STRUCTURE FOR PROVIDING A PHYSICAL OR VISUAL BARRIER

Abstract

A structure (1) for providing a physical or visual barrier comprises at least one post (2) mounted to a supporting surface and to which is secured at least one slat (8) by at least one wedge (10). The post (2) has a beam 31 (16) extending upwards from a footing. The beam (16) comprises at least one longitudinally extending plate which at least partially encloses a hollow (18). The beam has at least one plate that extends between opposite left and right sides (33, 34). The beam has at least one plate that extends between opposite front and rear sides (31, 32). The beam (16) is cut through by at least one slot (28) extending rearwards from the front side (31) part of the way towards the rear side (32). The slot (28) is configured to receive a portion of a slat (8) when inserted into the slot (28) in an insertion direction from the front side (31) of the beam (16). The slat (8) then extends laterally away from at least one of the sides (33, 34). Each slot (28) has a width that provides a sufficient clearance gap (29) with the slat (8) whereby a tip (40) of the wedge (10) may be driven into the gap (29) from one side of the beam (16) to secure the slat (8) to the beam (16).

Claims

1. A structure for providing a physical or visual barrier, comprising: at least one post for mounting to a supporting surface, a lower end of said post comprising a footing for securing the post to the supporting surface and the post further comprising an elongate beam, the beam extending in a longitudinal direction upwardly from the footing on which said beam is supported; at least one wedge; at least one slat, the or each slat being affixed to said beam and extending in a lateral direction, the lateral being transverse to the longitudinal direction; wherein said beam comprises at least one plate, the or each plate extending in the longitudinal direction and having opposite first and second faces, at least one of said faces defining a hollow that extends longitudinally along the beam; at least one plate has an aperture therein extending between said opposite first and second faces of said plate, said aperture presenting an opening on a front side of the beam, and said aperture providing a slot that extends from the front side of the beam part way towards an opposite rear side of the beam to present a slot configured to receive through the opening and into said hollow a portion of said slat when said slat is inserted into the slot in an insertion direction from the front side of the beam; said aperture is open towards opposite right and left sides of the beam whereby said inserted slat extends away from the slot in opposite first and second lateral directions, said lateral directions being substantially orthogonal to the insertion direction; and said slot has a width in a plane parallel to the longitudinal direction that provides a sufficient clearance gap with said inserted slat whereby a tip of said wedge may, in use, be driven into the clearance gap in one of said lateral directions to secure said slat to the or each plate whereby said slat is affixed to said beam.

2. The structure according to claim 1, in which said beam has a substantially square or rectangular envelope in a plane transverse to the longitudinal direction.

3. The structure according to claim 2, in which the beam is an I-beam, the I-beam having a first plate, a second plate and a third plate, the first and second plates are, respectively, opposite first and second flanges of the I-beam and the third plate is a web of the I-beam that extends between said flanges, wherein there are two hollows, said hollows extending longitudinally along the beam on opposite sides of the web and between said flanges.

4. The structure according to claim 3, in which: the first face of the first plate provides the front side of the beam and the first face of the second plate provides the rear side of the beam; and the first plate the third plate each have said aperture therein, a first one of said apertures in the first plate extending fully across the first plate between the opposite right and left sides of the beam to provide said opening and a second one of said apertures in the third plate extending from the first aperture towards the second plate to provide said slot.

5. The structure according to claim 3, in which: each of the first and second plates has a pair of opposite side edges, said side edges extending between the first and second faces of the respective plate; a first one of said side edges of the first and second plates provides the front side of the beam, and a second one of said side edges of the first and second plates provides the rear side of the beam; and the first plate and the second plate each have said aperture therein, a first one of said apertures in the first plate extending to the first side edge of the first plate and a second one of said apertures in the second plate extending to the first side edge of the second plate and said first and second apertures being aligned with each other in the lateral direction between the opposite right and left sides of the beam to provide said opening, and each of said apertures extending from the respective side edge towards the third plate to provide said slot.

6. The structure according to claim 2, in which the beam is a U-beam, the U-beam having a first plate, a second plate and a third plate, the first and second plates are, respectively, opposite first and second flanges of the U-beam and the third plate is a web of the U-beam that extends between said flanges along one longitudinally extending edge thereof, wherein there is one hollow, said hollow extending longitudinally along the beam on one side of the web and between said flanges.

7. The structure according to claim 6, in which: each of the first and second plates has one side edge, each of said side edges extending between the first and second faces of the respective plate; the side edges of the first and second plates provide the front side of the beam, and a first face of the third plate provides the rear side of the beam; and the first plate the second plate each have said aperture therein, a first one of said apertures in the first plate extending to the side edge of the first plate and a second one of said apertures in the second plate extending to the side edge of the second plate and said first and second apertures being aligned with each other in the lateral direction between the opposite right and left sides of the beam to provide said opening, and each of said apertures extending from the respective side edge towards the third plate to provide said slot.

