AU2017201881A1 - A Support Assembly for Supporting Structural Components - Google Patents

A Support Assembly for Supporting Structural Components Download PDF

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Publication number
AU2017201881A1
AU2017201881A1 AU2017201881A AU2017201881A AU2017201881A1 AU 2017201881 A1 AU2017201881 A1 AU 2017201881A1 AU 2017201881 A AU2017201881 A AU 2017201881A AU 2017201881 A AU2017201881 A AU 2017201881A AU 2017201881 A1 AU2017201881 A1 AU 2017201881A1
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Australia
Prior art keywords
base
receiving structure
panel receiving
support post
panel
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AU2017201881A
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AU2017201881B2 (en
Inventor
Gregory James Bloom
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Individual
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Individual
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Priority claimed from AU2016901031A external-priority patent/AU2016901031A0/en
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Publication of AU2017201881B2 publication Critical patent/AU2017201881B2/en
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  • Conveying And Assembling Of Building Elements In Situ (AREA)

Abstract

A support assembly for supporting structural components includes a base. A support post is mountable on the base, to extend from the base. A bottom panel receiving structure is mounted on at least one of the base and the support post and is configured to receive a bottom edge of a panel. A top panel receiving structure is arranged on the support post, operatively spaced from the bottom panel receiving structure and configured to receive a top edge of a panel. Figure 2 Figure 3

