Patent Application
20050055966
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This invention relates to frame construction of buildings, specifically to the integration of the primary structural components.
Wooden frame construction has evolved from outer walls of closely placed construction materials through three phases:
Platform construction prevents most movement of the elements but only provides minimal strength where the construction elements abut each other. Sufficient rigidity to prevent flexion is not achieved in this form of construction until all elements are joined together, lending each other a measure of support that is not inherent. The structure does not provide for stability and resistance to physical forces such as deflection until the entire structure is essentially complete.
In support of this contention that the present form of fame construction does not provide desirable levels of stability we point to the continued development work as evidenced by the patent activity. In the area of joist anchors (52/72) there are noted 248 patents which have been granted with 44 of the last 139 patents granted specifically identified as joist hangers (32%), clearly indicating the lack of acceptance of the present technology.
The same activity level is noted with the studs (52/732.2) which field has 177 patents with much current activity. Lastly in the area of joints and connections (Class 403) the stirrup connector (403/232.1) most closely identified with frame construction has 220 patents with 403/230 (rod end to traverse connection) having 580 patents. Some of the patents in these areas have metal connectors with as many as 24 spikes in one connection (5,410,854 granted to Kimmell et al, 1995). Most all of the connectors are stamped sheet metal of light weight (5,524,397 granted to Byers et al, 1996) which are not widely available to contractors and which are time-consuming to use (5,295,754 granted to Kato, 1994). Many such as 5,403,110 granted to Sammann (1995) provide only partial support with quite narrow tabs located at 90° from the main body of the bracket.
There are two patents which possess some of the desired elements of the present invention. 6,209,282 granted to LaFrance (2001) is described as a composite wood stud with two vertical outside pieces straddling a plate with grooves cut in the plate for the third vertical piece which is sandwiched in the two outside pieces. The lower portion of the composite stud straddles what is called a composite “joist” but really appears to be the lower plate of the assembly. There are many interlocking pieces in the claimed invention which is a complex, confusing assembly which does not appear to provide for fastening to a conventional floor joist, ceiling joist or rafters. The corner assembly alone (
Patent 1,421,299 granted to Palen (1922) has two vertical pieces straddling either side of a joist with the upper portion of these two vertical pieces attached to the roof rafter and apparently the ceiling joist but this latter attachment is not clear from the drawings. The joists rest on a plate which rests on the edge of two pieces of lumber (
In the embodiment of this invention, resistance to the various physical forces which work against all structures is provided by the multiple and direct connection of the vertical and horizontal elements at the most basic level—by joining each element to the other. This provides resistance to deflection and bending as well as direct support against the forces of compression.
The invention is simple to comprehend and to use. It does not require specialized equipment or products supplied by a third party vendor.
The integration of the components maximizes the strength and durability of the framing.
All vertical elements of this construction are composed of the composite stud which contains two outer pieces of lumber connected to an inner piece which is of different lengths depending upon the depth of the joist below and the depth of the joist above which may receive the vertical element of the floor above.
The outer walls of the structure are comprised of the composite stud at opposing ends of the horizontal member with composite studs supporting the outer horizontal member which rests upon a plate. Interior walls may or may not be comprised of the composite stud depending on the design and other technical requirements. In the present invention the composite stud is of varying lengths depending on the height of the floors above each other as well as the distance from the inclined rafter to the ceiling joist below.
The essence of this invention is the physical joining of the supports for the horizontal and vertical planes of wooden frame construction. The primary instrument used to affect this joining is the composite stud 10 as shown in
The composite stud is composed of three pieces of varying sized 10a and 10c lumber which are fastened to one another with the inner piece 10b—shorter then either 10a or 10c. As seen in
Upper floor composite stud 17 will be fastened to the upper floor joist 15 as well as the ceiling joist 16. Roof rafters 19 are supported by and fastened to roof composite studs 18.
In all cases the middle portion 10b is to provide support for the compression forces obtained by the positioning of the joist 14 between elements 10a and 10c of the composite stud 10. The middle portion 10b will vary depending on framing of doors or windows.
As further shown in
While the above detailed description of the preferred embodiment of the claimed invention it should be noted that modification, variation, and alteration of the present invention might be achieved without deviating from the scope and fair meaning of the claimed invention.
