Portable narrow angle sonar range finder
First Claim
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1. A sonar ranging obstacle avoidance system with a variable narrow obstacle detection spatial beam comprising:
- a bundle of hollow tubes mounted in front of the plane of a transducer, which transducer has means for emitting sonic or ultrasonic pulses and means for detecting reflected sonic or ultrasonic waves which have an energy above a certain detection threshold;
means for measuring the time between the emission of a sonic or ultrasonic pulse by the transducer and the detection of reflected sonic or ultrasonic waves;
means for converting this said measured time to the distance travelled by the sonic or ultrasonic pulse during this time;
means for displaying this distance;
said transducer repeatedly emits sonic or ultrasonic pulses which then travel down the said tubes and leave the end of the tubes and spread out as a wave, any of the said wave which is reflected back from an obstacle toward and through the said tubes to the transducer is detected by the transducer detection means if it is above the said certain energy value of the transducer detection means, and the time between the emission of the ultrasonic or sonic or pulses and the detection of the reflected waves by the transducer is measured by the said transducer time measuring means and converted to a said distance which is then displayed by the said display means;
said wave'"'"'s energy after passing through the said tubes is dependant on the absorption of the said reflected wave in the said tubes, and which absorption also depends on the angle the said reflected wave makes with the axis of the said tubes and only such waves that are reflected within a range of certain said angles, and certain distances from the axis of the tubes and certain distances of the reflecting object from the tube bundle, have an energy above the said certain detection threshold of the said transducer detection means, which transducer will therefore only detect reflections from objects which are within a certain shaped narrow spatial beam in front of the bundle of tubes and around the extended axis of the tubes, which spatial beam'"'"'s shape is predetermined by the length of the individual said tubes, the diameter of the individual tubes, the tube material, internal tube coatings, the cross sectional and longitudinal profile of the tubes, the sonic or ultrasonic wavelength and the said certain energy value of the transducer detection means.
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Abstract
A small "flashlight" size pointing device for use as a sonar obstacle avoidance system for the blind. The apparatus comprises a bundle of small diameter tubes mounted in front of and perpendicular to the plane of a transducer. The transducer transmits sonic or ultrasonic pulses down the tubes which then spread out as a wave. Reflected waves, returning from obstacles are only detected by the transducer if they originate in a certain spatial beam area. This spatial beam area is controlled by the length and diameter of the tubes and by the transducer amplifier gain when used as a detector of reflected waves. Suitable values for the control variables result in reflections from obstacles only being detected in a spatial beam which can have a constant cross section independant of the distance of the reflecting object. For use as an obstacle avoidance system, repeated pulses are transmitted by the transducer and the delays between the transmitted pulse and the reception of the reflected wave are converted to audio tones.
22 Citations
12 Claims
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1. A sonar ranging obstacle avoidance system with a variable narrow obstacle detection spatial beam comprising:
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a bundle of hollow tubes mounted in front of the plane of a transducer, which transducer has means for emitting sonic or ultrasonic pulses and means for detecting reflected sonic or ultrasonic waves which have an energy above a certain detection threshold; means for measuring the time between the emission of a sonic or ultrasonic pulse by the transducer and the detection of reflected sonic or ultrasonic waves; means for converting this said measured time to the distance travelled by the sonic or ultrasonic pulse during this time; means for displaying this distance;
said transducer repeatedly emits sonic or ultrasonic pulses which then travel down the said tubes and leave the end of the tubes and spread out as a wave, any of the said wave which is reflected back from an obstacle toward and through the said tubes to the transducer is detected by the transducer detection means if it is above the said certain energy value of the transducer detection means, and the time between the emission of the ultrasonic or sonic or pulses and the detection of the reflected waves by the transducer is measured by the said transducer time measuring means and converted to a said distance which is then displayed by the said display means;
said wave'"'"'s energy after passing through the said tubes is dependant on the absorption of the said reflected wave in the said tubes, and which absorption also depends on the angle the said reflected wave makes with the axis of the said tubes and only such waves that are reflected within a range of certain said angles, and certain distances from the axis of the tubes and certain distances of the reflecting object from the tube bundle, have an energy above the said certain detection threshold of the said transducer detection means, which transducer will therefore only detect reflections from objects which are within a certain shaped narrow spatial beam in front of the bundle of tubes and around the extended axis of the tubes, which spatial beam'"'"'s shape is predetermined by the length of the individual said tubes, the diameter of the individual tubes, the tube material, internal tube coatings, the cross sectional and longitudinal profile of the tubes, the sonic or ultrasonic wavelength and the said certain energy value of the transducer detection means. - View Dependent Claims (2, 3, 4, 5, 6, 7)
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8. A sonar ranging apparatus with a variable narrow obstacle detection spatial beam resolution, comprising:
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two groups of transducers, an emitting group which have means for emitting sonic or ultrasonic pulses and a receiving group, which transducers have means for detecting reflected sonic or ultrasonic waves which have an energy above a certain detection threshold and said receiving group of transducers have bundles of hollow tubes mounted in front of the plane of each of the transducers and said receiving transducers are mounted so as to receive reflected waves from different spatial directions; means for measuring the time between emission of an sonic or ultrasonic pulse by each of the transducers in the emitting group of transducers and detection of reflected ultrasonic waves by the receiving transducers; means for converting these said measured times to the distances travelled by the sonic or ultrasonic pulse during these times; means for displaying these distances; the said emitting group of transducers repeatedly emit ultrasonic or sonic pulses which spread out as waves, and any of the said waves which are reflected back from an obstacle toward and through the said tubes to the said receiving transducers is detected by the receiving transducer'"'"'s detection means, if it is above the said certain detection threshold energy values of the receiving transducers and the time between the emission of the ultrasonic or sonic pulses and the detection of the reflected waves by the said receiving transducers detection means is measured by the said receiving transducers time measuring means and converted to said distances, one for each receiving transducer and which distances are displayed by the said display means;
said reflected wave'"'"'s energy value after passing through the said tubes is dependant on the absorption of the said reflected wave in the said tubes;
said tube system attenuates the wave energy incident on the transducer, depending on the absorption within the tubes, and which absorption also depends, on the angle the said reflected wave makes with the axis of the said tubes and only such waves that are reflected within a range of said angles, and certain distances from the axis of the bundle of tubes and certain distances of the reflecting object from the tube bundle, have an energy above the said certain detection threshold of the detection means, which apparatus will therefore only detect reflections from objects which are within a shaped spatial beam in front of the bundle of tubes relative to the extended axis of the tubes, which spatial beam'"'"'s shape is predetermined by the length of the individual tubes, the diameter of the individual tubes, the tube material, internal tube coatings, the cross sectional and longitudinal profile of the tubes, the sonic or ultrasonic wavelength and the said certain detection threshold of the transducers detection means. - View Dependent Claims (9, 10, 11, 12)
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Specification
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Current AssigneeFrancis W. Youlton
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Original AssigneeFrancis W. Youlton
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InventorsYoulton, Francis W.
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Primary Examiner(s)Pihulic, Daniel T.
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Application NumberUS08/106,517Time in Patent Office372 DaysField of Search367/116, 367/103, 367/99, 367/138US Class Current367/99CPC Class CodesA61F 9/08 Devices or methods enabling...G01S 15/42 Simultaneous measurement of...G01S 15/93 for anti-collision purposesG01S 7/521 Constructional featuresG01S 7/529 Gain of receiver varied aut...G10K 11/26 Sound-focusing or directing...
