PLASTER STOP, DRIP SCREED, PLASTER REVEAL, PLASTER VENT EXPANSION JOINT & CASING BEAD, AND PROCESSES THEREFOR

Abstract

A casing bead having a U-ish or J-ish shape comprises, consists essentially of, or consists of an item, e.g., sheet metal, formed in a bent shape. The shape is formed of a first section, followed by a second section, a third section, and a fourth section. Alone, the casing bead's first and fourth sections have interior uninterrupted facing surfaces, and the second section is substantially perpendicular to the first and fourth sections.

Description

CROSS REFERENCE TO RELATED APPLICATIONS

This application claims priority to U.S. Provisional Patent Application Ser. No. 62/655,291, entitled “IMPROVED CASING BEAD AND PROCESSES THEREFOR,” filed Apr. 10, 2018, by inventor Kurt Meiswinkel, the disclosure of which is incorporated by reference in its entirety.

BACKGROUND OF THE INVENTION

Field of the Invention

The invention relates generally to casing beads and processes for their manufacture and use. In plastering terms, the invention also relates to termination screeds, plater stops, drip screeds, plaster reveals, plaster vent expansion joints. and related items with possible relevance in the mechanical, architectural and/or construction arts.

Description of Background Art

In the field of construction, plastering and other finishing procedures contribute to both aesthetics and functionality of surfaces such as walls, soffits, ceilings, and the like. In addition, interfaces such as corners associated with windows, door casings, etc., also demand special attention with respect to plastering and other mudding processes. In such procedures and processes, there are numerous items that may be used to provide measurable functionality. For example, in additional to lath selections, some suppliers/manufacturers offer a broad range of stucco, veneer and plaster accessories including expanded metal corner beads, expansion joints, casing beads and weep screeds.

To illustrate, a product sheet for an item in the form of a #66 short-flange casing bead is shown in in FIG. 3. Such a casing bead may be viewed by a person of ordinary skill in the art as a “state of the art” casing item for the plastering and other architectural finishes industries. Similarly, items such as those shown at https://stocktonproducts.com/metal.tpl (as of the filing date of the present application) represents items with casing-bead-like functionality.

There are numerous of shortcomings associated with prior art casing beads (or trims). For example, proper use of casing technologies requires capable individuals with expertise in general construction, painting, and/or assembly. In turn, labor costs associated with the current state-of-the art casing beads are relatively high for plastering purposes. In addition, casing technologies, when used in high-end finishes, merely provides a final look that may or may not appeal to everyone's aesthetic sense.

Thus, there exist opportunities to provide alternatives and improvements to casing technologies, particularly for high-end construction, commercial and residential practices, that may serve as a means for ease of use and for labor and time savings in the art associated with casing beads.

SUMMARY OF THE INVENTION

In a first aspect, the invention provides a casing bead having a U-ish or J-ish shape comprising, consisting essentially of, or consisting of a sheet formed in a bent shape comprising a first section, a second section, a third section, and a fourth section, wherein the first and fourth sections have interior facing surfaces, and the second section is substantially perpendicular to the first and fourth sections. The third section is typically oriented at less than about 90° relative to the second section.

In another embodiment, the invention provides a process for forming a casing bead as described herein.

In a further embodiment, the invention provides a surface formed using the casing bead as described herein.

The third section may be oriented at about 15° to about 75°, e.g., at about 45° relative to the second section. The first and fourth section sections are substantially parallel to each other. The U-ish or J-ish shape may include a void and/or substantially identical holes located between and/or spanning across the second and third neighboring sections.

In addition, the invention may include a plurality of holes in the third and/or fourth sections. When a sheet of a desired thickness of, e.g., 10 to 250 mils (mils representing thousandths of inches) is used to form the invention, the sheet may have a thickness sufficient to resist plastic deformation during ordinary use.

Furthermore, a process is provided for forming a casing bead having a J-ish spur shape consisting essentially of a sheet formed in a bent shape comprising a first section, a second section, a third section, and a fourth section, comprising: (a) cutting out from a flat sheet of, e.g., metal, aluminum, or polyvinyl chloride (PVC), to form a blank of a preform shape; and (b) bending the blank so that the first and fourth sections are formed to have interior facing surfaces and the second section is substantially perpendicular to the first and fourth sections. Typically, step (a) is carried out before step (b).

Further still, the invention provides a casing bead, consisting essentially of: a planar sheet folded or formed in a J-ish spur shape of a first section, followed by a second section, followed by a third section, and followed by a fourth section. The first and fourth sections have interior facing surfaces. The second section is substantially perpendicular to the first and fourth sections.

In other embodiments, the invention provides for processes for manufacturing and using the casing bead of the invention described herein.

