The present disclosure is generally related to stop beads and more particularly is related to stop beads for a wall having an interior cement board layer.
In the construction and building industry, stucco, plaster, or similar cement-based materials are commonly used as a wall finishing product to new and existing building. Stucco is generally composed of aggregates, a binder, and water. Once mixed, it is in a wet state and is applied to the exterior Sheathing of the building walls. After a period of time, it hardens to a very dense solid where it effectively acts as a durable exterior wall finish for the building.
The specific application of stucco can vary depending on a number of factors, such as the climate and geography of the building, the weather while the stucco is being applied, the finished decorative look of the stucco wall, and others. In virtually all installations, however, the installer first prepares the exterior sheathing of the building. This exterior sheathing layer is commonly composed of plywood, fiberboard, oriented strand board (OSB), or plank lumber which is affixed to the studs of the wall. The installer may then install various stucco accessories, such as weep screeds, expansion and control joints, corner-aids, and architectural reveals. The installer then affixes a wire mesh material, such as wire lath, expanded-metal lath, wove-wire lath, or welded-wire lath, against the exterior sheathing using appropriate fasteners. This wire mesh material provides a structural interfacing material to which the stucco can adhere, such that the stucco is properly retained against the exterior sheathing. The wire mesh material also adds strength to the stucco.
The installation of the stucco generally includes three different layers: first the scratch coat, then the brown coat, and then the finish coat. The scratch coat may consist of plastic cement and sand, or other materials, Which is installed against the wire mesh material with a trowel. The scratch coat is generally ⅜ inch to ½ inch thick and envelopes the wire mesh material. Prior to the scratch coat drying, the installer scores the surface with a trowel, scarifier, or similar tool to provide ¼ inch to ⅜ inch deep grooves, which provide an area for the next coat of stucco to adhere to and create a solid bond. The scratch coat must then be left to cure or dry for at least 24 hours, preferably 3-5 days, prior to the next coat.
Once the scratch coat has dried for at least 24 hours, the brown coat can be applied. The brown coat or leveling coat commonly consists of sand, cement, and lime. It is applied to a general thickness of ⅜ inch and is finished to have a leveled, smooth, even exterior surface. This smooth exterior surface is what the finish coat will eventually be applied to. However, before application of the finish coat, the brown coat must dry or cure for a minimum of 7-10 days to allow for shrinkage and/or cracking to occur. After waiting 70-10 days, the installer then returns to the job site to fill in any cracks that have appeared. It is well understood in the industry that waiting 7-10 days for the brown coat to cure is essential to ensuring the stucco wall finish is structurally sound and free from visual defects and imperfections. If the brown coat is not left to cure for 7-10 days and the finish coat is applied prematurely, the stucco wall will be substandard and likely to fail.
After waiting a minimum of 8 days from the initial application of the scratch coat, the final layer of the stucco wall finish may be applied. This final layer is the finish coat, which may include an acrylic finish or a color coat. The finish coat is generally a very thin layer, e.g., ⅛ inch or less, and is applied to the exterior of the cured brown coat. The finish coat may have a decorative finish to it as well as a specific color.
There are a number of complications with installing stucco. First, thetime required from start to finish is lengthy and installers must schedule various jobs at various times to ensure that proper cure times are maintained, all while balancing workflow. For example, a stucco installer may have 6 or more stucco projects occurring simultaneously, with each in different stages of application or curing. Another complication caused by the required cure times is that it makes the wall susceptible to damage from the weather. Especially with the brown coat, if rain or other precipitation occurs during the 7-10-day curing period, the moisture will damage the brown coat. If the damage is severe enough, the brown coat will need to be scraped off and reapplied, which is a very laborious and time-consuming process. Recent innovative techniques in stucco application have been developed to help alleviate these complications, but these new methods require new wall accessories and components.
Thus, a heretofore unaddressed need exists in the industry to address the aforementioned deficiencies and inadequacies.
