This invention relates to lighting for illuminating hardscape structures.
Masonry structures used as a part of a landscape design are known as the “hardscape.” The hardscape incorporates structures such as pathways, steps, driveways, retaining walls and the like into an aesthetic installation generally, although not exclusively, in an outdoor setting which combines plant, masonry, and lighting elements to enhance the visual environment of a residence, commercial facility or school campus to cite but a few examples.
The hardscape may be formed of natural stone, concrete, bricks or blocks manufactured from concrete which are available in various colors, shapes and textures that simulate natural or quarried stone. Such products, for example, those provided by companies such as EP Henry of Woodbury, N.J., include structural systems which allow for the construction of structures such as retaining walls using discrete masonry elements that may be positioned atop one another to form a wall without the use of mortar. The structure is, nevertheless, a substantially permanent structure due to the weight, regular shape, friction and quasi-interlocking nature of the discrete elements.
As lighting is often an important component of the landscape design, it is desirable to incorporate lighting elements, such as lamps, into the design. Present practice provides stand-alone lamps that mount in the ground adjacent to the hardscaping, and lamps that can be installed into the hardscaping during construction, but which are difficult to add after the hardscaping is completed. One such lamp is disclosed in U.S. Pat. No. 8,066,398 which is hereby incorporated herein by reference. It would be advantageous to provide lamps that can be added after the hardscaping is completed.
The present invention provides a lamp adapted for mounting on a hardscape structure, such as a structure formed of a plurality of discrete elements stacked one atop another, such as a stone or brick wall, or even a solid wall, such as a concrete or solid stone structure. The lamp includes a plate that is positionable within the structure. The plate may be placed in the structure prior to its construction, such as between at least two of the elements of the structure, with contact between the plate and the elements retaining the lamp in position in the structure. Alternatively, the plate may be placed in to an already existing solid structure through the use of a cut-out provided by suitable tool, such as a circular saw. The plate has a top side and an underside, and has a substantially straight front edge and a curved back edge to form the plate in a substantially semi-circular shape. The lamp further includes a flange attached to the front edge of the plate. The flange may be integrally connected to the plate and may be oriented substantially at a right angle to the plane of the plate. The flange may have a first surface facing away from the plate and a second surface positioned opposite the first surface. The lamp may further include a light fixture attached. The light fixture may be positioned facing the underside of the plate and the second surface of the flange. The light fixture may be attached to said second surface of said flange or to the underside of said plate.
The lamp may further include first and second side panels located at opposite ends of the flange. The side panels may be oriented angularly with respect to the flange. The flange may be in a substantially rectangular shape. The lamp may further include a second flange attached the underside of the plate, and is substantially parallel to the first flange. The light fixture may be attached to the underside of the plate at a location between the first and second flanges.
In another aspect, the present invention discloses an illuminated hardscape comprising a wall formed of a plurality of discrete elements positioned one atop another and a lamp, as described above, mounted on the wall.
In yet another aspect, the present invention discloses a method for creating an illuminated hardscape. The method includes the steps of: (1) providing a hardscape and (2) providing a lamp including a plate having a top side and an underside with a thickness defined by the distance between, wherein the plate has a substantially straight front edge and a curved back edge to form the plate in a substantially semi-circular shape, wherein the substantially semi-circular shape has a radius. The lamp further includes a flange attached to the front edge of the plate, the flange being oriented substantially at a right angle to the plane of said plate. The flange has a first surface facing away from said plate and a second surface positioned opposite said first surface. The lamp also includes light fixture. The light fixture may be positioned facing the underside of the plate and the second surface of said flange. The method further includes the steps of: (3) creating a generally semicircular cutout in the hardscape, the semi-circular cutout having a radius at least as large as the radius of the semi-circular shaped plate and a thickness greater than the thickness of the plate; and (4) sliding the plate into the cutout.
The following detailed description will be better understood when read in conjunction with the figures appended hereto. For the purpose of illustrating the invention, there is shown in the drawings exemplary embodiments of the invention. It is understood, however, that the invention is not limited to the illustrated embodiments or the precise arrangements shown.
Studs 26 affixed to and extending from the plate 12 may be provided for attachment of a light fixture 18 adjacent the underside 15 of the plate 12. The light fixture 18 mounted to the plate 12 preferably includes a circuit board 30 having a light source 22 mounted thereon. In an exemplary embodiment, the light source 22 is formed of one or more LEDs, here two square arrays of 16 LEDs having parallel circuitry, 160 degree light distribution, warm white 3000K 5.0 watt Xenon equivalent output. Other light sources may also be utilized. An electrical wire 28 is soldered to leads on the circuit board 30 for power.
