ENHANCED FASTENER PATTERN FOR IMPROVED SHEAR CAPACITY IN WALLS

Abstract

A wall framing system is provided, including a frame including upper and lower horizontal members attached to each other by a plurality of horizontally-spaced vertical studs forming a frame, at least one wall panel secured to the frame, the panel having at least one corner, a plurality of fasteners securing each panel to the frame. The fasteners have a prescribed spacing. A denser pattern of the fasteners, narrower than said prescribed spacing, is applied at each corner than on other portions of the panel.

Claims

1. A wall framing system, including: a frame including upper and lower horizontal members attached to each other by a plurality of horizontally-spaced vertical studs forming a frame; at least one wall panel secured to said frame, said panel having at least one corner; a plurality of fasteners securing each said at least one panel to said frame, said fasteners having a prescribed spacing; and a denser pattern of said fasteners, narrower than said prescribed spacing, being applied at each said corner than on other portions of the panel.

2. The wall framing system of claim 1, wherein said fasteners at each said corner have a 2 inch (5 cm) spacing.

3. The wall framing system of claim 1, wherein said fasteners include 12 screws at each corner having a 2 inch (5 cm) spacing.

4. The wall framing system of claim 1, wherein upon assembly, said wall system includes a single thickness of said panels and said studs are single ended, said wall system has a shear capacity of 3,137 lb., which is at least 10% stronger than walls having conventional fastener spacing.

5. The wall framing system of claim 1, wherein upon assembly, said wall system includes a single thickness of said panels and said studs are double ended, said wall system has a shear capacity of at least 5,000 lb.

6. The wall framing system of claim 5, wherein upon placement of said denser fastener spacing at panel corners, said shear capacity increases at least 40% from walls having conventional fastener spacing.

7. The wall framing system of claim 1, wherein said fasteners have a first spacing along vertical and horizontal edges of said at least one panel and a second, denser spacing at said at least one corner.

8. The wall framing system of claim 7, wherein said first spacing is one of 4inches and 6 inches, and said second spacing is 2 inches.

Description

BRIEF DESCRIPTION OF THE DRAWINGS

[0012] FIG. 1 is a front view of a wall system incorporating the present fastener arrangement;

[0013] FIG. 2 is a front view of a conventional wall system depicting the standard fastener pattern; and

[0014] FIG. 3 is a fragmentary view of the present wall system showing the present fastener pattern.

DETAILED DESCRIPTION

[0015] Referring now to FIG. 1, the present wall system is generally designated 10, and includes a frame 12 including at least one lower horizontal member 14, also referred to as a footer, at least one upper horizontal member 16, also referred to as a header. In conventional construction, the lower horizontal members 14 are secured to a floor 18, and the upper horizontal members 16 are secured to a ceiling 20, here shown as a plurality of joists 22. The lower and upper horizontal members 14, 16 are attached to each other by a plurality of horizontally-spaced vertical studs 24.

[0016] It is contemplated that the frame members 14, 16 and 24 are either wood or metal, the latter being one of a variety of gauges of metal, and typically being formed in a C or U-shaped horizontal cross-section. The frame members 14, 16 and 24 are secured together with frame fasteners 26, preferably screws or nails. A frame 12 with all of the vertical studs 24 at a single thickness is referred to as a single end frame. In some cases, to increase structural integrity of the frame, vertical studs 24A on the ends of each frame segment are double-thickness, being so-called double end frames.

[0017] Another part of the wall system 10 is at least one panel 30 secured to the frame 12 with a plurality of panel fasteners 32. When the wall system 10 is configured for interior use, the panels 30 are mainly gypsum wallboard. However, in some interior applications, more durable structural cement panels are employed, such as panels sold by United States Gypsum Company under the trademark STRUCTO-CRETE panel. When the wall system 10 is configured for exterior or high moisture use (showers, bathrooms), the panels 30 are made of more durable structural cement panels, sold by United States Gypsum Company under the trademark STRUCTO-CRETE panel, moisture-resistant green board or the like. Regardless of the construction of the panel 30, each panel is rectangular in shape and has a plurality of, preferably four corners 34.

[0018] As seen in FIGS. 1 and 2, the panel fasteners 32 (represented schematically by x in FIG. 2) are distributed about the panel 30 wherever the panel engages a portion of the frame 12. As such, the panel fasteners 32 are distributed vertically to secure the panel 30 to the vertical studs 24, and also horizontally to secure the panel 30 to the lower horizontal member 14 and the upper horizontal member 16. A standard or prescribed spacing of such panel fasteners 32 is between 4 to 6 inches (10-15 cm) around a perimeter of the panel 30, and 12 (30 cm) in a field or interior of the panel.

[0019] In strength tests of wall systems, preferably according to ASTM E72, a shear force F (FIG. 2) is applied transversely to the frame, preferably 20 gauge steel or greater, and a 4 ft8 ft (1.21922.438 meters) panel, or parallel to the length of the lower and upper horizontal members 14, 16. Basically, a racking force is applied to the wall systems until they fracture. Such fracturing usually involves the crushing and collapsing of vertical frame members 24, and the destruction of the panel at the corner 34.

[0020] Referring now to FIG. 3, it has been found that by decreasing a spacing of the panel fasteners 32 in the region of the corners 34, and thus increasing the number of panel fasteners 32, has significantly increased resistance of the wall system 10 to an applied shear force F (FIG. 2). In FIG. 3, the standard spacing of the panel fasteners 32 is represented by xs. Additional fasteners 36 are represented by +. Taken together, the spacing of the panel fasters 32, 36 in the corners 34 is preferably 2 inches (5 cm). However, it will be understood that the specific spacing may vary to suit the application. Thus, in the present wall system 10, the spacing of the fasteners 32, 36, is such that there are 12 fasteners around the corner 34 having the above-described 2 inch (5 cm) spacing. The result is a denser pattern of panel fasteners 32, 36 than in other regions of the panel 30.

[0021] In one embodiment, the wall system 10 includes a single thickness of the panels 30 the studs 24 are single ended, and has the above-described denser fastener spacing of 2 inches (5 cm) at all of the corners 34. The frame 12 is 20 gauge steel with studs 12 inches (30.48 cm) on center. Pursuant to ASTM E72, the wall system 10 has a shear capacity of 3,137 lb. (1422.919 kg), which is at least 10% stronger than walls having conventional fastener spacing, having a shear capacity of 2,841 lb (1288.656 kg).

[0022] In another embodiment, the wall system 10 includes a single thickness of the panels 30 and the studs 24 are double ended or double thickness at the ends of the 20 gauge steel frame accommodating each panel. The studs are 12 inches (30.48 cm) on center. Also, the wall system 10 has the above-described denser fastener spacing of 2 inches (5 cm) at each of the corners 34. Pursuant to ASTM E72, the wall system as constructed has a shear capacity of at least 5,000 lb. (2267.962 kg), compared to a wall system constructed similarly with standard fastener spacing has a shear capacity of 3,492 lb. (1583.945 kg). In other words, the shear capacity increases at least 40% from walls having conventional fastener spacing. Similar increases in capacity for added corner fasteners also to be noted when using 16 ga. and 14 ga. steel frames.

[0023] Thus, tests of the present wall system 10 reveal that the addition of a few extra fasteners at a cost of about $2.50 per panel 30 increases shearwall capacity from 110 to 145% depending on exact configuration and steel framing used.

[0024] While a particular embodiment of the present enhanced fastener pattern for improved wall shear capacity has been described herein, it will be appreciated by those skilled in the art that changes and modifications may be made thereto without departing from the invention in its broader aspects and as set forth in the following claims.