Drywall joint construction and method

Abstract

A drywall joint construction and method consisting essentially of abutting drywall boards having a lengthwise crack therebetween and a joint finishing system formed within the crack to complete the drywall joint construction such that a flexible layer defines the joint's center-line surface. Where the edges of the drywall boards are tapered, the resulting channel is filled with a taping compound and a tape forms the flexible layer covering the taping compound so as to flush the joint finishing system with the drywall boards. Where the drywall boards are non-tapered, the resulting slit therebetween may be filled with taping compound and a tape may again form the flexible layer covering the taping compound and flushing the joint finishing system with the abutting drywall boards, or the slit may be filled with a flexible compound that also forms the flexible layer and flushes the joint finishing system with the drywall boards.

Description

BACKGROUND OF THE INVENTION

INCORPORATION BY REFERENCE

Applicant hereby incorporates herein by reference any and all U.S. patents and U.S. patent applications cited or referred to in this application.

1. Field of the Invention

This invention relates generally to interior drywall, and more particularly to drywall joint constructions and methods.

2. Description of Related Art

In the interior drywall field, the conventional drywall joint is formed between drywall boards having tapered abutting edges so as to form an outwardly-facing recess along the joint that must be filled in. Conventional joint cement compound for filling the recess is formulated to be soft for easy sanding when finishing the joint. Unfortunately, as a result of this formulation, the typical conventional joint cement compound has little cohesion or adhesion to the underlying drywall boards, is weak and brittle, and is prone to cracking upon expansion or contraction of the drywall joint. Repair of such failed joints can be costly, particularly after the interior is completed and the building occupied.

Beyond these concerns relating to the structural integrity of the conventional drywall joint, the use of conventional joint cement compound also presents aesthetic problems for the finished joint, including the common problem of surface cracking. Because the joint cement is, again, soft and weak, when joint cement is at the surface of a drywall joint directly over the recess or crack between abutting drywall boards, center-line cracking along the recess often occurs as the joint is stressed and the drywall boards move relative to one another. Further, the conventional joint cement compound at the surface of the drywall joint also tends to absorb too much paint so as to leave different sheens on the wall or ceiling, commonly referred to in the art as flashing or photographing, and even allows for delamination between the drywall board, texture and paint.

Once a first coat of conventional joint cement compound is applied to the recess in the drywall joint, the typical drywall joint is completed by applying drywall tape or paper along the joint and then applying two top coats of conventional joint cement compound over the tape to flush the joint with the abutting drywall boards. Beyond the structural and aesthetic short-comings of this typical drywall joint, as explained previously, this joint finishing process creates other logistical and economic problems as well. First, the thick coats of conventional joint cement compound must be allowed to dry before the joint can be completed, requiring multiple trips to the work-site. And second, the number of coats of conventional joint cement compound adds further cost to the finished drywall joint both in terms of materials and labor.

The following art defines the present state of this field:

U.S. Pat. No. 2,323,963 to Ames is directed to a combined plastic and tape applicator which will combine the steps of applying plastic in the groove between adjacent wallboards and covering the plastic with tape for reinforcing purposes by first coating the tape with plastic and then applying it to the joint between two adjacent wallboard sections. This method of application not only combines two of the steps into one, but provides a more even distribution of the plastic that lies between the tape and the wallboard, thus increasing the adhesive contact between the plastic and the wallboard and thereby strengthening the entire joint.

U.S. Pat. No. 3,180,058 to Tillisch et al. is directed to a joint structure for plasterboard wherein there is provided plasterboard having a plurality of shallow, discontinuous indentations in multiple rows in at least one surface adjacent the edge thereof, and adapted to retain joint cement applied to such surface to insure a joint which is satisfactory and of pleasing appearance.

