WO2012050889A1 - Wall-mounted adjustment systems and methods - Google Patents

Abstract

An in-wall component is installed in a partition by attaching the wall component to a bracket mounted to a hole in the partition. The component is slightly recessed from the front of the partition to create a slight recess between the front of the partition and the front of the component. A component leveler could then be attached to the bracket to cover the in-wall component, providing a mount that is substantially flush to the wall. The component leveler has several adjustment mechanisms that operate independently of one another to adjust an angular depth of the component leveler to ensure that the edges of the component leveler are perfectly flush with the front of the partition.

Description

WALL-MOUNT ADJUSTMENT SYSTEMS AND M ETHODS

This application claims the benefit of priority to US Patent Application 12/892166, filed

September 28, 2010 which claims the benefit of priority to US Provisional Application

61/325112, filed on April 16, 2010. This application is also a continuation-in-part of co-pending US Application 12/555534 filed September 8, 2009. US Application 12/555534 is a

continuation-in-part of US Application 12/427591 filed April 21 , 2009 which is a continuation- in-part of US Application 12/202870 filed September 2, 2008 which is a continuation-in-part of US Application 1 1 /954667 filed December 12, 2007, now Issued Patent No. 7,461 ,483 which is a continuation-in-part of US Application 11/566365 filed December 4, 2006, now Issued Patent No. 7699138 which is a continuation of US Application 1 1/548381 filed October 1 1, 2006 which claims priority to US Provisional Application 60/825162 filed September 11 , 2006 and claims priority to US Provisional Application 60/950237 filed July 1 7, 2007. US Application 11/566365 is also a continuation-in-part of International Application PCT/US07/16404 filed July 19, 2007 which claims priority to US Application 11/548381 filed October 11, 2006, US Provisional Application 60/825162 filed September 11, 2006 and US Provisional Application 60/950237 filed July 17, 2007. All prior applications are incorporated by reference in their entirety.

Field of the Invention

The field of the invention is ins tallation of wall-mounted components. Background

Plasma screens, speakers, light switches, electrical outlets, recessed lighting, junction boxes, HVAC ducts and other wall components are typically mounted to holes formed in walls or ceilings. These components are generally placed behind a hole in a wallboard and are then pulled forward so as to be accessible through the hole. The component is then affixed to a nearby stud or beam to hold the component in place through the wall. After the component has been attached to the stud or beam, however, it becomes very difficult to adjust the depth of the front of the component relative to the front surface of the wal lboard.

US3778609 to Liberman teaches a component bracket that slides along a plaster ring around the opening of the wallboard and adjusts a depth of the component with respect to the front surface of the wallboard. However, Liberman uses a flange to cover the gap between the hole in the wallboard and the ceiling. Use of the flange also helps to ensure that the front surface of the component is parallel with the front surface of the wall, since the front surface of the component is typically attached directly to the flange. Many installers wish to install wall components without using a flange, but would still appreciate a component bracket that allows depth adjustability. Liberman and ail other extrinsic materials discussed herein are incorporated by reference in their entirety. Where a definition or use of a term in an incorporated reference is inconsistent or contrary to the definition of th a t term provided herein, the definition of that term provided herein applies and the definition of that term in the reference does not apply.

US5482282 to Wynn teaches a wall component that mounts to a depth-adjustable screw^r that protrudes from a wall bracket. The depth-adjustable screw can be used to ensure that the wall component fits snugly against the wall, but since the depth-adjustable screw is only located on one side of the wall component. Wynn, however, also uses a flange to cover the gap between the wall component and the hole in the wall.

Thus, there is still a need in the art for improved adjustment mechanisms for wall components that are installed in a wall without a flange.

Summary of The Invention

The inventive subject matter provides apparatus, systems, and methods in which a wall component is installed into a partition, where the front surface of the wall component could be adjusted angularly with respect to the front surface of the partition. As used herein, the term "partition" should be construed broadly to mean any sort of mechanical barrier that separates two areas of space. Contemplated partitions include, for example, a wallboard, a ceiling tile, a granite countertop, a vehicle wall, and a door. Partitions can be made of any suitable material, including for example, plywood, plaster, wood, wood pulp, gypsum, stone, concrete, brick, and so forth. One preferred material is Aquatough™, due to its strength and water-resistance. The partitions can be supporting or non-supporting, so that even acoustic tiles used in a ceiling would be considered partition as the term is used herein. Similarly, wooden logs that form a wall in a log house would also be considered a partition as the term is used herein. Subsets of partitions include ceiling/wall partitions (i.e., barriers used as ceilings and/or floors), and wall partitions (i.e., barriers used as walls). Preferably, the partition is planar and is largely flat. As used herein, a "component" should be interpreted as genetically representing all practical wall mounted components, including for example, electrical outlets, data connectors, controllers, light and other switches, lighting, HVAC vents, sprinkler systems, smoke detectors, speakers, touch screens, and so forth. The various electrical and data wires and other cables are not shown in the figures, but should be assumed, and could be those conventionally contemplated in the art

