The present invention relates to improved spacer pieces for securing a guard rail beam to a support post in a guard rail system.
Conventional guard rail systems typically include a guardrail beam supported by a plurality of support posts positioned along a roadway. In such systems, it is common to use a spacer or blocking piece to offset the guard rail beam from the support posts. Spacer/blocking pieces help to prevent snagging of vehicle wheels during the early stages of an impact.
Any reference herein to known prior art does not, unless the contrary indication appears, constitute an admission that such prior art is commonly known by those skilled in the art to which the invention relates, at the priority date of this application.
The present invention seeks to provide an improved spacer/blocking piece for a guard rail system.
The present invention provides a spacer piece for securing a guardrail beam to a support post in a guardrail system, the spacer piece including a breakable portion configured to break preferentially during an impact, and release the beam from the support post.
The spacer piece can be configured to mount the guardrail beam at the breakable portion.
The spacer piece can be configured to be mounted to the support post at a portion thereof that is not the breakable portion.
An upper portion and a lower portion can be separated by the breakable portion, the upper and lower portion being configured to be mounted to the support post.
The breakable portion can be provided as all or part of a narrowed neck between the upper portion and the lower portion.
The spacer piece can include a guardrail mounting plane and a support post mounting plane, the breakable portion only extending partway from the guardrail mounting plane the support post mounting plane.
The spacer piece can include opposing outer side walls that extend from a guardrail mounting side of the spacer piece to a support post mounting side.
The outer walls at the breakable portion can be thinner than at the upper and lower portions or the spacer.
The outer walls of the breakable portion can include apertures therein.
The breakable portion can include at least one internal wall, the internal wall(s) including apertures therein.
The spacer piece can be configured to permit more than one mounting position or orientation on the support post.
The upper and lower portions can each include multiple channels therein, for selectively receiving fastening elements, the selective positioning of fastening elements permitting more than one mounting position or orientation on the support post.
The upper and lower portions, at the support post mounting side, include laterally extending angled guide flanges.
At the support post mounting side, a hook portion can project from the topside of the upper portion.
At the guardrail mounting side, a lip tab can project from the underside of the lower portion.
The present invention also provides a guardrail system including: a guardrail beam; at least one support post; and spacer piece as described above in this section.
It will be appreciated that spacer pieces as described herein may also be referred to by persons skilled in the art as blocking pieces, block out pieces or offset pieces. For the purposes of simplicity, the term “spacer piece” shall be used predominantly throughout the specification, however, it will be appreciated by a person skilled in the art that above noted terms would be readily interchangeable.
A detailed description of embodiments of the invention will follow, by way of example only, with reference to the accompanying drawings.
Embodiments of the invention provide a spacer piece for securing a guardrail beam to a support post in a guardrail system. The spacer piece includes a breakable portion configured to break preferentially during an impact, and release the beam from the support post.
Generally, the spacer piece is configured so as to mount the guardrail beam at the breakable portion. For example, a fastening element, such as bolt or the like, would typically be received through the guard rail and into the breakable portion of the spacer piece. During a vehicle impact, the breakable portion ruptures preferentially, and the guard rail beam is released from the support post. It will be appreciated in some instances of impact, part of the breakable portion may maintain the fastening element/bolt, but may separate (together with the bolt) from the remainder of the spacer piece to thereby release the guard rail from the support post. In other instances of impact, the fastening element/bolt may simply be released from the breakable portion as it ruptures, releasing the guard rail from the support post.
In alternate forms, the breakable portion may form part of another area in the spacer piece, i.e. other than the guard rail mounting area. For example, in alternate forms, the breakable portion may form part of the support post mounting area, or may be situated in the spacer piece away from the mounting locations of the guardrail beam and support post.
Generally though, the spacer piece is configured to be mounted to the support post at a portion thereof that is not the breakable portion. This provides that, after rupturing of the breakable portion, the majority of the spacer piece is maintained at the support post. This reduces debris and pollution to the surrounding environment after a vehicle impact.
The spacer pieces as described herein typically include an upper portion and a lower portion separated by the breakable portion. It is the upper and lower portions that are typically configured to be mounted to the support post, whilst the breakable portion is typically configured to mount the guard rail beam.
The breakable portion may be provided as all or part of a narrowed neck between the upper portion and the lower portion. In one example, the spacer piece may resemble a substantially “C” or rotated “U” block shape. In the context of the guardrail mounting plane and the support post mounting plane of the spacer piece, the breakable portion typically only extends partway from the guardrail mounting plane to the support post mounting plane. This provides that, once mounted to the support post, a cut out space is provided between the breakable portion and the support post. The cut out space can facilitate mounting of the guard rail beam, for example, by providing easier access to fasten an element/bolt at the support post mounting side of the breakable portion.
The spacer piece typically includes opposing outer side walls that extend from a guardrail mounting side of the spacer piece to a support post mounting side. In one example, to facilitate rupture of the breakable portion, the outer walls at the breakable portion are thinner than at the upper and lower portions of the spacer piece. Alternatively or additionally, to increase the breakability of the breakable portion, the outer walls of the breakable portion may also include apertures or cut outs therein.
The spacer piece may have internal walls to increase the strength thereof. In the breakable portion, any internal wall(s) would typically also include apertures or cut-outs therein to facilitate rupture/increase breakability.
The spacer piece may also be configured to permit more than one mounting position or mounting orientation on the support post. Different mounting positions/orientations on the support post may, for example, allow a guard rail beam to be secured to the support post(s) at different heights. In one example, to allow more than one mounting position on a support post, the upper and lower portions each include multiple channels therein, for selectively receiving fastening elements, the selective positioning of fastening elements permitting more than one mounting position on a support post.
