1. Field of the Invention
The invention relates generally to a J-runner for shaft wall construction apparatus used to hold wall panels in place during constructions of shaft walls in buildings.
2. Background of the Invention
Walls around shafts, such as elevator shafts, were traditionally formed from concrete. Such installations required personnel working inside the shaft to have to wait until the walls were completed, then remove debris and other material from the concrete erection.
As an improvement to the concrete systems, the assignee of the present invention developed a system whereby drywall (such as SHEETROCK brand gypsum board, available from United States Gypsum Corporation of Chicago, Ill.) or other wall panels can be installed from outside the shaft, thereby significantly reducing any scaffolding, and construction debris inside the shaft. By installing the wall panels from the outside, personnel working inside the shaft no longer needed to wait until the construction was completed to begin their work.
Such systems typically include a pair of J-runners into which a first wall panel is inserted, with the first J-runner along the top of the wall panel and a second J-runner along the bottom. The J-runner generally is formed from metals, such as steel, and typically includes a first short upstanding section and a second tall upstanding section in a substantially parallel configuration, each forming a substantially right angle with a middle section. Such a configuration allows for a first wall panel (or shaft panel) to be inserted between the upstanding sections to form the interior of the shaft. Additional wall panels can be affixed to the outside of the J-runners, typically to the outer surfaces of the short upstanding sections to form the interior of the room. In typical shaft wall constructions, wall studs, such as C-H studs and E-studs, are used to hold the wall panel in place. This type of construction is described by U.S. Pat. Nos. 3,943,680; 3,940,899; and 4,152,878, all to Balinski, each of which is hereby incorporated by reference in its entirety.
However, with this type of construction, vertically centering the wall studs is desired to achieve optimal structural performance. Additionally, when water or moisture develops in the cavity formed by the wall panels, the prior art constructions provide no means for dissipating such moisture.
To solve the deficiencies of conventional constructions, the J-runner of the invention is provided with one or more supporting or lifting elements which permit vertically centering/lifting the liner wall boards and the wall studs joined to the J-runner. In some instances the J-runner of the invention provides locations to dissipate moisture.
The J-runner of the invention is an improvement over conventional J-runners. One embodiment of the J-runner of the invention includes a short upstanding section and a tall upstanding section in a parallel configuration, each forming a substantially right angle with a middle section, with lifting elements positioned on the middle section and/or upstanding sections.
Typical embodiments of these lifting elements include shelves positioned on one or both upstanding sections, a longitudinal row of lanced and elevated forms having flattened ledges on upper sections on the middle section, and/or a longitudinal rib on the middle section.
In the figures, like numbered elements have the same configurations unless otherwise indicated.
With reference to
Positioned between the first J-runner 10 and the second J-runner 11, and between each of the studs 12 is a single shaft panel 13. Each shaft panel 13 has opposed vertical edges 16 (one shown) inserted into a respective cavity of a stud 12.
Located outside the J-runners 10 and 11 are a pair of wall boards 14 and 15. When fully installed as an inner surface of the shaft, shaft panel 13 forms the inside of the shaft, while an outer surface of the wall board 14 forms the interior wall of a room. Additionally, a surface 13A of the shaft panel 13 and a surface 19 of the wall board 15 define a wall cavity 20. The wall cavity 20 may be filled with insulation, electrical wiring, plumbing, and/or other building components.
To allow for self-centering of the panel 13 between the J-runners 10, 11, the first (or lower) J-runner 10 can be provided with one more lifting elements 21.