The component is generally installed into the partition by coupling a bracket to an opening in the partition, and then by coupling the component to the bracket. The partition opening could be cut on or off site to accommodate the bracket, or the partition could be molded to have a hole sized and dimensioned to receive a component bracket. The bracket could be coupled to the partition in any suitable manner, for example by using a chemical adhesive, screws, or by clamping the bracket to both front and rear sides of the partition opening. Preferably, the bracket is coupled to only the rear side of the partition so that no part of either the componen t or the bra cket substantially protrudes from the front surface of the partition. As used herein, a surface that "substantially protrudes" from a surface extends less than 1 mm past the surface plane. in an exemplary embodiment, the bracket comprises at least two sections, a front bracket and a rear bracket where the front bracket is coupled to the partition and the rear bracket is coupled to wall infrastructure systems, such as electrical wires or liquid/air conduits. This way, the front bracket could be provided to an installer who specializes in installing brackets to wall partitions while the rear bracket could be provided to an installer who specializes in installing wall infrastructure systems for wall components, and the two brackets could be coupled at a later time. Preferably, the wall infrastructure is installed to the rear bracket before the partition is installed over the rear bracket. In an exemplary embodiment, the rear bracket is configured to attach to the front bracket at a variety of depths, allowing for a variety of depths to hold the wall component.

Once the bracket is sufficiently coupled to the partition, the component could be coupled to the bracket, and is preferably sligh tly recessed from the front of the recess such that a component leveler could fit within the recess. In an exemplary embodiment, the component leveler is slightly recessed from the fron t of the partition such that the fascia plate could a ttach to the component leveler to provide a more attractive flush mount finish. The fasica plate and the component leveler are sized and dimensioned such that the front surface of the fascia plate or the component leveler is substantially flush with the front surface of the partition. The component leveler has at least one depth adjustment mechanism that allows an installer to adjust the depth of a part of the component leveler with respect to the front surface of the partition.

Preferably, the component leveler has two, three, four, or more depth adjustment mechanisms close to the edges of the component leveler to allow an installer to adjust the depth of the component leveler angularly with respect to the front surface of the partition. This is especially useful for partitions with irregular surfaces, such as stone partitions, where one edge of the partition hole could protrude further than another edge of the partition hole. The depth adjustment mechanisms are preferably located within 0.5 in, 0.25 in., or even 1/8 in. from an edge or a corner of the component leveler. Providing multiple depth adjustment mechanisms also increases tension on the depth adjustment mechanisms, preventing the mechanism from sliding out of place post-installation. In an exemplar embodiment, the depth adjustment mechanisms are threaded adjustment screws that comprise affixed washers. Preferably, each depth adjustment mechanism is lockable at a certain depth to prevent the component leveler from easily shifting between depths when subjected to a sharp impact or vibration. As used herein, adjusting an object "angularly" means the ability to set the depth of one adjustment mechanism at a different depth of another adjustment mechanism for the same planar object, in this case the component leveler.

Allowing the component leveler to be adjusted angularly allows each edge of the front portion of the component to be substantially flush with the front of the partition. As used herein, surfaces that are "substantially flush" to one another means surfaces that diverge from one another by at most 0.05 in. (1 .27 mm). Preferably, substantially flush surfaces diverge from one another by at most 0.02 in, (0.0508 mm) or by at most 0.01 in, (0.254 mm). in exemplary embodiments, a fascia plate is provided that fits over the component leveler to hide the adjustment mechanisms from view. In such an embodiment, the component leveler is preferably slightly recessed from the front surface of the partition such that when the fascia plate is placed within the recess, the front of the fascia plate is substantially flush with the front of the partition. Exemplary fascia plates hide the attachment means between the fascia plate and the component Ieveler, such as those disclosed in application no, 12/251951 , incorporated herein by reference. In a preferred embodiment, the fascia plate comprises magnets that couple to magnetically attracti ve portions of the component Ieveler.

