Device for measuring small distances
First Claim
1. A device for measuring small distances, said device including a sensing tip mounted to be movable in the direction of the distance to be measured, a transducer for converting the movements of said sensing tip into corresponding electric signals, and indicating means for indicating said electrical signals, characterized in that said transducer comprises:
- a laser for emitting light;
an optical interferometer, said interferometer including first and second ends and a measuring waveguide, said first end interconnected to said laser;
optical means, interconnected to said second end of said measuring waveguide, for focusing said light; and
a measuring mirror, disposed at a distance from said optical means, for receiving said focused light and reflecting said light back to said optical means, said mirror being interconnected to said sensing tip;
said interferometer further including a reference waveguide coupled to said measuring waveguide, at one end having disposed a mirror and at its other end having disposed a photoelectric transducer connected to said indicating means for indicating the electric output signal of the photoelectric transducer, wherein said indicating means consists of a counter;
said device further comprisingan optical electronic range finder, said range finder producing an electrical signal dependent on the distance of scanning points from the interferometer; and
reset means, interconnected to said range finder, for responding to a present value of the electrical signal and setting the counter at zero.
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Accused Products
Abstract
A device for measuring small distances, provided with a sensing tip mounted to be movable in the direction of the length to be measured, a transducer for converting the movements of the sensing tip into corresponding electric signals, and indicating means to indicate such signals. The transducer comprises an optical interferometer provided with a measuring waveguide. One end of the waveguide is connected to a laser and the other end to optical means for directing the light onto a measuring mirror disposed at a distance. The light is reflected by the mirror back to the optical means. The measuring mirror is connected to the sensing tip. The interferometer further includes a reference waveguide linked to the measuring waveguide. The reference waveguide has a mirror disposed at one end and a photoelectric transduer at the other end. The transducer is connected to the indicating means for indicating the output signals of the transducer. The device permits a cost-effective and uncomplicated construction as an integrated unit. The device affords precision measurements at accuracies in the range of one half of the wavelength of the lasr beam, or even far below such a value. The device also exhibits a high linearity for substantially greater distances. The device is also suitable for measuring extremely rapid changes in length while using a small bearing pressure on the sensing tip.
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Citations
10 Claims
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1. A device for measuring small distances, said device including a sensing tip mounted to be movable in the direction of the distance to be measured, a transducer for converting the movements of said sensing tip into corresponding electric signals, and indicating means for indicating said electrical signals, characterized in that said transducer comprises:
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a laser for emitting light; an optical interferometer, said interferometer including first and second ends and a measuring waveguide, said first end interconnected to said laser; optical means, interconnected to said second end of said measuring waveguide, for focusing said light; and a measuring mirror, disposed at a distance from said optical means, for receiving said focused light and reflecting said light back to said optical means, said mirror being interconnected to said sensing tip; said interferometer further including a reference waveguide coupled to said measuring waveguide, at one end having disposed a mirror and at its other end having disposed a photoelectric transducer connected to said indicating means for indicating the electric output signal of the photoelectric transducer, wherein said indicating means consists of a counter;
said device further comprisingan optical electronic range finder, said range finder producing an electrical signal dependent on the distance of scanning points from the interferometer; and reset means, interconnected to said range finder, for responding to a present value of the electrical signal and setting the counter at zero. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9)
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10. A device for measuring small distances, said device including a sensing tip mounted to be movable in the direction of the distance to be measured, a transducer for converting the movements of said sensing tip into corresponding electric signals, and indicating means for indicating said electrical signals, characterized in that said transducer comprises:
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a laser for emitting light; an optical interferometer, said interferometer including first and second ends and a measuring waveguide, said first end interconnected to said laser; optical means, interconnected to said second end of said measuring waveguide, for focusing said light; and a measuring mirror, disposed at a distance from said optical means, for receiving said focused light and reflecting said light back to said opticl means, said mirror being interconnected to said sensing tip, said interferometer further including a reference waveguide coupled to said measuring waveguide, at one end having disposed a mirror and at its other end having disposed a photoelectric transducer connected to said indicating means for indicating the electric output signal of the photoelectric transducer, said reference waveguide being linked to a branch waveguide; a first plate, said measuring waveguide, reference waveguide, and the branch waveguide being formed about the surface of said first plate, wherein the laser and the photoelectric transducers are directly disposed at an edge of the first plate, at which edge the respective ends of the said waveguides terminate, wherein the mirror disposed at one end of the reference waveguide is comprised of a reflecting coating applied to the lateral edge of the first plate up to which said reference waveguide extends; an optical electronic range finder, said optical electronic range finder being a focus position measuring system; and a second plate with a photoconductive layer, wherein both the first and second plates for the interferometer and the focus position measuring system are laminarly adhesed to one another.
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Specification