MAST WITH A MECHANISM FOR PIVOTING THE ELONGATE POST

Abstract

A mast (10) which includes an elongate post (12) with a first end (14) and a second end (16), the first end (14) being pivotally secured to a ground-engaging support base, at least a first mechanism (22) to restrict pivotal movement of the post (12), a winch (26) which is attached to the post (12), and a cable (28) which is engaged with the winch (26) and which is secured at one end to an anchor (30), wherein the winch (26) is actuable to allow the post (12) to pivot, from an elevated position, in a first direction (54) which lowers the post (12) against the action of the movement restricting first mechanism (22), and which is actuable to pivot the post (12) in a second direction (56) which opposes the first direction (54) to elevate the post (12).

Claims

1-13. (canceled)

14. A mast (10) which includes an elongate post (12) with a first end (14) and a second end (16), the first end (14) being pivotally secured to a ground-engaging support base (20), a first mechanism (22) attached to and between the post (12) and the base (20), a winch (26) which is attached to and which is movable with the post (12), a member (32) which is fixed to the support base (20) and which includes an anchor point (30) at an elevated position relative to the base (20), a cable (28) which is engaged with the winch (26) and which is secured at one end to the anchor point (30), and wherein the winch (26) is actuable to allow the post (12) to pivot about the first end (14), from an elevated position, in a first direction (54) against the action of the first mechanism (22) which acts between the post (12) and the support base (20) to allow controlled gradual pivotal movement of the post (12) as the post (12) is lowered in the first direction (54) to a predetermined angular extent relative to the vertical, and which is actuable to pivot the post (12) in a second direction (56) which opposes the first direction (54) to elevate the post (12).

15. A mast (10) according to claim 14 wherein the first mechanism (22) includes a piston and cylinder arrangement (24).

16. A mast (10) according to claim 15 which includes a second mechanism (34) which comprises a free-hanging elongate body (36) which is pivotally attached to the post (12) and which is movable under gravity action automatically to take up an orientation which allows the body (36) to be ground-engaging to support the post (12) and to prevent further pivotal movement of the post when the post (12) is lowered to a predetermined orientation relative to the vertical.

17. A mast (10) according to claim 14 which includes a second mechanism (34) which comprises a free-hanging elongate body (36) which is pivotally attached to the post (12) and which is movable under gravity action automatically to take up an orientation which allows the body (36) to be ground-engaging to support the post (12) and to prevent further pivotal movement of the post when the post (12) is lowered to a predetermined orientation relative to the vertical.

18. A mast (10) according to claim 14 wherein the post (12) includes a flange (40) at the first end (14) which is pivotally secured to the support base (20).

19. A mast (10) according to claim 14 which includes components (50) mounted at the second end (16) of the post (12) and wherein the components (50) include sensing, monitoring, surveillance, communication and security components.

20. A mast (10) according to claim 19 which includes deterrent elements (52) that are secured at an elevated position to the post to protect the components (50) and wherein the deterrent elements (52) include razor wire, barb wire, barb tape, or spikes.

Description

BRIEF DESCRIPTION OF THE DRAWINGS

[0018] The invention is further described by way of example with reference to the accompanying drawings in which:

[0019] FIG. 1 is a side view of a mast according to the invention;

[0020] FIG. 2 is a view from another side of the mast shown in FIG. 1;

[0021] FIG. 3 is a view from an opposing side of the mast shown in FIG. 2;

[0022] FIG. 4 is a side view of the mast shown in FIG. 1, in use, pivoted to a first position; and

[0023] FIG. 5 is a side view of the mast shown in FIG. 1, in use, pivoted to a second position.

DESCRIPTION OF PREFERRED EMBODIMENT

[0024] FIG. 1 of the accompanying drawings is a side view of a mast 10 according to the invention.