8. The structure according to claim 2, in which: the beam is a box-beam, the box-beam having a first plate, a second plate, a third plate and a fourth plate; the first and fourth plates are opposite one another with a first face of the first and fourth plates providing, respectively the front and rear sides of the beam; the second and third plates are opposite one another with a first face of the second and third plates providing, respectively the opposite right and left sides of the beam; the second faces of each of said plates extends longitudinally along the beam to provide one hollow inside the box-beam.

9. The structure according to claim 8, in which the first plate, the second plate and the third plate each have said aperture therein, a first one of said apertures in the first plate extending fully across the first plate between the opposite right and left sides of the beam to provide said opening and a second one and a third one of said apertures in, respectively, the second and third plates extending from the first aperture towards the fourth plate to provide said slot.

10. The structure according to claim 1, in which the beam is a tube, the tube having a single substantially cylindrical plate; the first face of said plate provides the front, rear, right and left sides of the beam, and the second face of said plate extends longitudinally along the beam to provide one hollow inside the tube.

11. The structure according to claim 10, in which said plate has said aperture therein, the aperture extending across said plate between the opposite right and left sides of the beam to provide said opening and said slot.

12. The structure according to claim 1, in which there are at least two wedges, and a first one of said wedges is driven into said clearance gap from the left side of the beam and a second one of said wedges is driven into said clearance gap from the right side of the beam.

13. The structure according to claim 1, in which said slot extends substantially perpendicularly to the longitudinal direction, whereby said secured slat has opposite faces oriented substantially perpendicularly to the longitudinal direction.

14. The structure according to claim 1, in which said slot is tilted downwardly towards the opening on the front side of the beam, whereby a front edge of said secured slat is sloped downwardly relative to a rear edge of said secured slat when the beam is oriented substantially vertically.

15. The structure according to claim 1, in which the slot does not fully intersect said hollow, whereby a rear edge of the secured slat is separated from said at least one face defining said hollow.

16. The structure according to claim 1, wherein the slot has a slat receiving portion that extends in the insertion direction from the front side of the beam towards the rear side of the beam, said slat receiving portion has an extent in the insertion direction less than a width of said slat when fully received in the slot, whereby a free edge of said slat extends forwards from the front side of said beam.

17. The structure according to claim 1, in which the slot has an upper side and a lower side when the beam is oriented with the longitudinal direction being substantially vertical, and said wedge is seated in said clearance gap between a lower side of the slat and the lower side of said slot.

18. The structure according to in claim 17, in which the upper side of the slot is provided with at least one tooth oriented towards the lower side of the slot, said tooth being engaged with the slat when said wedge is driven into the clearance gap.

19. The structure according to claim 18, in which the lower side of the slot is provided with at least one recess, said recess being sized to receive and guide said wedge as said wedge is driven into said clearance gap.

20. The structure according to claim 1, in which said wedge has a taper leading to the tip of said wedge, the taper being provided by opposite first and second sides of said wedge, the first side of said wedge having a substantially straight edge that is engaged with the slat when said wedge is driven into said clearance gap.

21. The structure according to claim 20, in which said straight edge has a ridge extending along its length, the ridge being engaged with the slat when said wedge is driven into said clearance gap.

22. The structure according to claim 20, in which the second side of said wedge has an edge with a series of concave scallops, one side of the slot being seated within one scallop when said wedge is driven into said clearance gap.

23. The structure according to claim 20, in which said wedge has opposite third and fourth sides, the third and fourth sides extending between the opposite first and second sides of said wedge, and said wedge further comprises a base portion at a thick end of the taper, the base portion being provided with a bore therethrough between the third and fourth sides of the wedge, the bore providing a gripping feature to facilitate withdrawal of the tip of the wedge from said clearance gap.

24. A barrier installation comprising a structure, the structure comprising at least one post, a lower end of said post comprising a footing and an elongate beam, the beam extending in a longitudinal direction upwardly from the footing on which said beam is supported; at least one wedge; at least one slat, the or each slat being affixed to said beam and extending in a lateral direction, the lateral being transverse to the longitudinal direction; wherein said beam comprises at least one plate, the or each plate extending in the longitudinal direction and having opposite first and second faces, at least one of said faces defining a hollow that extends longitudinally along the beam; at least one plate has an aperture therein extending between said opposite first and second faces of said plate, said aperture presenting an opening on a front side of the beam, and said aperture providing a slot that extends from the front side of the beam part way towards an opposite rear side of the beam to present a slot configured to receive through the opening and into said hollow a portion of said slat when said slat is inserted into the slot in an insertion direction from the front side of the beam; said aperture is open towards opposite right and left sides of the beam whereby said inserted slat extends away from the slot in opposite first and second lateral directions, said lateral directions being substantially orthogonal to the insertion direction; and said slot has a width in a plane parallel to the longitudinal direction that provides a sufficient clearance gap with said inserted slat whereby a tip of said wedge may, in use, be driven into the clearance gap in one of said lateral directions to secure said slat to the or each plate whereby said slat is affixed to said beam, and wherein the barrier installation further comprises a supporting surface, the structure being mounted to the supporting surface by the footing, said slat extending away from at least one of the right and left sides of the beam in the lateral direction to provide said physical or visual barrier.

