SCAFFOLD ROSETTE

Abstract

Disclosed are a scaffold rosette (60), a scaffold system and a method thereof. The scaffold rosette (60) includes a plurality of holes (65) of similar size and shape that extend axially through the scaffold rosette (60). Each of the plurality of holes (65) includes a first wedge alignment notch (70) and a second wedge alignment notch (70) spaced apart circumferentially from the first wedge alignment notch (70). The scaffold system comprises the scaffold rosette (60). The method comprises the steps of providing the scaffold rosette (60), locating a first ledger in a first hole (65) of the scaffold rosette (60) and locating a second ledger in a second hole (65) of the scaffold rosette (60).

Claims

1. In a scaffold system with upright members connected to adjacent upright members by releasable ledgers that engage rosettes at spaced intervals on the upright member, characterized in that the rosettes on at least some of the upright members, each having 4 securing ports through the rosette; each port of the rosette is elongate and has opposed end positions orientated to locate a ledger head with these end positions being 45 degrees apart; and wherein the port allows for ledger locating at a host of positions between the positions; and wherein said ports are of similar size and adjacent ports are separated by one of 4 support spokes located between said ports.

2. (canceled)

3. A scaffold system comprising: a scaffold rosette that extends circumferentially around a longitudinal axis and adapted to support ledgers thereon, the scaffold rosette including a plurality of holes of similar size and shape that extend axially through the scaffold rosette, each of the plurality of holes extends circumferentially partway about the longitudinal axis (62) between a first circumferential edge and a second circumferential edge thereof, wherein each of the plurality of holes includes a first wedge alignment notch and a second wedge alignment notch spaced apart circumferentially from the first wedge alignment notch, the first wedge alignment notch and the second wedge alignment notch extend radially outward away from the corresponding hole.

4. The scaffold system of claim 3, wherein the first wedge alignment notch of a first hole included in the plurality of holes is spaced apart from the second wedge alignment notch of the first hole by 45 degrees.

5. The scaffold system of claim 4, wherein the first hole includes an arcuate outer edge that extends between and directly interconnects the first wedge alignment notch and the second wedge alignment notch.

6. The scaffold system of claim 5, wherein each of the plurality of holes extends between about degrees and about degrees circumferentially relative to the longitudinal axis between the first circumferential edge and the second circumferential edge thereof.

7. The scaffold system of claim 3, further comprising a first rosette orientation mark located radially outward of and circumferentially aligned with the second wedge alignment notch of the first hole and a second rosette orientation mark located radially outward of and circumferentially aligned with a first wedge alignment notch of a second hole located adjacent to the first hole so that the first rosette orientation mark is spaced apart circumferentially from the second rosette orientation mark by 45 degrees.

8. The scaffold system of claim 3, wherein the plurality of holes includes only four holes and the four holes are spaced apart circumferentially equidistant by 90 degrees.

9. The scaffold system of claim 8, wherein the wedge alignment notches are each spaced apart circumferentially equidistant by 45 degrees.

10. The scaffold system of claim 9, further comprising a first ledger located in a first hole included in the plurality of holes and a second ledger located in a second hole included in the plurality of holes.

11. The scaffold system of claim 10, wherein the first ledger is received in a first wedge alignment notch of the first hole and the second ledger is spaced apart circumferentially from a wedge alignment notch of the second hole.

12. A method comprising: providing a scaffold rosette that extends circumferentially around a longitudinal axis (62), the scaffold rosette including a plurality of holes that extend axially through the scaffold rosette, each of the plurality of holes extends circumferentially partway about the longitudinal axis between a first circumferential edge and a second circumferential edge thereof, wherein each of the plurality of holes includes a first wedge alignment notch and a second wedge alignment notch spaced apart circumferentially from the first wedge alignment notch, the first wedge alignment notch and the second wedge alignment notch extend radially outward away from the corresponding hole, locating a first ledger in a first hole included in the plurality of holes, and locating a second ledger in a second hole included in the plurality of holes.

13. The method of claim 12, wherein the first hole and the second hole are spaced apart circumferentially by 90 degrees and locating the first ledger in the first hole includes locating the first ledger in the second wedge alignment notch of the first hole and locating the second ledger in the second hole includes locating the second ledger spaced apart circumferentially from the first wedge alignment notch and the second wedge alignment notch of the second hole so that the second ledger is spaced apart circumferentially from the first ledger by between 45 degrees and 90 degrees.