Description

-1- 2017201881 20 Mar 2017
A SUPPORT ASSEMBLY FOR SUPPORTING STRUCTURAL COMPONENTS FIELD OF THE INVENTION
Various embodiments of a support assembly for supporting structural components, a structural assembly including the support assembly and a method of erecting a structural assembly are described herein.
SUMMARY OF THE INVENTION
In one aspect, a support assembly for supporting structural components includes: a base; a support post mountable on the base, to extend from the base; a bottom panel receiving structure mounted on at least one of the base and the support post and configured to receive a bottom edge of a panel; and a top panel receiving structure arranged on the support post, operatively spaced from the bottom panel receiving structure and configured to receive a top edge of a panel.
The bottom and top receiving structures may be channel sections with open sides facing each other.
The base may include an elongate base plate that defines an upwardly facing support surface on which one or more counter weights can be positioned, the support post being interposed between the bottom receiving structure and the support surface.
The support post may be adjustable in length so that a space between the bottom and top panel receiving structures can be adjusted to suit a panel retained with respect to the base by the bottom and top panel receiving structures.
The support post may include a lower part that is mountable on the base and an upper part that is telescopically arranged with respect to the lower part, the top panel receiving structure being mounted on the upper part.
The support assembly may include a positive mechanical locking mechanism for locking the upper and lower parts relative to each other when the upper and lower parts define a desired length of the support post.
The parts of the support post may be tubular. Instead, at least one of the parts of the support post may have a partially enclosed profile.
In another aspect, a support assembly for supporting structural components includes: a base; -2- 2017201881 20 Mar 2017 a bottom panel receiving structure configured to receive a bottom edge of a panel; and a mounting structure arranged on the base, the bottom panel receiving structure being mounted on at least one of the base and the mounting structure, which is configured so that a support post with a top panel receiving structure can be mounted on the base.
The mounting structure may include a stub that extends upwardly from the base to be engageable with the support post in a removable manner.
In another aspect, a method of erecting a structural assembly includes the steps of: positioning in a desired location at least one support assembly which includes a base, a bottom panel receiving structure that is configured to receive a bottom edge of a panel and a top panel receiving structure operatively spaced from the bottom panel receiving structure and configured to receive a top edge of a panel; and placing a bottom edge of the panel on the bottom panel receiving structure.
In another aspect, a method of erecting a structural assembly includes the steps of: positioning in a desired location at least one support assembly, which includes a base, a bottom panel receiving structure configured to receive a bottom edge of a panel and a mounting structure mounted on the base, the bottom panel receiving structure being mounted on one of the base and the mounting structure and configured so that a support post with a top panel receiving structure can be mounted on the base; and placing a bottom edge of the panel on the bottom panel receiving structure.
The method may include the step of adjusting a position of the top panel receiving structure relative to the bottom panel receiving structure to retain or clamp the panel between the receiving structures.
The step of adjusting the position of the top panel receiving structure relative to the bottom panel receiving structure may be carried out by adjusting a length of the support post, the top panel receiving structure being mounted on the support post.
In another aspect, a temporary structure includes: a base; a support post mounted on the base; a bottom panel receiving structure mounted on at least one of the base and the support post and configured to receive a bottom edge of a panel; a top panel receiving structure arranged on the support post, operatively spaced from the bottom panel receiving structure and configured to receive a top edge of a panel; and -3- 2017201881 20 Mar 2017 at least one panel, a bottom edge of the panel being arranged on the bottom panel receiving structure.
In another aspect, a temporary structure includes: at least one support assembly, the, or each, support assembly including: a base; a bottom panel receiving structure mounted on the base and defining at least one upwardly opening recess at a front of the base; a support post mounted on the base, behind the bottom panel receiving structure, to extend substantially vertically from the base; and a top panel receiving structure arranged on the support post, operatively spaced from the bottom panel receiving structure and defining at least one downwardly opening recess, such that the recesses open in substantially vertically opposite directions; and panels mounted on the support assembly.
DESCRIPTION OF THE DRAWINGS
Figure 1 shows a side view of an exemplary embodiment of a support assembly for a temporary structural assembly, such as a hoarding assembly.
Figure 2 shows a side view of a base of the support assembly of figure 1.
Figure 3 shows a plan view of the base of figure 2.
Figure 4 shows a front view of the base of figure 2.
Figure 5 shows a rear view of the base of figure 2.
Figures 6a to 6d show various profiles of channels and connectors of the support assembly.
Figure 7 shows a side view of a lower part of a support member of the support assembly.
Figure 8 shows a side view of an upper part of the support member.
Figure 9 shows a rear view of part of a structural assembly incorporating a number of the support assemblies of figure 1.
Figure 10 shows a front view of the part of figure 9. -4- 2017201881 20 Mar 2017
Figure 11 shows a plan view of part of a structural assembly incorporating a number of the support assemblies of figure 1.
Figure 12 shows another side view of the support assembly of figure 1, with detail of a connector for connecting horizontal edges of two panels together.
Figure 13 shows a plan view of part of a structural assembly having one of the support assemblies.
Figure 14 shows part of the structural assembly of figure 13 using an alternative connector.
DESCRIPTION OF EMBODIMENTS
In the drawings, reference numeral 10 generally indicates an embodiment of a support assembly for supporting structural components, for example, those of a structural assembly such as a hoarding assembly. The support assembly 10 can also be used for supporting structural components of a permanent structural assembly.
The support assembly 10 includes a base 12 (figures 2 to 5).