[0025] The mast 10 includes an elongate post 12 with a first end 14 and a second end 16. The first end 14 is pivotally secured to a ground-engaging support base 20 (shown in detail in FIG. 4). FIG. 2 shows a view from another side of the mast 10 and FIG. 3 shows a view from an opposing side of the mast 10.

[0026] A first mechanism 22 comprises a piston and cylinder arrangement 24 and is attached to and between the post 12 and the base 20.

[0027] A winch 26 is attached to the post 12 at an intermediate location. A cable 28 is engaged with the winch 26 and is secured at one end to an anchor point 30 which is at an elevated position on a rigid support member 32 which is fixed at a lower end of the support base 20 and which extends upwardly from the base in a vertical direction.

[0028] The mast 10 also includes a second mechanism 34. The second mechanism 34 comprises a free-hanging elongate body 36 which is pivotally attached to the post 12 more or less at a central location on the post 12.

[0029] The second mechanism 34 is attached to the post 12 via a bracket 38. This is exemplary only.

[0030] The post 12 includes a flange 40 at the first end 14 which is secured to the support base 20. The flange 40 is pivotally secured to the support base in any appropriate way using suitable fasteners 42, e.g. bolts, which allow the post to be pivotable relative to the support base 20.

[0031] Sensing, monitoring, surveillance, communication and security components 50 are mounted to the post 12 at its second end 16. The components, without limitation, are for example a camera, a monitor, or the like.

[0032] The components 50 are protected by means of one or more deterrent elements 52 which are secured to the post 12 at an elevated position. The deterrent elements 52 are razor wire, barb wire, barb tape, spikes or the like.

[0033] In use, the winch 26 is actuable to pay out the cable 28 from the winch 26. This process allows the post 12 to pivot in a first direction 54, under gravity action—shown in FIG. 4. The winch 26 can be actuable in a reverse sense to move the post in a second direction 56, which is opposite to the first direction 54—shown in FIG. 5. The post 12 is thereby elevated and is returned to a vertical position.

[0034] The winch 26 can be actuated manually or electrically. In this example the winch 26 includes a handle 58 for manual actuation to pay out the cable 28. The elevated anchor point 30 allows for the winch action to be effective over the angular range of movement of the post. This would not be the case, if, for example the cable were to be anchored directly to the support base 20 i.e. if the support member 32 were not employed.

[0035] The cable 28 supports the post 12 and prevents it from falling to the ground. The first mechanism 22 and the second mechanism 34 provide safety and security by preventing the post 12 from falling to the ground if the cable 28 were to break. The mechanism 22 in effect acts a shock-absorber and allows the post to move downwardly in a controlled and safe way. Thus, in use, the first mechanism 22 restricts pivotal movement of the post 12 relative to the support base 20 to dampen such pivotal movement and thereby to prevent abrupt movement of the post. The second mechanism 34 restricts, in this case stops, pivotal movement of the post 12 when the post 12 is at a predetermined orientation relative the vertical. The free-hanging elongate body 36 pivots relative to the post 12, i.e. moves/swings under gravity action, away from the lowering post 12, and remains vertically orientated so that if the cable 28 were to break and if the mechanism 22 failed, the post 12 would not fall to the ground but would be restricted by and fall onto the free-hanging elongate body 36 which would become ground-engaging and support the post 12.

[0036] When the post is elevated the mechanism 22 also allows for controlled movement, so that abrupt movements are eliminated.

[0037] The advantages of the pivoting mast 10 are that it allows the second end 16 and the components 50 to be lowered in a controlled way to a position at which the components are readily accessible. This is ultimately safer and less likely to give rise to injuries, death, or damage to the components 50. No machinery and equipment, such as ladders and hoists, are required to elevate individuals to access the components 50.

[0038] The pivotal mounting of the post to the ground-engaging support base enables the mechanism 22 to be effectively used and for pivotal movement to be controlled by means of the winch, compared for example to a construction in which a half section of the post would be pivotal about a centre point of the post.