As shown in
A translucent lens 36 covers the light fixture 18, covering the circuit board 30 and the light source 22, and the heat sink 34 to form a single unit that can be mounted on the plate 12. As shown in
The internal space between the lens 36, the circuit board 30 and the heat sink 34 may be filled with a translucent potting material (not shown) such as a two part silicone or epoxy potting material that preferably remains soft or gel like. This seals and protects the electrical components from the environment, and seals the openings for the studs 26 and the wire 28. The potting material may be added, for example, through an opening formed on the back side of the heat sink 34 and which is not covered by the circuit board 30. Some of the potting material may need to be removed for placement of the studs 26.
The light fixture 18, with the heat sink 34 and lens 36, is affixed as a unit to the plate 12 via the studs 26 and locking nuts 46. This forms the completed lamp assembly 10. The heat sink 34 preferably transfers heat to the plate 12 to aid in the removal of heat from the LEDs. The light fixture may have other structures, including other LED structures or structures utilizing other types of light sources. Such other light fixtures may not require a heat sink and/or a lens.
While the illustrated embodiment depicts the light fixture 18 as attached to the underside 15 of the plate 12, it is understood that the light fixture 18 may be attached to other locations on the lamp 10. More generally, and preferably, the light fixture 18, including at least one light source, can be attached anywhere to the lamp 10 relative to the plate 12 such that the light source is preferably on the underside of the plate 12 within a perimeter defined by the plate 12 and front side 20 of the flange 14. This keeps the light source shielded from a person eyes and directs the light downward. As a more specific alternative example, the light fixture 18 may be attached to the flange 14, such as on the back side 24.
The plate 12 has a front edge 50 that serves as the junction between the plate 12 and the flange 14. The plate 12 may also have side edges 52a, 52b that intersect the front edge 50 at a right angle to create a rectangular portion of the plate 12. The side edges 52a, 52b connect to a back edge 54 of the plate 12. In the illustrated embodiment, the back edge 54 is in the shape of a minor arc of a circle to match the configuration of a circular saw blade for purposes described below. In other embodiments, the back edge may take the form of a different shape.
As shown in the FIGS., the lamp 10 may also include side panels 56 that are positioned at opposite ends of the flange 14. The flange 14 and the side panels 56 cooperate to direct light from the light source 22 in the light fixture 18 downwardly along the hardscape on which the lamp 36 is mounted. The flange 14 may be integrally formed with the plate 12 and bent or molded into the angular orientation desired, or as a separate element, or elements, attached to the plate 12. The flange 14 may take any suitable configuration, including various shapes, thicknesses, sizes, color, and finish. Likewise, the side panels 56 may be an integral part of the flange 14 and bent or molded into an angular orientation, or be formed from separate pieces that are attachable to the flange 14.
The plate 12 may also include cleats 60 and adjacent screw openings 62 to properly secure the lamp 10 in place. In an exemplary method of manufacture, the cleats 60 and openings 62 are cut by a laser. As shown in
It is advantageous to make the plate, flange, faceplate and side panels from robust materials such as metal that can withstand the effects of weather. The plate and flange may be, for example, aluminum or stainless steel to prevent corrosion, and the faceplate and side panels may be copper or brass for a decorative effect. Plastics and fiber reinforced composites may also be used, as well as a combination of metals, plastics and other materials.
An exemplary method of installation of the lamp 10 is now described. This method is ideal for installing the lamp 10 after construction of the hardscape. As shown in
With reference to
As shown in
Alternatively, the lamp 10 may be installed during the construction of the hardscape. Here, the lamp 10 can be placed on top of a block 42 and held in place by fasteners in the openings 62, by the friction and weight of the blocks 42, and/or mortar.
Lamps according to the invention provide a simple and elegant illumination for hardscape design that is easy to install and maintain. Such lamps are readily removable and repositionable and facilitate repair or reconfiguration of the hardscape as required. They may be used with any form of hardscape, for example, concrete products such as blocks or bricks, natural stone, mortared or stacked structures, wooden structures such as decks and retaining walls made from railroad ties to cite but a few exemplary applications.
This application claims the benefit of U.S. Provisional Appln. No. 61/648,354 filed on May 17, 2012, which is incorporated herein by reference.
Number | Date | Country | |
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61648354 | May 2012 | US |