U.S. Pat. No. 3,708,935 to Kossuth et al. is directed to a predecorated wallboard for forming simulated monolithic predecorated wall construction composed of an elongated rectangular core panel including a set gypsum core enclosed on its two opposite sides and two longitudinal edges with a paper facing layer and having on its front side a flat central surface arranged between recessed marginal surfaces extending from the flat surface to the opposite longitudinal edges of the panel and tapering edgewise toward the rear side of the panel, and a decorative sheet including a cloth backing layer laminated only to the flat surface of the paper facing layer on the front side of the panel throughout the length of such front side and an outer polyvinyl chloride layer forming a decorative front wall surface, such sheet also including a narrower flap extending over one of the marginal surfaces but terminating flush with the adjacent longitudinal edge of the panel and a wider flap extending over the opposite marginal surface beyond the opposite longitudinal edge of the panel. Each wallboard is adapted to form a joint with an adjacent wallboard, such as a flat joint wherein the adjacent longitudinal edges of the panels are arranged in abutting relationship and the front sides thereof are flush, with the adjacent marginal surfaces thereof forming beneath adjacent narrower and wider flaps a shallow V-shaped recess or space to be filled to the level of the flat surfaces of the panels with a hardened joint cement layer to which the narrower and wider flaps are adhered as well as to each other in overlapping relationship over the marginal surface underlying the narrower flap, the joint being completed by cutting through the overlapping portions of both flaps, by removing the overlapping and overlapped marginal edge portions of the overlying and underlying flaps respectively to cause the narrow flap to terminate short of the adjacent longitudinal edge of the underlying panel, and by readhering the remainder of the overlying flap to cause the wider flap to extend into edge abutting and flush relationship with the narrower flap to form a practically invisible seam.

U.S. Pat. No. 4,122,222 to Parker is directed to a method and a preformed laminate useful in various forms for repairing holes and covering joints in drywall. The laminate comprises a sheet material backing having an overlay of plaster joint compound, or the like. The overlay has an outwardly tapered thickness. The laminate may be in circular, strip, or other form. The backing material is secured over the hole or joint, as the case may be, and a small amount of drywall joint compound is added around the perimeter to blend the patch into the wall surface.

European Patent App. No. 0,456,435 A1 to Retti is directed to an apparatus for taping joints between pieces of wallboard comprising a taping head, slidingly contactable with a wall, for substantially simultaneously applying a first layer of a joint compound to a joint between pieces of wallboard, embedding a wallboard tape in the first layer of the joint compound, and overcoating the embedded wallboard tape with at least one additional layer of the joint compound, a handle connected to the taping head, for supporting the taping head, the handle being manually graspable by an operator, the handle having a fluid conduit formed therein for passing joint compound to the taping head, a tape supply mounted on the handle for supplying wallboard tape to the taping head, a backpack, wearable by the operator, for supporting a supply of the joint compound and for producing a pressurized stream of the joint compound, and a flexible connecting means for fluidically interconnecting the backpack and the fluid conduit to pass the pressurized stream of the joint compound from the backpack to the fluid conduit.

U.S. Pat. No. 5,628,159 to Younts is directed to an improved joint strip for concealing a joint formed between two panels of adjacent wallboards formed of a flexible support strip capable of withstanding day-to-day wall vibrations and a rib adhered on one side of the support strip such that it extends the length of the support strip. The support strip may be formed from a variety of materials such as synthetic fibers, cellulose fibers, non-woven paper, plastic fibers, fiberglass, specially treated fabric, and mixtures thereof. The joint strip possesses superior strength and flexibility properties thus eliminating the need to use predecorated wallboard for forming a monolithic appearing wall.

Thus, the prior art described above teaches a combined plastic and tape applicator, a joint structure for plasterboard, a simulated monolithic predecorated wall construction, a laminate and method for drywall holes and joints, a wallboard taping process and apparatus therefor, and a joint strip, method of forming a wall using the joint strip, and wall made therefrom, but does not teach an improved drywall joint construction and method that both minimizes or altogether eliminates the conventional weak, chalky joint compound from the drywall joint, particularly at the joint surface, and provides a stronger, more attractive, and more economical joint. The present invention fulfills these needs and provides further related advantages as described in the following summary.

SUMMARY OF THE INVENTION

The present invention teaches certain benefits in construction and use which give rise to the objectives described below.

