Distance measuring apparatus
First Claim
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1. A distance measuring apparatus comprising:
- illumination means for projecting a collimated light beam of a reduced cross sectional area toward an object whose distance is being determined along an optical axis;
beam splitting means disposed at a given distance from the illumination means in a direction perpendicular to the optical axis therefor for receiving collimated light reflected from the object and for splitting the received light into a first and a second light component;
first light detecting means for generating a first signal representing the intensity of the first light component from the beam splitting means;
optical conversion means having a predetermined index of refraction and having at least one surface defining a boundary with an adjacent media having a different index of refraction, said optical conversion means receiving the second light component from the beam splitting means, said second light component impinging on said one surface at an angle of incidence near its critical angle, said optical conversion means altering the intensity of the second light component by reflection at said surface, said second light component exiting from said optical conversion means with an intensity which is a function of the angle formed between the optical axis and the direction in which the reflected light impinges upon the beam splitting means from the object;
second light detecting means for generating a second signal representing the intensity of the second light component as outputted by the conversion means; and
calculation means responsive to said first and second signals for calculating the distance to the object.
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Abstract
A distance measuring apparatus projects a light beam toward an object whose distance is to be determined. Reflected light from the object is divided into a pair of light components by a beam splitter. The intensity of one of the light components is detected by first light intensity detector. The other light component is subject to an alteration in intensity in accordance with an angle formed between the illuminating light and the reflected light, and the intensity of the said other light component is detected by second light intensity detector. The outputs from both detector is fed to a circuit, which derives information indicative of a distance to the object being determined.
73 Citations
12 Claims
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1. A distance measuring apparatus comprising:
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illumination means for projecting a collimated light beam of a reduced cross sectional area toward an object whose distance is being determined along an optical axis; beam splitting means disposed at a given distance from the illumination means in a direction perpendicular to the optical axis therefor for receiving collimated light reflected from the object and for splitting the received light into a first and a second light component; first light detecting means for generating a first signal representing the intensity of the first light component from the beam splitting means; optical conversion means having a predetermined index of refraction and having at least one surface defining a boundary with an adjacent media having a different index of refraction, said optical conversion means receiving the second light component from the beam splitting means, said second light component impinging on said one surface at an angle of incidence near its critical angle, said optical conversion means altering the intensity of the second light component by reflection at said surface, said second light component exiting from said optical conversion means with an intensity which is a function of the angle formed between the optical axis and the direction in which the reflected light impinges upon the beam splitting means from the object; second light detecting means for generating a second signal representing the intensity of the second light component as outputted by the conversion means; and calculation means responsive to said first and second signals for calculating the distance to the object. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10)
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11. A method of measuring distance between a measuring position and an object comprising the steps of:
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projecting a collimated light beam from the measuring position toward the object whose distance is to be determined along an optical axis; receiving reflected light from said object and splitting it into a first and a second light component by utilizing beam splitting means; determining the intensity of said first light component emerging from said beam splitting means; positioning a prism having at least one reflecting surface so that said second light component impinges upon said one reflecting surface at an angle of incidence close to its critical angle; determining the intensity of the second light component exiting said prism after reflection from said surface, the intensity of second light component being altered as a function of the angle related to the distance between an object and the distance measuring apparatus; calculating the distance to the object to be determined as a function of said angle related to the distance between an object and the distance measuring apparatus in response to the intensity of said first light component emitted from the beam splitting means and the altered second light component emitted by the prism.
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12. A distance measuring apparatus for measuring the distance to an object, comprising:
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illumination means for projecting a light beam along an optical axis toward the object; beam splitting means disposed in relation to said object for receiving light reflected therefrom and for splitting said reflected light into a first light component and a second light component; first light intensity detecting means for producing an output responsive to the intensity of said first light component derived from said beam splitting means; light intensity altering means for receiving said second light component from said beam splitting means and for altering the intensity of said second light component as a function of the angle of incidence the second light component forms with a surface of the altering means, said angle being close to the critical angle at said surface and being related to another angle formed between said optical axis and an imaginary line representing the direction in which said reflected light impinges upon said beam splitting means; second light intensity detecting means for generating an output responsive to the intensity of said second light component after it is received from said light modulating means; and calculation means responsive to the outputs from said first and second light intensity detecting means for calculating the distance to said object.
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Specification