25. A method of assembling a structure for providing a physical or visual barrier, the structure comprising at least one post, a lower end of said post comprising a footing and an elongate beam, the beam extending in a longitudinal direction upwardly from the footing on which said beam is supported; at least one wedge; at least one slat, the or each slat being affixed to said beam and extending in a lateral direction, the lateral being transverse to the longitudinal direction; wherein said beam comprises at least one plate, the or each plate extending in the longitudinal direction and having opposite first and second faces, at least one of said faces defining a hollow that extends longitudinally along the beam; at least one plate has an aperture therein extending between said opposite first and second faces of said plate, said aperture presenting an opening on a front side of the beam, and said aperture providing a slot that extends from the front side of the beam part way towards an opposite rear side of the beam to present a slot configured to receive through the opening and into said hollow a portion of said slat when said slat is inserted into the slot in an insertion direction from the front side of the beam; said aperture is open towards opposite right and left sides of the beam whereby said inserted slat extends away from the slot in opposite first and second lateral directions, said lateral directions being substantially orthogonal to the insertion direction; and said slot has a width in a plane parallel to the longitudinal direction that provides a sufficient clearance gap with said inserted slat whereby a tip of said wedge may, in use, be driven into the clearance gap in one of said lateral directions to secure said slat to the or each plate whereby said slat is affixed to said beam, wherein the method comprises inserting part of said slat into said slot in the insertion direction, inserting the tip of at least one wedge into the clearance gap between said inserted slat and one side of the slot, and driving the wedge into the clearance gap in one of said lateral directions such that the wedge presses the slat into engagement with one side of the slot, the slat being releasable from said slot by removal of the wedge from the clearance gap.

Description

BRIEF DESCRIPTION OF THE DRAWINGS

[0061] The invention will now be further described, by way of example only, and with reference to the accompanying drawings, in which:

[0062] FIG. 1 is a perspective view of a structure for providing a physical or visual barrier, according to a first preferred embodiment of the invention, having a post formed from a box-section beam with a hollow interior, a bottom end of which has a tapered tip for driving into the ground, and a plurality of transversely extending slats affixed in downwardly angled slots in a front side of the post;

[0063] FIG. 2 is a side view of part of the post of FIG. 1, showing how each slot has on a lower side at least one recess and on an upper side at least one backwardly-directed tooth, and how the slat is preferably inserted into the slot from the front side of the post;

[0064] FIG. 3 is a side view of the post after the slat has been inserted into the slot and a wedge has been inserted between a lower side of the slat and one of the recesses, in order to engage an upper side of the slat with the teeth;

[0065] FIG. 4 shows a first embodiment of the wedge of FIG. 3, the wedge having one side along which extends a ridge for engaging with the lower side of the slat, and an opposite side with a series of concave scallops;

[0066] FIG. 5 shows a second embodiment of the wedge of FIG. 3, the wedge having one side along which extends a ridge for engaging with the lower side of the slat;

[0067] FIG. 6 shows a third embodiment of the wedge of FIG. 3, the wedge having opposite tapering sides, each with a flat surface profile;

[0068] FIG. 7 is a perspective view from a rear side of the post of FIG. 1, showing how the wedge of FIG. 6 is used to secure a slat within one of the slots, one of the scallops being engaged with opposite inner and outer surfaces of a side plate of the post;

[0069] FIG. 8 is a perspective view of a structure for providing a physical or visual barrier, according to a second preferred embodiment of the invention, similar to that of FIG. 1 but having a post formed from a U-section beam, the arms of the U-section facing towards a front side of the post;

[0070] FIG. 9 shows a variation of the post of FIG. 8, having a lower mounting plate for bolting the post to a supporting surface, and at an upper end of the post a light fitting on a front plate;

[0071] FIG. 10 is a perspective view of a structure for providing a physical or visual barrier, according to a fourth preferred embodiment of the invention, similar to that of FIG. 1 but having a post formed from a I-section beam, the arms of the I-section extending between a front side and a rear side of the post;

[0072] FIG. 11 is a perspective view of a structure for providing a physical or visual barrier, according to a fifth preferred embodiment of the invention, having a post formed from a I-section beam, the arms of the I-section extending between first and second sides of the post and the slot being cut through a central plate;