Embodiments of the present disclosure provide a system for terminating a wall. Briefly described, in architecture, one embodiment of the system, among others, can be implemented as follows. A stop bead apparatus is affixed to exterior sheathing of a wall. The stop bead apparatus has: a substantially planar base panel; a stop bead wall extending in a substantially perpendicular angle from the base panel along a first edge of the base panel; a flexible spacing member extending from a first side of the stop bead wall to a jamb; and a front wall connected to the stop bead wall, the front wall extending a second side of the stop bead wall, wherein the second side is substantially opposite the first side, wherein a gap is formed between opposing faces of the base panel and the front wall. A rigid cement board is positioned within the gap, wherein cement forming the rigid cement board is cured prior to insertion into the gap. A finish layer is applied to an exterior surface of the rigid cement board.
The present disclosure can also be viewed as providing methods of constructing a termination point in a wall. In this regard, one embodiment of such a method, among others, can be broadly summarized by the following steps: attaching a stop bead apparatus to exterior sheathing of the wall at a terminating location of the wall; inserting an edge of a rigid, cured cement board into a gap formed between a base panel and a front wall of the stop bead apparatus; securing the cement board to the exterior sheathing, wherein at least a portion of the base panel of the stop bead apparatus is positioned between the exterior sheathing and the cement board;
and applying a finish layer to an exterior surface of the cement board.
The present disclosure can also be viewed as providing a stop head apparatus for use with a stucco wall. Briefly described, in architecture, one embodiment of the apparatus among others, can be implemented as follows. The stop bead apparatus has a substantially planar base panel. A stop bead wall extends in a substantially perpendicular angle from the base panel along a first edge of the base panel. A flexible spacing member extends from a first side of the stop bead wall. A front wall is connected to the stop bead wall, the front wall extending a second side of the stop bead wall, wherein the second side is substantially opposite the first side, wherein a gap is formed between opposing faces of the base panel and the front wall. A rigid cement board is removably insertable into the gap.
Other systems, methods, features, and advantages of the present disclosure will be or become apparent to one with skill in the art upon examination of the following drawings and detailed description. It is intended that all such additional systems, methods, features, and advantages be included within this description, be within the scope of the present disclosure, and be protected by the accompanying claims.
Many aspects of the disclosure can be better understood with reference to the following drawings. The components in the drawings are not necessarily to scale, emphasis instead being placed upon clearly illustrating the principles of the present disclosure. Moreover, in the drawings, like reference numerals designate corresponding parts throughout the several views.
To improve upon the shortcomings of the prior art, as described in the Background, the subject disclosure provides a system for terminating a wall. The wall is constructed with a rigid cement board as an interior layer, replacing scratch layer and effectively replacing the brown layer.
To lessen the time it takes to finish the exterior wall of a structure, these rigid cement boards 10 may be used in place of the scratch layer and/or brown layer on conventional stucco or plaster walls. Specifically, the installer may install the cement board 10 directly on the sheathing of the wall, or over another material placed on the sheathing, such as a vapor or moisture barrier. The cement board 10 may be secured with fasteners, such as screws, which affix the cement board to the sheathing. Once the wall is appropriately covered, the installer may then apply a finish coat to the wall, including filling any cracks between the adjacent edges of the cement board 10. Because the cement hoard 10 is already cured and rigid, the wall does not need to be given time to cure and shrink, as is required with conventional stucco and piaster walls. Thus, it is possible for an installer to effectively install the entirety of a stucco or plaster wall in one single day using cement board 10 versus the 8-15 days required with conventional stucco or plaster walls. This time savings allows the installer to be more efficient and also minimizes the risk of damage to an unfinished wall due to rain or moisture exposure.
The subject invention is directed to a system 20 for terminating a wall 22 which uses rigid, cured cement board 10 as an interior layer of the wall's 22 exterior surface.
The stop bead apparatus 30 includes a stop bead wall 34 extending in a substantially perpendicular angle from the base panel 32 along a first edge 36 of the base panel 32. The stop bead wall 34 is positioned such that it substantially extends out of the planar face of the wall 22, whereby it has an interior side which can contact the cement board 10 and an exterior side that faces towards the jamb of the door or window. A flexible spacing member 38 extends from a first side 40 (exterior side) of the stop bead wall 34 to a jamb (
The stop bead apparatus 30 also has a front wall 42 which is connected to the stop bead wall 34. The front wall 42 generally extending in a direction substantially opposite the first side of the stop bead wall 34, e.g., such that it extends away from the spacing member 38. The front wall 42 may extend a predetermined distance from the stop bead wall 34 to form a gap 44 between opposing faces of the base panel 32 and the front wall 42. Depending on the design of the system 20, the size of the front wall 42 and gap 44 may vary.