The base 12 includes a base plate 14. The base plate 14 is configured to support one or more counter weights 16. Each counter weight 16 defines a pair of openings 18 (figures 11, 13).
An example of a suitable counter weight 16 is that described in Australian innovation patent number 2015101131. The base plate 14 defines an upwardly extending locating formation 22. The counter weight 16 has a recessed surface in which the locating formation 22 can be received. For example, the base plate 14 can be similar to the base plate described in Australian innovation patent number 2013100057. The base plate 14 has a pair of opposite cutouts 15 to receive complementary formations or feet of a lowermost counter weight 16 to locate the lowermost counterweight 16 on the base plate 14. The base plate 14 also has a pair of opposed locating projections 17 that can seat in corresponding recesses in the counterweight 16. Furthermore, the counterweight 16 has an upper surface 19 that is shaped to nest in a bottom surface of a counter weight 16 so that the counter weights 16 can be stacked one on top of the other as shown, for example, in figures 1,9 and 12. A locating rod 20 extends upwardly from the base plate 14 to be received through either of the openings 18. As can be seen in figure 13, the counter weight 16 is shaped so that the holes or openings 18 are positioned along a line that is further from one side 21 a than an opposite side 21 b of the counter weight 16 (figures 11, 13). Thus, the counter weight -5- 2017201881 20 Mar 2017 16 can be rotated, allowing the rod 20 to be received through either of the openings 18 so that a user can select a side of the base plate 14 from which the counter weight 16 can extend, in order to accommodate various configurations of the structural assembly. For example, where it is necessary for the counter weights 16 to be located close to a door or a corner, it may be necessary to avoid having the counter weights 16 obstructing a region close to the door or corner. In that case, it is possible to position the counter weights 16 so that only a relatively small or short portion of the counter weight 16 is positioned in that region. A bottom panel receiving structure or receiver 24 is arranged on a front end of the base plate 14. The receiver 24 defines at least one recess, gap or other formation, so that an elongate channel member or channel 25 can be positioned in a number of the receivers 24 along a line on which a structural assembly, such as a hoarding assembly, is to be erected. Bottom edges 26 of a number of panels, for example panels 50 shown in the drawings, can be positioned, side-by-side, in the channel 25. The purpose of the receiver 24 is to locate the bottom edge 26 of the panel against lateral movement, or movement away from the base 12. As such, the receiver 24 has a suitable configuration to achieve that.
It is envisaged that the bottom edges 26 can simply be positioned on, or received in the receivers 24 of a number of the support assemblies 10, without the need for the channel 25.
The receiver 24 can be in the form of a length of channel section fastened to the front end of the base plate 14. The receiver 24 is dimensioned or configured so that the channel 25 can nest in, or otherwise engage, the receiver 24.
In various examples, the receivers 24 might not have channels. Other arrangements, such as pegs to be received in holes or recesses of the panels could also be suitable.
An elongate support post 28 is arranged on the base plate 14 and extends upwardly, intermediate the locating rod 20 and the receiver 24. The elongate support post 28 has a lower end 30 that is mountable on the base plate 14 and an upper end 32.
An upper or top panel receiving structure or receiver 34 is mounted on the upper end 32 to be spaced from the receiver 24. The receiver 34 defines at least one downwardly opening recess, gap or other formation to receive an elongate channel member or channel 37 that can be positioned along the line on which the temporary structure is to be erected. Upper horizontal edges 36 of a number of panels, for example the panels 50, can be positioned in the channel 37, with the panels 50 side-by-side between the channels 25, 37. -6- 2017201881 20 Mar 2017
The purpose of the receiver 34 is to locate the bottom edge 26 of the panel against lateral movement, or movement away from the support post 28. As such, the receiver 34 will be understood to have a suitable configuration to achieve that.
Again, instead of the channel 37, other arrangements might be suitable, such as pegs to be received in slots or openings in the panel.
As before, it is envisaged that the upper edges 36 of the panels 50 can simply be positioned or received in the receivers 34 of a number of the support assemblies 10, without the need for the channel 37.
The receiver 34 can be in the form of a length of channel section fastened to the upper end 32 of the support post 28. The receiver 34 is dimensioned or configured so that the channel 37 can nest in, or otherwise engage, the receiver 34.
Figure 6a shows a section of each of the channels 25, 37 suitable for receiving the edges 26, 36.
The support post 28 can be varied in length so that a distance between the receivers 24 and 34 can be adjusted to suit a length or height of the panels 50. Furthermore, this variation in length can be used to achieve a clamping effect between the receivers 24, 34. For example, the support post 28 has a lower part 38 and an upper part 40 that are telescopically arranged with respect to each other. A mounting structure in the form of a stub 42 is mounted on the base plate 14 between the locating rod 20 and the receiver 24. The lower part 38 of the post 28 is configured to engage the stub 42 so that the support post 28 can extend vertically from the base plate 14. For example, the lower part 38 is tubular so that the stub 42 can be received in the lower part 38. A positive mechanical locking mechanism can include a threaded fastener 44 that is threaded into the lower part 38 to engage the stub 42 to fix the lower part 38 to the stub 42.
It is to be understood that the mounting structure may take other forms, such as an opening in the base plate 14.
The upper part 40 has the upper end 32. The upper part 40 is received in the lower part 38. The positive mechanical locking mechanism can include a further threaded fastener 48 that is threaded into the upper part 40 to engage the lower part 38 so that a length of the support post 28 can be adjusted and fixed. Thus, the upper and lower parts 40 and 38 can be adjusted and fixed to achieve a clamping effect on one or more panels received between 2017201881 20 Mar 2017 -7- the receivers 24, 34. A positive control assembly can be arranged on the support post 28 for setting a length of the support post 28. This can be in the form of a geared mechanism, or some other mechanism, configured for actuation by a user to increase or reduce a length of the support post 28.
The parts 38, 40 of the support post 28 can be tubular or can have a partially enclosed cross-sectional profile. The parts 38, 40 can be square, rectangular or circular in cross-section.