[0073] FIG. 12 is a side view of the post of FIG. 11 after a slat has been inserted into each slot and wedges have been inserted between a lower side of the slat and a lower side of the slot, in order to engage an upper side of the slat with the teeth, the wedges being inserted from a side of the post and from a front side of the post;

[0074] FIG. 13 is a perspective view of a structure for providing a physical or visual barrier, according to a sixth preferred embodiment of the invention, having a post formed from a round hollow-section beam, the sides of the beam being curved around a hollow interior;

[0075] FIG. 14 shows how a series of the posts may be spanned by slats to provide a fence; and

[0076] FIGS. 15A to 15D show four different designs of visual barriers, each having a single post and plurality of slats having a variety of lengths to provide visually pleasing outlines.

DETAILED DESCRIPTION

[0077] FIG. 1 shows a first embodiment of a structure 1 for providing a physical or visual barrier. The structure comprises an elongate post 2 having an upper end 4 and a lower end 6, and a plurality of slats 8. As shown in FIGS. 2 and 3, each of the slats 8 is secured to the post 2 by at least one wedge 10. The lower end 6 of the post comprises a footing 20, which in this example is a lower end of the post terminating in a tapered tip 12. In use, the tapered tip 12 is driven into the ground (not shown) up to a desired depth, indicated schematically by a dot-dashed line 14 on the post in FIG. 1.

[0078] The post 2 has a main body formed by an elongate box-section beam 16, which is most preferably metallic, for example of galvanised steel or stainless steel, and which may optionally be powder coated to provide colour. The beam 16 has a hollow interior 18 of substantially square or rectangular section, that extends the full length of the beam 16 along a longitudinal direction between the footing 20 and the upper end 4 of the post 2.

[0079] The beam 16 comprises a front plate 21 and opposite this a rear plate 22, and extending between the front and rear plates, a left side plate 23 and opposite this a right side plate 24. The hollow 18 is defined by internally oriented faces of each of the four plates 21 to 24. The front, rear and side plates 21 to 24 define corresponding front, rear, left and right sides 31 to 34 of the beam 16. In this example, the front, rear and side plates 21 to 24 of the beam are each extend along the length of the beam. In general, the beam needs to have at least one plate spanning opposite front and rear sides of the beam in a first transverse direction and at least one plate spanning opposite left and right sides in a second transverse direction. In this example, a single plate extends transversely around the beam, thereby spanning between front and rear sides 31, 32 and left and right sides 33, 34 of the beam. The plates extend transversely so that internal surfaces of the plates at least partially enclose a hollow. In this case, the internal surfaces of the plate completely enclose the hollow interior 18, such that the beam is generally tubular, preferably having a generally square or rectangular cross section.

[0080] The beam 16 is provided along its length with at least one slot, here a series of slots 28, each of which opens up towards the front side 31 of the beam 16. Each slot 28 extends fully across the front plate 21, preferably in a horizontal direction, and extends across the left and right side plates 23, 24 from the front plate 21 part way towards the rear plate 22. Preferably, each slot 28 is angled downwards towards the front plate 21. The front, rear and side plates of the beam preferably extend around the hollow interior 18, as shown in FIGS. 1 and 7, except where cut through by the slots.

[0081] As shown in FIGS. 1 to 3, each slot 28 is arranged to receive at least one corresponding slat 8. One slat 8 may extend continuously across the hollow interior 18 or two laterally adjacent slats 8′, 8″ may meet or abut one another within the hollow interior 18. The slats are arranged to extend laterally away from the right and left side plates 23, 24. In FIG. 1, the structure is shown with one of the slats removed to show the empty slot.

[0082] Although the slats 8 may be inserted into the slots 28 in a lateral direction from either the left or rights sides 33, 34, it is more convenient if each slat is offered up from the front side 31 into an opening 30 of the slot in an insertion direction 27 from the front side 31 towards the rear side 32 of the beam 16, as shown in FIG. 2. Once inserted, fully or substantially fully, as shown in FIG. 3, then the slat is secured in place by means of at least one wedge 10.

[0083] The slats 8 in this embodiment are wooden planks, being elongate and having a width greater than their thickness. In other embodiments, the slats could be of plastic, especially recycled plastic, or metal, or other rigid material.

[0084] A main feature of the invention is the use of wedges 10 to secure the slats 8 in the slots 28. Three embodiments of wedges 10, 10′ and 10″ are shown in FIGS. 4 to 6. Each wedge 10 is elongate and has a taper 15 defined by opposite first 41 and second 42 sides. The taper 15 ends in a tip 40 at one end of the wedge. Each wedge further comprises third 43 and fourth 44 sides extending along the length of the wedge between the first and second sides 41, 42. The distance between the third and fourth sides 43, 44 defines a width of the wedge. To assist hammering or driving of the wedge into the clearance gap 29, a head 11 is provided at the end of the wedge opposite the tip 40, where the distance between the first and second sides 41, 42 of the wedge is greatest. The head 11 of the wedge meets the second side 42 of the wedge at a ledge 46 which is preferably a right angled ledge. A bore 48 extends through the head 11 between the third and fourth sides 43, 44 of the wedge 10. In use, the first side 41 of the wedge is arranged to engage with a lower side 45 of a slat 8 and the second side 42 of the wedge is arranged to engage with the lower side 36 of a slot 28.

