The present invention is in the technical area of construction apparatus and methods, and pertains more particularly to repairing damaged drywall.
Drywall is a very well-known system for finishing walls and ceilings in residences and business buildings. The skilled person will understand that drywall is not very sturdy, and drywall installations are rather easily damaged. Typical damage to a drywall involves a hole or other sort of broken opening of the drywall surface. Repair typically involves providing some sort of backing medium behind the existing drywall, across the opening, and a patch piece of drywall about the size of the boundary of the opening placed against the backing medium and fastened to the backing. Once the patch piece is in place, a compound such as putty may be applied along the seams in order for the surface to appear seamless with the undamaged drywall. The compound is then cured and sanded to make a new, smooth surface, which may then be finished, such as by painting.
Thin wooden slats, such as paint stirring sticks are often used as backing for drywall repair, but are not very sturdy, and tend to split when screws are engaged. Other apparatus and devices are known such as clamps and braces of various sorts, but these are sometimes difficult to work with, are awkward requiring two hands (or more) and may not allow a smooth finish. What is clearly needed are backing plates that are easily installed, work well with drywall screws and that are very sturdy. The present invention fills this need.
In one embodiment a backing plate for drywall repair is provided, comprising a body having an outer periphery, and a thickness substantially less than any dimension at right angles to the thickness, made from a semi-rigid material, the body exhibiting two opposite, parallel planar surfaces, a plurality of guiding indentions arranged in a closely-spaced pattern on a first one of the parallel planar surfaces of the body, each guiding indention extending into the body for a first dimension less than the thickness of the body, having an intersection of a first area in the planar surface, and a parallel area diminishing with depth of the guiding indention, and at the full depth of each guiding indention, a through hole of a diameter centered on the guiding indention and passing through the body and out the opposite planar surface.
In one embodiment the shape of each guiding indention is that of an inverted, truncated pyramid from the first surface to the depth of the guiding indention, comprising four slanted planes converging to the depth of the guiding indention. Also in one embodiment, the shape of each guiding indention may be that of an inverted, truncated cone, having a single converging surface from a first circular area at the first one of the parallel planar surfaces to the full depth of the guiding indention. In one embodiment the material of the backing plate may be a polymer or plastic, for example acrylonitrile butadiene styrene (ABS). This embodiment may also include that diameter of the through hole is provided to be a diameter that will capture the tip of a specific drywall screw.
In one embodiment the body is rectangular, and the guiding indentions are arranged in a Cartesian pattern. In this embodiment, there may seventy-two guiding indentions arranged in six rows of twelve guiding indentions.
In another aspect of the invention a process for repairing a damaged drywall panel is provided, comprising locating a damaged region in the drywall panel, trimming the damaged region and providing a regularly-shaped opening. Using standard drywall screws, securing two or more backing plates on the back side of the drywall panel being repaired. In this embodiment, each of the backing plates comprising a body having an outer periphery, and a thickness substantially less than any dimension at right angles to the thickness.
The backing plates may be made from a semi-rigid material, the body of the backing plate is arranged to include two opposite, parallel planar surfaces, and a plurality of guiding indentions may be arranged in a closely-spaced pattern on a first one of the parallel planar surfaces of the body. This embodiment provides that each guiding indention extends into the body for a first dimension that is less than the thickness of the body. Each guiding indention has an intersection of a first area in the planar surface, and a parallel area diminishing with depth of the guiding indention, and, at the full depth of each guiding indention, a through hole of a diameter centered on the guiding indention passes through the body and out the opposite planar surface.
The backing-plated may be installed projecting substantially into the regularly-shaped opening, cutting a patch-piece of drywall in the shape of the opening, placing the patch piece into the regularly-shaped opening against the backing plates, and fastening the patch-piece to the backing plates with drywall screws from the front, treating with filler material, and sanding as needed.
In one embodiment of the method the shape of each of the guiding indentions of the backing plates is that of an inverted, truncated pyramid from the first surface to the depth of the guiding indention. The truncated pyramid comprising four slanted planes converging to the depth of the guiding indention. Also, in one embodiment, the shape of each guiding indention of the backing plates is that of an inverted, truncated cone, having a single converging surface from a first circular area at the first one of the parallel planar surfaces to the full depth of the guiding indention. In one embodiment the material of the backing plates is acrylonitrile butadiene styrene (ABS). In one embodiment the diameter of the through hole is provided to be a diameter that will capture the tip of a specific drywall screw. In one embodiment the body is rectangular, and the guiding indentions are arranged in a Cartesian pattern. And in one embodiment there are seventy-two guiding indentions arranged in six rows of twelve guiding indentions.
Referring again to
Once the first drywall screw is set, and the backing-plate is secure, the user may repeat the action and engage a second drywall screw through the drywall panel into the backing-plate, and countersink the second screw as well. The first backing-plate is at this point very securely attached to the back of the drywall panel, with about one-half of the backing plate extending into the cut-out region. Once the first backing-plate is secure, the operation may be repeated to install a second backing plate into the cut-out region on an opposite edge of the cut-out region.
Implemented on one larger surface of the backing-plate, there are seventy-two indentions 402 formed into the backing-plate material, each presenting a square aspect of 6.5 mm on a side (close to one-quarter inch), with a through-hole at the center of 2 mm diameter. The seventy-two indentions are arranged on the panel in six rows of twelve indentions each. As may be seen more clearly in
Referring again to
A distinct advantage in the backing-plate in embodiments of the invention is that the alignment is automatic, and there is no damage or splitting of the backing-plate, as is often the case with wooden backings. Further, the ABS material, and careful sizing of the through hole enable the backing plate to be very firmly attached to the back of the drywall panel. This advantage is important after the backing-plates are installed, and the patch piece is placed and attached to the backing plates with further drywall screws. The installer doesn't have to be extremely careful, as is the case with most prior art devices and methods.
It will be apparent to the skilled person that backing-plates according to the invention may take different sizes, and have differing numbers of guiding indentions such as indentions 402. In one embodiment the indentions may be in the form of a truncated cone rather than a truncated pyramid. The cone aspect, however, presents less of a capture area (a circle) than does the pyramid aspect, which presents a square of greater area than the circle. The spacing on the surface of the backing-plate may be different as well, and the backing-plates may be of different shapes and sizes, and may be made of different materials. More or fewer backing plates may be installed, at least partly influenced by the size of a cut out to be closed by a patch-piece.
There are some circumstances wherein a vertical orientation of the backing plate will be required when adhering the backing plate along the edges of the cutout portion of the existing drywall. Studs and other obstacles behind the existing drywall may prohibit the vertical orientation seen in
The skilled person will understand that the embodiments described are exemplary, and that there may be many alterations made within the scope of the invention. The scope of the invention is defined only by the claims below.
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Number | Date | Country | |
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20200224440 A1 | Jul 2020 | US |