14. The method of claim 12, wherein the first hole and the second hole are spaced apart circumferentially by 90 degrees and locating the first ledger in the first hole includes locating the first ledger in the first wedge alignment notch of the first hole and locating the second ledger in the second hole includes locating the second ledger spaced apart circumferentially from the first wedge alignment notch and the second wedge alignment notch of the second hole so that the second ledger is spaced apart circumferentially from the first ledger by between 90 degrees and 135 degrees.

15. The method of claim 12, wherein the first hole and the second hole are spaced apart circumferentially by 90 degrees and locating the first ledger in the first hole includes locating the first ledger in the second wedge alignment notch of the first hole and locating the second ledger in the second hole includes locating the second ledger in the first wedge alignment notch of the second hole so that the second ledger is spaced apart circumferentially from the first ledger by 45 degrees.

Description

BRIEF DESCRIPTION OF THE DRAWINGS

[0026] Preferred embodiments of the disclosure are shown in the drawings, wherein:

[0027] FIG. 1 shows a prior art rosette;

[0028] FIG. 2 shows another embodiment of a prior art rosette;

[0029] FIG. 3 shows another embodiment of a prior art rosette;

[0030] FIG. 4 is a top view of the rosette of the present disclosure;

[0031] FIG. 5 is a top view of the rosette of FIG. 4 with a first connection to ledgers;

[0032] FIG. 6 is a top view of the rosette of FIG. 4 with a second connection to ledgers;

[0033] FIG. 7 is a top view of the rosette of FIG. 4 with a third connection to ledgers;

[0034] FIG. 8 is a top view showing prior art scaffolding used around circular or curved structures;

[0035] FIG. 9 is a top view showing prior art scaffolding used around circular or curved structures;

[0036] FIG. 10 is a top view of another prior art rosette; and

[0037] FIG. 11 is a top view of the rosette of the present disclosure used to receive 4 ledgers in a perpendicular configuration and 4 associated brace members.

DETAILED DESCRIPTION OF THE DISCLOSURE

[0038] It can be seen in FIG. 4 that the proposed rosette 60 is obviously different from the majority of other ring lock style systems. The most obvious difference is that there are only 4 holes 65. The less apparent attributes of this new rosette 60 design bring the major advantages of this improved ring lock. The rosette 60 is used on scaffold posts commonly referred to as scaffold standards.

[0039] Each hole 65 extends circumferentially partway about a longitudinal axis 60 of the rosette 60. Each hole 65 is spaced apart from adjacent holes 65 such that the holes 65 are located at 45 degree intervals relative to the longitudinal axis 60. Each hole 65 extends circumferentially between about 60 and 65 degrees relative to the longitudinal axis 60. In the illustrative embodiment, each hole 65 extends circumferentially about 63 degrees relative to the longitudinal axis 60.

[0040] Each hole 65 has an arcuate outer edge 72 and an arcuate inner edge 74 spaced apart radially inward from the arcuate outer edge as shown in FIG. 4. The arcuate inner edge 74 has a constant radius in the illustrative embodiment. Each hole 65 further includes an arcuate first circumferential edge 66 that extends between and interconnects directly the arcuate outer edge 72 and the arcuate inner edge 74. Each hole 65 further includes an arcuate second circumferential edge 78 that extends between and interconnects directly the arcuate outer edge 72 and the arcuate inner edge 74. The second circumferential edge 78 is spaced apart circumferentially relative to the first circumferential edge 76.

[0041] At the ends of each of the four (4) holes are wedge alignment notches 70. This allows ledgers or braces to be easily connected to the rosette at 90 degree or 45 degree orientation relative to each other. Each wedge alignment notch 70 extends radially outward away from the respective hole 65 relative to the longitudinal axis 62. Each wedge alignment notch 70 is directly connected to one of the first circumferential edge and the second circumferential edge of the respective hole 65. A first wedge alignment notch 70 of a given hole 65 is spaced apart circumferentially from a second wedge alignment notch 70 of the given hole 65.

[0042] The larger holes 65 allow for variable intermediate ledger angles to be achieved much more easily than the holes of the prior art style rosettes. In the illustrative embodiment, the rosette 60 includes only four holes 65 and each hole 65 includes two wedge alignment notches 70.