The present invention is generally directed to a drywall joint construction and method consisting essentially of a first drywall board having a first lengthwise edge and an outwardly-facing first planar surface, a second drywall board having a second lengthwise edge and an outwardly-facing second planar surface, the second drywall board being positioned adjacent the first drywall board such that the first and second lengthwise edges are brought into substantially abutting contact so as to form a lengthwise crack between the first and second planar surfaces, and a joint finishing system formed within the crack to complete the drywall joint construction. In a first exemplary embodiment, the first and second lengthwise edges of the drywall boards are tapered so as to form the crack as a channel, wherein the joint finishing system is configured as a taping compound filling the channel and a tape forming the flexible layer and covering the taping compound so as to flush the joint finishing system with the first and second planar surfaces of the abutting drywall boards. In the second and third exemplary embodiments, non-tapered drywall boards are employed such that the crack is formed as a slit. In the second embodiment, the slit is filled with taping compound and a tape again forms the flexible layer covering the taping compound and flushing the joint finishing system with the abutting drywall boards. In the third exemplary embodiment, a flexible compound forms the flexible layer and fills the slit so as to flush the joint finishing system with the drywall boards. Common to each of the three exemplary embodiments, a flexible layer rather than joint cement is employed at the center-line surface of the drywall joint construction, yielding a stronger, more crack-resistant and more aesthetically-pleasing drywall joint construction.

A primary objective of the present invention is to provide a drywall joint construction and method of use of such construction that provides advantages not taught by the prior art.

Another objective is to provide such an invention capable of reducing the amount of joint compound in a drywall joint.

Another objective is to provide such an invention capable of eliminating the conventional joint cement compound at the center-line surface of a drywall joint.

Yet another objective is to provide such an invention capable of eliminating the conventional joint cement compound from the crack of a drywall joint.

A further objective is to provide such an invention capable of eliminating the conventional joint cement compound at the surface of a drywall joint.

A still further objective is to provide such an invention capable of eliminating the conventional joint cement compound from a drywall joint.

Other features and advantages of the present invention will become apparent from the following more detailed description, taken in conjunction with the accompanying drawings, which illustrate, by way of example, the principles of the invention.

BRIEF DESCRIPTION OF THE DRAWINGS

The accompanying drawings illustrate the present invention. In such drawings:

FIG. 1 is a perspective view of an exemplary embodiment of a drywall joint of the present invention;

FIG. 2 is an enlarged cross-sectional view thereof taken along line 2-2 of FIG. 1;

FIG. 3 is a cross-sectional view of a second exemplary embodiment of a drywall joint of the present invention;

FIG. 4 is a cross-sectional view of a third exemplary embodiment of a drywall joint of the present invention; and

FIG. 5 is a cross-sectional view of a prior art drywall joint.

DETAILED DESCRIPTION OF THE INVENTION

The above described drawing figures illustrate the invention in at least three of its preferred embodiments, which are further defined in detail in the following description.

The present invention is generally directed to a drywall joint construction 10 consisting essentially of a first drywall board 20 having a first lengthwise edge 22 and an outwardly-facing first planar surface 24, a second drywall board 30 having a second lengthwise edge 32 and an outwardly-facing second planar surface 34, the second drywall board 30 being positioned adjacent the first drywall board 20 such that the first and second lengthwise edges 22, 32 are brought into substantially abutting contact so as to form a lengthwise crack 40 between the first and second planar surfaces 24, 34, and a joint finishing system 50 formed within the crack 40 to complete the drywall joint construction 10. Common to the joint finishing system 50 in each of the three exemplary embodiments shown and described, no conventional joint cement compound of any kind is employed at the center-line surface 80 of the drywall joint construction 10. As will be appreciated by those skilled in the art, conventional joint cement compounds are weak and chalky and are prone to cracking along the center-line surface 80 as the first and second drywall boards 20, 30 shift relative to one another, so that, as explained more fully below, by removing the conventional joint cement compound from the center-line surface 80, a stronger, more aesthetically-pleasing drywall joint construction 10 is obtained. Thus, center-line cracking in the joint cement compound of the conventional drywall joint is eliminated in the present invention by eliminating the joint cement compound from the critical center-line surface 80. Instead, a flexible layer 60, preferably of either tape or a flexible compound such as caulk, forms the center-line surface 80. While this is achieved in at least three ways as disclosed by the exemplary three embodiments, it will be further appreciated that other related joint constructions, involving various drywall board configurations, compounds and flexible outer layers, are possible without departing from the spirit and scope of the present invention.

