RELATED APPLICATION

[0001] This application claims priority from Australian Patent Application No. 2013234430, the contents of which are incorporated in entirety by reference.

FIELD OF THE INVENTION

[0002] The present invention relates to a post assembly for a barrier system particularly but not exclusivel a car park guardrail system.

BACKGROUND OF THE INVENTION

[0003] Traditional base plated posts used in a guardrail system are manufactured from relatively strong rigid materials such as steel Despite the posts being relatively strong in their own right the strength of the system is typically relatively weak as its capacity is limited by the pullout resistance of anchor bolts that secure the base plated posts to the underlying ground/concrete slab. Rigid post systems absorb the full force of the impact with little deflection resulting in a high peak load being transferred to the anchor bolts.

[0004] To maximize load carrying capacity, a rigid post system would require a base plate with a large footprint effectively enabling the anchor bolts to be positioned as far as possible from the base of the post on the impact side of the post. The furtlier the bolts are distanced from the base of the post the lower the pullout force experienced by the anchor bolts during collision with the system.

[0005] However, larger plates may be difficult to accommodate in a car park environment. Moreover, despite a design that may position the anchor bolts at a reasonable di ^' stanee from the bottom of the post, rigid post systems typically require numerous anchor bolts in order to have sufficient capacity to resist the impacting vehicle on the system .

[0006] The material costs of large base plates can be prohibitive and holes drilled for multiple fastening bolts may compromise the structural integrity of an underlying concrete slab, which could be of particular concern if the slab forms an elevated floor in a multilevel cur park.

OBJECT OF THE INVENTION

[0007] The present invention seeks to provide an alternative post assembly. SUMMARY OF THE INVENTION

[0007] In accordance with the invention, there is provided a post assembl for absorbing impact from ^' a vehicle including a post, a footing and a lever arm connecting the post to the footing at a hinge region, wherein: the footing _s lever arm and hinge region are formed from a common base plate, with the footing and lever arm being separated by an elongate slot that extends in a direction away from an impact side of the plate and terminates at the hinge region, located toward a rear side of the plate; and the footing includes at least one aperture located toward the impact side of the plate, to receive a corresponding fastener to anchor the post assembly to a support surface; whereby under an impact load, the hinge region plastically deforms and the lever arm and post deflect about the footing, away from the impact side of the late.

[0008] Preferably, the at least one aperture is located remote from the hinge regio to reduce pullout forces on the associated fastener when the post pivots relative to the footing.

[0009] Preferably, the footing and lever arm are formed from a common plate to be substantially co-planar. [0010] Preferably, the lever arm extends parallel to and adjacent the footing,

[0011] Preferably, the post includes a side member attached to and aligned with lever arm,

[0012] Preferably, the post includes two opposed side members connected to the lever arm.

[0013] Preferably, the footing includes two base pads positioned either side of the lever arm, the base pads being separated from the lever arm by associated slots,

[0014] Preferably, a second lever arm is provided on an opposite side of the footing, the second lever arm being separated from the footing by an associated slot a d the post includes a second side member attached to the second lever arm,

[0015] Preferably, the footing includes a single base pad positioned betwee the lever arms.

[0016] Preferably, the post assembly includes a stop device to restrict deflection of the post beyond a predetermined position.

[0017] Preferably, the stop device includes a notch i the post that closes as the post pi vots under plastic deformation of the hinge region,

[0018] Preferably, the notch is formed at a base of the post, to provide clearance between the post and the hinge region, so that the lever arm is free to pivot around the hinge region during deflection of the post away from the footing, until the notch closes against the hinge region,

[0019] Preferably, the post is adapted to support rail element in a position forwardly of the hinge region, with respect to a direction of impact of a vehicle or the like whereby pivotal movement of the st about the footing during impact causes the rail element to be lifted or maintained in height in order to contain and arrest movement of the vehicle.