Since the fascia plate generally covers the depth adjustment mechanisms, a separate leveling plate is preferably utilized by an installer during installation to help adjust the various depths of the depth adjustment mechanisms. A leveling plate generally has the same size and dimensions as the fascia plate, but allows an installer to access the depth adjustment mechanisms, usually by pro viding holes in front of the depth adjustment mechanism. An installer using a leveling plate would generally match the edges of the leveling plate with the edges of the partition hole during installation to achieve a substantially flush look and feel. After the component Ieveler has been adjusted appropriately, the installer could then remove the leveling plate and then attach the fascia plate to the front of the component Ieveler. Of course, where a component Ieveler is not used, the installer would simply match the edges of the component ieveler with the edges of the partition hole during installation. Where the wall component is to be installed into a wall comprising drywall, the partition is preferably a panel such as those taught in application no. 12/555534, incorporated herein by reference. It is contemplated that the panel could be prefabricated with a hole sized and dimensioned to receive the mounting bracket to reduce the time and cost of installation. Such holes could be fabricated such that the components and covers are flush mounted with the finished wall, ceiling, floor or other surface. The hole in the panel preferably has a skirted recess to receiv e the mounting bracket, such that the gripping surface of the bracket i s slightly recessed from the front of the panel and the surrounding wallboard while the front-most portion of the spackle rim projects at least 0.01 in (0.254 mm) from the front of the panel. In other

embodiments, the front-most portion of the spackle rim projects at least 0.03 in. (0,762 mm) or at least 0,05 in. (1 ,27mm) from the front of the panel.

The inventive subject matter also provides apparatus, systems and methods in which a sanding shield limits the sandable area about an in-w^rall component, As used herein, a "sandable area" about an in-wall component is an area that could be sanded by a sanding surface, for example sandpaper or a sandblaster. Typically, the sanding shield limits the sandable area about an in- wall component by covering the in-wail component in some way, thereby preventing the sanding surface from coming in direct contact with a surface of the component by getting in between the sanding surface and the in-wall component.

Preferred sanding shield systems include a spackle rim with a recessed opening that provides access to a component that is mounted to a bracket behind the spackle rim, As used herein, a "recessed opening" is a hole that is skirted (i.e. at least partially surrounded) by a recess. Such recesses could be advantageously configured such a sanding shield placed within the recessed opening sits on top of the skirted recess, preventing the sanding shield from falling into the hole, While the sanding shield could be shaped to only cover a part of the hole, the sanding shield is preferably sized and dimensioned to cover the entire hole to prevent particulate matter from entering the hole and is more preferably sized and dimensioned to cover the entire recess as well as the hole, Since at least a portion of the component is generally accessible via the hole in the recessed opening, the sanding shield thereby protects that portion component from being sanded when mounted within the recessed opening, As used herein, a sanding shield that is "mounted" within a recessed opening is coupled to the recessed opening in such a way that the sanding shield does not fall out of the recessed opening when force is removed, for example by using a latch or a magnetic attachment, Preferably, the sanding shield is sized and disposed to fit so snugly in the recess that friction forces prevent the sanding shield from falling out of the recessed opening, Typically, the bracket has a front surface with the recessed opening and a mount that holds the component, which may ail be molded from a single piece or may be constructed from separate pieces, For example, if the wall component is a heavy speaker embedded in drywall, the mount could be made of a sturdy metal frame to hold the heavy component while the front surface could be made from a less durable thermoplastic, The bracket is typically attached to a partition before attaching the component to the bracket. Exemplary brackets are taught in co-pending application no. 12/555534 and its related parent applications, which are incorporated herein by reference.

Where the wall component is to be installed into a wall comprising drywall, the partition is preferably a panel such as those taught in application no. 12/555534, incorporated herein by reference. It is contemplated that the panel could be prefabricated with a hole sized and dimensioned to receive the mounting bracket to reduce the time and cost of installation. Such holes could be fabricated such that the components and covers are flush mounted with the finished wall, ceiling, floor or other surface. The hole in the panel preferably has a skirted recess to receive the mounting bracket similar to the skirted recess of the recessed opening. Preferably a front surface of the recessed opening is slightly recessed from the front surface of the partition to allow for spackle component to fill in the surrounding area and form a substantially flush surface after installation.

Flush mounting is generally achieved by installing the mounting bracket and recessed opening into the partition such that the front-most portion of the recessed opening is substantially flush with the front of the partition. Preferably, at least a portion of the perimeter of the recessed opening has a sloped spackle rim that is capable of being sanded down by more than a millimeter by applying at least 10 pounds per scjuare inch across the surface for 100 cycles. An installer could then spread spackle component across a surface of the partition up to the spackle rim of the moun ting bracket and then could sand excess spackle component from the front of the mounting bracket after the spackle component dries. The front surface of the bracket between the outer perimeters and the spackle rim are preferably non-planar to increase the surface area that receives the spackle component and "grip" the spackle component better. In an exemplar}' embodiment, the gripping surface is scored in multiple directions, for example a horizontal and a vertical direction, to prevent the mounting bracket from sliding in any direction after the spackle component has been applied.

