The subject matter of the present application is in the field of weather shelters for construction workers while they finish the exterior walls of buildings.
Construction workers finishing the exterior walls of buildings with siding, paint, or other materials are often exposed to unpleasant weather, often while working on or under scaffolding. Shielding the workers from the weather often entails covering the scaffolding with tarps. Tarps, however, are difficult to anchor against the wind and often fit poorly on the scaffolding, with significant gaps and sloppiness.
Attempts have been made in the prior art to supply better weather coverings for use with scaffolds, such as attachment systems and devices for raising plastic sheeting over the scaffolding, or rigid covers adapted to be attached to the scaffolding.
U.S. Pat. No. 3,121,470 to Stone et al. shows a protective cover for scaffolding in the form of sheet material such as canvas or polyethylene plastic. Brackets are used for detachably securing the sheet material to the frame of the scaffolding.
U.S. Pat. No. 3,586,126 to Eickhof shows a system for forming a partial enclosure about a scaffold frame by supporting and rolling/unrolling plastic sheeting over the framework.
U.S. Pat. No. 4,738,335 to Ishii shows a scaffolding system comprising parapet wall hooks on the top of a building, hanging stages suspended from the parapet wall hooks by cables, and protective nets stretched between the parapet wall hooks and the hanging stages with means for lifting and lowering the nets.
U.S. Pat. No. 5,038,889 to Jankowski shows a scaffold enclosure with a plurality of flexible translucent panels secured to the scaffolding frame with straps, and to each another with strips of hook-and-loop material at the panel edges.
U.S. Pat. No. 5,613,543 to Walton shows a system of supports and fabric or plastic panels erected to provide a continuous temporary covering against the side of a building, comprising tubular support framing over which fabric or plastic sheeting can be controllably raised and lowered with a winch and cables.
U.S. Pub. No. 2002/0095898 A1 to Bettencourt shows a modular temporary building frame tarp system, with an array of prefabricated rectangular tarp panels that can be fastened directly to the exposed frame of an unfinished building.
U.S. Pub. No. 2006/0225960 A1 to Ferlin et al. shows an enclosed scaffolding assembly covered by sound-attenuating sheets to define an enclosed work area adjacent a building.
U.S. Pub. No. 2013/0318889 A1 to Brown et al. shows a modular insulated scaffold wall system, with walls comprising a plurality of wall panels placed into customized tracks secured to a scaffold floor, and wall and ceiling panels with insulated sleeves. The system allows for multiple levels of temporary insulated areas to be erected within a scaffold.
The present invention is a modular weather shelter system for protecting workers working on the exterior of a building wall. In general the system comprises a plurality of weatherproof wall (and optionally roof) panels that can be quickly joined together into a shelter next to a building wall, with or without scaffolding, to form a lightweight, solid, temporary, weather-tight weather barrier or enclosure.
In a first form, wall and roof panels are substantially identical and comprise substantially rigid, lightweight rectangular frames with flexible weatherproof sheeting secured to the frames. The frames are formed from rectangular or flat-edged frame members that mate with each other in a stable configuration, the frame members joined with clips or pins or other mechanical connectors at their abutting edges.
A wall formed from a plurality of joined panels may rest on the ground, optionally staked in place. The wall may be further stabilized in a vertical position by an angled roof formed from a row of panels joined at their lower ends to the upper edges of the upper wall panels. The upper ends of the roof panels rest against or on the exterior wall or roof edge of the building. The roof panels are preferably joined to the upper wall panels with hinges, so that the angle of the roof can easily be adjusted against a building by adjusting each of the roof panels relative to their respective wall panels.
The weatherproof flexible sheeting on each panel has an L-shaped or right-angled extension defining overlap “flaps” extending in unsecured fashion beyond the panel frame at the lower edge and at a first-side edge of the panel. The overlap flaps at each edge include a hook-and-loop or equivalent fastener strip on an interior face thereof. The upper edges and second side edges of mating (adjacent) panels have mating fastener strips secured over the exterior faces of their respective frame members. The overlap flaps of the sheeting on a first panel can accordingly be secured to the outer face of the upper edge of a second panel beneath the first panel, and to the outer face of the second side edge of a third panel next to the first panel. When the flaps are secured over adjacent panels of a shelter wall and roof formed by a plurality of the interconnected panels, the overlapping flaps form weatherproof joints that also add structural integrity to the shelter. Overlap flaps on the end of a shelter wall or roof can be wrapped around their respective frame members and secured in place to prevent flapping.