[0020] In another aspect, there is provided a barrier system including multiple post assemblies, as described above, and a rail element supported between respective posts of the assemblies,

[0021 ] Preferably, the rail element is mounted to the posts in a position forwardty of the associated hinge region, with respect to direction of impact of a vehicle _s whereby pivotal movement of the posts about the footing during impact causes the rail element to be lifted or maintained in height in order to contain tlie vehicle,

BRIEF DESCRIPTION OF THE DRAWINGS

[0022] The invention is described, by way of non-limiting example only, with reference to the drawings, in which;

[0023] Figure 1 is a perspective view of post assembly j [0024] Figure 2 illustrates top, front and side views of another post assembly; [0025] Figure 3 illustrates top. front and side views of yet another post assembly; [0026] Figure 4 illustrates top, front and side views of a further post assembly; [0027] Figure 5 illustrates top, .front and side views of another post assembly; [0028] Figure 6 illustrates top, front and side views of yet. another post assembly; [0029] Figure 7 is a perspective view of another post assembly; [0030] Figure 8 is an image showing a perspective view of barrier system;

[0031 ] Figure 9 is an image showing a side view of the barrier system;

[0032] Figure 10 is perspective view of a footing of a post assembl of the barrier system;

[0033] Figure I I is perspective view of the footing with the post deformed about a hinge region;

[0034] Figure 12 is a side view of the footing and base of the post of Figure 1 1 ;

[0035] Figure 13 is an image showing a perspective view from a reverse side of the barrier system;

[0036] Figure 14 is an image showing a perspective view of the barrier system after an impact; and

[0037] Figure 15 is an image showing posts of the barrier system deformed about the respective footings,

DETAILED DESCRIPTION OF THE INVENTION

[0038] Throughout the specification and drawings, like parts will be denoted with like reference numerals.

[0039] Referring firstly to Figure 1, a post assembly 1 includes a post 2 and a footing 3,

[0040] The footing 3 includes a base pad 4 connected to first and second lever arms 5 via a hinge region 7. The lever arms 5 are positioned on opposed sides of the base pad 4 and are separated from the base pad 4 by elongate slots 8 in order to be free to pivot about the hinge region 7,

[0041] The lever arms 5 and the footing 3 are formed as a single base plate 10, so that the lever arms 5 and footing 3 are substantiall co-planar. The slots 8 are preferably machined into the plate 10 to extend from a front side 11 of the plate 10, toward a rear side 12 of the plate 10, However, the slots 8 terminate short of the rear side 12 in. order to define the hinge region 7 that connects the base pad 4 and lever arms 5, 6.

[0042] The post 2 is formed of two opposed side members 13 arranged in a parallel front to back orientation. A connecting brace 14 extends between the side members 13. Fastener holes 15 are provided in tile brace 14. A lower end 16 of each side member 13 is attached to a respective lever arm 5, such as by welding, so that the entire assembly 1 is formed as an integral structure.

[0043] The post assembly 1 is designed to receive and absorb forces from a impact side 17 of th post 2, which will cause the post 2 to deflect about the footing 3. More particularly, the post 2 will lift and pivot the leve arms 5 about the hinge region 7, as impact force is absorbed, To restrict pivotal movement of the post 2, a notch 18 is provided at the base 19 of the post 2, at the lower end 16 of each side member 13 , The notch 18 is positioned immediately above the hinge region 7 and serves as a stop device 21 to resist pivotal movement of the post 2 past a pre-determined position, by closing against the hinge region 7 when the post 2 pivots about th footing 3.

[0044] Plastic deformation of the post 2 away from the footing 3 will absorb a considerable amount of impact force, However _s the footing 3 still needs to be securely fastened to an underlying support surface in a manner that will minimize pullout forces; For that purpose, the base pad 4 is provided wit an aperture 22 that is positioned remote from the hinge region 7, at a location toward the front side 1 1 of the plate 10, In use, the aperture 22 receives a fastener or anchor bolt (not shown) to anchor the post assembl 1 to the support surface. [0045] Figure 2 shows additional views of the post assembly 1. Figure 2a clearly illustrates the elongate slots 8 extending in a linear manner from a front side 11 of the plate 10 toward a rear side 12. Terminal ends 25 of the slots 8 are a distance "d" from the rear side 12. Different impact absorbing properties may be obtained by varying the distance "d",