[0085] In a one embodiment, shown in FIG. 4, the second side 42 of the wedge 10 is provided with a series of concave scallops 52. The scallops 52 extend parallel to one another between the third and fourth sides 43, 44 of the wedge, perpendicular to the length of the wedge. Additionally, or alternatively, as shown in the embodiment 10′ in FIG. 5, the first side 41 of the wedge 10 comprises a ridge 50 extending along the length of the wedge. The ridge 50 is arranged to engage with the lower side 45 a slat 8. Alternatively, the wedge may have substantially flat sides 41 to 44, as in the embodiment 10″ shown in FIG. 6.

[0086] Referring again to FIGS. 2 and 3, each slot 28 has an upper side 35 and a lower side 36 where the slot passes through each side plate 23, 24. The upper and lower sides 35, 36 are substantially parallel to one another. A width W of the slot 28 is defined by the minimum distance between substantially parallel opposed portions of the upper and lower sides 35, 36 of the slot 28 in each side plate 23, 24. The width of the slot is sized to receive the thickness of one of the slats 8 with a clearance gap 29 between the lower sides 36 of the slot and the lower side 45 of the slat 8, as can be seen in FIG. 3.

[0087] The upper sides 35 of each slot 28 are provided with at least one backwardly-directed tooth 38 which points towards the lower side 36 of the slot and away from the opening 30. Each tooth 38 is arranged to engage with an upper side 47 of a slat 8 in use. Additionally, the or each tooth 38 holds the slat 8 at a distance from the upper side 35 of the slot, thereby providing a water drainage gap 37 between the upper side of the slot and the upper side 47 of the slat 8.

[0088] As can be seen in FIGS. 2 and 3, each lower side 36 of each slot 28 is provided with a pair of recesses 54 extending into the side plates 23, 24 away from the upper side 35 of the slot. Each recess 54 has sides 55 and a base 56, the distance between the sides 55 being sized to accommodate the width of a wedge 10. FIG. 3 shows wedges 10 in the recesses 54, with a slat 8 received in each slot.

[0089] In use, one slat 8 (or optionally two laterally adjacent slats 8′, 8″, which meet within the hollow interior 18 of the beam 16) is inserted into each slot 28. A portion of each slat is inserted in the insertion direction 27 into a slot, preferably from the front side 41 of the beam as shown in FIG. 2, such that the slat extends through the side plates 23, 24 away from the left and/or right sides 33, 34 of the beam. The slat therefore extends in at least one of two opposite second transverse directions 39, 39′ which are lateral directions with respect to the front side of the beam and the longitudinal direction of the beam, and which are also in this example substantially perpendicular to the insertion direction 27 along which each slat is preferably inserted into the slot.

[0090] To secure the slat 8 in the slot 28, the tip 40 of a wedge 10 is inserted into the clearance gap 29 between the lower side 36 of the slot and the lower side 45 of the slat 8, on each side of the beam. Each wedge is driven from the left or right side 33, 34 of the beam 2 towards the hollow interior 18. As shown in FIGS. 3 and 7, each wedge is guided by one of the recesses 54. Driving of the wedges presses the first side 41 of each wedge into engagement with the lower side 45 of the slat, which in turn presses the upper side 47 of the slat 8 into engagement with the or each tooth 38 on the upper side 35 of the slot. Each tooth digs in to the upper side 47 of the slat and helps secure the slat in the slot. The second side 42 of each wedge engages with the base 56 of the corresponding recess 54 in the lower side 36 of the slot.

[0091] Where the second side 42 of the wedge 10 has scalloped edges 52, the base 56 of the recess 54 engages with one of the scallops, as shown in FIG. 7. In this way, the wedge may be secured to prevent movement of the wedge in one or the other of the second transverse directions 39, 39′. Movement of each wedge towards the hollow interior 18 of the beam 16 is limited either by the size of the clearance gap 29, or by the ledge 46 which may abut the side plate 23, 24 at the base 56 of the recess 54.

[0092] To remove the slats 8, the wedges 10 may be pulled out of the gap 29 in one or the other of the second transverse directions 39, 39′, away from the hollow interior 18 of the beam 16. To this end, the bore 48 in the head of each wedge may be engaged with a tool to aid removal of the wedge from the slot 28. It should be noted that the use of wedges to secure the slats 8 allows the slots to accommodate slats having different thicknesses, by adjusting the extent to which the wedge is driven towards the hollow interior 18.