Preferably, the front-most portion of the spackle rim projects at least 0.01 in (0.0254 mm) from the front-most portion of the panel so as to pro vide some tactile and/or visual feedback when the installer sands away a portion of the spackle rim around the sanding shield. In other

embodiments, the front-most portion of the spackle rim projects at least 0.03 in, (0,762 mm) or at least 0.05 in. (1 ,27mm) from the front of the panel.

The sanding shield is preferably made from a visually or tactily distinct material from standard spackle components so that an installer who sands the spackle component will know when to stop sanding. For example, the sanding shield could be made of a transparent or black material, so that an installer could sand the spackie component until the sanding shield is clearly visible through the dried spackie component, Preferably, the sanding shield is made from a colored (non-white) material, since most spackie components are white when they dry . In another embodiment, the sanding shield could comprise a rough material, so that the installer could sand the spackie component until the installer feels or hears the sound of a different material being sanded. Since the front-most portion of the spackie rim slightly projects from the front of the panel, any damage to the spackie rim by o ver-sanding would be negligible.

In an alternative embodiment, the tip of the spackie rim that projects past the front surface of the panel comprises a visually or tactily distinct material from the rest of the spackie rim that not only sends a signal to the installer when the tip of the spackie rim is being sanded away, but also sends a signal to the installer when the installer has sanded the spackie rim to be level with the front of the panel. For example, the tip of the spackie rim could comprise a granular material that easily wears away and sends a tactile signal up the arm of an instal ler that he should stop sanding, while the rest of the spackie rim is comprised of a tougher thermoplastic; or the tip of the spackie rim could comprise a first color, while the rest of the spackie rim comprises a second color visually distinct from the first color. Preferably, the tip of the spackie rim comprises a material with less mohs of hardness than the rest of the spackie rim, causing the tip to be easier to sand away. Preferably, the spackie rim protrudes from the front of the sanding shield by at least 0.005 in (0,0127 mm) or 0,01 in (0,0254 mm) and at most only 0.2 in (0,508 mm) or 0.1 in, (0.254 mm) of the tip is worn away while sanding.

Once the spackie component has been applied and sanded away, the front of the sanding shield should appear to be contiguous and flush with the panel. The installer could then remove the sanding shield and dispose a fascia plate in the recessed opening. The sanding shield could be removed by reaching behind the shield and popping it out of the recessed opening, or by pulling on a handle coupled to the sanding shield itself. In an exemplar embodiment, the handle comprises a hole with a width greater than 0.5 in (1.27 cm) or 0.75 in (1.905 cm) to allow an installer's finger to pull the spackie shield out. In another embodiment, the sanding shield has a recess that receives a handle that could be used to remove the sanding shield from the mount. Preferably, the fascia plate and the sanding shield are interchangeably mountable within the recessed opening, such that a front surface of the fascia plate is at the same dept when mounted in the recessed opening as a front surface of the sanding shield when mounted in the recessed opening, In one embodiment, the fascia plate has substantially the same thickness as the sanding shield so that the front of the fascia plate is also substantial ly flush with the front of the panel. As used herein, thicknesses that are "substantially the same" as one another are within 0.01 in. (0.254 mm) from one another, and are preferably within 0.005 in. (0.127 mm) from one another, A plurality of different fascia plates could be provided that provide distinct looks from one another to the front of the wall component, and some fascia plates could reveal different portions of the wall component depending on design. For example, a fascia plate for a wall outlet could reveal the electrical connections for the plug while covering all other parts of the wall outlet and a fascia plate for a monitor could reveal the screen while covering everything else.

Exemplary_' fascia plates hide the attachment means between the fascia plate and the component cover, such as those disclosed in application no. 12/251951, incorporated herein by reference. In a preferred embodiment, the fascia plate comprises magnets that couple to magnetically attractive portions of the component cover.

Various objects, features, aspects and advantages of the inventive subject matter will become more apparent from the following detailed description of preferred embodiments, along with the accompanying drawing figures in which like numerals represent like components.

Brief Description of The Drawing

Fig. 1 is a side cross-sectional view of an exemplary mounting bracket and sanding shield

Fig. 2 is a front perspective view of the mounting bracket and sanding shield of Figure 1.

Fig. 3 is a front perspective view of the mounting bracket and sanding shield of Figure 2 with spackle component spread across a surface of the sanding shield.