[0043] In order for infinite orientation angles of the ledgers to be achieved, the standards can be rotated (about the longitudinal axis 62 of the rosette 60 mid corresponding post) in increments of 45 degrees, while maintaining the alignment notches at the 90 degree positions. The 45 degree rotation changes to position of the spokes while maintaining 90 degree connection. This type of rotation is not possible with the prior art style rosette or does not provide the same advantages. FIGS. 5 and 6 show the difference between two orientations of the new rosette 60.

[0044] The rosette 60 further includes rosette orientation marks 100 and 102 as shown in FIG. 5. The rosette orientation mark 100 is located radially outward and circumferentially aligned with a wedge alignment notch 70 of a first hole 65.

[0045] The rosette orientation mark 102 is located radially outward and circumferentially aligned with a second wedge alignment notch 70 of a second hole 65 that is adjacent the first hole 65 so that the rosette orientation marks 100 and 102 are spaced apart circumferentially from each other by at or about 45 degrees. The rosette orientation marks 100 and 102 are circular in the illustrative embodiment. The rosette orientation marks 100, 102 are surface markings in some embodiments. In some embodiments, rosette orientation marks 100, 102 are holes that extend through the rosette 60.

[0046] With the rosette orientation marks 100 and 102 sitting at about the 12 and 2 o'clock positions, as shown in FIG. 5, ledger C can be located at an infinite number of angles ranging between 45 degrees and 90 degrees relative to Ledger B. Note that ledgers A and B are both located in alignment notches 70 and are therefore at 90 degrees relative to each other. The ledgers A, B, C may be located at an infinite number of locations circumferentially between the alignment notches 70 of a given hole 65 in some embodiments. As shown in FIG. 5, ledger A is located at 180 (180) degrees, ledger B is located at 90 degrees, and ledger C is located at 45 degrees. As such, ledger C is 45 degrees apart from ledger B.

[0047] When the standard is rotated so that the rosette orientation marks 100 and 102 are sitting at about the 2 and 3 o'clock positions, as shown in FIG. 6, ledger C can be located at angles ranging from 90 degrees to 135 degrees relative to Ledger B. That is, ledger C may be located at an infinite number of angles between 90 degrees and 135 degrees relative to Ledger B. Note that ledgers A and B are still both located in alignment notches 70 and are therefore at 90 degrees relative to each other.

[0048] With the rosette orientation marks sitting once again at the 12 and 2 o'clock positions, as shown in FIG. 7, ledger C can be located at angles ranging between 135 degrees and 180 degrees relative to Ledger B. Note that ledgers A and B are both located in alignment notches 70 and are therefore at 90 degrees relative to each other. Ledger C is located in an alignment notch 70 at 135 degrees and 180 degrees and is not located in an alignment notch 70 if between angles of 135 degrees and 180 degrees.

[0049] In the industrial construction and maintenance markets, there are refineries that have a large number of circular structures such as tanks, cat-crackers etc. The standard ways of building scaffolds is to use a combination of rectangular and trapezoidal bays (Type A Scaffolds is shown in FIG. 8), or all trapezoidal bays (Type B scaffolds shown in FIG. 9).

[0050] Building circular scaffolds using these two scaffold configurations is made much simpler if using the system having the new rosette 60. Any combination of angles and ledger lengths can be used to achieve the correct radius of the scaffold.

[0051] If the standards of the prior art systems (see FIG. 10) are rotated by 45 degrees in a similar way to the new rosette 60 described previously, the erectors can no longer easily achieve 90 connections. In addition, the other ledgers or braces can only be fitted at 45 degrees or 90 degrees+/−15 degrees. This is severely restricted compared to the rosette 60 of the present disclosure.

[0052] The rosette 60, as shown in FIG. 11, can also engage ledgers in a standard 8 way connection.

[0053] The new rosette 60 and the use thereof on scaffold posts, standards and frames represents a major design improvement. The increased versatility that comes with the new design simplifies installation for non-linear application while remaining compatible with existing systems. This flexibility together with its compatibility with existing ring lock type systems is particularly advantageous.

[0054] Although various preferred embodiments of the present disclosure have been described herein in detail, it will be appreciated by those skilled in the art that variations may be made thereto without departing from the scope of the appended claims.