This invention relates to decorative casing trim and, more particularly, to prefabricated casing trim of the kind used to finish structural openings and to construct decorative elements on walls and ceilings of commercial and residential buildings and structures.
Structural openings in the walls of commercial and residential buildings include openings provided to enable the installation of doors, windows, passageways and recessed areas for bookcases, shelves, niches and the like. The framing of such openings during building construction allows sufficient space to enable precise positioning, adjustment and final alignment, then fastening of doors, windows and other elements during installation. Door and window units come in standardized sizes to simplify the installation processes, and are often provided with attached frames that simplify the installation of such units into framed structural openings. However, when such units are installed into structural openings, permanent gaps often appear between the structural framework and the abutting surfaces of the frames surrounding the units as a consequence of precise vertical and horizontal alignment of the units within, and fastening to, the structural openings.
It is common construction practice to cover the gaps between the framework of structural openings and installed units with trim mouldings, also commonly known and referred to hereinafter as casings. These are usually elongated relatively thin flat pieces of trim bounded by elongated linear side edges and shorter linear end edges. It is also common practice to have decorative profiles cut into at least one linear edge of casing pieces to enhance the visual appeal of the casings. Such decorative profiles can be simple or complex depending on the type of aesthetically pleasing appearance desired. The process of cutting decorative profiles into the edges of casing pieces is commonly known as milling.
Casing pieces with aesthetically pleasing decorative profiles milled into their linear edges are often used to construct other decorative elements in commercial and residential structures. Such decorative elements include chair railings, wainscoting, borders around the perimeters of walls and ceilings, and the like. However, installation of casings to conceal the gaps between installed units and the framework of structural openings, and to produce other decorative design elements on walls and ceilings, is time consuming and requires considerable skill and precision to achieve aesthetically pleasing results.
There are two common methods for installation of casings. The first method involves fitting together the individual vertical and horizontal casing pieces surrounding a structural opening by means of mitre joints wherein each end of a casing piece is cut precisely at a 45° angle to enable the formation of a tightly fitted and squared 90° corner. If the end-cuts are not precisely made with 45° angles, then visually displeasing small gaps will result in the mitred corners that join the vertical and horizontal casing pieces. In these cases, even more construction time is required to fill the gaps with a suitable putty or other filling compound, to allow the filling compound to harden, and then to remove excess filling compound by sanding to eliminate the gaps. As the complexity of the design milled into the linear edge of casing pieces increases, the difficulty of precisely cutting and fitting mitred corners is increased.
The second method involves installation of square blocks at the top corners around units such as doors and windows in a manner that bridges the gap between the units and the framework of the structural openings. The ends of the individual horizontal and vertical casing pieces are cut at precise 90° angles and are then tightly butted against the corner blocks. However, the second method is also time-consuming and requires considerable skill and precision to ensure that the corner blocks are perfectly squared and vertically aligned. Misalignment or un-squared corners will result in aesthetically unappealing gaps between the casing pieces and corner blocks. These gaps must also be filled with an appropriate filling compound that has been sanded after it has hardened.
An additional problem encountered when installing decorative casing pieces is that of joining vertical and horizontal casings which have different decorative profiles milled into their edges. One example of such a situation is the joining of a vertical casing piece to a horizontal casing piece installed in a vertical orientation at the juncture of a wall with a floor. In these situations, the decorative profile milled into the linear edge of one casing piece must be traced onto a paper pattern that is then transferred to the receiving edge of a casing piece with a different decorative profile milled into its linear edge. The first decorative profile is then cut into the second decorative profile by means of a coping saw. This process requires considerable skill, precision, time and patience in order to produce tightly fitting joints between adjoining casing pieces.
Because of their decorative properties, casings are also commonly used for installation of aesthetically appealing chair rails, wainscoting and other decorative elements on walls and ceilings. The vertical and horizontal casing pieces used to create such decorative trim work are abutted and joined by means of mitre joints. Consequently, the installation process for casing pieces used for decorative trim work is also time consuming and requires skill, precision and patience to produce tightly fitting squared joints.
There is therefore a need for an improved system for assembling and installing casing pieces that avoids at least some of the problems indicated above.
Accordingly, it is an object of the present invention, at least in its preferred forms, to simplify the process of installing decorative casing pieces to cover the gaps between the framing of structural openings and installed amenities such as doors, windows and the like.
According to one aspect of the present invention, there is provided a casing system, comprising a generally flat first casing piece having an outer face, an inner face, a pair of linear side edges and a pair of linear end edges, at least one of the linear side edges and at least one of the linear end edges being provided with a continuous decorative profile; and a second casing piece having an outer face, an inner face, a pair of linear side edges and a pair of linear end edges, at least one of the linear end edges being provided with a reverse image of the continuous decorative profile; whereby the first casing piece is adapted to be joined to the second casing piece by engagement of the continuous decorative profile of the first casing piece with the reverse image of the decorative profile of the second casing piece.
By the term decorative profile, I mean that a side edge or end edge (when viewed in cross-section) has a sloping surface extending from the outer face of the piece to the inner face of the piece. The sloping surface has a non-linear profile that preferably has at least two stages, each provided with a decorative profile. The decorative profile may be one of, or a combination of, a straight linear surface, a curved convex surface, or a curved concave surface.
It is important to note that the decorative profile, and the reverse image of the decorative profile, are both pre-formed on the first and second decorative pieces as the pieces are manufactured and before they are sold and used. The present invention therefore requires no shaping and precision cutting of decorative surfaces onto casing pieces as such pieces are being installed in buildings and the like.
