Capacitive touch on/off control for an automatic residential faucet
원문보기
IPC분류정보
국가/구분
United States(US) Patent
등록
국제특허분류(IPC7판)
F16K-031/02
G05D-007/06
출원번호
US-0757316
(2004-01-14)
발명자
/ 주소
McDaniel, Jason A.
Jonte, Patrick
출원인 / 주소
Masco Corporation of Indiana
대리인 / 주소
Woodard, Emhardt, Moriarty, McNett &
인용정보
피인용 횟수 :
110인용 특허 :
5
초록▼
A capacitive touch-controlled automatic faucet comprises: a spout, a magnetically latching valve, a proximity sensor, a handle, a capacitive touch-control, and a logical control. The proximity sensor is sensitive to motion of objects within a detection zone of the proximity sensor. The handle determ
A capacitive touch-controlled automatic faucet comprises: a spout, a magnetically latching valve, a proximity sensor, a handle, a capacitive touch-control, and a logical control. The proximity sensor is sensitive to motion of objects within a detection zone of the proximity sensor. The handle determines a water flow rate and temperature. The capacitive touch-control is positioned in the spout and generates an output signal while the touch-control is in contact with a user. The logical control receives the output signal, and toggles the magnetically latching valve when the output signal begins and ends within a period of time less than a predetermined threshold, but does not toggle the magnetically latching valve when the output signal persists for a period longer than the predetermined threshold. The faucet has a manual mode, wherein the proximity sensor is inactive, and a hands-free mode, wherein water flow is toggled in response to the proximity sensor.
대표청구항▼
1. A faucet comprising:a spout;a passageway that conducts water flow through the spout;a electrically operable valve disposed within the passageway;a manual valve disposed within the passageway in series with the electrically operable valve;a manual handle that controls the manual valve; anda capaci
1. A faucet comprising:a spout;a passageway that conducts water flow through the spout;a electrically operable valve disposed within the passageway;a manual valve disposed within the passageway in series with the electrically operable valve;a manual handle that controls the manual valve; anda capacitive touch control that is positioned in the spout, where the capacitive touch control toggles the electrically operable valve.2. The faucet of claim 1, further comprising a logical control that toggles the electrically operable valve when the touch control is touched and released within a period of time shorter than a predetermined threshold, but does not toggle the electrically operable valve when the touch control is touched for a period longer than the predetermined threshold.3. The faucet of claim 2, wherein the logical control toggles the electrically operable valve when the touch control is touched and released within a period of time between a predetermined lower bound and a predetermined upper threshold.4. The faucet of claim 3, wherein the predetermined lower bound is about 50 ms, and the predetermined upper threshold is about 250 ms.5. The faucet of claim 1, wherein the electrically operable valve is a magnetically latching valve.6. The faucet of claim 1, further comprising a proximity sensor that is sensitive to motion of objects within a detection zone of the proximity sensor.7. The faucet of claim 6, wherein the faucet has:a manual mode, wherein the proximity sensor is inactive; anda hands-free mode, wherein water flow is toggled on and off in response to the proximity sensor.8. The faucet of claim 1, further comprising a second capacitive touch control disposed within the manual handle that toggles the electrically operable valve.9. A faucet comprising:a spout;a passageway that conducts water flow through the spout;an electrically operable valve disposed within the passageway and having an opened position, in which water is free to flow through the passageway, and a closed position, in which the passageway is blocked;a manual valve disposed within the passageway in series with the electrically operable valve;a manual handle that controls the manual valve;a first capacitive touch-control that is positioned in the spout and that generates a first output signal while the first capacitive touch-control is in contact with a user;a second capacitive touch-control that is positioned in the manual handle and that generates a second output signal while the second capacitive touch-control is in contact with the user;a logical control that receives the first and second output signals, and which toggles the electrically operable valve between the opened position and the closed position when either the first output signal or the second output signal begins and ends within a period of time between a predetermined lower bound and a predetermined upper bound; anda proximity sensor that is sensitive to motion of objects within a detection zone of the proximity sensor;wherein the faucet has a manual mode, wherein the proximity sensor is inactive, and a hands-free mode, wherein the magnetically latching valve is toggled between the opened position and closed position in response to the proximity sensor, subject to being overridden by the output signal