Loupe lights are lights attached to dental loupes or other eyewear to illuminate an area of interest. Loupe lights may be coupled by a wire to a battery pack or other power source.
Loupe lights may be turned on and off by a user. Loupe lights may also need to have a brightness adjusted. Power and brightness controls may allow a user to do these things.
However, a user may not be able to operate the power and brightness controls by touching the controls. The user's hands may be holding instruments. The user's hands may be soiled, and the user may wish to avoid soiling the battery pack and/or the user's clothing. The user's eyes may be focused on an area of interest, and the user may find it disadvantageous to look away from the area of interest to operate controls on the battery pack. Often, the user may have another person such as an assistant operate the controls.
What is needed is a light which may be turned on and off by a user without using the user's hands or without touching the controls. What is also needed is a light which may be adjusted in brightness by a user without using the user's hands or without touching the controls.
Touch-free lighting systems are described. In one embodiment, a touch-free lighting system may include a light, a battery housing, a pod coupled to the light and the battery housing, and a touch-free sensor coupled to the pod. The touch-free sensor may be configured to adjust a brightness of the light when activated.
Methods of operating a touch-free lighting system are described. In one embodiment, a method may include adjusting a brightness of a light by activating a touch-free sensor coupled to the light.
Light 110 is shown as a loupe light, but may be any light for which hands-free operation is desired. Light 110 may include a wire 112 for connecting to a battery or power source.
Battery housing 120 may have a slim or flat profile when worn against the user. Battery housing 120 may be worn on the side of the torso of the user, such as at the waist or under the armpit. Alternatively, battery housing 120 may be worn on the thigh of the user or any other suitable location. Battery housing 120 has an outer surface 128 which faces away from the user when worn by the user.
Power switch 140 allows a user to turn light 110 on and off.
Brightness control 150 allows a user to adjust the brightness of light 110.
Light 210 is shown as a loupe light, but may be any light for which hands-free operation is desired. Light 210 may include a wire 212 for connecting to a battery or power source.
Battery housing 220 may have a slim or flat profile when worn against the user. Battery housing 220 may be worn on the side of the torso of the user, such as at the waist or under the armpit. Alternatively, battery housing 220 may be worn on the thigh of the user or any other suitable location. Battery housing 220 has an outer surface 228 which faces away from the user when worn by the user.
Pod 230 is connected to battery housing 220 by a wire 232. Pod 230 may be removably or non-removably connected to battery housing 220. Pod 230 includes a pod button 234. Pod 230 may also include an attachment 236 similar to attachment 226 on battery housing 220, so that pod 230 may be worn by a user.
Power switch 240 allows a user to turn light 210 on and off.
Battery housing 220 and pod 230 may be worn on both sides of a body of a user so that button 244 and pod button 234 may be operated by a part of both arms of the user other than the hands. One arm may operate button 244 while the other may operate pod button 234. Button 244 or pod button 234 used as an on button may be pushed once to turn on light 210. Alternatively, button 244 or pod button 234 used as an on button may be pushed and held down for a period of time to turn on light 210, or pushed two or more times to turn on light 210. Button 244 or pod button 234 used as an off button may be used in the same or different way to turn off light 210.
Brightness control 250 allows a user to adjust the brightness of light 210.
Touch-free lighting system 500 may include a light 510. Light 510 is shown as a loupe light, but may be any light for which hands-free and/or touch-free operation is desired.
Touch-free lighting system 500 may include a battery housing 520. Battery. housing 520 may be configured to contain a battery. Battery housing 520 may include an attachment 526 so that battery housing 520 may be coupled to a user. Attachment 526 may include a clip, a loop, a hook-and-loop fastener, a strap, or any other suitable device which allows battery housing 520 to be coupled to a user.
Battery housing 520 may be configured to be coupled to piece of clothing or accessory worn by a user. For example, battery housing 520 may be configured to be clipped to a back of a collar worn by a user. As another example, battery housing 520 may be configured to be attached to an eyewear retainer or necklace worn by a user.
Touch-free lighting system 500 may include a pod 530. Pod may include an attachment 536. Attachment 536 may include a clip, a loop, a hook-and-loop fastener, a strap, or any other suitable device which allows pod 530 to be coupled to a user.
Pod 530 may be configured to be coupled to eyewear and/or clothing worn by a user. For example, pod 530 may be configured to be clipped to a temple of eyewear worn by a user. As another example, pod 530 may be attached to a collar of a piece of clothing worn by a user.
Light 510, battery housing 520, and pod 530 may be connected by one or more wires 512 in any suitable arrangement. For example, a wire 512 may connect light 510 to battery housing 520. As another example, a wire 512 may connect light 510 to pod 530, and another wire 512 may connect pod 530 to battery housing 520. As yet another example, a wire 512 may connect light 510 to battery housing 520, and another wire 512 may connect pod 530 to battery housing 520.
Light 510, battery housing 520, and pod 530 may be discrete or combined into one or more devices. For example, light 510 and pod 530 may be combined into a single device.
Touch-free lighting system 500 may include a power switch 540. Power switch 540 may be coupled to one or more of light 510, battery housing 520, pod 530, or any other part of touch-free lighting system 500. Power switch 540 may be configured to to turn light 510 on and off. Power switch 540 may include a rocker switch 542. Power switch 540 may include one or more buttons, switches, or any other suitable device.
