Patent Application
20110121971
1. Field of the Invention
The present invention relates generally to the field of decorative and illuminating objects or signs. More specifically, it relates to home décor or ornamental wall objects and freestanding objects illuminated by motion sensing technology for decorative purposes. A low power motion sensor, such as a PIR (Passive Infrared) motion sensing device, built into the object allows the object to emit an aesthetically pleasing radiant illumination pattern around or in the object using a light source, such as LEDs, when a person approaches the object. The aesthetically pleasing radiant illumination pattern around or in the object serves the purpose of drawing the passer-by's attention to the object.
2. Description of Prior Art
Motion sensing technology has been utilized for years to control general illumination light sources such as floodlights, interior and exterior building lighting, and nightlights. It is an object of the present invention to utilize motion sensing and lighting technology not for general illumination of a path, walkway, or area, but for decorative purposes: to add an aesthetically pleasing self-illumination operation within or around a decorative wall object, such as a cross or crucifix. A primary purpose of the illumination is to draw the passer-by's attention to the object.
Decorative illuminating objects, such as graveside memorials, have also been around for years. It is an object of the present invention to improve on these inventions through the incorporation of motion sensing technology to allow the object to illuminate only when a person approaches the object in order to save energy and extend battery life.
It is another object of the present invention to utilize ultra low power microcontroller and electronics technology in order to allow the illuminating wall mountable object to operate from a battery source without requiring a nearby AC power outlet and visually detracting power cord.
Yet another object of the present invention is to utilize the microcontroller and electronics to produce precisely controlled, calculated, and timed decorative light dispersion patterns within and around the illuminating wall mountable object.
A further object of the electronic controls of the present invention is to allow for the user to select the modes of operation, the length of time the object illuminates, and other variables such as the color of the light illuminated by the object.
An object of the mechanical design of the present invention is the removable back wall mountable bracket that allows for ideal spacing of the object when mounting to a wall. This spacing allows for the ideal illumination pattern on the wall or area surrounding the object.
The following art defines the present state of this field:
Kugel, U.S. Pat. No. 1,294,279 describes an illuminated crucifix memorial, but it is not controlled by motion sensing technology. Similarly, Wolfers, U.S. Pat. No. 1,614,703, Schleif, U.S. Pat. No. 2,325,883, Cheney, U.S. Pat. No. 2,958,762, Klaffer, U.S. Patent number D338081, and Yulee, U.S. Pat. No. 7,118,242, all describe illuminated crosses, memorials, and art objects of various types, but none are controlled by motion sensing technology.
Young, U.S. Pat. No. 4,823,051, describes an infrared actuated control switch assembly for general illumination in a room, such as a ceiling light; all of which is controlled by a PIR—passive infrared sensor. But the sensor fixture is not used for decorative illumination of an art object. Similarly, Kahl, U.S. Pat. No. 4,703,171 describes a lighting control system for general illumination, not for decorative illumination of an art object.
Plamp, U.S. Pat. No. 5,255,170 and Arcadia, U.S. Pat. No. 5,564,816, describe an illuminated memorial controlled by an ambient light sensor, but not a motion sensor.
Chen, U.S. Pat. No. 5,258,899, describes a motion sensor lighting controller for general and exterior illumination, but not for decorative illumination of art. Similarly, Lee, W., U.S. Pat. Nos. 5,282,118, 7,375,313, and 6,943,687, Lee, S., U.S. Pat. No. 5,434,764, Boulos, U.S. Pat. No. 5,442,532, Chin-hsiung, U.S. Pat. No. 5,455,564, Huang, U.S. Pat. No. 5,575,557, Haslam, U.S. Pat. Nos. 5,590,953 and 5,662,411, McCavit, U.S. Pat. No. 5,626,417, Sandell, U.S. Pat. No. 5,649,761, Naqvi, U.S. Pat. No. 6,948,831, Hoberman, Kirwan, and Gordon, U.S. Pat. No. 5,015,994, Diong, U.S. Pat. No. 5,489,891, and Coveley, U.S. Pat. No. 5,586,048, all describe lighting fixtures with integrated motion detectors for general and exterior lighting illumination, but not for the purpose of decorative art object illumination.
Xia, U.S. Pat. No. 5,489,827, describes a light controller with occupancy sensor that is intended to control the general illumination lighting in a room. Again, it is not described for use with decorative art object illumination. Similarly, Eckel, U.S. Pat. Nos. 5,699,243 and 5,946,209 and Batko, U.S. Pat. No. 6,151,529, both describe motion sensing systems with adaptive timing for controlling lighting fixtures; also intended for general lighting illumination, not decorative illumination of art objects.
Ness, U.S. Pat. No. 5,763,872 describes a motion-actuated night-light. But this is not a fixture/object intended for decorative illumination of art objects. Additionally, the night-light is intended for general illumination of a hall, path, area, or walkway, and not for decorative or aesthetical purposes.