In a further form, the shelter system comprises vertical reinforcement members having a height equal to two or more wall panels. The vertical reinforcement members are configured to be clipped or otherwise mechanically secured to the exposed frame members on the ends of a shelter wall for additional strength.
These and other features and advantages of the invention will become apparent from the detailed description below, in light of the accompanying drawings.
Referring first to
Shelter 20 comprises a plurality of substantially identical rectangular panels 30 capable of being temporarily joined to one another at their mating edges to form a shelter wall 130 and a shelter roof 230. The resulting temporary structure is a strong, lightweight, and weatherproof structure. Panels 30 each comprise an array of substantially rigid frame members 40, for example made from aluminum or stiff plastic tubing, covered by weatherproof, flexible (and preferably translucent) sheet material 50 such as strong clear plastic film of suitable thickness, for example clear polyethylene sheeting of 4-6 mils, secured to the outer faces of the frame members 40 of each panel. The frame members 40 preferably have a rectangular cross-section, or at least flat mating outer or side edges 41 so that they abut one another evenly and so that the joined panels define a substantially continuous planar outer surface over the respective wall or roof portions of the exterior of shelter 20. The panel dimensions 30 in the illustrated example are on the order of 4-ft by 4-ft (48 inches by 48 inches), but the sizing and rectangular shape may vary provided they remain a convenient size for being set up by small construction crews.
Flexible sheeting 50 includes sides corresponding to those of the underlying frame 40: upper side 50a, first-side 50b, lower side 50c, and second-side 50d. However, first-side 50b and lower side 50c extend beyond their corresponding frame members 40b and 40c to define unstructured, flexible, overlap flap portions or “flaps” 50b and 50c having a width sufficient to overlap the joint between mated frame members 40 on adjacent panels 30, and to further overlie and cover some or all of the exterior face of the adjacent frame member 40 on the adjacent panel 30.
As shown in the illustrated example, the overlap flaps 50b and 50c preferably comprise a continuous, one-piece, L-shaped extension of the flexible sheeting 50; i.e., sheeting 50 for panel 40 is formed as a rectangle with dimensions that extend beyond the first-side and lower frame members 40b and 40c to form the overlap flaps. Alternately it would be possible to form the overlap flaps as separately-movable or separate flaps to form the L-shaped overlap extension of the flexible sheeting, for example with a gap or slit separating the flaps 50b and 50c where they meet at the corner of frame 40, or with the lower end of the first-side overlap flap 50b overlapping the end of the bottom side overlap flap 50c so that the overlap flaps are able to be fastened and unfastened to adjacent panel frame members independently of one another.
The exterior-facing front faces of upper side frame members 40a and second-side frame members 40d are faced with relatively flat fastener “strips” 60, for example hook-and-loop material or magnetic strips or self-adhering plastic film or other known equivalents, which may be continuous strips or spaced patterns of fastener material spaced along the length of the frame member and facing outwardly. The inner-facing sides of overlap flaps 50b and 50c are faced with mating fastener “strips” 60 in a corresponding inward-facing configuration or array sufficient to form a strong connection when mated with outward-facing strips 60 on adjacent panel frame members, for example continuous strips 60 of equal length with those on the adjacent frame members 40, or spaced strips or pieces of fastener in a pattern corresponding to a spaced pattern on the adjacent frame member 40. The outward-facing fastener strips 60 on the frame members may be secured to the frame members 40 using staples or screws, adhesives, etc., either directly to the frame members or over/through the flexible sheeting 50 attached to the frame members. The inner-facing fastener strips 60 on the inside faces of the overlap flaps 50b, 50c may be secured to the flexible sheeting material with adhesives, sewing, known heat- or sonic-type welding techniques, or any other known method.
