing
sections is greater than that of the opposing sections. In a further preferred embodiment, the
loop includes sloped transition portions between the opposing sections and the central portion.
This may act as a guide for the wire through the gap, improving the ease with which the wire
may be positioned within, or removed from, the loop.
While it is envisaged that moulding processes may be particularly suited to producing the loop
with non-uniform thickness, this is not intended to be limiting and other manufacturing
processes may be used.
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In one embodiment the opposing sections of the loop may have a complementary shape. For
example, at least one surface of the opposing sections may be substantially planar.
According to another aspect of the present invention there is provided a wire support including:
an open ended loop having at least two opposing sections, each opposing section
including a surface facing the other section,
characterised in that
at least one of the surfaces is substantially planar.
Reference to the surface being substantially planar should be understood to mean that the
majority of the surface lies within a two dimensional plane. It should be appreciated that the
planar surface may be a section of the wire support’s surface rather than its entirety.
It is envisaged that such a planar surface may be useful in guiding the wire across the gap
between the opposing sections.
In another embodiment, it is envisaged that the opposing sections may be shaped to encourage
or discourage passage of the wire between the sections. For example, the opposing sections
may be shaped to funnel the wire between them in one direction, or both.
Preferably one of the opposing sections includes an end of the loop, and the end falls within the
outer periphery of the other opposing section of the loop.
According to another aspect of the present invention there is provided a wire support including:
an open ended loop having at least two opposing sections, wherein one of the opposing
sections includes an end of the loop,
characterised in that
the end lies within the outer periphery of the other opposing section of the loop.
Traditional coils used in fence standards typically have their free end projecting from the
circular shape of the coil. This “tail” can cause the standard to become tangled with both the
wire and also other standards during storage and transportation.
By ensuring that the end of the loop of the present invention does not extend beyond the outer
periphery of an opposing section, the shape of the wire support around its edge is substantially
contained. As a result, the chance of it catching on objects and becoming tangled is reduced.
In a preferred embodiment the end of the loop is rounded. It is envisaged that this may further
assist in reducing the likelihood of objects becoming caught on the wire support – particularly
the wire as it is passing through the gap.
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According to another aspect of the present invention there is provided a wire support including:
an open ended loop having at least two opposing sections forming a gap; and
an elongate member extending from one of the opposing sections,
characterised in that
the member includes a sloped transition surface leading to the gap.
It is common practice for farmers to insert a fence standard underneath a fence wire, and drag
the wire along the shaft to the pigtail coil (in the case of electrified fences ensuring that the wire
remains on the insulated covering at the top of the shaft). The wire is guided into the gap
between the coils, and the shaft twisted to position the wire within the centre of the coil. It may
be desirable to maintain and improve on the ability to perform this operation using the present
invention.
The elongate member preferably provides the point of connection to the shaft. The sloped
transition assists in guiding the wire down to the gap between the opposing sections, when
picked up using the method described above.
In a preferred embodiment, the sloped transition surface is substantially planar. More
preferably, the sloped transition surface connects to the substantially planar surface of the
opposing section from which the elongate member extends. In doing so, the wire is correctly
oriented for entry into the gap – improving the fluidity of motion in performing the operation.
According to another aspect of the present invention there is provided a fence standard
including a wire support as substantially described above, and a shaft. The wire support may
be moulded to the shaft as previously described.
Preferably the fence standard includes a ground engaging member.
The ground engaging member is configured to provide stability to the fence standard and
maintain it in the desired orientation. For example, the ground engaging member may be a
weighted base or a foot attached to the shaft.
In a preferred embodiment the ground engaging member includes a blade having a downwards
facing edge extending laterally from the shaft. The use of a blade rather than traditional
secondary spike may assist in reducing the likelihood of the standard becoming tangled, via the
elimination or at least reduction in size of catching points. However, it should be appreciated
that reference to the ground engaging member including a blade is not intended to be limiting;
the ground engaging member may take any number of other forms known to a person skilled in
the art – for example a secondary spike in parallel with the shaft.
Preferably the blade substantially lies in the same plane as the loop of the wire support. In
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doing so, fence standards may be more easily stacked or held against each other in a tidy
fashion.