Turning to FIG. 2, in a first exemplary embodiment of the drywall joint construction 10 of the present invention, the first and second drywall boards 20, 30 are shown installed in a substantially co-planar, abutting relationship, as when drywall is installed on an interior wall or ceiling of a building. The abutting first and second lengthwise edges 22, 32 are tapered inwardly from the respective first and second planar surfaces 24, 34 such that the crack is configured as an outwardly-opening channel 40 having opposite angled channel sides 42, 44. In this exemplary embodiment, then, the joint finishing system 50 begins with a taping compound 52 that fills the channel 40 so as to cover the channel sides 42, 44. Next, a flexible drywall tape 60 is installed over the taping compound 52 so as to flush the joint finishing system 50 with the first and second planar surfaces 24, 34. As the tape 60 is configured with opposite first and second marginal edges 62, 64, the joint finishing system 50 may further comprise a skim coat 70 applied over the marginal edges 62, 64 so as to blend the tape 60 with the first and second planar surfaces 24, 34. Importantly, the center-line surface 80 of the joint construction 10, which is defined as the outwardly-facing surface directly over the channel 40 and which is exposed for later surface treatment, is formed by the tape 60. No joint compound is at the surface of the joint construction 10 over the channel 40. As will again be appreciated by those skilled in the art, and as the test data below confirms, a finished drywall joint construction 10 having flexible tape 60 rather than weak, chalky joint cement compound at the center-line surface 80 over the crack 40 between abutting drywall boards 20, 30 produces a joint that is stronger and more crack-resistant. As such, the joint will also be more attractive. In a preferred embodiment, such an improved drywall joint construction 10 may also be achieved more economically than the conventional drywall joint by employing a non-shrinking joint cement formulation as the taping compound 52, thereby requiring only one coat of the compound before applying the tape 60. In this way, less material and fewer trips to the work-site may be required, saving on material and labor costs. An exemplary non-shrink taping compound 52 formulation includes 20-25% filler such as calcium carbonate or gypsum, 6-8% lightweight filler such as mica, 10-15% 3M® glass bubble, 1-5% methylcellulose, 10-20% resin and 30-50% water by weight, though any non-shrink compound will be sufficient. By comparison, the conventional joint cement formulation includes 20-25% filler such as calcium carbonate or gypsum, 6-8% lightweight filler such as mica, 5-15% attapulgite or bentonite clay, 1-5% methylcellulose, 5-8% resin and 50-60% water by weight. It will be appreciated by those skilled in the art that the relatively smaller amount of water by percent weight in the exemplary non-shrink formulation results in a taping compound 52 that shrinks relatively less when setting. It is noted that the use of a non-shrink taping compound 52 as compared to a standard joint cement compound is preferable only in terms of the associated potential material and labor cost savings, but is not necessarily preferable in any respect relating to the functional integrity of the finished drywall joint construction 10. Rather, the use of one or more coats of conventional joint cement compound or any other suitable material to bring the flexible tape 60 to the center-line surface 80 can be equally effective in the present invention.

Referring to FIG. 3, a second exemplary embodiment of the drywall joint construction 10′ of the present invention is shown as again including first and second drywall boards 20′, 30′ installed in a substantially co-planar, abutting relationship, but now with the respective first and second lengthwise edges 22′, 32′ being substantially perpendicular to the respective first and second planar surfaces 24′, 34′ such that the crack between the abutting boards 20′, 30′ is configured as an outwardly-opening slit 40′. The joint finishing system 50′ includes a taping compound 52′ filling the slit, which compound may be a conventional joint cement, a non-shrinking joint compound, a flexible compound such as caulk, or any other suitable material. By employing non-tapered drywall boards 20′, 30′, it will be appreciated that the total volume to be filled in flushing the joint is greatly reduced as compared to the tapered drywall boards 20, 30 shown in FIGS. 1 and 2, making the exemplary joint construction 10′ of FIG. 3 even more economical. Regarding the structural integrity of the finished joint, the joint finishing system 50′ further includes a flexible tape 60′ again covering the taping compound 52′ so as to flush the joint finishing system 50′ with the first and second planar surfaces 24′, 34′, though a skim coat 70′ may be employed to blend the marginal edges 62′, 64′ of the tape 60′ with the first and second planar surfaces 24′, 34′. Once more, the center-line surface 80′ of the joint construction 10′ is therefore formed by the tape 60′, not conventional joint cement compound, making the joint stronger and more crack-resistant, as again demonstrated by the test data reported and discussed below.