As is shown in
The finish layer 60 may include a variety of different materials and/or techniques, depending on the design of the wall. For example, it may be common for the installer to fill in any gaps between the edges of the cement boards 10 and then apply the finish layer. This may include first applying a wire mesh 62 which is fastened to the cement board 10. To the wire mesh 62, a finish coat 64 of stucco and/or plaster may then be applied, where the stucco and/or plaster material impregnates the wire mesh 62, which effectively holds it to the cement board 10. In other examples of the finish layer 60, the finish layer 60 may include other materials or techniques. For example, the installer may still install a brown coat, but the thickness of the brown coat may be substantially less than that of conventional stucco or piaster walls, such that the drying or curing time may lie far less than the conventional time of 7-10 days. The finish layer 60 may also include other materials beyond plaster or stucco, such as thin veneered stone, or other natural or artificial stone materials which can be applied to the wall as the finish layer 60.
Regardless of how the finish layer 60 is applied, the edge of the finish layer 60 may be interfaced with at least a portion of the front wall 42 of the stop bead apparatus 30, thereby allowing the installer to terminate the finish layer 60. The front wall 42 may include one or a plurality of features 46, such as holes, grooves, channels, or similar structural features, which catch the stucco or plaster material used in the finish layer 60, thereby securing, holding or catching the edge of the finish layer 60. This may prevent the edge of the finish layer 60 from falling off the wall 22. Additionally, the installer may install the finish layer 60 up to an exterior point 48 of the front wall 42, which effectively acts as a finish edge for the finish layer 60. This exterior point 48 which can be used to create a finish edge may have a variety of different shapes and dimensions, such as depicted relative to
As can be seen in
While the dimensions of the structure may vary, in one example the base panel is 1.75 inches and the front wall is approximately 0.75 inches in length with the first wall portion 52 being approximately 0.25 inches and the second wall portion 54 being 0.5 inches. The angular position of the first wall portion 52 may extend back towards the base panel 32 approximately 0.125 inches. The gap 44 may be approximately 0.5 inches, such that it is sized to receive a cement board 10 having a 0.5 inch thickness. For cement board 10 having other thicknesses, the gap 44 may be sized differently. Also, the space of the gap 44 may be slightly smaller than the thickness of the intended cement board 10, such that the front wall 42 is slightly biased outwards upon insertion of the cement board 10, and compresses back towards the cement board 10 to create a tight joint.
As is shown by block 102, a stop bead apparatus is attached to exterior sheathing of the wall at a terminating location of the wall. An edge of a rigid, cured cement board is inserted into a gap formed between a base panel and a front wall of the stop bead apparatus (block 104). The cement board is secured to the exterior sheathing, wherein at least a portion of the base panel of the stop bead apparatus is positioned between the exterior sheathing and the cement board (block 106). A finish layer is applied to an exterior surface of the cement board (block 108), As discussed previously, this method may save considerable time to installers of stucco or plaster walls by using cement boards which are cured and rigid, as opposed to scratch layers applied on-site. The stop bead apparatus may further enhance the time savings by allowing installers to easily and efficiently terminate the wall at a jamb or other structure, all while ensuring that the wall termination is durable and high-quality, it is noted that the method may include any number of additional steps, variations, or functions beyond those illustrated in
It should be emphasized that the above-described embodiments of the present disclosure, particularly, any “preferred” embodiments, are merely possible examples of implementations, merely set forth for a clear understanding of the principles of the disclosure. Many variations and modifications may be made to the above-described embodiment(s) of the disclosure without departing substantially from the spirit and principles of the disclosure. All such modifications and variations are intended to be included herein within the scope of this disclosure and the present disclosure and protected by the following claims.
This application claims benefit of U.S. Provisional Application Ser. No. 62/947,885 filed Dec. 13, 2019, the entire disclosure of which is incorporated herein by reference.
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