It is also possible to form each sheet or panel of flexible sheeting material 50 with both the outward-facing and inward-facing fastener strips 60 already attached, and then to secure the flexible sheeting 50 to the panel's frame members 40 as shown in
Referring to
A shelter wall 130 can be formed by joining multiple panels 30 side-to-side and top-to-bottom as shown in
Once panels 30 have been formed into a shelter 20 with a wall 130 and roof 230, the weatherproofness and the structural integrity of the shelter overall is enhanced by engaging the free, flexible overlap flaps 50b and 50c of each panel 30 with the fastener material 60 on the exterior faces of the adjacent frame members 40a, 40d of the adjacent panels below and to the side. The inner-facing fastener strip 60 on each overlap flap is simply mated onto the outward-facing strip 60 on the adjacent frame member, overlying the joint between the frame members on the mated panels 30, including the angled joint between the upper ends of the wall panels and the lower ends of the hinged roof panels. Any free overlap flaps at the end or bottom of the shelter wall 130 can hang or drape freely, or can be wrapped around or underneath the underlying frame member and secured behind the panel or staked or weighted to the ground. It may be desirable to make the width of the overlap flaps 50b, 50c wider than the width of the adjacent frame members, for example as shown in
The stability of shelter 20 may further be enhanced by staking the lower edge of wall 130 (the row of bottom frame members 40c on the lower row of panels 30) to the ground, for example by inserting stakes 76 (
For additional stability, the vertical frame members of the panels of the shelter wall 130 can be reinforced with vertical reinforcing pins or tubes 80 or similar with a height corresponding to the height of the wall, e.g. two panels high in the illustrated example. These vertical reinforcing pins 80 may be formed of the same material and cross-section as the frame members 40 in the panels 30, such as rectangular aluminum tubing, and may have corresponding structural mating features such as bores 72 spaced and aligned to correspond to the U-clip bores 72 formed in frame members 40 so that the same U-clips 70 can be used to secure them to the sides or interior faces of the vertical frame members 40 on at least the ends of the shelter wall and optionally to the interior faces of some or all of the vertically-aligned frame members 40 in the shelter wall. Vertical reinforcing members 80 may additionally be staked to the ground, or may have stake-like extensions formed on their lower ends to be inserted into the ground.
Referring to
Referring to
In
In operation, the panels 30 can be disassembled and delivered to a jobsite in a compact, stacked package, for example in a pickup truck bed. The identical nature of the panels 30 allows them to be joined and assembled into a wall 130 and optionally also a roof 230 interchangeably at the jobsite, using U-clips or other connectors, and then sealed up tight and strengthened by engaging the overlap flaps of each panel with the exterior frame fastener strips on the adjacent panel frame members. Damage to the flexible sheeting 50 is easily repaired with tape or patches of sheeting material, and the individual covers 50 can easily be fully removed and replaced on a panel frame if desired.
While the illustrated shelter 20 formed from panels 30 is shown as self-supporting against the building, it will be understood by those skilled in the art that the interconnected panels 30 could secured to the exterior framework of existing, conventional scaffolding, for example by lashing a shelter wall 130 or roof section 230 comprising two or more connected panels 30 to the corresponding outer side of the scaffolding with rope or cable ties. Alternately, as shown schematically in phantom in
It will finally be understood that the disclosed embodiments represent presently preferred examples of how to make and use the invention, but are intended to enable rather than limit the invention. Variations and modifications of the illustrated examples in the foregoing written specification and drawings may be possible without departing from the scope of the invention. It should further be understood that to the extent the term “invention” is used in the written specification, it is not to be construed as a limiting term as to number of claimed or disclosed inventions or discoveries or the scope of any such invention or discovery, but as a term which has long been used to describe new and useful improvements in science and the useful arts. The scope of the invention supported by the above disclosure should accordingly be construed within the scope of what it teaches and suggests to those skilled in the art, and within the scope of any claims that the above disclosure supports in this application or in any other application claiming priority to this application.
This application claims the benefit of U.S. Provisional Application No. 62/799,117 filed Jan. 31, 2019 by the same inventor (Kowalski), the entirety of which provisional application is hereby incorporated by reference.
Number | Name | Date | Kind |
---|---|---|---|
3121470 | Stone et al. | Feb 1964 | A |
3586126 | Eickhof | Jun 1971 | A |
3995715 | Virtanen | Dec 1976 | A |
4416928 | Carl | Nov 1983 | A |
4738335 | Ishii | Apr 1988 | A |
4815562 | Denny | Mar 1989 | A |
4986389 | Halligan, Sr. | Jan 1991 | A |
5038889 | Jankowski | Aug 1991 | A |
5414950 | Johnson, Sr. | May 1995 | A |
5547010 | Stuart | Aug 1996 | A |
5613543 | Walton | Mar 1997 | A |
5778999 | Nealeigh | Jul 1998 | A |
5966877 | Hawes | Oct 1999 | A |
8061098 | Whelan | Nov 2011 | B2 |
9004145 | Toledo | Apr 2015 | B2 |
20020095898 | Bettencourt | Jul 2002 | A1 |
20060010815 | Dixon | Jan 2006 | A1 |
20060225960 | Ferlin et al. | Oct 2006 | A1 |
20130318889 | Brown et al. | Dec 2013 | A1 |
Number | Date | Country |
---|---|---|
10013545 | Sep 2001 | DE |
2455887 | Jul 2009 | GB |
Number | Date | Country | |
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20200248469 A1 | Aug 2020 | US |
Number | Date | Country | |
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62799117 | Jan 2019 | US |