and logical control.10. A faucet comprising:a spout;a passageway that conducts water flow through the spout;an electrically operable valve disposed within the passageway;a sensor operably connected to the electrically operable valve via a logical control, the logical control generating a control signal when the sensor senses an activation event having a duration less than a predetermined threshold; andwherein the electrically operable valve actuates in response to the control signal.11. The faucet of claim 10, wherein the sensor is a touch sensor, and the activation event is contact with the touch sensor.12. The faucet of claim 10, wherein the electrically operable valve is a magnetically latching valve.13. The faucet of claim 10, further comprising a proximity sensor that produces a proximity sensor output signal corresponding to motion of one or more objects within a detection zone of the proximity sensor.14. The faucet of claim 13, wherein the faucet has:a manual mode, wherein the proximity sensor is inactive; anda hands-free mode, wherein water flow is toggled on and off in response to the proximity sensor output signal.15. The faucet of claim 10, further comprising a second electrically operable valve having a plurality of partially closed positions, the second electrically operable valve being disposed in the passageway upstream of a mixing point, such that the second electrically operable valve affects the flow rate of only one of a hot or cold water supply.16. The faucet of claim 15, wherein the logical control directs the second electrically operable valve to change among open, closed, and the plurality of partially closed positions in response to a duration of contact with the touch control.17. A fluid flow control for a faucet having an electrically operable valve that is actuated in response to a control signal, the fluid flow control comprising:a sensor that detects activation events;a logical control in communication with the sensor, the logical control generating a control signal when the sensor observes an activation event occurring less than a predetermined number of times within a predetermined period, but which does not generate the control signal when the sensor observes an activation event occurring more than the predetermined number of times within a predetermined period.18. A fluid flow control for a faucet having an electrically operable valve that is actuated in response to a control signal, the fluid control comprising:a sensor that observes activation events; anda logical control operably connected to the sensor, the logical control generating a control signal when the sensor observes an activation event having a duration less than a predetermined threshold, but which does not generate the control signal when the sensor observes an activation event having a duration longer than the predetermined threshold.19. The fluid flow control of claim 18, wherein the sensor is a proximity sensor that is sensitive to motion of objects within a detection zone of the proximity sensor.20. The fluid flow control of claim 19, wherein the predetermined lower bound is about 50 ms and the predetermined upper threshold is about 250 ms.21. The fluid flow control of claim 18, wherein the sensor is a capacitive touch sensor.
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이 특허에 인용된 특허 (5)
Philipp Harald (651 Holiday Dr. ; Bldg. 5 ; Suite 300 Pittsburgh PA 15220), Adaptive faucet controller measuring proximity and motion.
Rodenbeck, Robert W.; Jonte, Patrick B.; Koottungal, Paul D.; Spangler, Anthony G.; Veros, Michael J.; Marty, Garry R., Electronic user interface for electronic mixing of water for residential faucets.
Rodenbeck, Robert W.; Jonte, Patrick B.; Koottungal, Paul D.; Spangler, Anthony G.; Veros, Michael J.; Marty, Garry R., Electronic user interface for electronic mixing of water for residential faucets.
Rodenbeck, Robert W.; Koottungal, Paul D.; Spangler, Anthony G.; Veros, Michael J., Electronic user interface for electronic mixing of water for residential faucets.
Meehan, Steven Kyle; McGuire, Christopher Michael; Jolliffe, Brian Matthew; Moore, Jeffrey Lee; Crowe, Darrell Scott; Brown, Derek Allen, Faucet spout with water isolating couplings.
Loberger, John M.; Renner, Jason M.; Jaworski, Jeffery S.; Thielke, Mark A.; Meyer, Mark A.; Kohlwey, Kevin M.; Carpiaux, Douglas; De Lay, Daniel J.; Walters, Glenn T.; Walters, Richard; Hauser, II, Jon W., Lavatory system.
Bayley, Graeme S.; Figurski, Mark A.; Perrin, Timothy E.; Loberger, John M.; Renner, Jason M.; Kohlwey, Kevin M.; Dommisse, Jon A.; Pelt, Thomas E., Lavatory system with hand dryer.
Jonte, Patrick B.; Rodenbeck, Robert Wilmer; Storkey, Matthew E. M.; Ensor, Timothy J.; Thorn, Timothy John; Combs, Tom, Method of controlling a valve.
Figurski, Mark A.; Rundberg, Michelle L.; Loberger, John M.; McCallum, Terry Lee; Gallmann, Dale William; Renner, Jason M.; Jaworski, Jeffery S.; Dhein, Theodore E., Multi-purpose hand washing station.
Denzin, Peter W.; Hildebrand, Jeffrey C.; Renzelman, Brian D.; Garrels, Clayton C.; Stauber, Joseph L.; Plate, Eric M., Touchless flushing systems and methods.
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