BRIEF DESCRIPTION OF THE DRAWINGS

FIG. 1 depicts the difference between a prior art casing bead in use versus an inventive casing bead in use.

FIG. 2 is line drawing depicting an embodiment of the inventive casing bead.

FIG. 3 is a product description sheet for a prior art casing bead.

FIG. 4 is a modified line drawing of FIG. 2, with added identification of first, second, third, and fourth sections of the inventive form, as well as with added identification of a void defined at least in part by the second and the third sections.

FIG. 5 is a photograph of the interface between a brown plaster wall and a white window casing, the interface established using the inventive casing bead.

FIG. 6 shows hand-drawn sketches of various a not-to-scale embodiments of the invention.

DETAILED DESCRIPTION OF THE INVENTION

Definitions and Overview

Before describing the present invention in detail, it is to be understood that the invention is not generally limited to specific geometries and material, as such may vary. It is also to be understood that the terminology used herein are for only describing particular embodiments and are thus generally not intended to be limiting.

In addition, as used in this specification and the appended claims, the singular article forms “a,” “an,” and “the” include both singular and plural referents unless the context clearly dictates otherwise. Thus, for example, reference to “a casing bead” includes a collection of casing beads as well as a single casing bead, reference to “section” includes a section as well as a plurality of sections, and the like.

Furthermore, terminology indicative or suggestive of a particular spatial relationship between elements of the invention is to be construed in a relative sense rather an absolute sense unless the context of usage clearly dictates to the contrary. For example, the terms “upper” and “lower” as to describe the spatial orientation of an upper section of a casing bead relative to a second section does not necessarily indicate that the first item is located necessarily above the second item. That is, the first item may be located above, at the same level as, or below the second item depending on the casing bead's orientation.

In this specification and in the claims that follow, reference will be made to terms that shall be defined to have the following meanings, unless the context in which they are employed clearly indicates otherwise:

“Casing bead” is used as a term of art and refers, e.g., to a bead or a unitary assembly of members that is typically used in conjunction with plastering, stucco, and like casing practices for high-end construction purposes. “Casing bead” is intended to encompass “screeds,” “casings,” “weeps,” “channel reveals,” “grounds,” “expansion joints” built in aluminum, PVC or steel window frames” and the like. For further information, see http://fryreglet.com/downloads_shapefinder/channelscreedcontroljoint.pdf; https://www.cemcosteel.com/metal-lath/metal-lath-accessories/screeds-casings-weeps; http://www.vinylcorp.com/products/stucco-plaster/casing-beads http://www.vinylcorp.com/products/stucco-plaster/channel-reveals; http://www.amico-lath.com/lath/casing_bead.htm; http://www.phillipsmfg.com/stucco-and-plaster-casing-beads/; http://sweets.construction.com/swts_content_files/1097/537754.pdf; and https://stocktonproducts.com/metal.tpl.

The term “consisting essentially of” and the like are used in their legal sense as transitional phrases. They are to be interpreted as semi-open manner, i.e., between open transitional phrases “comprising” or “comprised of” and the closed transitional phrase “consists of.” Thus, “consists essentially of” should not be interpreted synonymously as “comprising” or “comprised of” Similarly, “consisting essentially of” should not be interpreted synonymously as “consisting of.” Additional resources pertaining to the proper interpretation of “consisting essentially of” and the like can be found, e.g., in the most recent edition of the Manual of Patent Examining Procedures 2111.03, as of the filing date of this patent application.

The term “high-end” (or “high end”) is used in its ordinary sense and refers to denoting the most expensive of a range of products in the context of the present invention. The term also implies high value. Synonyms of “high end” include, for example, superior, premier, top-end, exclusive, elite, top, select, choice, deluxe, luxurious, classy, prime, first-rate, high-quality, top-quality, high-grade, five-star, fine, etc. Optimally, “high-end” may be used to refer to a high value-to-cost ratio as construed in a general technological, economic and legal sense.

Examples of high-end construction projects include those performed on behalf of high net-worth individuals, e.g., billionaires and other titans of technological industry. Thus, the term “high-end” as used herein relates to finishes that exudes luxury, without necessarily the relatively high prices that is sometimes associated with luxury.

The term “substantially identical” as used to describe a plurality of items is used to indicate that the items are identical to a considerable degree, but that absolute identicalness is not required. For example, when perforations are described herein as of a “substantially identical size,” the perforations' size may be identical or sufficiently near identical such that any differences in their size are trivial in nature and do not adversely affect the performance of the perforations' function. The terms “substantial” and “substantially” are used analogously in other contexts involve an analogous definition.

