Static structures (e.g. – buildings) – Ornamental: color – thickness variation – or dissimilar...
Reexamination Certificate
1997-11-10
2003-07-15
Canfield, Robert (Department: 3635)
Static structures (e.g., buildings)
Ornamental: color, thickness variation, or dissimilar...
C052S344000, C052S443000, C052S454000, C052S255000, C052S799110, C052S717060
Reexamination Certificate
active
06591566
ABSTRACT:
BACKGROUND OF THE INVENTION
1. Field of the Invention
The invention relates to prefabricated, light-weight, plaster relief forms to provide quick, low cost, installation of support members for constructing plaster coated decorative “plant-on's” or “bump-outs” to the outside walls of dwelling structures.
2. Previous Art
Ornamentation and decoration of building structures such as residences and businesses is one important aspect of architecture. Marketing and sale of residences is enhanced by additional decorative detail. Pride of ownership is also enhanced by improved appearance of one's building or residence. Ornamentation and decorative details are used extensively to add desirability and attractiveness to structures.
In certain regions of the country, such as the West and Southwest, the homes in the Mission style, and the Mediterranean style are quite popular. One of the popular methods of ornamentation used for these styles of homes is referred to in the building trades as “plant-ons” or “bump-outs”. The plant-ons may extend for a considerable length along the horizontal or vertical dimension of a wall or walls of a home or business. The plant-ons add a band or bands of relief to an otherwise blank facade that is presented by an unbroken expanse of plaster or stucco. The bands may extend completely around the outside perimeter of a building. For a conventional home of 2500 sq. ft., this may amount to 300-500 ft of bands for one single layer. The support for these bands are generally made of overlapping wooden boards including a first layer of 2×12 inches and a second layer of 2×8 inches. The boards are placed end to end in standard lengths of 8 to 12 ft to create a continuous relief band around the home. Similar bands may be constructed around door and window openings.
Attractive relief borders around windows and doors are also used to provide enhancements to the architecture of homes and buildings. Such window and door borders have been constructed using the above methods and materials.
These features are not necessary to the structural integrity of the building, but do add a pleasing visual aesthetic appearance to a home or business.
One example of architectural relief products for attachment to homes are pre-shaped foam members such as cornices, bases, sills and balusters, for example, supplied by High Tech Foam Products, Inc of Corona, Calif. Foam members may be provided in a wide variety of shapes and sizes. The disadvantage of these members as supports for relief bands include the expense of the items themselves, on the order of $5 to $6 per linear foot, and the additional labor and material involved in adding a layer of screening or lath material over the foam to provide a matrix for the plaster to adhere.
A conventional method of construction of plant-ons uses one or more planks of overlapping boards attached to a wall at a particular height. To achieve a continuous band or strip of relief, multiple lengths of uniform cross section boards are aligned end to end and attached to the studs of a prepared wall. For conventional construction, the studs must be no more than 24 inches on center, or less, according to the applicable local, state or national building codes. The attachment is done with hammer driven nails, power gun driven nails, large staple guns or the like. The boards are attached to the wall prior to the application of a plaster coat or coats and prior to the application of a lath sheeting which will form a matrix or lattice for supporting the plaster when it is applied. The lath is conventionally made of chicken wire or expanded metal and attached with nails, staples or the like. The lath sheeting may be suspended away from the wall and boards by a furring strip or strips interposed between the surface of the wall and the sheeting. Self furred sheeting or wire may also be used to maintain the spacing between the wall and the sheeting. An example of such wire is self furred metal lath made by California Expanded Metal Products Company of Industry, CA. “Dimpled” or ribbed type self furring metal lath provides a ¼ inch indentation in the metal lath to hold it away from the wall allowing the plaster to fill the space between, insuring the lath is embedded. The spacing between the lath and the wall or boards provides the opening for the plaster coat to surround the lath and thereby bond firmly to the wall. A moisture barrier layer, of building paper, for example, is applied between the boards and the lath sheeting by means of staples, nails, an adhesive coating or the like.
The boards provide the relief pattern or bump-out desired. Additional screening is cut and shaped by hand to conform to the protruding bump-out and nailed or stapled to the boards and the wall.
Plaster is then applied to the bump-out and the wall to form the finished surface.
With reference to
FIG. 10A
, there is shown a schematic diagram of an exploded view of one previous art method of assembly for a manually fabricated plaster relief form as described above. A plurality of boards of desired width with the same cross section are aligned end to end and nailed to the prepared wall to form a continuous plaster relief band to the desired length. Additional lengths of wire screen or lath sections may be placed over the boards and formed by hand to the contour of the boards. The additional sections are then typically nailed in place.
FIG. 10B
illustrates a cross section of such a relief form having a board attached to a stud framed wall. A layer of moisture barrier paper and metal screen or lath are typically placed against the wall and attached by nails to the studs. A plurality of spacers, such as furring strips or dimples in the additional screen sections, are provided between the boards and the additional wire screen sections to allow the subsequent plaster layer to flow into the openings of the wire screen sections and fill the space between the screens and the top of the boards. Plaster is then typically applied by hand using a hawk and trowel method or applied with a nozzle connected to a machine as described above.
With reference to
FIG. 10C
, an additional improvement to the previous art method is shown. Guide edge members are attached, typically by nailing into the form boards, to the edges of the wire screen sections over the plaster form boards. The guide edges are spaced apart from and aligned to be parallel with the plaster form boards. The guide edge members provide a guide to the trowel or plaster dispensing nozzle as the plaster is applied, thereby allowing a uniform depth of plaster to be applied easily. Representative guide edge members used in the trade are made from 14 gauge wire such as the “CEMCORNER” corner reinforcement made by Cemco, Covina Lane, CA. Or the “ComerAid” cover nose wire made by Stockton Products, Burbank, Calif.
The above-described method requires a number of hand operations, such a nailing the boards, cutting the additional wire screen sections, hand forming the screen sections over the boards and attaching the guide edge members, which significantly increases the cost of applying plaster relief bands. It would be an advantage to provide a system to reduce the number of hand operations required to apply plaster relief bands.
It is important to select boards made of wood which are of uniform cross section, in order to achieve a visually pleasing effect. Boards which are not uniform in thickness or width will show angular offsets at the ends where they meet. It is also important to select wood which is well cured and has stable dimensional shape. If the wood twists or otherwise deforms after the plaster has dried, unsightly cracks may appear. Cracks may also allow moisture to penetrate the plaster and attack the wood beneath, or provide additional unwanted access to wood destroying pests. Boards of suitable quality currently sell for $2 to $3 per linear foot. On a double band board structure, the cost could be from $15 to $18 per linear foot, after including the costs of boards, lath application and finished plaster.
The u
Canfield Robert
Cohen Lawrence S.
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