Touch-free lighting system 500 may include a brightness control 550. Brightness control 550 may be coupled to one or more of light 510, battery housing 520, pod 530, or any other part of touch-free lighting system 500. Brightness control 550 may be configured to adjust a brightness of light 510. Brightness control 550 may include one or more buttons 552.
Touch-free lighting system 500 may include at least one touch-sensitive sensor 560. Touch-sensitive sensor 560 may be coupled to one or more of light 510, battery housing 520, pod 530, or any other part of touch-free lighting system 500. Touch-sensitive sensor 560 may be configured to turn light 510 on and off when touched. Touch-sensitive sensor 560 may be configured to adjust a brightness of light 510 when touched. Touch-sensitive sensor 560 may be configured to change a brightness of light 510 with each touch. Touch-sensitive sensor 560 may be configured to turn light 510 on and off, as well as adjust a brightness of light 510. For example, when light 510 is off, a first touch of touch-sensitive sensor 560 may turn on light 510 to a low brightness, and each successive touch may increase a brightness of light 510. When light 510 reaches a high or maximum brightness, a touch of touch-sensitive sensor 560 may turn off light 510. As another example, when light 510 is off, a first touch of touch-sensitive sensor 560 may turn on light 510 to a high or maximum brightness, and each successive touch may decrease a brightness of light 510. When light 510 reaches a low or minimum brightness, a touch of touch-sensitive sensor 560 may turn off light 510.
Touch-sensitive sensor 560 may be configured to be responsive to touch and/or near-touch. Touch-sensitive sensor 560 may be responsive to bare and/or clothed skin. Touch-sensitive sensor 560 may be configured to be touched or near-touched for a period of time before turning on or off light 510 to prevent inadvertent operation. For example, touch-sensitive sensor 560 may need to be touched or near-touched for 0.5 sec to 1 sec before turning on or off light 510. Touch-sensitive sensor 560 may be made any suitable size or shape. Touch-sensitive sensor 560 may be used alone or in conjunction with power switch 540 and/or brightness control 550. Touch-sensitive sensor 560 may include a capacitive touch sensor 562 or any other suitable touch-sensitive sensor.
Touch-free lighting system 500 may include at least one touch-free sensor 570. Touch-free sensor 570 may be activated without being touched. Touch-free sensor 570 may be coupled to one or more of light 510 (as shown in
Touch-free sensor 570 may include an infrared (IR) sensor 572. IR sensor 572 may have a field of view that is fixed or adjustable. IR sensor 572 may be configured to activate when it detects an appropriate gesture by a part of the body, such as a hand gesture, in its field of view.
IR sensor 572 may be configured to activate when a part of the body such as a hand is waved through its field of view. IR sensor 572 may be configured to distinguish between a part of the body waved quickly and waved slowly through its field of view. IR sensor 572 may be configured to activate only when a part of the body is waved quickly through its field of view, and to have no response when a part of the body is waved slowly through its field of view. For example, a quick wave may take approximately 1 second or less to pass through a field of view of IR sensor 572. IR sensor 572 may be configured to activate only when a part of the body is waved slowly through its field of view, and to have no response when a part of the body is waved quickly through its field of view. For example, a slow wave may take approximately 2 to 5 seconds to pass through a field of view of IR sensor 572. IR sensor 572 may be configured to activate only when a part of the body is waved from left to right, right to left, up to down, down to up, nearer to farther, farther to nearer, or any other direction, or any sequence or combination of directions.
IR sensor 572 may be configured to activate when the fingers of a hand are waved through its field of view. IR sensor 572 may be configured to recognize the pattern of the individual fingers of a hand being waved through its field of view. For example, IR sensor 572 may be configured to recognize or count one, two, three, four, or five fingers being waved through its field of view, and to have no response when not enough fingers are waved through its field of view. IR sensor 572 may be configured with a suitable field of view, such as on the order of a width of a finger and/or a distance between adjacent fingers when spread out.
IR sensor 572 may be configured to activate when a part of the body such as a hand is held at a predetermined distance away from IR sensor 572 in its field of view. For example, IR sensor 572 may be configured to activate when a part of the body is held at a distance of ______ mm to ______ mm in its field of view. IR sensor 572 may be configured to activate when a part of the body such as a hand is held for a predetermined period of time in its field of view. For example, IR sensor 572 may be configured to activate when a part of the body such as a hand is held for approximately 1 second or more in its field of view. IR sensor 572 may be configured to activate when a part of the body such as a hand is held at a predetermined distance away from IR sensor 572, and for a predetermined period of time in its field of view.
IR sensor 572 may include a passive and/or an active IR sensor. Touch-free sensor 570 may include an ultrasonic sensor, microwave sensor, optical sensor, or any other suitable sensor which does not require touch or contact to activate.
While the foregoing has been with reference to particular embodiments of the invention, it will be appreciated by those skilled in the art that changes in these embodiments may be made without departing from the principles and spirit of the invention.
This application is a continuation-in-part of U.S. patent application Ser. No. 13/531,465, filed Jun. 22, 2012, which claims the benefit of U.S. provisional patent application No. 61/499,699, filed Jun. 22, 2011, both of which are hereby incorporated by reference in their entireties.
Number | Date | Country | |
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61499699 | Jun 2011 | US |
Number | Date | Country | |
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Parent | 13531465 | Jun 2012 | US |
Child | 15098340 | US |