Fig. 4 is a front perspecti ve view of the mounting bracket and sanding shield of Figure 3 after the spackle component has been sanded away. Fig. 5 is a front perspective view of the mounting bracket of Figure 2 with an installed component and fascia plate.

Fig. 6 is a side cross-sectional view of the mounting bra cket and fascia plate of Figure 3.

Fig. 7 shows alternative fascia plates in accordance with the subject matter of the invention.

Fig. 8 is a front perspective view of the exemplary apparatus exploded about a solid surface partition.

Fig, 9A is a rear perspective view of the solid surface partition of Figure 8 with a chemical adhesive

Fig. 9B is rear perspective view of the solid surface partition of Figure 8 with an attached bracket

Fig. 9C is a front perspective view of the solid surface partition of Figure 8 with a component leveier attached to the component and the component bracket.

Fig. 9D is a front perspecti ve view of the apparatus of Figure 8 with an optional leveling plate used to fine-tune the adjustment mechanisms.

Fig. 9E is a front perspective view of the apparatus of Figure 8 with an attached fascia plate being installed.

Fig. 9F is a front perspective view of the apparatus of Figure 8 in its installed form,

Fig. 10 is an exploded view of an exemplary apparatus attached to a partition designed for a drywail mount,

Fig, 11 is an exploded view of an exemplar}' apparatus with a component leveler positioned behind the component.

Detailed Description

In Figures 1 asid 2, the flush mounting apparatus 100 generally has a wall component 150 that is attached to mounting bracket 120 with threaded screws 152, which in turn is attached to partition 140 using rear bracket 130 and threaded screw 132. While screws are used as an attachment means, other attachment means are contemplated, for example clips, nails, and magnets. Using screws to attach the components is by no means meant to limit the scope of the claims. While wall component 150 is shown here as a wall outlet with electrical wires 154, wall component 150 can be used euphemistically herein to represent any component that may be installed in a wail, whether electrical or non electrical.

Mounting bracket 120 generally comprises a spackle rim 122, a gripping surface 126, and a recessed opening 128. Recessed opening 128 allows access to the front of component 150, and recessed opening 128 is skirted with a projection 129 that serves as a "shelf" for sanding shield 1 10 to rest upon. While projection 129 is a single projection that extends along the entire perimeter of recessed opening 128, projection 129 could instead comprise a plurality of projections that hug a perimeter of the recessed opening without departing from the scope of the invention. Gripping surface 126 is scored along lines 127 to increase the surface area of gripping surface 126 when a spackle component is spread along its surface.

Sanding shield 110 with thickness 1 18 comprises a transparent thermoplastic, but may be made of any suitable color of any san ding-resistant material without departing from the scope of the invention. Sanding shield 110 has a recess 112 with an upper cover 113 sized and dimensioned to mate with a handle 116 and a lower cover 1 14 that prevents much of the sanded spackle from failing into the mounting bracket and possibly contaminating wall component 1 0. Sanding shield 110 is sized and dimensioned to cover all of entire recessed opening 128 including projection 129. Preferably the fit between sanding shield 110 and recessed opening 128 produces enough friction forces to hold sanding shield 1 10 within recessed opening 128 when mounting bracket 120 or partition 140 is tilted in any direction, however other attachment mechanisms could be used to hold sanding shield 1 10 in place, for example suction cups or tabs.

Spackle rim 122 is sized and dimensioned such that the upper-most tip 124 of spackl e rim 122 extends approximately 0.01 in. (0.254 mm) from the front of sanding shield 110 and from partition 140. The upper-most tip 124 of spackle rim 122 is made of a granular material that is sanded away easier than the lower section 123 of spackle rim 122 , allowing for a tactile difference when all of the upper-most tip 124 is sanded away. Preferably, the granular material is also slightly colored so as to give a visual indicator to an installer when the installer is close to sanding away the entirety of upper-most tip 124. When the installer sees and feels the granular tip sanding away, the installer could then slow the sanding process to ensure that the spackie is sanded exactly flush with the front of the sanding shield.

While the upper-most tip 124 of spackie rim 122 projects slightly from the front of sanding shield 110, in alternative embodiments the upper-most tip of spackie rim 122 could be sized and dimensioned to be flush with the front surface of sanding shield 1 10. In such an embodiment, the installer would simply sand away spackie until the installer sees the transparent or colored surface of sanding shield 110, and would then stop before sanding away any significant portion (more than 0.01 in or 0.254 mm) of spackie rim 122,

As shown in Figure 3, an installer could spread spackie component 310 over gripping surface 126, comple tely covering portions of partition 140, mounting bracket 120, and wall component 150. Once the spackie component is dry, the installer could then sand away spackie component 310 to ensure a perfectly flush surface, as shown in Figure 4. When the installer sands away the upper-most tip 124 of spackie rim 122, colored granular material 410 then pro vides a v isual cue to the installer that he should slow down his sanding until all of sanding shield 110 is visible. Preferably, colored granular material is a material that can be easily cleaned or erased, such as graphite. Sanding shield 1 10 could then be removed using handle 1 16 by the installer to be replaced by a fascia plate (not shown).