Turning now to FIG. 4, a third exemplary embodiment of the drywall joint construction 10″ of the present invention is shown as including first and second drywall boards 20″, 30″ installed in a substantially co-planar, abutting relationship and having respective first and second lengthwise edges 22″, 32″ substantially perpendicular to the respective first and second planar surfaces 24″, 34″ such that the crack between the abutting boards 20″, 30″ is again configured as an outwardly-opening slit 40″. The joint finishing system 50″ comprises a flexible compound 52″ defining the flexible layer 60 (FIG. 1) and filling the slit 40″ so as to flush the joint finishing system 50″ with the first and second planar drywall surfaces 24″, 34″. So as to more readily flush the flexible compound 52″ with the drywall surfaces 24″, 34″, it is preferred that the flexible compound 52″ be of a non-shrink formulation such as a caulk or a compound including 20-25% filler such as calcium carbonate or gypsum, 6-8% lightweight filler such as mica, 10-15% 3M® glass bubble, 1-5% methylcellulose, 30-50% resin and 10-20% water by weight, though, again, any flexible compound will suffice. It will be appreciated by those skilled in the art that by using a flexible compound that is non-shrinking, time and material costs may be saved, but the structural integrity of the finished joint will not be substantially affected. As with the previous two exemplary embodiments of FIGS. 2 and 3, respectively, the present exemplary embodiment of FIG. 4 also has the critical advantage over prior joint systems of employing a flexible layer 60 (FIG. 1), here the flexible compound 52″, at the center-line surface 80″ over the crack 40″ between abutting drywall boards 20″, 30″, rather than weak, chalky joint compound, so as to produce a joint construction 10″ that is stronger, more crack-resistant and more attractive.

Samples of both the exemplary three drywall joint constructions of the present invention shown in FIGS. 2-4 and the conventional drywall joint construction shown in FIG. 5 were evaluated for crack-resistance under the test explained below. The conventional joint construction 110, as shown in FIG. 5, includes abutting drywall boards 120, 130 having tapered first and second lengthwise edges 122, 132 so as to form a channel 140 that is partially filled in by a first taping coat 152. A drywall tape 160 is applied over the taping coat 152, and then the joint is flushed by one or more topping coats 170 of joint cement over the tape 160. Thus, it is clear that in the typical prior art drywall joint, joint cement forms the center-line surface 180 directly over the channel 140. While one topping coat 170 is shown, it is often the case that two topping coats are required to flush the joint, further weakening and adding more labor and material costs to the conventional drywall joint.

In testing the various drywall joint constructions, 12″×13″ pieces of drywall boards were abutted along their finished edges and the joints between the boards were completed according to the three exemplary joint constructions 10, 10′, 10″ of the present invention and the conventional drywall joint 110 now used in the art. Each such assembly was laid horizontally on a workstation such that the joint itself was positioned directly over a vertical piston. While the edges of the respective boards opposite the joint were held in place, the piston was caused to gradually force the center of the assembly, or the joint, vertically upward so as to effectively flex or bend the assembly about the joint. Such movement of the piston was allowed to continue until a crack visibly appeared on the surface of the joint. The crack resistance of each joint was then quantified as the change in position of the piston from the joint at rest to the joint at failure, when a crack was observed. Under this test, the conventional drywall joint 110 (FIG. 5) failed, or a crack was observed on the joint, at between 4.5 and 5.0 mm. Comparatively, in the first exemplary joint construction 10 of the present invention (FIG. 2), no crack was seen until between 29.0 and 31.0 mm. And in the second exemplary joint construction 10′ (FIG. 3), no crack was visible until the joint was flexed to between 42.0 and 43.5 mm from its unflexed starting position, indicating that eliminating more of the joint cement by replacing the conventional tapered drywall boards 20, 30 (FIG. 2) with non-tapered boards 20′, 30′, and thus constituting more of the joint system 50′ with drywall board rather than with joint cement, further improved the strength and crack-resistance of the joint. In both of the first two embodiments of the joint construction 10, 10′, the crack that was observed was in the skim coat 70, 70′ used to blend the marginal edges 62, 64, 62′, 64′ of the tape 60, 60′ with the respective planar drywall board surfaces 24, 34, 24′, 34′, not along the center-line surface 80, 80′ in the tape 60, 60′.