[0093] In another embodiment (not shown), only one recess 54 may be provided in each lower side 36 of each slot 28. In this case, the position of the recess in the left side plate 23 is offset from the position of the recess in the opposing right side plate 24, such that when wedges are driven from opposing sides of the same slot 28 the tips 40 of the wedges do not collide in the hollow interior 18 of the beam 16.

[0094] It should be noted that the positioning of the wedges 10 beneath the slats 8 helps to shield the wedges from rainfall, when the post 2 is mounted outdoors, and may also help to hide the wedges from view.

[0095] It should also be noted that the water drainage gap 37 allows water to drain between the upper side 35 of the slot 28 and the upper side 47 of the slat 8, in embodiments with or without a front plate 21.

[0096] FIGS. 8 and 9 show second and third embodiments 101, 201 of the invention in which features which are the same as in the first embodiment 1 are indicated with the same reference numerals. Features of the second and third embodiments which are similar to corresponding features of the first embodiment are indicated with reference numerals incremented by, respectively 100 and 200.

[0097] In the second embodiment 101 the beam 116 does not have a front plate and so the beam presents an opening 49 that extends along the front side 31 of the beam 116 fully between the opposite upper and lower ends 104, 106 of the beam. The front side 31 of the beam 116, 216 is therefore defined by free edges 25, 26 of the side plates 23, 24 such that the beam has a U-shaped cross section, as shown in FIG. 8.

[0098] The post 202 of the third embodiment 201 is similar to that 102 the second embodiment 101 except that the beam 216 has a reinforcing strap 66 at the upper end 204 of the beam 216. The front side 31 of the beam 216 present an opening 149 between the reinforcing plate and the lower end 206 of the beam 216.

[0099] In both the second and third embodiments 101, 102, the beam 116, 216 comprises a rear plate 22, and extending forwards of the rear plate, a left side plate 23 and opposite this a right side plate 24. In each case, the hollow 18 is therefore defined by internally oriented faces of each of the three plates 22 to 24, which therefore partially enclose the hollow.

[0100] Because there is no front plate in the second and third embodiments 101, 201, each slot 128 is divided into separate slot portions 128′, 128″, 228′, 228″ by a gap between the free edges 25, 26, 125, 126 of the side plates. One of the slot portions 128′, 228′ is cut through the left side plate 23 and extends rearwards from the free edge 25, 125 of the left side plate. Similarly, a corresponding slot portion 128″, 228″ is cut through the right side plate 24 and extends rearwards from the free edge 26, 126 of the right side plate. In this way, the two slot portions 128′, 128″, 228′, 228″ are aligned with each other so that these function as a single slot 128, 228 for receiving a slat 8, as can be seen in FIGS. 8 and 9. In this case, where there is only one plate extending between left and right sides 33, 34 of the beam, the beam 116, 216 may be provided by a U-section beam.

[0101] The post 102 of the second embodiment 101 has a footing 120 with a tapered tip 112 which has the same taper as the first embodiment 1.

[0102] In the third embodiment 201, the footing 220 comprises a mounting plate 60 extending transversely away from the lower end 206 of the post 202. In one example, shown in FIG. 9, the mounting plate 60 is a substantially rectangular plate extending in a plane perpendicular to the length of the post 202. Mounting holes (not shown) are provided adjacent to each corner 57 of the mounting plate 60, such that the mounting plate can be secured to a solid surface by fasteners. In the example of FIG. 9, the fasteners are bolts, the heads 62 only of which are shown in FIG. 9. Although not shown, the bolts are conventional steel bolts each having a shaft that extends through a corresponding hole in the mounting plate 60 to engage with a threaded sleeve which may, for example, be set in a concrete base. In other examples, screws, pins, pegs or other suitable fasteners could be used. In another alternative (not shown), a mounting plate may extend in a plane parallel to the length of the post 202, such that the barrier structure 201 can be secured to a vertical supporting surface, such as a wall.

[0103] In the embodiments of FIGS. 1 and 8, the footing 20, 120 includes the downwardly pointing tapered tip 12 comprising a part of the rear plate 22 and the side plates 23, 24. The rear plate 22 extends further towards the lower end 6, 106 of the post 2, 102 than the front plate 21. In these cases, the side plates 23, 24 are tapered at the lower end 6, 106 of the post 2, 102 such that a lower edge 82 of each side plate 23, 24 extends downwardly and towards to a bottom edge 81 of the rear plate 22.

[0104] FIGS. 10 to 13 show fourth, fifth and sixth embodiments 301, 401, 501 of the invention in which features which are the same as in the first embodiment 1 are indicated with the same reference numerals. Features of these embodiments which are similar to corresponding features of the first embodiment are indicated with reference numerals incremented by, respectively 300, 400 and 500.

