WINDOW FRAME WITH INTEGRATED SOLAR ELECTRIC CELL AND ILLUMINATION
A window frame features solar electric cells on its exterior side that provide solar electricity for buffer storage in rechargeable batteries housed also in the window frame. Also integrated in the window frame are light emitting diodes that are activated during absence of daylight and powered from the solar electricity stored in the batteries. In that way a simple and compact system is provided for solar powered interior lighting that may be easily maintained and retrofitted in existing buildings.
This application is a continuation of U.S. application Ser. No. 12/200,910, filed Aug. 28, 2008, entitled “Window Frame With Integrated Solar Electric Cell and Illumination,” which is incorporated by reference herein in its entirety.
BACKGROUND OF INVENTIONIncreasing energy costs as well as reoccurring power outages particular during times of intense solar radiation and corresponding generally high power consumption for air conditioning make it necessary to provide independent alternate sources of electrical power to buildings. A well known solution is to mount arrays of solar electric cells on a building's roof. Efficiency of solar electric cells depends highly on the cleanliness of their sun exposed surfaces. Dust and debris such as from surrounding trees need to be periodically removed from the solar electric cells. Unfortunately, roof mounted solar electric cells are difficult to access for cleaning. Therefore, there exists a need for solar electric cells being mounted at more accessible locations. The present invention addresses this need.
Roof mounted solar electric systems are commercially available in large and expensive units that are often esthetically displeasing. Therefore, there exists a need for a compact solar electricity providing device and system that can be easily integrated or retrofitted in existing buildings in an esthetically pleasing fashion. The present invention addresses also this need.
Emergency indoor illumination is commonly powered by batteries that may be insufficient in cases of power outages lasting several days. Therefore, there exists a need for an indoor illumination system capable of providing emergency illumination over extended periods of time without need for battery replacement. The present invention addresses also this need.
SUMMARY OF INVENTIONA window frame configured for mounting in a building has an exterior side that may be exposed to sun irradiation. On that exterior side one or more solar electric cells may be mounted to capture the sun light and transforming it into electrical energy as is well known in the art. A control circuit in conductive connection with the solar electric cell passes the solar electric energy either to a battery and/or to high energy efficient light emitting diodes on the frame's interior side. The control circuit may be controlled by a mechanical switch on the frame, a motion sensor or any other well known means to selectively turn on and off lights. Since window frames are commonly designed as hollow profiles, the control circuit as well as cabling, batteries and light emitting diodes are easily integrated into existing window frames. The window frame may be rigidly mounted or may feature hinges to be opened and closed. The window frame with all integrated parts may be easily retro fitted into existing buildings as a compact solar electricity providing device. The solar electric cells may be conveniently accessible to be cleaned together with the window glass. During daylight, the solar electric cells charge the batteries while sunlight through the window glass substitutes the light emitting diodes. In the absence of sufficient daylight, the light emitting diodes may be selectively activated by the light switching device and powered by the batteries. The solar electric cells are integrated in the window frame in an esthetically pleasing fashion without changing the windows overall shape. Cleaning of the solar electric cells may be easily accomplished together with regular window cleaning.
Referring to the
The control circuit 143 may be controlled by a light switching device(s) 121 and/or 123 that is/are in a fourth conductive connection(s) 154/155 with the control circuit 143. The light switching device(s) 121 and/or 123 are mounted on the frame 103 and may be configured as manually operated electrical switch, as a motion sensor, as a light sensor or as any other well known device to selectively turn on and off lights. The exterior switching device 123 may for example take exterior switching parameters such as outside darkness. The inside switching device 121 may take for example interior switching parameters such motion in the room indicating the presence of a person.
The window frame 103 is preferably configured in a well known fashion as hollow profile, providing sufficient interior space for the control circuit 143 as well as for the cabling of the conductive connections 151-155 and particularly for a sufficiently sized battery compartment 127 featuring the battery contacts 133 and an optional remove able lid 135 for loading and eventually replacing one or more rechargeable batteries 131 stored in the battery compartment. This provides for installing sufficient battery power to provide bright illumination over an extended time in conjunction with high energy efficient light emitting diodes 115 as may be well appreciated by anyone skilled in the art. Moreover and as may be clear to anyone skilled in the art, solar power generation and storage may be easily scaled in conjunction with the frame's 103 size, which in turn may be a parameter for the desired illumination intensity and corresponding power consumption.