Privas, U.S. Pat. No. 6,390,648, describes a display apparatus for works of art. This system's intended use is for illumination of paintings, photographs, and other works of art that, in and of them self, are not illuminated. An integral part of the present invention is self-illumination versus being used to illuminate other objects: the motion sensor and light source are built-in to the object for the intended purpose of illuminating itself, not some other object. Similarly, Hanis, U.S. Pat. No. 7,204,614, describes a portable, automated illumination device for illuminating external objects such as glasses on a nightstand for the purpose of being able to easily locate these items in the dark.
Mitzel, U.S. Pat. No. 6,402,338 describes an enclosure illumination system primarily intended for illuminating mailboxes and outhouses, but not decorative illumination of wall-mountable art objects.
The invention involves an object, such as a cross or crucifix, that utilizes a PIR (Passive Infrared) motion sensor that is used to detect motion in the vicinity of the apparatus. A microcontroller and/or electronic circuitry interpret the motion and then control the LEDs (Light Emitting Diodes) or light source so as to illuminate the object, cross or crucifix with a decorative light pattern. Batteries or an AC/DC converting circuit may be used to power the light source and circuitry.
Detailed drawings of the preferred embodiment of the present invention are shown in
Embodiments of the present invention contain a Fresnel lens 1 in the middle of the cross to increase the range of the PIR motion sensor 3. Other embodiments of the present invention may not include a Fresnel lens 1, or may include lenses 1 of different shapes, sizes, and colors. Other embodiments of the present invention may also include Fresnel lenses 1 and PIR motion sensors 3 mounted in different locations. The enclosure opening for the Fresnel lens 1 is circular in shape and approximately 20 mm in diameter. Other embodiments of the present invention may have different shaped enclosure openings for the Fresnel lens 1. As an example, the opening may also be shaped like a small “cross” with the Fresnel lens 1 mounted behind the opening to make a “cross within a cross” pattern. Other embodiments of the present invention may have square or diamond shaped enclosure openings for the Fresnel lens 1.
The present invention includes a PIR (Passive Infrared) motion sensor 3 that is used to detect motion in the vicinity of the apparatus. A microcontroller 16 interprets the motion and controls the LEDs (Light Emitting Diodes) 4, 5 behind the present invention so as to illuminate the present invention.
In the preferred embodiment of the present invention, two Red-Green-Blue LEDs 4, 5 are utilized: one above the cross member and one below the cross member so as to produce a uniform, radiant light pattern on the area behind the apparatus. The Red-Green-Blue LEDs 4, 5 can be controlled in a variety of different combinations by the microcontroller 16 so as to produce a variety of colors other than just Red, Green, Blue, and White. Other embodiments of the present invention may include more (or fewer) LEDs of varying colors to produce different radiant light patterns and of varying colors. Other embodiments of the present invention may use light sources other than LED technology. Other embodiments of the present invention may contain multiple LEDs around the edge of the cross so as to produce an “edge” backlit effect. Different LED placements will allow for different LED illumination patterns. Other embodiments of the present invention containing multiple LEDs around the perimeter may contain more complex microcontroller 16—control algorithms that allow for “chasing” patterns. In “chasing” patterns, individual LEDs are brightened or dimmed in a sequential or controlled pattern starting at (for example) the bottom of the present invention and then continuing around the top edge. Other embodiments of the present invention may execute bright flash momentary pulses of the LEDs when motion is detected in the vicinity of the present invention. The preferred embodiment of the present invention will slowly fade the LEDs 4, 5 on and then off so as to create a subtle decorative lighting effect.
In the present invention, the microcontroller 16 may place itself into a low-power sleep mode and only wake once every 300-500 mS to monitor the PIR motion sensor 3 and manipulate the LED light sources 4, 5 accordingly.
Other embodiments of the present invention may contain additional circuitry to monitor the ambient light sensor 15 and modify the monitoring period(s) and LED light source 4, 5 manipulation accordingly. The ambient light sensor 15 could be placed in the front panel of the present invention to allow for optimal light sensing. In the event the ambient light 15 sensor detects low light conditions or increasing darkness, the LED drive current may be decreased. In the event the ambient light sensor 15 detects high light conditions or increasing brightness, the LED drive current may be increased to allow for greater visibility. In the event the ambient light sensor 15 detects extremely bright light conditions, the LEDs 4, 5 may be completely disabled to save power for more ideal or lower brightness operating conditions. Other embodiments of the present invention may wake from low power sleep mode as infrequently as once per second or longer to monitor the PIR motion sensor 3 and manipulate light sources 4, 5 accordingly.