An example of part of a structural assembly, such as a hoarding assembly, can be seen in figures 9 and 10 in which elongate panels 50 of a suitable height are received in a side-by-side fashion between the channels 25, 37 which, in turn, are mounted, nesting fashion, in the receivers 24, 34. In such a configuration, it is desirable that the panels 50 be located together in a side-by-side manner along the respective sides. To that end, vertical edges 54 of the panels 50 define tongue and groove formations 56 (figure 13). Alternatively, the tongue and groove formations 56 can be defined by an elongate structural element positioned between the vertical edges 54 and having a suitable profile.
In a number of embodiments, panels 58 can be placed one on top of each other between the channels 25, 37, as shown in figure 12. In that configuration, it is desirable that the panels 58 be capable of stabilized support between the channels 25, 37. To that end, the support assembly 10 is provided with connectors defining oppositely facing recesses, for example, H members 60. A detail of one of the H members 60 is shown in figure 6b. The H member 60 can be interposed between the upper and lower horizontal edges 26, 28 of the panels 58, as shown in figure 12.
In various applications, it is necessary for the hoarding assembly or temporary structural assembly to define a corner, as shown in figures 11 and 13. To that end, the support assembly 10 is provided with various corner pieces, such as a corner piece 62 as shown in figure 6c and a corner piece 64 shown in figure 6d. The application of the corner piece 64 can be seen in figure 14. In particular, the vertical edges 54 of adjacent panels 50 can be received in respective sides of the corner pieces 62, 64 to achieve corners with angles corresponding to those shown in the corner pieces 62, 64 and as illustrated in figures 13 and 14.
In one example, the following steps are carried out: -8- 2017201881 20 Mar 2017 a) a series of bases 12 are laid out along a line of a proposed temporary wall of a structural assembly, with the lower parts 38 of the posts 28 in position on the stubs 42 or mounted at a later stage; b) the channel 25 is positioned in the receivers 24, in a nested fashion, along the line; c) one of the counter weights 16 is positioned on the, or each, base plate 14; d) the bottom edge 26 of one of the panels 50 is placed in the channel 25, which is of a suitable length to extend beyond a side of the panel 50; e) the channel 37 is positioned on top of the panel 50 also to extend beyond a side of the panel 50 in the same direction as the extension of the channel 25; f) the upper part 40 of at least one of the posts 28 is mounted on the lower part 38, the length of the support post 28 being adjusted, in the manner described above, so that the receiver 34 can engage the channel 37 to clamp the panel 50 between the channels 25; g) a further one of the panels 50 is slid, in the channels 25, 37, into side-by-side engagement with the panel 50 referred to in step (c); h) optionally, the above steps are repeated, using the corner pieces 62, 64, where required, to achieve corners for the temporary structure; i) optionally, further counter weights 16 can be positioned on the base plates 14.
The inventor envisages that, where practical and feasible, the above steps (a) to (i) could be carried out in a different order. Alternatively, one or more of the components could be provided in a pre-assembled form so that one or more of the above steps could be omitted.
With the support post 28 having a suitable length, the receiver 34 can be received against a ceiling. Thus, a number of the panels 50 can be used to create a full wall from a floor to the ceiling, for example, to divide a room. The receiver 34 could be fastened to the ceiling so that the wall is fixed. Alternatively, the full wall could be temporary. A length of the support post can be adjusted in other ways. For example, the support post can articulate to be adjustable in length. Alternatively, the support post can fold out. 2017201881 20 Mar 2017 -9-
Also, the support post can be in the form of two parts that are simply connected together in a certain way to achieve a variation in length.
The structural assembly can be erected without the use of any fasteners received through the panels. In various existing temporary structures, such as hoarding assemblies, the panels are screwed or nailed to an elongate support post. This can reduce the value of the panels for reuse. In addition, it can be time-consuming to erect the panels in that manner. Also, the use of power tools to fasten the panels to the support posts can be undesirable in those areas where noise is a factor. For example, it is not possible or allowed in certain areas to make use of power tools after a certain time. It will be appreciated that, since the structural assembly described in the specification is modular in nature and does not require the use of fasteners and associated power tools, the erection of the structural assembly can take place at any time. This can be useful in those applications where it is necessary to prepare areas overnight or at very short notice.
In the specification, the word “panel” is intended to have a meaning that encompasses any structural component, which would be suitable for use in forming part of a structural assembly for example, a barrier, such as a wall or a fence or some other structural feature. For example, such a panel could be a fence panel, a hoarding panel, or any other form of board -like structural component. The panel can be of a meshed material, such as that used for fencing. Furthermore, the term “structure” and its derivatives, is not intended to be limited to building structures or other weight bearing structures. For example, the word could encompass display panels and other arrangements that are required to be maintained in an upright, self-supporting condition.
The appended claims are to be considered as incorporated into the above description.
Words indicating direction or orientation, such as “front”, “rear”, “back”, etc, are used for convenience. The inventor(s) envisages that various embodiments can be used in a nonoperative configuration, such as when presented for sale. Thus, such words are to be regarded as illustrative in nature, and not as restrictive.
Throughout the specification, including the claims, where the context permits, the term “comprising” and variants thereof such as “comprise” or “comprises” are to be interpreted as including the stated integer or integers without necessarily excluding any other integers. 2017201881 20 Mar 2017 -10-
It is to be understood that the terminology employed above is for description and should not be regarded as limiting. The described embodiments are intended to be illustrative of the invention, without limiting the scope thereof. The invention is capable of being practised with various modifications and additions as will readily occur to those skilled in the art.