In Figures 5 and 6, sanding shield 1 10 has been replaced with fascia plate 420 that fits over component 410. Fascia plate 420 has substantially the same dimensions (length, width, and thickness) as sanding shield 110, but has holes 422 that reveal electrical plugs 12 in component 410. (note that the electrical plugs 412 and holes 422 are not drawn to scale in Figure 5 } Fascia plate 420's thickness 428 is substantially the same as sanding shield 110's thickness 118. Since fascia plate 420 has substantially the same thickness as sanding shield 110, fascia plate 420 is also substantially flush with the front of bracket 120 and partition 140.

While fascia plate 420's dimensions also allow it to be mountable within recessed opening 128 via friction forces without needing additional attachment mechanisms, fascia plate 420 has magnetically attractable material 432 and434 to help keep it in place. Magnetically attractable material 432 and 434 are attracted to magnetically attractable material 442, 444, 446, and 448 in component 410 to hold fascia plate 420 against component 410, respectively. As defined herein, "magnetically attractable material" is a material wit a relative magnetic permeability greater or equal to one. Preferably, magnetically attractable materials 442, 444, 446, and 448 are magnets, while magnetically attractable materials 432, 434, 436, and 438 are merely ferrous, but the opposite could be tnie without departing from the scope of the invention.

Figure 7 shows alternative fascia plates 730 and 740 that have similar sizes and dimensions to fascia plate 420, such that that each of the fascia plates are substantially flush with the surrounding front surface of the bracket and the wallboard when mounted to recessed opening 128. Alternative fascia plates if a installer wants to use the same bracket and spackle rim for different components, or if a user wants a different color or design for the same component.

In Figure 8, an exemplary apparatus 800 comprises a drywall partition 810, a solid surface partition 820, a rear bracket 830, a front bracket 840, a component 850, a component cover 860, and a fascia plate 870. As used herein, a "solid surface partition" is any partition that has a hardness that is higher than gypsum. Solid surface partitions generally require specialized installation techniques because the solid surface is tougher than drywall, spackle can't be used to easily fill in gaps and holes that are accidentally made during installation, and holes generally need to be cut with specialized table saws. In the current embodiment, the solid surface partition is a marble partition that is partially supported by the drywall partition, and requires a specialized saw to cut out the rectangular hole sized and dimensioned to accept front bracket 840,

Rear bracket 830 is a metal back plate with two holes 832 that are used to thread electrical wires 834 which will provide power and/or network connectivity to component 850. Electrical wires 834 are threaded through holes 832 and are held in place using banana clip 836. By providing a rear bracket 830 which is separate from front bracket 840, apparatus 800 allows an installer to install infrastructure systems and couple them directly to rear bracket 830 separate from the installation of front bracket 840, While the infrastructure system coupled to rear bracket 830 is shown here as two wires coupled to holes in a back plate, contemplated infrastructure systems are more complex, for example UPS power supplies, HVAC vents, or computer networking infrastructure. Rear bracket 830 could be made from any suitable material that can support a wall infrastructure without departing from t he scope of the invention . Front bracket 840 is sandwiched between solid surface partition 820 and drywail partition 810 to provide additional support to component 850, Drywail partition 810 is a standard drywail wail attached to support studs 812. Stronger partitions could be used to strengthen or otherwise front bracket 840 or solid surface partition 820, for example tile, wood, granite, or gypsum-made wall partitions such as Aquatough™. Holes 814 and 824 are sized and dimensioned to accept front bracket 840 to provide access between component 850 and electrical wires 834. It is contemplated that solid surface partition 820 and drywail partition 810 could be molded with holes 814 and 824, or the holes could be cut on-site.

Front bracket 840 is a metal bracket with wings 842 that help front bracket 840 couple to solid surface partition 820. As shown in Figures 9A and 9B, front bracket 840 is preferably coupled to solid surface partition 820 using chemical adhesive 822, which provides a semi-permanent bond between front bracket 840 and solid surface partition 820. Front bracket 840 could be attached to solid surface partition 820 in a variety of other suitable methods, for example by screwing the front bracket into the solid surface, by taping the wings to the solid surface, by using magnetic clamps, by using interlocking components, and by clamping solid surface partition 820 to drywail partition 8 10, thereby creating a compressive force that holds front bracket 840 in place.