It is envisaged that the ground engaging member may include a portion moulded directly to the
shaft. More preferably the ground engaging portion is moulded to the shaft such that a portion
of the shaft extends below the ground engaging member.
According to another aspect of the present invention there is provided a fence standard
including:
a shaft; and
a ground engaging member,
characterised in that
the ground engaging member is moulded to the shaft such that a portion of the shaft
extends below the ground engaging member.
The standard may include a wire support substantially as described above.
In a preferred embodiment the ground engaging member includes a downwards facing recess
configured to receive a wire. As discussed in the background art section, one common use of
the foot of traditional fence standards is to hold a fence wire down close to the ground to create
a gateway in the fence for the passage of vehicles or stock. However, previously known foot
presses using blades are unsuited for this purpose. Firstly, the blade is typically angled to
assist with insertion into the ground and the wire cannot gain purchase along its length.
Further, the blade carries a high risk of damaging the wire when forced down onto it – requiring
replacement or repair of the wire which carries costs with regard to both material and labour
resources.
According to another aspect of the present invention there is provided a ground engaging
member for use with a fence standard including:
a body configured to be connected to a shaft of a fence standard;
a foot press extending laterally from the body; and
a protrusion extending away from the body and the foot press,
characterised in that
the protrusion includes a downwards facing recess located in a protrusion.
It is envisaged that this embodiment may have particular application to the foot press including
a blade having a downwards facing blade – the downwards facing recess acting as a hook to
allow capture of a wire and hold it to, or close to, the ground using a fence standard. However,
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it should be appreciated that this is not intended to be limiting.
In a preferred embodiment the ground engaging member includes a sloped transition surface
leading to the downwards facing recess.
It is envisaged that farmers may locate the wire in the recess using a similar technique to that
described in relation to the sloped transition surface leading to the gap in the wire support.
Resting the fence standard on top of the wire with the recess facing the wire, the standard may
be pushed forward, running the wire up the sloped transition surface of the ground engaging
member to be captured in the recess. The fence standard could then be pivoted upright, and
the ground engaging member used to secure the fence standard in place – holding the wire at
a lower elevation.
It is also envisaged that the ground engaging member includes a sloped transition surface
leading away from the downwards facing recess. This may assist in reducing the likelihood of
objects catching on the protrusion, for reasons previously discussed.
According to another aspect of the present invention there is provided a ground engaging
member for use with a fence standard including:
a blade having a downwards facing edge,
characterised in that
the downwards facing edge includes a recess configured to receive a wire.
It is envisaged that such an arrangement may enable a farmer to use a technique for capturing
the wire similar to that describe above, while reducing the likelihood of the wire being damaged
in comparison with the prior art. While the wire may run along the edge of the blade in doing
so, the real risk of damaging the wire is not introduced until the wire is trapped between the
edge and the ground. The recess in the blade prevents this from occurring.
A shaft should be understood to mean any elongate member configured to support or otherwise
connect the wire support relative to a desired support surface. For example the shaft may be
intended to provide a vertical support relative to the ground, or a horizontal support connecting
the wire support to a strainer post.
Preferably the shaft is made of an electrically conductive material – for example metal rod.
However, this is not intended to be limiting, as the shaft may be made of effectively any
electrical conductive or non-conductive material according to the desired application.
Preferably an electrically conductive material is an electrically conductive metal or metal alloy
such as stainless or galvanised steel. However, persons skilled in the art will appreciate that
other electrically conductive metals or materials may be used to manufacture the present
invention. For example, carbon black is an electrically conductive material which may be
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suitable for use in the present invention.
In a preferred embodiment the shaft is substantially straight along its length.
Prior art fence standards typically require processing – particularly bending – of the shaft to
produce the shape of the wire support. Reducing this processing may reduce the cost of
manufacture, and help to produce a shaft with less stress points to improve its robustness.
Further, where the shaft is made of metal consideration should be made with regard to
corrosion resistance. A cost effective method of achieving this is to apply a thin coating of
alternative material to the shaft in order to improve its resistance to corrosion or oxidation of the
main shaft material. This coating may be damaged during processing of the shaft while
manufacturing prior art fence standards. This damage may be reduced as a result of
minimising processing of the shaft, ultimately improving the useful life of the shaft.
