Systems and methods provide power to a device via a dock. A mounting base may include a mounting component, including a receiving area configured to removably receive a mating device at a plurality of orientations within a plane, wherein the mounting component comprises one or more indexing members and the mating device comprises one or more indexing elements, or the mating device comprises one or more indexing members and the mounting component comprises one or more indexing elements, the indexing members and elements configured to engage each other to align the mating device with the mounting component in one or more rotational orientations on said plane. A detector, configured to detect the presence of the mating device, and a driver circuit may be included. A device may be configured to control power sourced to the mating device by the driver circuit after the detector detects the mating device.
Systems and methods provide power to a device via a dock. A mounting base may include a mounting component, including a receiving area configured to removably receive a mating device at a plurality of orientations within a plane, wherein the mounting component comprises one or more indexing members and the mating device comprises one or more indexing elements, or the mating device comprises one or more indexing members and the mounting component comprises one or more indexing elements, the indexing members and elements configured to engage each other to align the mating device with the mounting component in one or more rotational orientations on said plane. A detector, configured to detect the presence of the mating device, and a driver circuit may be included. A device may be configured to control power sourced to the mating device by the driver circuit after the detector detects the mating device.
Systems and methods provide power to a device via a dock. A mounting base may include a mounting component, including a receiving area configured to removably receive a mating device at a plurality of orientations within a plane, wherein the mounting component comprises one or more indexing members and the mating device comprises one or more indexing elements, or the mating device comprises one or more indexing members and the mounting component comprises one or more indexing elements, the indexing members and elements configured to engage each other to align the mating device with the mounting component in one or more rotational orientations on said plane. A detector, configured to detect the presence of the mating device, and a driver circuit may be included. A device may be configured to control power sourced to the mating device by the driver circuit after the detector detects the mating device.
A panel with multiple openings and brackets can be used to flush-mount multiple components in a wallboard. The panel is installed flush with the wallboard and the junction between the panel and the wallboard is plastered or drywalled to create a uniform appearance. Wall-mounted components can then be installed into the brackets into openings that have been pre-measured and cut to ensure that the components are aligned with precision relative to one another before installation even begins.
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.
An installation mount for an in-wall component has a sloped spackle rim around a recessed opening. The recessed opening is shaped to accept either a sanding shield or a component cover. While the sanding shield is in the recessed opening, an installer could spackle the front surface of the installation mount and can then sand the spackle away until the sanding shield is exposed, creating a surface that is flush with the rest of the wall. The sanding shield could then be so that the sanding shield could be used to protect the interior of the installation mount during sanding, while the component cover could be used while the component cover is in use to protect the component and provide a flush-mount look and feel.
th inch,. A collar is preferably installed about the inner edge of the opening, and a receiver is attached to the collar or directly to the panel. Magnetic, threaded, detent, and frictional means are contemplated for maintaining the component in position relative to the receiver.
Mounting systems are described for installing components in walls or other structural barriers. A preferred mounting system has a rear bracket and a component holder that supports the component, and that cooperate with each other to sandwich the structural barrier. An intermediate piece mates with the component holder, and has a hole through which a portion of the component can extend. A cover mates with the component holders, and is preferably recessed within the intermediate piece such that the outward facing surface of the cover is flush with a spackle rim.
An installation mount for an in-wall component has a sloped spackle rim around a recessed opening. The recessed opening is shaped to accept either a sanding shield or a component cover. While the sanding shield is in the recessed opening, an installer could spackle the front surface of the installation mount and can then sand the spackle away until the sanding shield is exposed, creating a surface that is flush with the rest of the wall. The sanding shield could then be so that the sanding shield could be used to protect the interior of the installation mount during sanding, while the component cover could be used while the component cover is in use to protect the component and provide a flush-mount look and feel.
E04C 2/52 - Building elements of relatively thin form for the construction of parts of buildings, e.g. sheet materials, slabs, or panels characterised by the shape or structure with special adaptations for auxiliary purposes, e.g. serving for locating conduits
10.
FLUSH MOUNTING APPARATUS AND METHODS USING COMPONENT COVER
A panel with a bracket is used to install a component to a wallboard. The panel is inserted into an opening to a wallboard, and the junction between the panel and the wallboard is taped and spackled so that the wallboard and panel appear to be a single object. When the component is fully coupled to the bracket, the front of the component is slightly recessed from the front of the panel. A component cover could then be inserted into the newly created recess so that the component appears to be completely flush with the wallboard.
