An embodiment of the invention relates to an apparatus for dispensing liquid, which apparatus detects an object and controls the dispensing of liquid. The apparatus includes a first signal source which generates a first beam pulse and a second signal source which generates a second beam pulse and th
An embodiment of the invention relates to an apparatus for dispensing liquid, which apparatus detects an object and controls the dispensing of liquid. The apparatus includes a first signal source which generates a first beam pulse and a second signal source which generates a second beam pulse and the propagation paths of the beam pulses intersect in relation to each other. The apparatus also includes a receiver which receives reflected parts of the first beam pulse and receives reflected parts of the second beam pulse, the parts reflected from the first and second beam pulses being reflected from the object which is located on the propagation path of the first and the second beam pulse. Furthermore, the system comprises a signal processing unit detects said object based on the parts reflected from the beam pulses and, based on this detection, controls the dispensing of liquid.
대표청구항▼
1. An apparatus for dispensing liquid, which apparatus is arranged to detect an object and to control the dispensing of said liquid, said apparatus including: a first signal source which is arranged to generate a first beam pulse and a second signal source which is arranged to generate a second beam
1. An apparatus for dispensing liquid, which apparatus is arranged to detect an object and to control the dispensing of said liquid, said apparatus including: a first signal source which is arranged to generate a first beam pulse and a second signal source which is arranged to generate a second beam pulse wherein said first and second beam pulses are so oriented in relation to each other that the propagation paths of said beam pulses cross each other,a receiver which is arranged to receive reflected parts of said first beam pulse and which is arranged to receive reflected parts of said second beam pulse, the parts reflected from said first and second beam pulses being reflected from said object which is located on the propagation path of the first and the second beam pulse, anda signal processing unit which is arranged to detect said object based on the parts reflected from said beam pulses received by said receiver and, based on this detection, arranged to control the dispensing of liquid, wherein the apparatus further includes that said first beam pulse and said second beam pulse are alternating in terms of time in relation to each other and wherein said signal processing unit is arranged to detect said object based on calculating proportion of a power level of the reflected parts of the first pulse to a power level of the reflected parts of the second pulse. 2. An apparatus according to claim 1, wherein said signal processing unit is arranged to detect said object based on time difference between the reflected parts of the first pulse and the reflected parts of the second pulse. 3. An apparatus according to claim 1, wherein the apparatus further includes at least one extra signal source which is arranged to generate an extra beam pulse the propagation path of which intersects with the propagation path of at least the first beam pulse. 4. An apparatus according to claim 3, wherein said extra beam pulse is periodic in terms of time. 5. An apparatus according to claim 1, wherein at least one of said signal sources is an infrared light emitting diode. 6. An apparatus according to claim 1, wherein said receiver is a photodiode or a phototransistor. 7. An apparatus according to claim 1, wherein said apparatus further includes at least one optical element which is arranged to orient the beam pulse. 8. A water dispenser device arranged to detect an object and to control dispensing of water, said device including: a first signal source which is arranged to generate a first beam pulse and a second signal source which is arranged to generate a second beam pulse wherein said first and second beam pulses are so oriented in relation to each other that the propagation paths of said beam pulses cross each other; a receiver which is arranged to receive reflected parts of said first beam pulse and which is arranged to receive reflected parts of said second beam pulse, the parts reflected from said first and second beam pulses being reflected from said object which is located on the propagation path of the first and the second beam pulse, and a signal processing unit which is arranged to detect said object based on the parts reflected from said beam pulses received by said receiver and, based on the detection, arranged to control the dispensing of water, wherein the device further includes that said first beam pulse and said second beam pulse are alternating in terms of time in relation to each other and wherein said signal processing unit is arranged to detect said object based on calculating proportion of a power level of the reflected parts of the first pulse to a power level of the reflected parts of the second pulse. 9. A method for dispensing liquid, which includes detecting an object and controlling the dispensing of said liquid, and further including: generating a first beam pulse and generating a second beam pulse wherein said first and second beam pulses are so oriented in relation to each other that the propagation paths of said beam pulses cross each other,receiving reflected parts of said first beam pulse and reflected parts of said second beam pulse, the parts reflected from said first and second beam pulses being reflected from said object which is located on the propagation path of the first and the second beam pulse, anddetecting said object based on the parts reflected from said beam pulses received and, based on this detection, controlling the dispensing of liquid, wherein said method further includes that said first beam pulse and said second beam pulse are alternating in terms of time in relation to each other and wherein a signal processing unit is arranged to detect said object based on calculating proportion of a power level of the reflected parts of the first pulse to a power level of the reflected parts of the second pulse. 10. A method according to claim 9, wherein the detection of said object is based on time difference between the reflected parts of the first pulse and the reflected parts of the second pulse. 11. A method according to claim 9, wherein said method, further generating an extra beam pulse the propagation path of which intersects with the propagation path of at least the first beam pulse. 12. A method according to claim 11, wherein said extra beam pulse is periodic in terms of time. 13. A computer program embodied in a non-transitory computer readable medium, the computer program includes instructions to control a computer to perform the method of claim 9 when said computer program is executed by the computer. 14. An apparatus according to claim 1, wherein the apparatus further includes that the beam pulses generated by said signal sources are periodic in terms of time.
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이 특허에 인용된 특허 (9)
Philipp Harald (651 Holiday Dr. ; Bldg. 5 ; Suite 300 Pittsburgh PA 15220), Adaptive faucet controller measuring proximity and motion.
Paese Andrew J. ; Tervo Steven M. ; Thomas Carter J. ; Burnett William R. ; Shafer David C. ; Heinzmann Fred Judson, Bathroom fixture using radar detector having leaky transmission line to control fluid flow.
Drage David J. (1223 W. Barry Ave. Chicago IL 60657) Harkness Lawrence N. (115 N. Princeton Ave. Villa Park IL 60181), Infrared proximity detecting apparatus.
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