While it is preferred to provide a decorative profile on both side edges and both end edges of the first casing piece of the present invention, this is not essential. The system can still be used to advantage if the first casing piece is provided with the decorative profile on at least one side edge or at least one end edge, although the versatility of the system is then reduced.
Similarly, while it is preferred to provide the reverse image of the decorative profile on both end edges of the second casing piece, this is not essential and the reverse image may be provided on one end edge only. The side edges of the second casing piece may have no decorative profile (if desired) or a different decorative profile from that used on the first casing piece, although it is preferred to provide both side edges of the second casing piece with the same decorative profile as that used on the first casing piece.
The present invention, at least in its preferred forms, can provide a system for producing and installing decorative casing pieces that does not require precise measurement and cutting of mitre joints to tightly fit adjoining or abutted casing pieces together, and thereby greatly reduces construction time required for installation of casings in residential and commercial buildings, yet enables fabrication of tightly fitted and aesthetically pleasing joints between abutted and joined casing pieces. The invention also relates to a kit of parts forming a casing system, preferably with instructions for assembly of the parts. The instructions include options for assembly as explained herein.
Other aspects and features of the present invention will become apparent to those skilled in the art upon review of the following description of specific embodiments of the invention that are described in conjunction with the accompanying drawings.
First of all, it should be noted that, throughout the several views of the accompanying drawings, similar elements of different parts of the equipment are identified by the same reference numerals for the sake of simplicity and ease of understanding.
The decorative casing system of the present invention can be used for quickly and easily covering the gaps between the framework of structural openings and installed units, and for creating decorative features on walls and ceilings of commercial and residential structures.
In its simplest form, the invention consists of two casing pieces. An example of a first casing piece (casing piece A) is shown in
As shown in
As shown in
Accordingly, the engagement surfaces of the decorative design reverse profile 6 at the end edges 7 of casing piece B contact and tightly engage the continuous decorative design profile 1 milled into the end edges 4 of casing piece A as shown at AA in
Alternatively, the engagement surfaces of the decorative design reverse profile 6 at the end edges 4 of casing piece B, may contact and tightly engage the decorative design profile 1 milled into the linear side edges 5 of casing piece A as shown at point BB in
Another feature of this invention is that the point of contact between the end edge 7 of casing piece B and linear edge 5 of casing piece A can be made at any point along the length of casing piece A, or at any point along the length of an extended casing piece made up of several conjoined casing pieces A and B as shown in
Such alignment, contact and engagement of decorative design profiles milled into linear edges of casing pieces with their exact reverse profiles milled into the end edges of other casing pieces can be carried out quickly and simply without the need for the time and skill required for precise measurement, cutting and fitting of two individual casing pieces to surround window or door units, or the like, installed into structural openings, and for decorative designs on walls and ceilings and, thus, represents a significant advantage over the current practices.
Precise measurements and mitre cuts into the ends of the casing pieces in order to tightly fit them around installed units, such as windows and doors, are not required with the present invention. An example of this is shown in
The same approach may be used to install decorative casing to cover the gaps between a structural opening and the frame of an installed door and other such units, and at the juncture of walls with floors. If so desired, the casing pieces A selected for securing to the top parts of the door frame may be longer than the structural opening so that the ends of the casing piece A extend beyond the contact points of the two vertical casing pieces B as shown in
It is not necessary to install casing pieces A horizontally and casing pieces B vertically in order to practice the invention. The same aesthetically pleasing results can be produced by installing casing pieces A along the vertical sides of installed units and installing casing pieces B along the horizontal sides. If casing pieces A are installed in a vertical orientation, they can be selected, if so preferred, to extend a predetermined distance beyond the top of structural framework. In this case, a casing piece B will be fastened to the top part of the unit's frame and the surrounding framework and tightly abutted against the two vertical casing pieces A, and a second casing piece B will be used to cap the two vertical casing pieces A as shown in
Casing pieces A and B may be additionally used to produce aesthetically pleasing functional designs on walls, i.e. for creating items such as chair railings and wainscoting as illustrated in
It should be noted that this invention is not restricted to a particular type or complexity of the design profiles milled into the linear and end edges of casing pieces. Rather, it is important that a selected design profile is continuously formed into the linear edges of casing pieces, and that preferably the same design profile is milled into some but not all of the end edges of the casing pieces. It is necessary for some of the end edges of the casing pieces to be milled with the exact reverse image of the continuous design profile, and it is this feature that provides the means by which casing pieces can be easily, simply, and quickly adjoined or abutted together to produce tightly fitting aesthetically pleasing joints and corners.
Another embodiment of the present invention relates to a method of further enhancing the aesthetic appearance of the continuous decorative casing systems by increasing the dimensional thickness of selected casing pieces of the type referred to as casing pieces A, by stacking a second type of casing piece A wherein the outer width of the second casing piece A will fit within the top surface margins for the first casing piece A as shown in
The preferred embodiments of this invention exemplified in
While the preferred embodiments have been shown, illustrated and described, it will be apparent to those skilled in this field that various modifications can be made in these embodiments without departing from the spirit of the present invention. Therefore, while the following claims define the embodiments in a particular way, any combination of one or more of these embodiments is contemplated according to the present invention.
This application is a continuation of U.S. application Ser. No. 10/675,548, filed Sep. 30, 2003.
Number | Date | Country | |
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Parent | 13961550 | Aug 2013 | US |
Child | 14454454 | US | |
Parent | 10675548 | Sep 2003 | US |
Child | 13961550 | US |