The term “U-ish shape” refers to a cross-sectional shape identical or substantially similar relative to one or more of the following letters, depending on the font (e.g., Times New Roman) or stylization used: “F,” “f,” “J,” “j,” “L,” “n,” “U,” and “u.” The U-ish shape may be modified in a manner consistent with the rest of the disclosure contained in the present specification. A specific example of a “bent j-ish spur shape,” which represents a subset of the “U-ish shape,” is depicted in FIGS. 1 and 2.

Casing Beads

In general, the invention relates casing beads, e.g., a molding or strip that acts as a stop, an edge, or a separation typically between different materials, typically used in the construction industries. Rough best mode but enabling information pertaining to the invention can be found in U.S. Ser. No. 62/655,291.

FIG. 1 provides a visual representation of an embodiment of the invention claimed (new technology), relative to prior art (old) technology.

FIG. 2 is a schematic of an exemplary embodiment of the invention. This embodiment may or may not represent a best mode of the invention.

FIG. 3 provides details regarding a technological baseline from which the invention improves.

FIG. 4 depicts selected elements of the invention that support a finding of utility, novelty, and nonobviousness.

FIG. 5 provides an illustration of how the invention may be used to further distinguish the claimed technology from the prior art in terms of aesthetic utility, novelty, and nonobviousness.

The hand drawn sketch in FIG. 6 depict various aspects of the invention. FIG. 6 may be used to communicate to an ordinary artisan as how the inventive bead may be constructed by a manufacturer, e.g., by punching a folding sheet metal.

A exemplary prototype is now discussed. The prototype has a generally U-ish and J-ish shape and is made from about twenty-six, e.g., about 20 to 30, gauge shim stock. The prototype 10 includes a first section 12, a second section 14, a third section 16, and a fourth section 18. Section 12 is about 1.5 inches in length and is the longest section. Section 14 is about ⅞ inch in length and is the second longest section, Sections 16 and 18 are each both shorter than section 14 and are about ½ inch in length. Section 12 faces each of sections 16 and 18 without any intervening section therebetween.

An angle between sections 12 and 14 is designated as A. An angle between sections 14 and 16 is designated as B. An angle between sections 18 and are photographs of a prototype of an embodiment of the invention. Angle A includes is approximately 90°. Angle B is less than 90°. Angle C is greater than 90° but less than 180°. The radius of curvature for angles A, B, and C is quite small (less than about 10%, 5% or 1%) relative to the length of sections 12, 14, 16, and 18.

Circular holes 20 are punched through sections 16 and 18 at the corner defined angle C. However, hole, circular or noncircular can be located at other locations as well, e.g., through sections 12, 14, 16, and/or 15. Such holes help plaster finish to adhere to a brown coat, plasterboard or sheetrock placed in the interior region 30 of the prototype 10.

In general, the invention helps construction workers save time and effort in providing a medium- to high-end finish in matters such as drywall, plastering, sill work, and the like. For example, the invention allows workers to avoid having to tape and de-tape when engaged in trim paint work. In addition, the invention provides a way to enhance mechanical properties and behavior of finishes. For example, Applicant has found that the invention unexpectedly reduces instances of cracking in plastering efforts. That is, the invention helps to eliminate the need to re-mud over cracks formed by inexperienced use of prior art casing beads. In sum, the invention allows inexperienced workers to work better and experienced workers save time.

Thus, in one embodiment, the invention provides a perfect ¾″ ground for the cement brown coat to prepare for finishes.

The invention also may provide improved slightly thermal insulation properties at interfaces, e.g., between a window casing and walls due to the presence of the void formed between the second section and the third section. When unfilled, the void is expected to be contain effectively immobilized air, and air is a well-known thermal insulator rather than a temperature conductor.

Variations on the Invention

Variations of the present invention will be apparent to those of ordinary skill in the art in view of the disclosure contained herein. For example, when the invention is made from sheet metal, a punch or some other cutter may first preform the sheet and then bent the sheet in to the desired U-ish shape. Alternatively, a sheet may be formed in to a desired shape before holes or perforations are introduced. Holes may be introduced to facilitate plaster adherence, e.g., to sheet rock, plasterboard, and/or the inventive bead casing itself.

Suitable materials for forming the casing bead of the invention include, e.g., metals such as steel, galvanized steel, copper, zinc, aluminum, stainless steel, as well as polymers such as polyvinyl chloride and other known industrial plastics. Care must be taken in materials selection because the invention is particularly sensitive to temperature and mechanical properties associated therewith respect to plaster cracking and workman handling issues.

