Optical range finder
First Claim
Patent Images
1. An optical range finder comprising:
- a first light emitting system;
a second light emitting system;
a first light receiving system for receiving light radiated from the first and second light emitting systems;
a second light receiving system for receiving light radiated from the first and second light emitting systems;
means defining a measuring optical path for introducing light radiated from the first light emitting system into the first light receiving system via a point to be measured;
means defining a first inner reference optical path for introducing light radiated from the first light emitting system into the second light receiving system;
means defining a second inner reference optical path for introducing light radiated from the second light emitting system into the first light receiving system;
means defining a third inner reference optical path for introducing light radiated from the second light emitting system into the second light receiving system;
control means for controlling the first and second light emitting systems in a manner which includes a first and second step, the first step including the second light emitting system radiating light having a modulation frequency of either (f-Δ
f) or (f+Δ
f) at the same time as the first light emitting system radiates light having a modulation frequency (f), and the second step including the second light emitting system radiating light having a modulation frequency (Δ
f) when the first light emitting system is not radiating light, wherein the modulation frequency (Δ
f) is significantly lower than the modulation frequency (f);
phase difference detecting means for determining a first phase difference between the first and second light receiving systems when the first step is carried out, and a second phase difference between the first and second light receiving systems when the second step is carried out; and
processing means for eliminating a phase delay resulting from the electrical elements of the optical range finder by subtracting the second phase difference from the first phase difference.
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Accused Products
Abstract
An optical range finder comprising first and second light emitting sources, and first and second light receiving sources, the light emitting and receiving sources being so arranged as to form four optical paths between the first light emitting source and the first light receiving source, the first light emitting source and the second light receiving source, the second light emitting source and the first light receiving source, and the second light emitting source and the second light receiving source, at least one of the optical paths being a distance measuring optical path passing an object, the other optical paths being reference optical paths.
78 Citations
6 Claims
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1. An optical range finder comprising:
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a first light emitting system; a second light emitting system; a first light receiving system for receiving light radiated from the first and second light emitting systems; a second light receiving system for receiving light radiated from the first and second light emitting systems; means defining a measuring optical path for introducing light radiated from the first light emitting system into the first light receiving system via a point to be measured; means defining a first inner reference optical path for introducing light radiated from the first light emitting system into the second light receiving system; means defining a second inner reference optical path for introducing light radiated from the second light emitting system into the first light receiving system; means defining a third inner reference optical path for introducing light radiated from the second light emitting system into the second light receiving system; control means for controlling the first and second light emitting systems in a manner which includes a first and second step, the first step including the second light emitting system radiating light having a modulation frequency of either (f-Δ
f) or (f+Δ
f) at the same time as the first light emitting system radiates light having a modulation frequency (f), and the second step including the second light emitting system radiating light having a modulation frequency (Δ
f) when the first light emitting system is not radiating light, wherein the modulation frequency (Δ
f) is significantly lower than the modulation frequency (f);phase difference detecting means for determining a first phase difference between the first and second light receiving systems when the first step is carried out, and a second phase difference between the first and second light receiving systems when the second step is carried out; and processing means for eliminating a phase delay resulting from the electrical elements of the optical range finder by subtracting the second phase difference from the first phase difference. - View Dependent Claims (2, 3)
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4. An optical range finder comprising:
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a first light emitting system; a second light emitting system; a first light receiving system for receiving light radiated from the first and second light emitting systems; a second light receiving system for receiving light radiated from the first and second light emitting systems; means defining a measuring optical path for introducing light radiated from the first light emitting system into the first light receiving system via a point to be measured; means defining a first inner reference optical path for introducing light radiated from the first light emitting system into the second light receiving system; means defining a second inner reference optical path for introducing light radiated from the second light emitting system into the first light receiving system; means defining a third inner reference optical path for introducing light radiated from the second light emitting system into the second light receiving system; control means for controlling the second light emitting system to selectively radiate light having a modulation frequency (f-Δ
f) and light having a modulation frequency (f+Δ
f) at the same time as the first light emitting system radiates light having a modulation frequency (f), wherein the modulation frequency (Δ
f) is significantly lower than the modulation frequency (f);phase difference detecting means for determining a first phase difference between the first and second light receiving systems when the first light emitting system radiates the modulation frequency (f) and the second light emitting system radiates the modulation frequency (f-Δ
f), and a second phase difference between the first and second light receiving systems when the first light emitting system radiates the modulation frequency (f) and the second light emitting system radiates the modulation frequency (f+Δ
f); andprocessing means for eliminating a phase delay resulting from the electrical elements of the optical range finder by subtracting the second phase difference from the first phase difference. - View Dependent Claims (5, 6)
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Specification
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Current AssigneeTokyo Kagaku Kikai Kabushiki Kaisha
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Original AssigneeTokyo Kogaku Kikai Kabushiki Kaisha
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InventorsOhtomo, Fumio
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Primary Examiner(s)Buczinski, S. C.
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Assistant Examiner(s)Sotomayor, John B.
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Application NumberUS06/411,533Time in Patent Office1,070 DaysField of Search356/5, 356/4, 343/9 PSUS Class Current356/5.1CPC Class CodesG01S 17/32 using transmission of conti...