Embodiments of the present invention contain two switches 14 to allow for user input and configuration of the apparatus operation. For example, the user can set the “on time” of the light source(s) 4, 5, or the minimum time between detections/trips. The switches 14 may also be used to set the preferred LED color (created from combining the Red-Green-Blue LEDs) 4, 5. Seven pre-programmed LED colors will be selectable in the preferred embodiment: 1) Red, 2) Green, 3) Blue, 4) Purple, 5) Teal (blue-green), 6) Yellow, and 7) White. A final mode of operation selectable by the user input switches 14 allows the user to place the present invention into a “cycling color” mode. In this mode of operation, the LED color will rotate (randomly) through each of the available colors automatically each time the present invention detects motion in the vicinity of the PIR motion sensor 3. This mode may also be used as a demonstration mode for when a single product is placed in a store display. Subsequent reduced feature versions of the present invention may only include single color LEDs 4, 5 such as white for simplicity of use and to reduce manufacturing costs. The switches 14 may also be used to select from among a set of preconfigured operating modes which would set things such as the 1) brightness of the LEDs 4, 5, 2) time between trips, and 3) LED 4, 5 color(s). A 3rd switch may also be included for on/off control to completely disconnect the battery or power source from the electronic circuitry. Other embodiments of the present invention may contain an on/off switch and more (or less) user controls/switches.
Other embodiments of the present invention may utilize capacitive-touch 17 and proximity sensing technology for one of three possible uses: 1) to replace the user switches 14 with capacitive-touch switches 17, 2) to manipulate the pattern or brightness of the light sources 4, 5, and/or 3) detect motion or the presence of a person or object in the vicinity of the present invention in order to modify operation (example: brighten or dim the LEDs 4, 5). Because capacitive touch sensing can provide a more absolute measurement change (example: the digital reading gets larger as a person or infrared emitting object gets closer), it will be possible for the LED 4, 5 brightness to be “synchronized” to the distance an object or person is from the present invention. As an example, as a person approaches the present invention, the capacitive sensing 17 could be used to detect the increase in the capacitive field and increase the LED 4, 5 brightness as the person gets closer. Similarly, the LEDs 4, 5 would be dimmed as the person moved further away from the apparatus.
In yet another embodiment of the present invention the user may hold down one of the switches 14, and the microcontroller 16 will scan/toggle through a variety of pre-configured color combinations until the user releases the switch 14 once they select the ideal LED 4, 5 color for matching their desired room décor. As an example, if the user desires a yellowish-orange LED light color to match a kitchen room décor, they would press the appropriate color selection switch 14 and hold it, at which point the microcontroller 16 would start slowly cycling through a predefined color pallet (or color wheel) containing a predetermined set of color combinations. When the user reaches the desired hue of yellowish-orange, releasing the switch 14 automatically sets that color into the microcontroller 16 memory. Subsequent trips of the present invention would result in the LEDs 4, 5 illuminating in that color set by the user (yellowish-orange in this example).
The preferred embodiment of the present invention uses two “AA” sized alkaline batteries to power the LEDs 4, 5. Other embodiments of the present invention may include circuitry to allow operation from various other battery sizes, types, and chemistries. Three “AA” batteries may be adapted to add battery life to other embodiments of the present invention. Other embodiments of the present invention may include circuitry that would allow for operation from an AC power source 18. Other embodiments of the present invention may also include charger circuitry 19 to allow operation from user rechargeable batteries or power sources.
Another embodiment of the present invention may allow the apparatus to be charged using “wireless” charging technology. A transformer in the apparatus would detect the presence of a compatible recharging base near the apparatus and allow for recharging of the battery or power source. Another embodiment of the present invention would allow the batteries of the apparatus to be charged using solar cells 13 mounted on the apparatus. The solar cells 13 would be mounted on top of the present invention to maximize ambient light energy for recharging the rechargeable cells in the unit without having to remove them.
The preferred embodiment of the present invention includes user access to the battery compartment 8 for service/replacement of the batteries. Other embodiments of the present invention may include sealed case versions for use both indoors and outdoors. Other embodiments of the present invention may be sealed “water-tight” or “submersible.”
The preferred embodiment of the present invention includes a Printed Circuit Board 7 secured by hooks 9 molded into the enclosure/assembly body 12 without the use of screws, fasteners, or other hardware. An upper keyhole 10 for hanging or mounting the present invention to a wall or vertical surface is included in addition to a lower mounting hole 11 that can be used to more securely mount the enclosure/assembly body 12 to a vertical wall or surface that may move, such as a door or window.
Outdoor or industrial versions of the present invention may have a larger cross or crucifix size, more LEDs or light sources, higher power LEDs or light sources, a microcontroller 16 with more input/output pins and memory, a larger power source such as a sealed lead acid battery, a larger Fresnel lens 1 for detecting motion at a greater distance, and a different mounting topology.
| Number | Date | Country | |
|---|---|---|---|
| 61263583 | Nov 2009 | US |