Claims (16)

  1. Claims
    1. A support assembly for supporting structural components, the support assembly including: a base; a support post mountable on the base, to extend from the base; a bottom panel receiving structure mounted on at least one of the base and the support post and configured to receive a bottom edge of a panel; and a top panel receiving structure arranged on the support post, operatively spaced from the bottom panel receiving structure and configured to receive a top edge of a panel.
  2. 2. The support assembly of claim 1, wherein the bottom and top receiving structures are channel sections with open sides facing each other.
  3. 3. The support assembly as claimed in claim 1 or 2, in which the base includes an elongate base plate that defines an upwardly facing support surface on which one or more counter weights can be positioned, the support post being interposed between the bottom receiving structure and the support surface.
  4. 4. The support assembly as claimed in any one of the preceding claims, in which the support post is adjustable in length so that a space between the bottom and top panel receiving structures can be adjusted to suit a panel retained with respect to the base by the bottom and top panel receiving structures.
  5. 5. The support assembly as claimed in claim 4, in which the support post includes a lower part that is mountable on the base and an upper part that is telescopically arranged with respect to the lower part, the top panel receiving structure being mounted on the upper part.
  6. 6. The support assembly as claimed in claim 5, which includes a positive mechanical locking mechanism for locking the upper and lower parts relative to each other when the upper and lower parts define a desired length of the support post.
  7. 7. The support assembly as claimed in claim 5 or 6, in which the parts of the support post are tubular.
  8. 8. The support assembly as claimed in claim 5 or 6, in which at least one of the parts of the support post have a partially enclosed profile.
  9. 9. A support assembly for a structural assembly, the support assembly including a base; a bottom panel receiving structure configured to receive a bottom edge of a panel; and a mounting structure arranged on the base, the bottom panel receiving structure being mounted on at least one of the base and the mounting structure, which is configured so that a support post with a top panel receiving structure can be mounted on the base.
  10. 10. The support assembly as claimed in claim 9, in which the mounting structure includes a stub that extends upwardly from the base to be engageable with the support post in a removable manner.
  11. 11. A method of erecting a structural assembly includes the steps of: positioning in a desired location at least one support assembly which includes a base, a bottom panel receiving structure that is configured to receive a bottom edge of a panel and a top panel receiving structure operatively spaced from the bottom panel receiving structure and configured to receive a top edge of a panel; and placing a bottom edge of the panel on the bottom panel receiving structure.
  12. 12. A method of erecting a structural assembly includes the steps of: positioning in a desired location at least one support assembly, which includes a base, a bottom panel receiving structure configured to receive a bottom edge of a panel and a mounting structure mounted on the base, the bottom panel receiving structure being mounted on one of the base and the mounting structure and configured so that a support post with a top panel receiving structure can be mounted on the base; and placing a bottom edge of the panel on the bottom panel receiving structure.
  13. 13. The method as claimed in claim 12, which includes the step of adjusting a position of the top panel receiving structure relative to the bottom panel receiving structure to retain or clamp the panel between the receiving structures.
  14. 14. The method as claimed in claim 13, in which the step of adjusting the position of the top panel receiving structure relative to the bottom panel receiving structure is carried out by adjusting a length of the support post, the top panel receiving structure being mounted on the support post.
  15. 15. A temporary structure includes: a base; a support post mounted on the base; a bottom panel receiving structure mounted on at least one of the base and the support post and configured to receive a bottom edge of a panel; a top panel receiving structure arranged on the support post, operatively spaced from the bottom panel receiving structure and configured to receive a top edge of a panel; and at least one panel, a bottom edge of the panel being arranged on the bottom panel receiving structure.
  16. 16. A temporary structure includes: at least one support assembly, the, or each, support assembly including: a base; a bottom panel receiving structure mounted on the base and defining at least one upwardly opening recess at a front of the base; a support post mounted on the base, behind the bottom panel receiving structure, to extend substantially vertically from the base; and a top panel receiving structure arranged on the support post, operatively spaced from the bottom panel receiving structure and defining at least one downwardly opening recess, such that the recesses open in substantially vertically opposite directions; and panels mounted on the support assembly.
AU2017201881A 2016-03-18 2017-03-20 A Support Assembly for Supporting Structural Components Active AU2017201881B2 (en)