The upper and lower portions, at the support post mounting side, may also include laterally extending angled guide flanges to assist with placement of the spacer piece during installation to a support post. The flanges helping to align the spacer piece to a support post before fastening.
To additionally assist during installation, the spacer piece, at the support post mounting side, may include a hook portion that projects from the top of the upper portion. The hook portion, in some instances, permitting the support piece to be hung off a flange of the support post. Furthermore, at the guardrail mounting side, a lip tab that projects from the bottom of the lower portion may also be included. During installation, a guard rail beam may be rested on the lip tab.
It will be appreciated that whilst, according to one aspect, the present invention relates to a spacer piece, in another aspect, the present invention relates to a guard rail system that implements the spacer piece. Typically such a system would include a guard rail beam, at least one support post and at least one spacer piece as described herein.
One embodiment of the spacer piece and guard rail system incorporating same is shown in
The spacer piece (1) has a substantially “C” or rotated “U” block shape wherein upper (4) and lower (5) portions are separated by a narrowed neck portion (6). A breakable portion (7) is provided as part of the narrowed neck portion (6).
Rupture at the breakable portion (7) is facilitated or encouraged by several aspects of the construction of the spacer piece (1). Firstly, the outer walls (8) of the breakable portion (7) are thinned when compared to the outer walls (9) of the remainder of the spacer piece (1). Secondly, apertures (10) are included in the outer walls (9) of the breakable portion (7). Thirdly, as noted above, the breakable potion (7) is provided as part of a narrow neck (6) between the upper (4) and lower (5) portions. In particular, as most clearly shown in
In addition, open channels/grooves (17, 18) are provided at the underside of the upper portion (4) and the topside of the lower portion (5). The open channels/grooves (17, 18) extend from the support post mounting side of the spacer pieces to the guard rail mounting side which provides that the narrow neck (6) is only connected to the upper and lower portions (4, 5) at the rims (17a, 18a) of the channels (17, 18). This provide a further mechanism for release of the guard rail beam as there is a limited connection area between the narrow neck (6) and upper/lower portions (4, 5) that provides a further preferred rupture/tearing/separation area.
Apart from the narrowed neck (6) facilitating rupturing, having the cut out space (11) provides advantages during installation of the guard rail system. In particular, the cut out space (11) provides access (from the support post mounting side of the spacer piece) to fastening/mounting bolts that secure the guardrail beam (2) to the breakable portion (7).
The spacer piece (1) also has additional features which facilitate installation of a guard rail system. The upper (4) and lower (5) portions include laterally extending angled lead-in flanges (12) which help to align and guide the spacer piece (1) into position on the support post (3). Furthermore, a projecting hook portion (13) extends from the topside of the upper portion (4) of the spacer piece (1) at the support post mounting side to allow, in some instances, the spacer piece (1) to be hung off a flange (14) of a support post (3) such that an installer does not need to hold the spacer piece in place during securement (e.g. during tightening of bolts (120)).
In addition, to facilitate mounting of the guard rail beam (2), a lip tab (16) projects from underside of the lower portion (5) of the spacer piece (1) at the guard rail mounting side. A guard rail beam (2), during installation, may thus be rested on the lip tab (16), to assist the installer.
As shown most clearly in
For example, by selecting the respective upper channels (20a, 21a) of the upper and lower portions (4, 5) of the support piece (1) (e.g. as shown in
At the guard rail mounting side, the channels (20, 21) widen into hexagonal recesses that permit the heads of the mounting bolts (120) to be received therein. This provides that once the spacer piece (1) is secured to a support post, the mounting bolts do not protrude from the spacer at the guard rail mounting side. This is advantageous in that the heads of the bolts do not interfere with mounting of the guard rail beam.
An example of typical installation of a guardrail system which implements spacer piece (1) is as follows. At first instance, the spacer piece (1) would typically first be positioned at the top end of a support post (3) and fastened thereto with bolts (120) that extend through spacer piece (1) (e.g. see
A further embodiment of the invention is shown by spacer piece (100) illustrated in
The upper and lower portions the spacer pieces as illustrated herein (1, 100) are substantially hollow with internal walls (19) that form a lattice like structure to provide strength while keeping the weight of the spacer pieces low. At the breakable portion, internal walls (19a) are also included but are relatively thinner and include apertures (10b) therein to facilitate rupturing. It will be appreciated that, in alternate forms, the upper and lower portions of the spacer pieces (1, 100) may be substantially solid.
Yet a further embodiment of the invention is shown by spacer piece (200) illustrated in
The spacer pieces as described herein are typically formed of a polymer or polymer composite material, such as, for example, polypropylene or high-density polyethylene. It will be appreciated to a skilled person that other materials may also be used to form the spacer pieces, so long as a suitable rupture/breaking profile is provided by the breaking portion.
It will also be appreciated that the spacer pieces as described herein may be of a unitary construction i.e. a single part, or alternatively, may be formed of multiple parts.
Where ever it is used, the word “comprising” is to be understood in its “open” sense, that is, in the sense of “including”, and thus not limited to its “closed” sense, that is the sense of “consisting only of”. A corresponding meaning is to be attributed to the corresponding words “comprise”, “comprised” and “comprises” where they appear.
It will be understood that the invention disclosed and defined herein extends to all alternative combinations of two or more of the individual features mentioned or evident from the text. All of these different combinations constitute various alternative aspects of the invention.
While particular embodiments of this invention have been described, it will be evident to those skilled in the art that the present invention may be embodied in other specific forms without departing from the essential characteristics thereof. The present embodiments and examples are therefore to be considered in all respects as illustrative and not restrictive, and all modifications which would be obvious to those skilled in the art are therefore intended to be embraced therein.
Number | Date | Country | Kind |
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2018902712 | Jul 2018 | AU | national |