For the third exemplary joint construction 10″ (FIG. 4), wherein no joint cement is used at all, the first crack was seen at between 210.0 and 220.0 mm, evidencing that ridding the joint construction 10″ of joint cement altogether produces the strongest, most crack-resistant joint. While no joint should be expected to see in normal use the kind of movement or flexure indicated, this testing still provides a striking comparison of the crack-resistance of the joint constructions 10, 10′, 10″ of the present invention relative to a conventional drywall joint 110. Comparatively, the testing proves that all three exemplary embodiments of the present invention wherein the joint cement is at least eliminated from the center-line surface of the joint yielded significant improvements in crack-resistance over the conventional prior art drywall joint 110.

It follows that by removing the conventional joint cement compound from the center-line surfaces 80, 80′, 80″ of the drywall joint constructions 10, 10′, 10″ according to the present invention, a stronger, more crack-resistant joint is achieved. Generally, both drywall tape and drywall board are over 300% stronger than the typical joint cement, and flexible compounds such as caulks can be even stronger. Thus, though it has generally always been thought in the art that the joint cement is the strongest part of the joint system, this is simply not the case, as the above test data indicates. In fact, the typical joint cement is actually designed to be weak and chalky so that it can be easily sanded down to bring it flush with the abutting drywall boards. These same attributes cause the joint cement to be prone to cracking. The present invention takes advantage of a correct understanding of the relative strengths of the components of the typical drywall joint to beneficially remove the joint cement from the center-line surface of the joint construction, and in two constructions 10′, 10″ effectively remove the joint cement from the joint system 50′, 50″ altogether, so as to produce an improved, stronger and more crack-resistant drywall joint construction.

Moreover, the problem of surface cracking, which makes a drywall joint unsightly and costly to repair, is effectively eliminated by the joint constructions 10, 10′, 10″ of the present invention. While having the soft and weak joint cement at the surface of a drywall joint directly over the recess or crack between abutting drywall boards allows center-line cracking to often occur along the recess as the joint is stressed and the drywall boards move relative to one another, the joint constructions 10, 10′, 10″ of the present invention are stronger and greatly reduce the risk of such surface cracking by entirely removing the joint cement from the center-line surface 80, 80′, 80″. Further, as is known in the art, the conventional joint cement compound at the surface of the typical drywall joint 110 also tends to absorb too much paint so as to leave different sheens on the wall or ceiling, commonly referred to as flashing or photographing. The joint constructions 10, 10′, 10″ of the present invention eliminate this problem as well, again, by entirely removing the absorptive joint cement from the center-line surface 80, 80′, 80″. The risk of delamination between the drywall board, texture and paint possible in the conventional drywall joint 110 employing joint cement 170 at the surface 180 is also effectively eliminated in the joint constructions 10, 10′, 10″ of the present invention. And regarding the aesthetics of the drywall joint, it is preferred, though not necessary in practicing the present invention, that an elastomeric paint (not shown) be employed in covering the joint that has a crack resistance equal to or exceeding that of the joint, or that has a flexibility or elongation meeting or exceeding that of the respective joint construction. In this way, the paint would be unlikely to crack before the joint ever would.

Beyond these structural and aesthetic considerations, those skilled in the art will appreciate that the joint constructions 10, 10′, 10″ of the present invention also provide economic benefits over the conventional drywall joint 110. As seen, even in the first and second exemplary joint constructions 10, 10′ wherein a taping compound 52, 52′ is used to fill in the space 40, 40′ between abutting drywall boards 20, 30, 20′, 30′, because only one taping coat 52, 52′ and a thin skim coat 70, 70′ are generally required to complete the joint finishing system 50, 50′, as compared to the usual taping coat 152 and two topping coats 170 required in the conventional drywall joint 110, savings in time and material costs are gained. Moreover, when non-tapered drywall boards 20′, 30′, 20″, 30″ are employed, as in the second and third joint constructions 10′, 10″ of the present invention, the space 40′, 40″ to be filled in is reduced, thereby reducing the materials required and, accordingly, the labor needed to install the materials. In the third exemplary joint construction 10″, the elimination of the drywall tape and drywall joint compound altogether provides even further savings in terms of both materials and labor.