Applications Claiming Priority (2)

Application Number Priority Date Filing Date Title
AU2016901031A AU2016901031A0 (en) 2016-03-18 A Support Assembly for Supporting Structural Components
AU2016901031 2016-03-18

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AU2017201881A1 true AU2017201881A1 (en) 2017-10-05
AU2017201881B2 AU2017201881B2 (en) 2021-03-25

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DE19511906A1 (en) * 1995-03-31 1996-10-02 Plettac Ag Protective fence for building sites
DE20018960U1 (en) * 2000-11-07 2001-01-18 Layher W Vermogensverw Gmbh Fall protection device for construction sites on flat roofs
DE20106821U1 (en) * 2001-04-20 2001-08-23 Ehlich Hellmut Base plate carrier (up to 0.25 kNm2) to accommodate base plates for traffic signs and signs
GB0124820D0 (en) * 2001-10-16 2001-12-05 Cotton Simon Fencing system
US20070252125A1 (en) * 2006-05-01 2007-11-01 Jewett Cameron Lumber Corporation Modular fencing system
US20080283809A1 (en) * 2007-05-16 2008-11-20 Hoffman Jr William C Ball game fence system
GB2452526A (en) * 2007-09-07 2009-03-11 Wrr Pedley & Co Ltd A temporary fence and support structure
US8925904B2 (en) * 2009-07-24 2015-01-06 Alfred C. Christoffer Metal safety rail for open floors of a building under construction
US20110204307A1 (en) * 2010-02-23 2011-08-25 Mark Bowman Sidewalk sheds
AU2013100057B4 (en) * 2011-05-25 2013-08-15 Liberation Developments Pty Ltd A Weighted Support Assembly
GB201412079D0 (en) * 2014-07-05 2014-08-20 Znd Uk Ltd Support base
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