Front bracket 840 has rough adjustment mechanisms 844 that allow front bracket 840 to slide towards and away the front surface of solid surface partition 820. Rough adjustment mechanisms 844 comprise slots 845 and screws 856 that allow an installer to roughly adjust the depth of the front bracket by the length of the slot after wings 842 have been semi-permanently bonded to the rear surface of solid surface partition 820. Alternative rough adjustment mechanisms are contemplated, for example ratchet systems, holes with pegs, and screws orientated perpendicularly to the plane of the solid surface.

After front bracket 840 and solid surface partition 820 are coupled with one another, drywail partition 810 could then add support to the front bracket and solid surface with screws or other adhesives that couple the drywail partition to the solid surface partition, thereby sandwiching the front bracket between the two partitions. The partitions could also be sandwiched together by coupling rear bracket 830 to front bracket 840 using screws, bolts, chemical adhesive, or other suitable attachment means. Interlocking partitions are also contemplated. While drywall partition 810 is provided to provide additional support to solid surface partition 820, front bracket 840 could be installed into solid surface partition 820 without the need of drywall partition 810.

After front bracket 840 is coupled to solid surface partition 820, component 850 could then be coupled to front bracket 840 and/or component leveler 860. Component 850 is preferably positioned between component leveler 860 and front bracket 840 to provide additional support to component 850, as wall components are generally rather expensive and troublesome to replace. Wall component 850 is a wall outlet that couples with wires 834 to provide electricity via an outlet box, but could be replaced with other suitable wall components if needed.

Component leveler 860 covers a portion of component 850, namely the top and bottom wings 852, and has four adjustment mechanisms 862, 864, 866, and 868 located near the corners of component leveler 860 which allow fine-adjustment of the front surface of component 850 relative to the front surface of partition 820. As shown in Figure 9C, his allows an installer to attach component leveler 860 to front bracket 840 via through holes 848, and also allows the installer to adjust component leveler 860 angularly. By fine-adjusting the four adjustment mechanisms 862, 864, 866, and 868, an installer could ensure that the front surface of component 850 is perfectly flush with the front surface of solid surface partition 820.

Since the current embodiment is designed to allow fascia plate 870 to fit over component 850, an installer would preferably adjust the four adjustment mechanisms 862, 864, 866, and 868 such that fascia plate 870 is flush with the front surface of solid surface partition 820. The installer could be aided through the use of a leveling plate 910 as shown in Figure 9D. Here, leveling plate 910 is a plate with the same thickness as fascia plate 870, but has access holes 912 that allow an installer to access the adjustment mechanisms 862, 864, 866, and 868 through leveling plate 910, By using leveling plate 910 in conjunction with the adjustment mechanisms 862, 864, 866, and 868, an installer could ensure that even' outer edge of leveling plate 910 is flush with every inner edge of hole 824 of solid surface partition 820. This therefore ensures that ever}' outer edge of fascia plate 870 will then be flush with every inner edge of hole 824 of solid surface partition 820, which in turn improves the flush-mount look and feel of fascia plate 870 when installed over component 850.

As shown in Figures 9E and 9F, fascia plate 870 couples to component leveler 860 using magnet attractors 872, and could be removed using suction cup 920, functioning much in the same way that fascia plate 420. Alternative fascia plate attachment mechanisms are

contemplated, such as those taught in co-pending application no. 12/251951, incorporated herein by reference.

Preferred installation instructions break down the installation into three component parts: (1) installation of the wall infrastructure, (2) installation of the component bracket, and (3) le veling of the component with respect to the solid surface partition. This is because different installation professionals typically install each segment separately. For example, in the present embodiment, typically an electrician would first install the electrical wiring to a back box and would either attach the back box to the rear bracket and leave the bracket hanging in the air, or would attach the back box to a wall stud. Then, an installer who specializes in installing marble tiles could then cut the solid surface and attach the bracket to the solid surface, and could attach the rear bracket to the front bracket. Lastly, a specialized installer could then install the component and the component leveler, could adjust the component leveler accordingly using the leveling plate, and then could couple the fascia plate to provide a substantially flush mount installation. By breaking down the installation into component parts, the apparatus can be installed without requiring marble wall installers to learn how to install electrical wiring, or wall infrastructure installers to learn how to cut marble.