[0046] Figure 2d shows a W-beam guardrail 26 secured to the post 2 via a fastener 27, which is received through the top hole .15 in the brace 14,

[0047] Figure 3 shows similar views of anothe post assembly 1, In this case, the elongate slots 8 are angled toward each other, in a direction toward the terminal ends 25 to modify the energy absorbing properties of the post assembly L

[0048] Figure 4 shows another post assembly 1* similar to that of Figure 2, except without the notches 18, In order for the side members 13 not to obstruct the bending action of the hinge region 7, the rear side 12 of the base plate 10 is extended so that the hinge region 7 is clear of the connection of the side members 13 to the lever arms 5,

[0049] Figure 5 shows another post assembl 1 _» similar to that of Figure 4, except in this case, the post 2 is formed of a hollow section 28 with side members 13 and front and back sides 29. Obviously, the front and back sides 29 of the post 2 are not directly Fixed to the base pad 4 otherwise the post 2 would be prevented from pivoting relative to the footing 3,

[0050] Figure 6 illustrates yet another post assembly 1, where the lever arms 5 are shortened and the base pad 4 is T-shaped. It should be appreciated that the shape or dimensions of any of the component parts of the post assembly 1 can be modified, as required, in order to change the energ absorbing characteristics of the post assembly 1.

[0051] Figure 7, for example, illustrates another post assembly 1, where the post 2 is connected to single lever arm 5 that is nested inside the footing 3, In this example, the footing 3 is formed of two base pads 4 either side of the lever arm 5, Each base pad 4 is provided with a fastener aperture 22 remote from the hinge region 7 to accommodate anchor bolts or the like. The post assembly 1 is intended for heavy duty environments, where substantial hold down requirements need to be satisfied.

[0052] Turning now to Figures 8 and 9, a banner system 30 is shown in whic a plurality of post assemblies 1 are positioned to hold a rail element 31. In an alternative embodiment, the post assemblies may support multiple rail elements, if required. The rail element 31 is held on an impact side 17 of the posts 2. The banner system 30 ma be for use in a ear park or any other location where vehicles or the like need to be contained. By way of other examples, the barrier system 30 may have application as a warehouse barrier or bridge barrier to safely contain errant vehicles.

[0053] Figure 10 shows one of the post assemblies 1 fixed to a support surface 32 with a fastening bolt 33, prior to an impact. It should be noted that the post assembly is described here as being part of a barrier system but can equally be used as an independent bollard, if needed,

[0054] Figure 11 illustrates the post assembly after impact, where the lever arms 5 have lifted away from the footing 3 and pivoted about the hinge region 7.

[0055] Figure 12 is a side vie showing the position of the post 2 and lever arms 5 relative to the base pad 4, after impact, where the notch 18 has closed against the hinge region 7 of the base plate 10, to resist further pivoting movement of the post 2.

[0056] Figure 13 shows a vehicle 34 approaching the barrier system 30, prior to collision.

[0057] Figure 14 shows the result of impact on the barrier system 30, In particular, the posts 2 have deflected away from the impact side 17 to absorb the collision.

[0058] In Figure 15, the stop device 21 of each post 2 is clearl engaged to resist further deflection of the post 2. As such, the barrier system 30 allows for graduated impact absorption by way of the leve arms 5 plasticall deforming about the hinge region 7 _S to dissipate a lot of the impact forces. Once the stop devices 21 are engaged, the response characteristics of the post assemblies 1 are changed dramatically and the system provides increased resistance to bending. This increased resistance serves to contain the remainder of the impact forces, when those forces are at a level that can be easily accommodated by the fastening bolts 33 without danger of the bolts 33 being pulled out of the support surface 32.