Preferably the lifting elements 21 form a flattened surface (ledge) 22 (
Preferably, the lifting elements 21 provide an opening for a drain 24 (
Generally, shaft panel 13 is inserted into the J-runner 10, pushed up the ramping edge 23 until it rests upon the ledge 22 and then slid horizontally until a first vertical edge of the shaft panel 13 is properly seated in a first stud 12. The formation of ledges 22 allows for more surface area against the shaft panel 13 and prevents the lifting element 21 from digging into the shaft panel 13 while sliding into the final position. Preferably, the shaft panel 13 is positioned resting on or above the ledges 22 and against the high wall of the J-runner 10. Then the next stud 12 is put into place between the lower J-runner 10 and upper J-runner 11 and pushed against the shaft panel 13 to have a second vertical edge of the shaft panel 13 seat in a cavity of the second stud 12.
Although less preferred, it is additionally considered within the scope of the invention to form the lifting elements 21 without the ledges 22.
The second upstanding section 56 comprises a lower portion 55, the second upstanding section shelf 59, and an upper portion 57. The second upstanding section lower portion 55 extends generally vertically from the second longitudinal side 55A of the middle section 51B. The second upstanding section shelf 59 extends distally, relative to the middle section 51B, from an upper longitudinal edge 55B of the lower portion 55 of the second upstanding section 56 to a lower longitudinal edge 55C of the upper portion 57 of the second upstanding section 56.
The studs 12 can take the form of any stud suitable for placing in the present J-runner. Exemplary studs include C-T studs, tabbed I-studs, C-H studs and E studs, and can be formed of any suitable material. Typical materials for the studs include steel. For beginning or terminating a wall, typically a metal framing member having an E or J profile is used.
Similarly, the J-runners of the invention can be formed of any suitable material. Typical materials include steel, for example 24 gauge (0.024 in, 0.6 cm) or 20 gauge (0.035 in, 0.9 cm) or other suitable gauges. The J-runners and shelves can be formed by stamping or roll forming. To form the lifting elements, e.g. lifting element 21 of J-runner 10, the J-runner can be lanced, stamped, pierced or notched.
A portion 71A of the bottom (middle) section 71 adjacent to the taller upstanding wall 70, i.e., between a drain 64 and the taller upstanding wall 70, typically has a length “F” of from about 0.25 to 0.75 inches (0.6 to 1.9 cm), preferably about 0.50 inch (1.3 cm). Although length “F” is typically less than a thickness of shaft panel 13 (to permit the wall panel to be elevated by the lifting element 21), it is considered within the scope of the invention to increase F to a size greater than the width of the shaft panel 13, to permit the shaft panel 13 to rest in a pocket 72 defined by the ledge 62 and the taller upstanding wall 70.
A ramping edge 63 of the lifting element 61 can define an angle “a” of between 25° and 75°, preferably about 64° with respect to a y-axis parallel to the second upstanding section 70. While shown in
The ledge 62, in addition to the shelf 68, are typically independently spaced a height “G” of about 0.25 inch to 0.50 inch (0.6 to 1.3 cm), preferably about 0.25 inches (0.6 cm), from the bottom section 71. The inside edge of the shelf 68 can be spaced a distance “H” of between 0.05 inch and 1.0 inch (0.1 and 2.54 cm), typically about 0.06 inch to 0.09 inch (0.15 to 0.23 cm) from an upper portion of shorter wall 69.
Likewise, in the embodiment of
With reference to
The drain 64 can have a total length K of about 0.25 inch to 1.00 inch (0.63 to 2.54 cm), typically 0.50 inch to 0.90 inch (1.3 to 2.3), preferably about 0.78 inch (2 cm) when in a triangular shape, and typically about 0.25 inch to 0.50 inch (0.63 to 1.3 cm), preferably about 0.45 inch (1.1 cm) when in a semicircular shape.
Although
It should be apparent that embodiments other than those specifically described above may come within the spirit and scope of the present invention. Hence, the present invention is not limited by the above description.
This application is a continuation of U.S. patent application Ser. No. 11/461,914 filed Aug. 2, 2006, now pending, incorporated herein by reference.
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Number | Date | Country | |
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20100205873 A1 | Aug 2010 | US |
Number | Date | Country | |
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Parent | 11461914 | Aug 2006 | US |
Child | 12772411 | US |