Therefore, the present invention of an improved drywall joint construction and method both minimizes or altogether eliminates the conventional weak, chalky joint cement compound from the drywall joint, particularly at the joint surface where cracking is most likely and most detrimental, and provides a stronger, more attractive, and more economical joint. While the invention has been described with reference to at least three preferred embodiments, it is to be clearly understood by those skilled in the art that the invention is not limited thereto. Rather, the scope of the invention is to be interpreted only in conjunction with the appended claims and it is made clear, here, that the inventor believes that the claimed subject matter is the invention.

Claims

1. A drywall joint construction consisting essentially of:

a first drywall board having a first lengthwise edge and an outwardly-facing first planar surface;

a second drywall board having a second lengthwise edge and an outwardly-facing second planar surface, the second drywall board being positioned adjacent the first drywall board such that the first and second lengthwise edges are brought into substantially abutting contact so as to form a lengthwise crack between the first and second planar surfaces, a center-line surface of the joint construction being defined as the outwardly-facing surface directly over the crack and exposed for surface treatment; and

a joint finishing system installed within the crack to complete the drywall joint construction, the system including a flexible layer forming the center-line surface.

2. The construction of claim 1 wherein:

the first lengthwise edge is tapered inwardly from the first planar surface and the second lengthwise edge is tapered inwardly from the second planar surface such that the crack is configured as an outwardly-opening channel having opposite angled channel sides; and

the joint finishing system comprises: a taping compound filling the channel so as to cover the channel sides; and a tape forming the flexible layer and covering the taping compound so as to flush the joint finishing system with the first and second planar surfaces.

3. The construction of claim 2 wherein the taping compound comprises a joint cement.

4. The construction of claim 3 wherein the joint cement is a non-shrinking formulation.

5. The construction of claim 2 wherein:

the tape is configured with opposite first and second marginal edges; and

the joint finishing system further comprises a skim coat applied over the marginal edges so as to blend the tape with the first and second planar surfaces.

6. The construction of claim 1 wherein:

the first lengthwise edge is substantially perpendicular to the first planar surface and the second lengthwise edge is substantially perpendicular to the second planar surface such that the crack is configured as an outwardly-opening slit; and

the joint finishing system comprises: a taping compound filling the slit; and a tape forming the flexible layer and covering the taping compound so as to flush the joint finishing system with the first and second planar surfaces.

7. The construction of claim 6 wherein the taping compound comprises a joint cement.

8. The construction of claim 6 wherein the taping compound comprises a flexible compound.

9. The construction of claim 6 wherein:

the tape is configured with opposite first and second marginal edges; and

the joint finishing system further comprises a skim coat applied over the marginal edges so as to blend the tape with the first and second planar surfaces.

10. The construction of claim 1 wherein:

the first lengthwise edge is substantially perpendicular to the first planar surface and the second lengthwise edge is substantially perpendicular to the second planar surface such that the crack is configured as an outwardly-opening slit; and

the joint finishing system comprises a flexible compound forming the flexible layer and filling the slit so as to flush the joint finishing system with the first and second planar surfaces.

11. The construction of claim 10 wherein the flexible compound comprises a non-shrinking formulation.

12. A drywall joint construction consisting essentially of:

a first drywall board having a first lengthwise edge and an outwardly-facing first planar surface, the first lengthwise edge tapering inwardly from the first planar surface;

a second drywall board having a second lengthwise edge and an outwardly-facing second planar surface, the second lengthwise edge tapering inwardly from the second planar surface, the second drywall board being positioned adjacent the first drywall board such that the first and second lengthwise edges are brought into substantially abutting contact so as to form a lengthwise crack between the first and second planar surfaces configured as an outwardly-opening channel having opposite angled channel sides;

a taping compound filling the channel so as to cover the channel sides;

a tape covering the taping compound so as to flush the joint construction with the first and second planar surfaces, the tape being configured with opposite first and second marginal edges; and

a skim coat applied over the marginal edges so as to blend the tape with the first and second planar surfaces.