[0059] As may be appreciated from the above, advantages of the present invention are realized through the design of the base plate 10 of the post assembly L ^' File base plate 10 is designed to absorb the energy of an impact over time and to regulate the peak pull out force applied to the anchor bolt(s) 33.

[0060] The design of the base plate 1 substantially increases the amount of energy that the post 2 and/or barrier system 30 can absorb compared to a rigid base plated post system that has a similar base plate size/footprint. Moreover the barrier system 30 will absorb the energy of impact from a colliding vehicle with fewer anchor bolts than that required in a system comprising rigid base plated posts,

[0061] As described above, the base plate 10 is preferably designed with two elongated slots 8 that rim from the front 11 of the plate 10 toward the back 12 of the plate 10 but stop short of running the full length of the plate 10. This essentially forms the plate 10 into a central base pad 4 and two lever arms 5. Alternatively, the base plate 10 may be formed with a central lever arm 5 and two base pads 4, Other configurations may also be adopted, as required,

[0062] Upon impact with the barrier system 30 load is transferred by the longitudinal rail elements 31 to the posts 2. The posts 2 are then designed to absorb the energy of the impact by first elastic deformation resulting from the lever arms 5 bending backwards followed b plastic deformation from rther bending of the lever arms 5. [0063] The plastic deformation of the system 30 reduces and regulates the peak pull out load transferred to the anchor bolt(s) 33. The capacity of the lever amis 5 and hinge region 7 to plastically deform under load and absorb impact forces can be regulated by, for example:

the length of the slots 8;

the width of the lever arms 5;

the thickness of the base plate 10;

the termination point of the post relative to the terminal ends 25 of the slots 8 (this can regulate the length of the plastic hinge region 7 established in the base plate 10 and therefore the amount of materia! that is yielding and therefore absorbing energy); and the type of material that the post 2 is manufactured from.

[0064] The post 2 may be any type or form. It can be flat plate, hollow section or ope section. The rail element 31 can also be of any suitable form. The rail element can be a W- beam guardrail, a triple corrugated guardrail, a hollow section, an open section, a I-beam, etc.

[0065] Apart from regulating the transferred load to the anchor bolts 33 the plastic hinge region 7 allows the post 2 to maintain a relatively constant optimal design load during the course of a impact as the lever arms 5 bend backwards. The option to provide a notch I S in the post.2 enables a rear side of the post to be aligned over the back 12 of the base plate 10. This means the post 2 can be positioned toward a back of the plate 10, which minimizes the amount of car ^■ park space taken u by the post assembly 1. As a possible alternative, the footing 3 of the base plate 10 might be attached to a side edge of a slab flooring, which would mean no car park, space at all is taken up by the post assembly 1. In either ease, as is apparent from the above, the post assembly design has the capability to not only absorb impact forces but to also provide a second purpose whereby it adds a step up in the load capacity of the post 2 when the leve arms 5 have bent back so far such that the notch 18 between the plate 10 and the back of the post 2 effectively closes. This results in the rear of the post. 2 bearing down on the base plate 10 to maximi se the stopping power of the assembly 1, [0066] Another feature of the barrier system of the invention is. that the rail element is positioned forwardly of the hinge region 7 and the lever arms 5 pivot upwardly around the hinge region 7 during impact. This has the advantage of lifting or maintaining the height of the rail element: during initial impact. With a conventional rigid base plated post, the rail element would be knocked down if the post is pulled out of the ground or concrete slab on impact. The invention, on the other hand, maintains or increases the rail element height for a duration of the impact which improves the ability of the barrier system to better contain and arrest movement of vehicles.

LiST OF PARTS

1. Post assembly

2. Post

3. Footing

4. Base pad

5. Lever arm

7. Hinge region

8. Slot

10. Base plate a Front side

12. Rear side

13, Side member

14. Brace

15. Hole

16. Lower end

17. Impact side

18. Notch

19. Base

21. Stop device

22. Aperture

25. Terminal end

26. Guardrail

27, Fastener

28. Hollow section

29. Sides

30. Barrier system

31. Rail element

32. Support surface

33. Bolt

34. Vehicle