Distance measuring system
First Claim
1. A device for measuring a relatively moving distance of two relatively moving objects, said device comprising:
- a light source provided on one of the two objects;
an optical integrated-circuit provided on the one object at a position opposed to the other object, said optical integrated-circuit including a base plate, a waveguide layer formed on said base plate, dividing means provided in said waveguide layer, for dividing a light from said light source into two lights, and emitting means effective to emit each of the two lights defined by said dividing means, outwardly of said waveguide layer and in a predetermined direction;
a diffraction grating provided on the other object at a position opposed to said optical integrated-circuit, for diffracting each of the lights emitted by said emitting means;
photodetecting means for detecting a change in the light intensity caused by the interference of the two diffraction lights emitted from said diffraction grating; and
detecting means for detecting the relatively moving distance of the two objects on the basis of the detection by said photodetecting means.
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Accused Products
Abstract
A device for measuring a moving distance of two relatively moving objects includes a first diffraction grating provided on one of the two objects and disposed along the relatively moving direction of the two objects, and a measuring portion provided on the other object. The measuring portion includes a second diffraction grating, a light source and a photodetecting system, wherein the light source provides lights which are projected upon two points on the second diffraction grating so that they emanate from the two points in the form of diffraction lights having different diffraction orders. The diffraction lights are directed to the same point on the first diffraction grating and are diffracted again by the first diffraction grating so that they are emitted in the same direction, and the photodetecting system is operable to detect a change in the light intensity caused due to the interference of the two lights emanating from the first diffraction grating. The device further includes a detecting system for detecting the relative moving distance of the two objects on the basis of the detection by the photodetecting.
27 Citations
18 Claims
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1. A device for measuring a relatively moving distance of two relatively moving objects, said device comprising:
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a light source provided on one of the two objects; an optical integrated-circuit provided on the one object at a position opposed to the other object, said optical integrated-circuit including a base plate, a waveguide layer formed on said base plate, dividing means provided in said waveguide layer, for dividing a light from said light source into two lights, and emitting means effective to emit each of the two lights defined by said dividing means, outwardly of said waveguide layer and in a predetermined direction; a diffraction grating provided on the other object at a position opposed to said optical integrated-circuit, for diffracting each of the lights emitted by said emitting means; photodetecting means for detecting a change in the light intensity caused by the interference of the two diffraction lights emitted from said diffraction grating; and detecting means for detecting the relatively moving distance of the two objects on the basis of the detection by said photodetecting means. - View Dependent Claims (2, 3, 4)
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5. A device for measuring a relatively moving distance of two relatively moving objects, said device comprising:
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a light source provided on one of the two objects; a diffraction grating provided on the other object, for receiving and diffracting a light emitted from said light source; reflecting means for reflecting two diffraction light having different diffraction orders and emitted from said diffraction grating in different direction so that each of the two diffraction lights is further projected, by n times, upon said diffraction grating and is diffracted thereby, wherein n is an odd number not less than 3 and wherein, after the n times diffraction, the two diffraction lights emanate from said diffraction grating in the same direction; photodetecting means for detecting a change in the light intensity caused by the interference of the two diffraction lights emitted in the same direction from said diffraction grating; and detecting means for detecting the relative moving distance of the two objects on the basis of the detection by said photodetecting means, wherein said reflecting means includes first and second corner cube prisms effective to reflect, respectively, the two lights from said light source and diffracted by said diffraction grating and third and fourth corner cube prisms effective to reflect, respectively, the lights having been reflected by respective corner cube prisms and diffracted by said diffraction grating, and wherein the lights reflected respectively by said third and fourth corner cube prisms are diffracted by said diffraction grating and, then, are reflected by said first and second corner cube prisms, respectively, so that they are incident upon the same location on said diffraction prism and diffracted thereby, such that they emanate from said diffraction grating in the same direction.
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6. A device for measuring relative movement of two relatively movable objects, said device comprising:
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a light source means provided on one of the objects, for emitting light; a diffraction grating provided on the other object and diffracting light from said light source means; first detecting means for detecting a change in intensity of light diffracted by said diffraction grating, due to optical interference; second detecting means for detecting relative movement of the first and second objects, on the basis of detection by said first detecting means; and an optical integrated element provided on the one object, for forming a part of a path for the light travelling from said light source means to said first detecting means. - View Dependent Claims (7, 8)
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9. An encoder, comprising:
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a diffraction grating; and a reading head relatively displaceable to said diffraction grating, wherein said reading head includes; light inputting means for inputting coherent light to said diffraction grating for first time impingement thereon; first reflecting means for receiving light diffracted by said diffraction grating and for emitting the received light for second time impingement upon said diffraction grating; and second reflecting means for receiving light diffracting by said diffraction grating in response to the second time impingement and for emitting the received light for third time impingement upon said diffraction grating, wherein said second reflecting means is in such positional relationship with said first reflecting means that light diffracted by said diffraction grating in response to the third impingement is inputted through said first reflecting means again to said diffraction grating for fourth time impingement thereon, wherein each of said first and second reflecting means has a function for defining a path for light emission which is codirectional to a path for light reception irrespective of the angle of incidence of the light received thereby, and wherein said reading head further includes photodetecting means for producing an output corresponding to a product of interference of light based on the diffraction by said diffraction grating responsive to the fourth time impingement with light supplied from said light inputting means. - View Dependent Claims (10, 11, 12, 13)
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14. A reading head for use in an encoder having a diffraction grating, said reading head being relatively displaceable to the diffraction grating, said reading head comprising:
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light inputting means for inputting coherent light to the diffraction grating for first time impingement thereon; first reflecting means for receiving light diffracted by the diffraction grating and for emitting the received light for second time impingement upon the diffraction grating; second reflecting means for receiving light diffracted by the diffraction grating in response to the second time impingement and for emitting the receiving light for third time impingement upon the diffraction grating, wherein said second reflecting means is in such positional relationship with said first reflecting means that light diffracted by said diffraction grating in response to the third impingement is inputted through said first reflecting means again to the diffraction grating for fourth time impingement thereon, wherein each of said first and second reflecting means has a function for defining a path for light emission which is codirectional to a path for light reception irrespective of the angle of incidence of the light received thereby; and photodetecting means for producing an output corresponding to a product of interference of light based on the diffraction by the diffraction grating responsive to the fourth time impingement with light supplied from said light inputting means. - View Dependent Claims (15, 16, 17, 18)
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Specification