13. A drywall joint construction consisting essentially of:

a first drywall board having a first lengthwise edge and an outwardly-facing first planar surface, the first lengthwise edge being substantially perpendicular to the first planar surface;

a second drywall board having a second lengthwise edge and an outwardly-facing second planar surface, the second lengthwise edge being substantially perpendicular to the second planar surface, the second drywall board being positioned adjacent the first drywall board such that the first and second lengthwise edges are brought into substantially abutting contact so as to form a lengthwise crack between the first and second planar surfaces configured as an outwardly-opening slit;

a taping compound filling the slit;

a tape covering the taping compound so as to flush the joint construction with the first and second planar surfaces, the tape being configured with opposite first and second marginal edges; and

a skim coat applied over the marginal edges so as to blend the tape with the first and second planar surfaces.

14. The construction of claim 13 wherein the taping compound comprises a joint cement.

15. The construction of claim 13 wherein the taping compound comprises a flexible compound.

16. A drywall joint construction consisting essentially of:

a first drywall board having a first lengthwise edge and an outwardly-facing first planar surface, the first lengthwise edge being substantially perpendicular to the first planar surface;

a second drywall board having a second lengthwise edge and an outwardly-facing second planar surface, the second lengthwise edge being substantially perpendicular to the second planar surface, the second drywall board being positioned adjacent the first drywall board such that the first and second lengthwise edges are brought into substantially abutting contact so as to form a lengthwise crack between the first and second planar surfaces configured as an outwardly-opening slit; and

a flexible compound filling the slit so as to flush the joint construction with the first and second planar surfaces.

17. A method of forming a drywall joint consisting essentially of the steps of:

positioning a first drywall board having a first lengthwise edge and an outwardly-facing first planar surface against a support structure;

positioning a second drywall board having a second lengthwise edge and an outwardly-facing second planar surface against the support structure such that the second drywall board is adjacent the first drywall board and the first and second lengthwise edges are brought into substantially abutting contact so as to form a lengthwise crack between the first and second planar surfaces, a center-line surface of the drywall joint being defined as the outwardly-facing surface directly over the crack and exposed for surface treatment; and

filling the crack with a flexible compound so as to form the center-line surface and to flush the drywall joint with the first and second planar surfaces.

18. A method of forming a drywall joint consisting essentially of the steps of:

positioning a first drywall board having a first lengthwise edge and an outwardly-facing first planar surface against a support surface;

positioning a second drywall board having a second lengthwise edge and an outwardly-facing second planar surface against the support surface such that the second drywall board is adjacent the first drywall board and the first and second lengthwise edges are brought into substantially abutting contact so as to form a lengthwise crack between the first and second planar surfaces, a center-line surface of the drywall joint being defined as the outwardly-facing surface directly over the crack and exposed for surface treatment;

filling the crack with a taping compound;

taping over the taping compound with a drywall tape so as to form the center-line surface and to flush the drywall joint with the first and second planar surfaces; and

applying a skim coat over opposite first and second marginal edges of the tape so as to blend the tape with the first and second planar surfaces.

19. A method of forming a drywall joint consisting essentially of the steps of:

positioning a first drywall board against a support surface, the first drywall board having an outwardly-facing first planar surface and a first lengthwise edge tapered inwardly from the first planar surface;

positioning a second drywall board against the support surface, the second drywall board having an outwardly-facing second planar surface and a second lengthwise edge tapered inwardly from the second planar surface, such that the second drywall board is adjacent the first drywall board and the first and second lengthwise edges are brought into substantially abutting contact so as to form between the first and second planar surfaces a lengthwise outwardly-opening channel having opposite angled channel sides, a center-line surface of the drywall joint being defined as the outwardly-facing surface directly over the channel and exposed for surface treatment;

filling the channel with a taping compound so as to cover the channel sides;

taping over the taping compound with a drywall tape so as to form the center-line surface and to flush the drywall joint with the first and second planar surfaces; and

applying a skim coat over opposite first and second marginal edges of the tape so as to blend the tape with the first and second planar surfaces.