[0105] In the fourth embodiment 301 of the invention, the beam 316 has only one plate extending between left and right sides 33, 34 of the beam, which in this case comprises a middle or central plate 17. As shown in FIG. 10, the central plate 17 extends between left and right side plates 323, 324 of the beam, part way between the front and rear sides 31, 32 of the beam. In this way, the front and rear sides 31, 32 of the beam 316 are defined by free edges of the side plates 323, 324. The front side 31 of the beam is defined by front edges 325, 326 of the side plates 323, 324 and the rear side of the beam is defined by free edges 325′, 326′. A pair of hollows 318′, 318″ is thereby provided between the side plates 323, 324, with one hollow on either side of the central plate 17. Each of the hollows 318′, 318″ is defined by internally oriented faces of each of the three plates 17, 323, 324, which therefore partially enclose the hollow.

[0106] As in the second and third embodiments 101, 201, there is an opening 249 between front edges 325, 326 of the side plates 323, 324 which in this case leads to a front one 318′ of the hollows.

[0107] The beam 316 is provided with slots 328 opening at the front side 31 of the beam. Since there is no front plate, each slot 328 is divided into slot portions 328′, 328″ by a gap between the free edges 325, 326 of the side plates. One of the slot portions 328′ is cut through the left side plate 323 and extends rearwards from the free edge 325 of the left side plate. Similarly, a corresponding slot portion 328″ is cut through the right side plate 324 and extends rearwards from the free edge 326 of the right side plate. In this way, the two slot portions 328′, 328″ are aligned with each other so that these function as a single slot 328 for receiving a slat 8, as can be seen in FIG. 10. In this case, having a central plate 17 instead of front and rear plates, the beam 316 may be provided by an I-section beam.

[0108] In this fourth embodiment, the footing 320, comprises a tapered tip 312. As shown in FIG. 10, the central plate 17 extends further towards the lower end 306 of the post 302 than the side plates 323, 324. The side plates 323, 324 are tapered at the lower end 306 of the post 302 such that a lower edge 82 of each side plate 323, 324 extends downwardly and towards to a bottom edge 381 of the central plate 17.

[0109] Although not shown, in the second, third and fourth embodiments 101, 201, 301, the slats 8, 8′, 8″ are secured using the same wedges 10 and technique as described above in relation to the first embodiment 1. The slots 128, 228, 328 may also have any of the same arrangements of teeth 38 and recesses 54 as described above.

[0110] In the fifth embodiment 401 of the invention, shown in FIG. 11, the beam 416 does not have side plates, instead having a middle or central plate 117. The central plate 117 extends between front and rear plates 421, 422, part way between the left and right sides 33, 34 of the beam 416. In this way, the front and rear sides 31, 32 of the beam are defined by the front and rear plates 421, 422. The left and right sides 33, 34 of the beam are defined by free edges of the front and rear plates 421, 422. The left side 33 of the beam is defined by left edges 71, 72 of the front and rear plates 421, 422. and the right side of the beam is defined by right edges 71′, 72′ of the front and rear plates 421, 422. A pair of hollows 418′, 418″ is thereby provided between the front and rear plates 421, 422, with one hollow on either side of the central plate 117. Each of the hollows 418′, 418″ is defined by internally oriented faces of each of the three plates 117, 421, 422.

[0111] The beam 416 is provided with slots 428 opening at the front side 31 of the beam 416. FIG. 11 shows the structure with one of the slats 8 removed to show the empty slot 428. Each slot is cut through the front plate 421 and through the central plate 117. Each slot extends upwardly and towards the rear side 32 of the beam. In this way, each slot intersects both hollows 418, 418″.

[0112] FIG. 12 shows a side view of the beam 416, showing a slat 8 secured in each slot 428. In a similar manner to the first embodiment 1, the lower side 436 of each slot is provided with a recess 54 for guiding a wedge 10 and the upper side 435 of each slot is provided with teeth 38 for engaging with the upper surface 47 of a slat 8.

[0113] Additionally, in this fifth embodiment 401, the slot 428 is arranged to receive wedges 10 in the insertion direction 27, where the slot cuts through the front plate 421. An opening 430 of the slot 428 is defined where the slot is cut through the front plate 421. A lower side 73 of the opening is provided with two recesses 154 cut into the front plate 421, as shown in FIG. 11. The recesses 154 are spaced apart on the lower side 73 of the opening, such that the central plate meets the front plate between the recesses. Each recess 154 in front plate 421 is shaped to accommodate the width of a wedge 10.