Is should also be noted that both the leg and the return dimensions can vary to any length but the overall design/special shape of the trim (casing bead) will typically remain the same, e.g., as depicted and/or claimed. The number of plaster or other coats to be used with respect to the invention may be 1, 2, 3, 4, 5, 6 or more depending on the intended and effected final result.

The invention is typically compatible with existing bead technology. For example, the invention may involve the use of the invention as, or in combination with expansion joints, vent screeds, reveal screed, foundation screeds, drip screeds, as well. The invention may also exhibit versatility with respect to angled screeds and other construction details. As a result, the invention provides a new and improved overall plaster termination screed.

The invention may be carried out such that the shape formed as has an interior region of a thickness dimension appropriate to local measurement standards. For example, when local dimensional measurement standards are in inches, the thickness dimension may be 1 in, ⅝ in, 0.5 in, 0.25 in or any other convenient dimension appropriate to the needs of the construction project at hand. Similarly, when local dimensional measurement standards are metric in nature, the thickness dimension may be 1 cm, 2 cm. etc. Care must be taken to ensure that the invention comports with local construction/building codes and standards.

Additional variations of the invention may be discovered without departing from the spirit of the present invention. For example, the invention may be adapted to exhibit any of numerous of finishes, e.g., shiny, matte, embossed, etc., to achieve a high-end result. In addition, the invention may be adapted to exhibit any of numerous surface colors, so as to save labor cost on painting efforts.

It is to be understood that, while the invention has been described in conjunction with the preferred specific embodiments thereof, the foregoing description merely illustrates and does not limit the scope of the invention. For example, while the foregoing description focuses on square corners and flat sheets, the invention may also be of use in appropriate curved surface environments as well.

In any case, numerous alternatives and equivalents exist which do not depart from the invention set forth above. For example, the inventive apparatus may be constructed to contain or exclude specific features and components according to the intended use of the apparatus, and any particular embodiment of the invention, e.g., those depicted in any drawing herein, may be modified to include or exclude element of other embodiments. Alternatively, stated, different features of the invention described above may be combined in different ways. Other aspects, advantages, and modifications within the scope of the invention will be apparent to those skilled in the art to which the invention pertains.

All patent applications, and publications mentioned herein are incorporated by reference to an extent not inconsistent with the above disclosure.

Claims

1. A casing bead having a J-shape, comprising:

a sheet exhibiting a bent shape and having, in order, a first section, a second section, a third section, and a terminal and planar fourth section,

wherein the first and fourth sections have interior-facing, substantially perpendicular surfaces, and

the second section is substantially perpendicular to the first and fourth sections.

2. The casing bead of claim 1, wherein the third section is oriented at about 15° to about 75° relative to the second section.

3. The casing bead of claim 1, wherein the third section is oriented at about 45° relative to the second section.

4. The casing bead of claim 1, wherein the first and fourth sections are substantially parallel to each other.

5. The casing bead of claim 1, wherein the J-shape includes a void located between the second section and the third section.

6. (canceled)

7. The casing bead of claim 1, wherein the J-shape includes holes in the second or third sections.

8. The casing bead of claim 1, wherein the J-shape includes holes that span neighboring sections.

9. The casing bead of claim 1, comprising substantially identical circular holes.

10. The casing bead of claim 1, consisting essentially of the first, second, third, and fourth sections, wherein at least the fourth section is a terminal section.

11. The casing bead of claim 10, consisting of the first, second, third, and forth sections, the first and fourth sections being terminal sections.

12. A casing bead, consisting essentially of:

a planar sheet existing in a spurred J-shape of a first section, followed by a second section, followed by a third section, and followed by a terminal and planar fourth section,

wherein the first and fourth sections have interior facing surfaces, and

the second section is substantially perpendicular to the first and fourth sections.

13. The casing bead of claim 12, comprising a plurality of holes in the third and/or fourth sections.

14. The casing bead of claim 12, wherein the sheet has a thickness sufficient to resist plastic deformation during ordinary use.

15. The casing bead of claim 14, wherein the sheet thickness is 10 to 250 mils.

16. A process for forming a casing bead having a spurred J-shape consisting essentially of a sheet formed in a bent shape comprising a first section, a second section, a third section, and a terminal and planar fourth section, comprising:

(a) cutting out from a flat sheet of metal to form a blank of a preform shape; and

(b) bending the blank so that the first and fourth sections are formed to have interior facing surfaces and the second section is substantially perpendicular to the first and fourth sections.

17. The process of claim 16, further comprising an extrusion or die formation step before during, or after step (a).

18. The process of claim 16, forming a casing bead consisting essentially of aluminum.

19. The process of claim 16, wherein step (a) is carried out before step (b).

20. The process of claim 16, wherein the shape has an interior region of a thickness dimension appropriate to local measurement standards.