Static structures (e.g. – buildings) – Multiroom or level – Curtain-wall; i.e. – panel attached outside floor or beam
Reexamination Certificate
1999-06-15
2001-12-18
Friedman, Carl D. (Department: 3635)
Static structures (e.g., buildings)
Multiroom or level
Curtain-wall; i.e., panel attached outside floor or beam
C052S546000, C052S547000, C052S127800, C052S204720, C052S506100
Reexamination Certificate
active
06330772
ABSTRACT:
FIELD OF THE INVENTION
The present invention is directed generally to apparatus and methods for erecting wall panels and specifically to perimeter framing members for attaching wall panels to structural members.
BACKGROUND OF THE INVENTION
The exterior walls of many commercial and industrial buildings are formed by mounting a number of wall panels and attached perimeter extrusions on a grid framework of structural members attached to the building. The resulting grid of wall panels are aesthetically attractive and protect the building structure from fluids in the terrestrial environment.
In designing a wall panel mounting system, there are a number of objectives. First, the joints between the wall panels should be substantially sealed from terrestrial fluids. Penetration of terrestrial fluids behind the wall panels can cause warpage and/or dislocation of the wall panels, which can culminate in wall panel failure. Second, any sealing material used in the joints between the wall panels should be nonskinning and non-hardening. The sealing material is located in a confined space in the joint. To maintain the integrity of the seal between the wall panels when the panels expand and contract in response to thermal fluctuations and other building movements (e.g., seismically induced movements), the sealing material must be able to move with the wall panels without failure of the seal. If the sealing material hardens or “sets up”, the sealing material can break or shear, thereby destroying the weather seal. Third, the longevity of the sealing material should be at least as long as the useful life of the wall panels. Fourth, the sealing material should be capable of being pre-installed before erection of a wall panel beside a previously installed wall panel to provide for ease and simplicity of wall panel installation and low installation costs. Wall panel systems presently must be installed in a “stair step” fashion (i.e., a staggered or stepped method) because the sealing material must be installed only after both of the adjacent wall panels are mounted on the support members. Fifth, a drainage system or gutter should be employed to drain any fluids that are able to penetrate the seal in the joints. The gutter, which commonly is a “U”-shaped member in communication with a series of weep holes, must not overflow and thereby provide an uncontrolled entry for terrestrial fluids into the interior of the wall. During storms, winds can exert a positive pressure on the wall, thereby forcing terrestrial fluids to adhere to the surface of the wall (i.e., known as a capillary attraction). In other words, as the fluids follow the wall profile, the fluids can be drawn through the weep holes into gutter. The amount of terrestrial fluids drawn through the weep holes is directly proportional to the intensity of the storm pressure exerted on the wall exterior. If a sufficient amount of fluids enter the weep holes, the gutter can overflow, leaking fluids into the wall interior. Such leakage can cause severe damage or even panel failure.
SUMMARY OF THE INVENTION
These and other design considerations are addressed by the wall panel attachment system of the present invention. In a first aspect of the present invention, the wall panel attachment system includes an upper perimeter framing member attached to an upper wall panel and a lower perimeter framing member attached to a lower wall panel. The upper and lower perimeter framing members engage one another at perimeter edges of the upper and lower, typically vertically aligned, wall panels to define a recess relative to the upper and lower wall panels. At least one of the upper and lower perimeter framing members includes a plurality of drainage (or weep) holes for the drainage of terrestrial fluids located inside of the upper and lower perimeter framing members. At least one of the upper and lower perimeter framing members further includes a capillary break or blocking means (e.g., an elongated ridge running the length of the perimeter framing members) that (a) projects into the recess, (b) is positioned between the exterior of the upper and lower wall panels on the one hand and the plurality of drainage holes on the other, (c) is positioned on the same side of the recess as the plurality of drainage holes, and (d) is spaced from the plurality of drainage holes. The portion of the recess located interiorly of the capillary break is referred to as the circulating chamber. The capillary break inhibits terrestrial fluids, such as rainwater, from entering the plurality of drainage holes and substantially seals the joint between the upper and lower perimeter framing members from penetration by fluids.
While not wishing to be bound by any theory, the capillary break induces vortexing of any airstream containing droplets, thereby removing the droplets from the airstream, upstream of the weep holes. Vortexing is induced by a decrease in the cross-sectional area of airflow (causing an increase in airstream velocity) as the airstream flows towards and past the capillary break followed by a sudden increase in the cross-sectional area of flow downstream of the capillary break (causing a decrease in airstream velocity). Behind and adjacent to the capillary break, the sudden decrease in airstream velocity causes entrained droplets to deposit on the surface of the recess. To induce vortexing, the capillary break can have a concave or curved surface on its rear surface (adjacent to the circulating chamber). The rear surface of the capillary break is adjacent to the weep holes.
To inhibit entry of the droplets into the weep holes adjacent to the capillary break, the weep holes must be located at a sufficient distance from the capillary break and a sufficient distance above the free end of the capillary break to remove the weep holes from the vortex. Preferably, the capillary break and weep holes are both positioned on the same side of a horizontal line intersecting the free end of the capillary break. Typically, the distance between the rear surface of the capillary break and the adjacent drainage holes (which are typically aligned relative to a common axis) is at least about 0.25 inches. Commonly, the distance of the weep holes above the free end of the capillary break is at least about 125% of the distance from the free end of the capillary break to the opposing surface of the recess.
The drainage holes and capillary break can be located on the same perimeter framing member or on different perimeter framing members.
To form a seal between the perimeter framing members of adjacent, horizontally aligned wall panels, a second aspect of the present invention employs a flexible sheet interlock, that is substantially impervious to the passage of terrestrial fluids, to overlap both of the perimeter framing members to inhibit the passage of terrestrial fluids in the space between the perimeter framing members.
The flexible sheet interlock is preferably composed of a sealing non-skinning and non-hardening material that has a useful life at least equal to that of the wall panels. In this manner, the integrity of the seal between the wall panels is maintained over the useful life of the panels. The most preferred sealing material is silicone or urethane. The flexible sheet interlock, being non-skinning and nonhardening, can move freely, in response to thermally induced movement of the wall panels, without failure of the seal.
The flexible sheet interlock can be pre-installed before erection of an adjacent wall panel to provide for ease and simplicity of wall panel installation and low installation costs. The flexible sleet interlock can be installed on the wall panel and folded back on itself during installation of the adjacent wall panel. After the adjacent wall panel is installed, the interlock can simply be unfolded to cover the joint between the adjoining wall panels.
REFERENCES:
patent: 754888 (1904-03-01), Pease
patent: 2304423 (1942-12-01), Schiller
patent: 2414628 (1947-01-01), Battin
patent: 3053353 (1962-09-01), Miller
patent: 3081849 (1963-03-01), Hubbard
patent: 32
Mitchell Everett Lee
Mitchell Jed D.
A Phi Dieu Tran
Elward Systems Corporation
Friedman Carl D.
Sheridan & Ross P.C.
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