It is envisaged that the shaft may include features for securing the wire support and/or ground
engaging member to the shaft. For example the shaft may include an indexing deformation,
such as a crimped portion or barb, over which the wire support is moulded. Preferably the
securing feature is configured to prevent rotational or lateral movement of the wire support
relative to the shaft.
The present invention may offer a number of advantages over the prior art, including:
reduced complexity in manufacturing by eliminating the need to bend the metal rod into
a coil;
reduced weight by reducing the length of metal rod required per standard;
increasing useful lifespan by removing metal from the wire support in order to eliminate
potential for shorting due to wearing of wire through the insulation;
greater strength and abrasion resistance through the use of materials enabled by
moulding the wire support in the desired shape as opposed to mechanical manipulation;
maintaining a familiar method of operation while reducing the likelihood of entanglement
– particularly by reducing the overhang of the open ended loop through centring the
loop of the shaft axis and/or non-uniform thickness of the loop, and/or containing the
end of the loop within its outer periphery, and
improved aesthetics enabled though moulding of the wire support.
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BRIEF DESCRIPTION OF THE DRAWINGS
Further aspects of the present invention will become apparent from the following description
which is given by way of example only and with reference to the accompanying drawings in
which:
provides a side view of a prior art fencing standard;
is a perspective view of an exemplary fencing standard according to one aspect
of the present invention;
is a perspective view of an exemplary wire support according to one embodiment
of the present invention;
is a side view of the wire support according to one embodiment of the present
invention;
is an opposing side view of the wire support according to one embodiment of the
present invention;
is a face on view of the wire support according to one embodiment of the present
invention;
is a view of the other face of the wire support according to one embodiment of
the present invention;
is a face on view of an exemplary ground engaging member according to one
embodiment of the present invention, and
illustrates manufacture of a fencing standard according to one aspect of the
present invention.
BEST MODES FOR CARRYING OUT THE INVENTION
illustrates a fence standard (indicated by arrow 100) according to one aspect of the
present invention, including a straight steel shaft 101 and a wire support 200 made of glass
filled nylon, the shape of which is moulded in place onto the shaft 101. A ground engaging
member in the form of foot 300 made of glass filled nylon is moulded to the shaft 101 in order
to assist in driving the shaft 101 into the ground and providing lateral stabilisation for supporting
standard 100 in an upright position and resisting twisting.
Referring to , the wire support 200 includes an elongate support member 201 providing
the point of connection between the wire support 200 and the shaft 101 illustrated in An
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open ended loop 202 extends from the support member 201 (and thus beyond an end of the
shaft 101). The loop 202 terminates with end 203. The entire length of the loop 202 is made of
solid glass filled nylon, and is therefore electrically isolated from the shaft 101 through its cross-
section.
Referring to , it may be seen that the thickness of the loop 202 is non-uniform along its
length. In particular, the loop 202 includes two opposing sections 204a and 204b which overlap
each other. The thickness of the opposing sections 204a and 204b is less than the greatest
width of the loop 202 at central portion 205.
This enables the overall thickness 206 of the loop 202 to be kept compact to assist in improving
the ease of stacking standards against each other, and reduce the size of the lip 207 created
by the edge of section 204b on which objects may catch, while maintaining a suitable gap 208
enabling passage of a wire (not illustrated) in and out of the centre of the loop 202.
Further, increasing the thickness of the loop 202 at central portion 205 assists in improving the
ergonomics of the wire support 200 – providing a broader surface against which a user may
push or pull to insert or remove the standard 100 from the ground.
The loop 202 includes sloped transition portions between the central portion 205 and the
opposing sections 204a and 204b – for example sloped transition portion 209a. These act as a
guide for the wire on exiting or entering the gap 208, improving the ease with which the wire
may be positioned within, or removed from, the loop 202.
Referring to , opposing sections 204a and 204b each include surfaces 210a and 210b
respectively, each facing the other section.
It may be seen that surface 210a is substantially planar. Further, the support member 201
includes a substantially planar sloped transition surface 211 leading to the surface 210a and
into the gap 208.
This arrangement assists a user in positioning a wire 212 within the loop 202. The user holds
the standard 100 (see sideways, and inserts the wire support 200 beneath the wire 212.