Figure 10 shows an alternative apparatus 1000 that is designed to install a component 1040 into a gypsum partition 1010. Here, front and rear brackets are coupled to one another and are represented by bracket 1020, and component 1040, component leveler 1050, and fascia plate 1060 all function in substantially the same manner as component 850, component leveler 860, and fasica plate 870 in Figure 8. The major difference is that alternative apparatus 1000 now has a partition with a skirted recess, and has a mounting bracket 1030 that functions in substantially the same manner as mounting bracket 120 in Figure 1. This allows an installer to utilize the sanding shield of Figures 1 -7 to install component 1040 while fine-adjusting component leveler 1050 angularly,

Figure 11 shows an alternative apparatus 1100 that is designed to install a component in a wall in front of the component leveler. Alternati ve apparatus 1100 general ly has component 1110, partition 1120, component leveler 1130, and bracket 1140. Bracket 1140 could be attached to the back of partition 1120 or to a wail stud which is attached to the back of partition 1 120, while component leveler 1 130 could be attached to bracket 1 140 using attachment mechanisms 1132, 1 134, 1136, and 1138. This allows component 11 10 to be freely removable from the wall mount assembly, which could be useful when component 1 110 is a computer, such as a laptop, an iPod™, or an iPad™. In preferred embodiments, component 1110 is wrapped in a specialized case that magnetically mates with component le veler 1 130 to allow for ease of mounting and dismounting from the partition 1120.

It should be apparent to those skilled in the art that many more modifications besides those already described are possible without departing from the inventive concepts herein. The inventive subject matter, therefore, is not to be restricted except in the spirit of the appended claims, Moreover, in interpreting both the specification and the claims, all terms should be interpreted in the broadest possible manner consistent with the context. In particular, the terms "comprises" and "comprising" should be interpreted as referring to elements, components, or steps in a non-exclusive manner, indicating that the referenced elements, components, or steps may be present, or utilized, or combined with other elements, components, or steps that are not expressly referenced. Where the specification claims refers to at least one of something selected from the group consisting of A, B, C , , , , and N, the text should be interpreted as requiring only one element from the group, not A plus , or B plus N, etc.

Claims

CLAIMS What is claimed is:

1. An apparatus for limiting a sandable area about an in-wall component, comprising:

a bracket that holds the component:

a sloped spackle rim with a recessed opening that provides access to the bracket; and a sanding shield and a fasica plate interchangeably mountable within the recessed

opening, wherein the sanding shield covers at least a portion of the opening.

2. The apparatus of claim 1 , wherein the sanding shield covers an entire perimeter of the recessed opening.

3. The apparatus of claim 2, wherein the fascia plate reveals a portion of the component.

4. The apparatus of claim 1 , wherein the sanding shield comprises a transparent material.

5. The apparatus of claim 1 , wherein the sanding shield comprises a material having color other than white.

6. The apparatus of claim 1, wherein the sanding shield comprises a handle.

7. The apparatus of claim 1, wherein the sanding shield has substantially the same thickness as the fasica plate.

8. The apparatus of claim 1, wherein the fascia plate comprises a magnetically attractable material.

9. The apparatus of claim 1 , wherein the rim comprises a white material.

10. The apparatus of claim 1 , wherein a tip of the rim comprises a granular material.

11. The apparatus of claim 1 , wherein the rim protrudes from a front of the sanding shield by at least 0.01 in. (0.254 mm).

12. An apparatus for installing a wall component in an opening in a partition, comprising:

a bracket coupled to the partition opening, wherein the bracket is configured to receive a component; a component leveler that couples to component and the bracket;

a first adjustment mechanism that adjusts a first depth of the component leveler relative to a front surface of the partition;

a second adjustment mechanism that adjusts a second depth of the component leveler relative to the front surface of the partition; and

a third adjustment mechanism that adjusts a third depth of the component leveler rela tive to the front surface of the partition,

13. The apparatus of claim 12, wherein the bracket is coupled to the partition using a chemical adhesive.

14. The apparatus of claim 12, wherein the bracket is coupled to the partition using a screw.

15. The apparatus of claim 12, wherein the bracket comprises a front bracket and a back bracket, wherein the back bracket is configured to couple to the front bracket at different depths relative to the front surface of the partition.

16. The apparatus of claim 12, wherein the first adjustment mechanism comprises a threaded adjustment screw.

17. The apparatus of claim 12, wherein the first adjustment mechanism couples to the component leveler less than ½ in. from an edge of the component leveler.

18. The apparatus of claim 12, further comprising a fasica plate that couples to a front of the component leveler.

19. The apparatus of claim 18, wherein a front surface of the fascia plate is substantially flush with the front surfa ce of the partition.

20. The apparatus of claim 18, further comprising a leveler plate having a thickness substantially the same as a thickness of the fascia plate.

21. The apparatus of claim 20, wherein the leveler plate has a hole to allow access to the first adjustment mechanism through the leveler plate.