A panel with a bracket is used to install a component to a wallboard. The panel is inserted into an opening to a wallboard, and the junction between the panel and the wallboard is taped and spackled so that the wallboard and panel appear to be a single object. When the component is fully coupled to the bracket, the front of the component is slightly recessed from the front of the panel. A component cover could then be inserted into the newly created recess so that the component appears to be completely flush with the wallboard.
The present invention provides a system and method for mounting an electrical device on a wall. The electrical device has a mount and a base. The base connects to an electrical outlet on a surface, and has a first electrical connector, and a magnetic face plate. The electrical device has a magnet and a second electrical conductor that are positioned so that the magnet mates with the magnetic face plate, and the second electrical connector mates with the first electrical connector.
A speaker mount has differently shaped coverings. Preferred speakers have a mount that is coupled to a base. The speaker has two interchangeable covers with speaker grills that fit over the mount and have two visibly different shapes.
A panel with multiple openings and brackets can be used to flush-mount multiple components in a wallboard. The panel is installed flush with the wallboard and the junction between the panel and the wallboard is plastered or drywalled to create a uniform appearance. Wall-mounted components can then be installed into the brackets into openings that have been pre-measured and cut to ensure that the components are aligned with precision relative to one another before installation even begins.
A wall-mounted component can be flush-mounted into a wallboard by first installing a panel with a receiver bracket flush into a wallboard. Once the panel is installed, the component can be inserted into the receiver bracket at which point a locking mechanism automatically or manually engages to lock the component into the wall. The locking mechanism is concealed from view so that a casual observer does not see how the component is affixed to the wall, yet is accessible from the wall's exterior for routine service and maintenance, as well as reinstallation of updated components.
A flush-mounting system includes a mounting bracket with an opening that is coupled to a support extending substantially in a plane to allow the mounting bracket to move along the support. An inner bracket is disposed with the mounting bracket's opening and can be slide in and out of the opening to adjust accordingly. Among the many different possibilities, the flush mounting system also has a second support extending parallel to the first support and a mechanism coupling an opposite side of the bracket to the second support. It is further contemplated that the structure is a stud of any structure in a building such as wood, cement, masonry, and stone. A wallboard is then provided to cover the mounting system for a flush-mounting look.
The present invention provides a system and method for mounting an electrical device on a wall. The electrical device has a mount and a base. The base connects to an electrical outlet on a surface, and has a first electrical connector, and a magnetic face plate. The electrical device has a magnet and a second electrical conductor that are positioned so that the magnet mates with the magnetic face plate, and the second electrical connector mates with the first electrical connector.
2 or more, and still be relatively small with respect to the panel. Panels are contemplated that have a width at least two, three or more times that of the face of the object, and along with optional wings are wider than the stud separation in the wall.
2 or more, and still be relatively small with respect to the panel. Panels are contemplated that have a width at least two, three or more times that of the face of the object, and along with optional wings are wider than the stud separation in the wall.
A flangeless mounting system, suitable for in-wall speakers and other components, includes a panel that is finished to provide at least a superficially continuous junction between the edges of the panel and the surrounding wall, ceiling, or other structure. A rim advantageously extends outwardly from a first surface of the panel by a small distance, which in currently preferred embodiments is about 1/16th inch to 1/8th inch. A collar is preferably installed about the inner edge of the opening, and a receiver is attached to the collar or directly to the panel. Magnetic, threaded, detent, and frictional means are contemplated for maintaining the component in position relative to the receiver.
A pivoting panel-mount speaker assembly comprises a speaker housing. The speaker housing has a perimeter flange portion, an exterior housing wall extending rearwardly from the perimeter flange portion, and an interior curved track extending rearwardly from the perimeter flange portion. The interior curved track has an outward facing convex surface and an inward facing concave surface. The speaker assembly further comprises a speaker unit having a transducer element and a speaker frame supporting the transducer element. The speaker frame has an outward facing surface configured to slidably engage the inward facing concave surface of the housing interior curved track. The speaker assembly further comprises a speaker support member attached to the speaker unit. The speaker support member also has an inward facing surface configured to slidably engage the outward facing convex surface of the housing interior curved track. The speaker assembly further comprises a circuit panel having speaker control circuitry mounted thereon. The circuit panel is mounted to the exterior housing wall at one or more circuit panel attachment points. The speaker unit and the speaker support member are pivotable around a pivot point that is forward of the transducer element.
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