The invention relates to a base for a post of a fence which is erected on a ground support which is not to be penetrated e.g. because the ground support is on rock or concrete, or because the fence is of a temporary nature.
Conventionally a post, used to support a side of a fence panel or barrier, has a portion of its length which is set into the ground and which is usually embedded in concrete, thereby keeping the post upright and stable. It can be time consuming to erect an entire fence structure which requires each post to be planted in the ground. This endeavour is undertaken when permanent fence structures are erected.
If a temporary fence is to be erected or if a fence is on ground which is difficult to penetrate or which is not to be penetrated, use is made of superterranean posts. Each superterranean post includes a ground-engaging base formation on which an upright post is supported. This type of fence structure can be erected quickly but can also be unstable and may not be suitable for high security purposes.
An object of the current invention is to provide a base for a stable superterranean post for a fence.
The invention provides a base for supporting a superterranean fence post, the base including a body with a ground-engaging surface and a mechanism for mounting a lower end of the fence post to the body, a footprint of the surface being sufficient to provide lateral support to maintain the post in an upright orientation (in use) and a mass of the body being sufficient to stabilise the upright post.
The body may be modular to allow assembly of various components of the base at a site where a fence panel is to be erected.
Preferably the body is formed from a plurality of the components arranged in a succession of overlying layers.
A first layer may be supported on a foundation member. The foundation member may form the ground-engaging surface.
The foundation member may be in the form of a sheet of durable material e.g. of metal, or of a hard plastic of a suitable grade and thickness.
The first layer may be fastened to the foundation member and each following layer may be fastened to the layer beneath it.
The mechanism may be in the form of a plate fastened at least to an upper end of the base e.g. a topmost layer of the components.
Each component may be a respective elongate steel beam e.g. an I-beam. Beams which make up one layer may be stacked to lie transverse to the lengths of beams which make up an adjacent layer directly above or below the layer in question.
The body may include a shell which rests on the foundation member and covers the layers. The shell may be made from sheet metal or a mesh material e.g. one or more mesh panels.
The footprint may be adjusted, using a suitable adjustment mechanism during erection of the post, to accommodate an uneven ground level. The adjustment mechanism may include at least one foot member which is positioned underneath the ground-engaging surface. The foot member may for example be a length of a beam.
Preferably the footprint has a minimum width equal to at least one third of a height of the fence post.
The invention is further described by way of examples with reference to the accompanying drawings;
The base 10 includes a body 16 with a first layer 18 comprising a plurality of lengths of I-beams 20 and a second layer 22 comprising two lengths of I-beams 24 which are stacked on top of and transverse to the beams 20. The body 16 is supported on a foundation 26, e.g. a steel plate, which forms a ground-engaging surface and which defines a footprint of the base 10.
Each I-beam length 20, 24 respectively comprising an elongate member 27 with a web 28 extending between two spaced apart flanges 30 and 32.
The second layer 22 includes three intermediate I-beams 20A, 20B, 20C which are mounted parallel to the beams 20 with respective ends 34 and 36 (of the intermediate beams) fitted between the flanges 30 and 32 of the beams 24 to define a surface 36 to which a mounting plate mechanism 38 (
The mechanism 38 comprises a plate 40 with a plurality of apertures 42 for receiving bolts 44 used to fasten a flange 46, located at a lower end 48 of the post 12, to the plate 40 which is an upper end or surface of the base.
The various components used to construct the base 10 can be transported to a site where the base 10 can be assembled. Alternatively, the base 10 can be transported to the site as a whole.
In use, a fence 56 (
The fence panels 58 are made from a high density metallic mesh which has substantial mass and rigidity. Thus when the panels are fixed to the posts, the panels materially add to the stability, and hence the effectiveness of the erected fence.
A footprint of the base 10 is dimensioned to ensure that the post 12, on the base, is securely kept in an erect orientation. The size (area) of the base and the substantial weight of the base 10 (due to its size and the material used to manufacture) serve to stabilise the post 12 on the base. The area of the base is typically one-third of the height (H) of the fence post 12.
The base 10 supports the entire weight of the post 12 and it is not required to plant the post into a concrete pedestal to obtain a high level of stability.
To adjust the footprint according to uneven ground levels i.e. to ensure that each post 12 is vertically installed, foot members 82 (
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