The window frame 103 may be rigidly mounted via rigid installation feature such as a well known assembly flange 111 or the like. Alternately, the window frame 103 may feature peripheral window hinges 109 and eventually a window closure 110 to be opened and closed. The window frame 103 with all integrated parts 117, 151-155, 143, 121/123, 115, 131, 133 may be easily retro fitted into existing buildings as a compact solar electricity providing device. The solar electric cells 117 may be conveniently accessible to be cleaned together with the window glass. As depicted in
Accordingly, the scope of the invention described in the Figures and the Specification above is set forth by the following claims and their legal equivalent:
Claims
1. A solar powered lighting system for integration with a window frame having an exterior side and an interior side, comprising:
- one or more solar electric cells configured to be mounted on the exterior side of the window frame; and
- one or more electric lights configured to be mounted on the interior side of the window frame, wherein the one or more solar electric cells and the one or more electric lights are configured to be electrically coupled to one another.
2. The solar powered lighting system of claim 1, wherein the one or more solar electric cells and the one or more electric lights are configured to be electrically coupled to one another through the window frame.
3. The solar powered lighting system of claim 1, further comprising a battery storage compartment configured to be electrically coupled to the one or more solar electric cells and the one or more electric lights.
4. The solar powered lighting system of claim 1, further comprising a switching device configured to be mounted on an interior side of the window frame.
5. The solar powered lighting system of claim 4, wherein the switching device includes a light sensor, and wherein the switching device is configured to activate the one or more electric lights when an intensity of outdoor light falls below a predetermined threshold.
6. A solar powered lighting system for integration with a window, the window including a window glass and a window frame, and having an exterior side and an interior side, the solar powered lighting system comprising:
- one or more solar electric cells configured to be mounted on the exterior side of one or both of the window glass and the window frame; and
- one or more electric lights configured to be mounted on the interior side of the window, wherein the one or more solar electric cells and the one or more electric lights are configured to be electrically coupled to one another.
7. The solar powered lighting system of claim 1, wherein the one or more solar electric cells and the one or more electric lights are configured to be electrically coupled to one another through the window frame.
8. The solar powered lighting system of claim 1, further comprising a switching device configured to be mounted on an interior side of the window frame.
9. The solar powered lighting system of claim 8, wherein the switching device includes a light sensor, and wherein the switching device is configured to activate the one or more electric lights when an intensity of outdoor light falls below a predetermined threshold.
10. The solar powered lighting system of claim 8, wherein the switching device includes a motion sensor.
11. The solar powered lighting system of claim 1, further comprising a battery storage compartment configured to be electrically coupled to the one or more solar electric cells and the one or more electric lights.
12. The solar powered lighting system of claim 11, wherein the battery storage compartment is configured to be mounted to the window frame on the interior side of the window.
13. A window having an exterior side and an interior side, the window comprising:
- a window frame;
- a window glass;
- one or more solar electric cells on an exterior side of the window; and
- one or more electrical lights on an interior side of the window.
14. The window of claim 13, wherein the window glass is treated with a surface coating.
15. The window of claim 14, wherein the one or more electrical lights are oriented so as to illuminate the window glass when light is emitted from the one or more electrical lights.
16. The window of claim 15, wherein the surface coating is configured to diffract light such that, when light is emitted from the one or more electrical lights, the window glass appears illuminant.
17. The window of claim 13, wherein the window glass is etched.
18. The window of claim 17, wherein the etched window glass is configured to diffract light such that, when light is emitted from the one or more electrical lights, the window glass appears illuminant.
19. The window of claim 13, further comprising a switching device mounted on an interior side of the window frame.
20. The window of claim 19, wherein the switching device includes a light sensor, and wherein the switching device is configured to activate the one or more electric lights when an intensity of outdoor light falls below a predetermined threshold.
Type: Application
Filed: Dec 17, 2012
Publication Date: Dec 12, 2013
Inventor: Kevin B. Larkin (Pebble Beach, CA)
Application Number: 13/717,574
International Classification: F21S 9/03 (20060101);