The user lifts the standard so the wire rests against the support member 201. By pulling the
standard, the wire 212 is dragged along the line indicated by arrow 213 – down the transition
surface 211, onto surface 210a, and into the gap 208. The standard may then be rotated to
bring the wire 212 out of alignment with the gap 208 and be captured within the loop 202.
The planar nature of the sloped transition surface 211 assists in aligning the wire 212 with the
gap 208, reducing the likelihood of it catching on loop 202.
Referring to , it may be seen that the end 203 of the loop 202 falls within the outer
periphery (indicated by dashed line 214) of the opposing section 204b (not clearly seen in 3d, but see ).
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By doing so, the shape of the wire support 200 around its edge is substantially contained. As a
result, the chance of it catching on objects and becoming tangled is reduced. In order to further
assist in achieving this, the end 203 is rounded off.
Referring to , it may be seen that the end of the support member 201 includes a curved
edge 215 leading outwardly towards the edge of the loop 202. In doing so, objects are less
likely to become caught at the point where the loop 202 crosses itself. Instead, a relatively
smooth transition is created which objects brush past.
From , , , and it may be seen that the loop 202 is substantially
centred about a longitudinal axis of the shaft 101. This helps in reducing the overhang of the
edges of the loop 202 beyond the central axis of the shaft 101, thereby reducing the likelihood
of the wire support 200 becoming caught on or entangled with other objects.
Referring to the foot 300 is moulded to the shaft 101 such that a portion of the shaft 101
extends below it.
The foot 300 includes a body 301 which surrounds the shaft 301. A foot press 302 extends
laterally from the body 301, with the top side 303 of the foot press 302 providing a surface to
which a user may apply force to drive the fence standard (see standard 100 of into the
ground.
A blade 304 having a curved downwards facing edge 305 extends from the foot press 302.
The blade 304 includes ridges 306 to provide reinforcement. The blade 304 provides stability
when inserted into the ground – increasing the surface area of the standard in the ground to
keep it upright and also resisting twisting.
The blade 304 also includes a downwards facing recess 307 in the edge 305. The recess 307
may be used to catch a fence wire 308a and hold it in position while the standard is inserted
into the ground.
This may be repeated at a spaced interval along the fence line to create a gateway in the fence
for the passage of vehicles or stock, while the remainder of the fence line remains at an
elevated position.
The foot 300 also includes a protrusion 309 extending from the other side of body 301 from the
foot press. The protrusion 309 includes a generally downwards facing recess 310.
The protrusion 309 includes a sloped transition surface 311 leading to the downwards facing
recess 310. It is envisaged that a user may locate wire 308b in the recess 310 using a similar
technique to that described in relation to the .
The user rests the shaft 101 or body 301 on top of the wire 308b with the recess 310 facing the
wire 308b. The foot 300 is pushed forward, running the wire 308b up the sloped transition
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surface 311 in the direction indicated by dashed arrow 312 to be captured in the recess 310.
The fence standard (see standard 100 of is then pivoted upright, and the foot 300 used
to secure it in place – holding the wire 308b at a lower elevation.
The protrusion 309 also includes a rear sloped transition surface 313 leading away from the
recess 310. This may be used to locate the wire 308b in the recess 310 by first dragging the
wire 308b up the slope 313 before pushing the foot 300 forward to capture it.
illustrates the manufacture of a fence standard.
The process will be described with reference to moulding of a wire support (for example wire
support 200) to a shaft (for example shaft 101). However, it should be appreciated that a
similar process may use used – whether simultaneously or separately – to mould a ground
engaging member (for example foot 300) to the shaft.
Referring to a shaft 401 is positioned within a cavity 402 between a first die portion 403a
and a second die portion 403b. Molten glass-filled nylon is injected into the cavity 402 through
nozzle 404. The shaft 401 includes a crimped portion 405 around which the molten glass-filled
nylon flows.
Pins 406 in the first die portion 403a assist in holding the shaft 401 in place while the moulding
operation takes place.
Once the glass filled nylon has set, the shaft 301 and newly moulded wire support (not
illustrated) may be removed as a single unit.
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 thereof as defined in the appended claims.
James & Wells ref: 133688DIV1