[0114] To secure a slat 8 in a slot 428, a wedge is driven into the clearance gap 29 in one of the second transverse directions, guided by the recess 54 in the central plate 117, in a similar manner to the first embodiment 1. Additionally, wedges 10 are driven through a clearance gap 129 between the lower side 45 of a slat and the lower side 73 of the opening 430. Each additional wedge 10 is driven in the insertion direction 27 from the front side 31 of the beam 416 and is guided by one of the recesses 154. In FIG. 12, a wedge 10 can be seen extending towards the rear side of the beam 416. The tip 40 of the wedge extends towards the rear plate 422, underneath the slat 8.

[0115] In this fifth embodiment, the footing 420 comprises a tapered tip 412. As shown in FIG. 11, the central plate 117 extends further towards the lower end 406 of the post 402 than the front and rear plates 421, 422. The front and rear plates 421, 422 are tapered at the lower end 406 of the post 402 such that lower edges 482 of the front and rear plates 421, 422 extend downwardly and taper towards to a bottom edge 481 of the central plate 117.

[0116] FIG. 13 shows a sixth embodiment 501 of the invention, in which there is a single plate 521 that is curved to extend continuously around all four sides 31 to 34 of the beam 516. The plate 521 is continuous and curved around a hollow interior 518 such that the beam is generally cylindrical. In this embodiment, the beam 516 has a generally circular cross-section and may be provided by a round hollow-section beam. The hollow 518 is defined by a single continuous internally oriented face of the plate 521.

[0117] The beam is provided with slots 528 opening at the front side 31 of the beam. Although not shown, in this embodiment, the slats 8 are secured using the same wedges 10 and technique as described above in relation to the first embodiment. The slots 528 may also have any of the same arrangements of teeth 38 and recesses 54 as described above.

[0118] In this sixth embodiment, the footing 520 comprises a tapered tip 512. As shown in FIG. 13, the rear side 32 of the plate 521 extends further towards the lower end 506 of the post 502 than the left and right sides 33, 34 of the plate 521. The left and right sides of the plate 521 are tapered towards the lower end 506 of the post 502 such that a lower edge 582 of the plate 521 extends downwardly and towards to a bottom edge 581 of the plate 521.

[0119] FIG. 14 shows how the post 2 and slats 8 of the first embodiment 1 may be used to construct a barrier installation 80, having at least two posts spanned by slats. Here, the barrier installation is a fence 90 that extends over the ground 92. Each slat 8 is received in a slot 28 or slot portion 28′, 28″ in at least two posts 2. For example, as shown in FIG. 14, laterally adjacent slats 8′, 8″ in line with one another can share a common slot 28, such that an end of one slat 8′ meets an end of another slat 8″ in the hollow interior 18 of the beam 16. Each slat 8′, 8″ then extends only through a slot portion 28, 28″ in one of the side plates 23, 24. In this way, each slot 28 can function to join two slats 8′, 8″ together, such that the size of the barrier installation 80 can be extended to provide a fence and is not limited by the length of the slats 8. The join between the slats 8′, 8″ may also be concealed in the hollow interior 18. Although not shown, the posts of any of the above-described embodiments may similarly be used to construct a barrier installation.

[0120] In embodiments where the footing comprises a tapered tip, the tapered tip is arranged to be driven into a granular base such as the ground, in order to support the post in an upright position, thereby providing a barrier installation. For example, referring to FIGS. 1, 8, 10, 11 and 15A to 15D, the tapered tip 12, 112, 312, 412 for the footing 20, 120, 320, 420 is arranged to be driven into a granular base such as the ground 92 in order to support the post 2, 102, 302, 402 in an upright position. In use, the tapered tip would be driven into the granular base sufficiently far to ensure a stable orientation of the post, for example up to a level as indicated by the dot-dashed lines 14, 114, 314, 414. The granular base may be soil, sand, gravel or other non-consolidated particulate matter. Although not shown, the footing could, alternatively, be set in concrete.

[0121] In all embodiments of the invention, the post may provide support for additional features, e.g. electrical fixtures. For example, in the embodiment of FIG. 9, a light fitting 64 is, optionally, provided on the reinforcing strap 66 at the upper end 204 of the post 202. The hollow 18 of the beam 216 provides a space through which a cable 68 for an electrical fixture can be routed. In this way, the cable 68 may be concealed and protected. The cable may be routed through a hole 70 where one of the side plates 23, 24 meets the mounting plate 60.

[0122] The use of wedges 10 allows the slats 8 to be removed and repositioned as desired. The slats 8 may therefore be arranged into a variety of designs, examples of which are shown in FIGS. 15A to 15D. In addition, the slats need not all be of the same length, but can be varied to change the shape of the outline provided by the barrier structure 1. In this way, visually pleasing designs may be created.

[0123] The invention therefore provides a convenient and versatile structure for providing a physical or visual barrier, and also a method of assembling such a structure, which may be used as part of a barrier installation or as a visually pleasing feature, for example in ornamental gardens.