Fiber optic system for measuring mechanical motion or vibration of a body
First Claim
1. A system for measuring the force acting on a body producing mechanical motion or vibration of the body relative to a fixed mechanical reference point, which system comprises,a force amplifying means connected between the fixed mechanical reference point and the body upon which the force to be measured is acting,an elongated fiber optic waveguide which is mechanically coupled to the force amplifying means and to the fixed mechanical reference point, which fiber optic waveguide is bent beyond the critical angle at which light directed through the waveguide is substantially totally internally reflected along the waveguide,a light source coupled to the input end of the fiber optic waveguide for directing light along the fiber optic waveguide,light detector means coupled to the output end of the fiber optic waveguide and to the light source for determining the reduction in light intensity transmitted through the bent waveguide as the waveguide bend radius changes due to the force imparted to the waveguide from the force amplifying means and including means for generating an electrical signal for display or control as a function of the reduced light intensity and of the force action on the body.
1 Assignment
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Accused Products
Abstract
A system for monitoring vibration or mechanical motion of equipment utilizing an optical waveguide sensor coupled to the equipment. The optical waveguide sensor is formed into a coil or a sinuous path which exceeds the bend radius or critical angle for internally reflected light directed through the waveguide. Vibration or mechanical force imparted to the waveguide from the equipment being monitored further alters the bending losses in the waveguide, and this change in bending losses is used to generate a signal as a function of the vibration or mechanical force.
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Citations
4 Claims
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1. A system for measuring the force acting on a body producing mechanical motion or vibration of the body relative to a fixed mechanical reference point, which system comprises,
a force amplifying means connected between the fixed mechanical reference point and the body upon which the force to be measured is acting, an elongated fiber optic waveguide which is mechanically coupled to the force amplifying means and to the fixed mechanical reference point, which fiber optic waveguide is bent beyond the critical angle at which light directed through the waveguide is substantially totally internally reflected along the waveguide, a light source coupled to the input end of the fiber optic waveguide for directing light along the fiber optic waveguide, light detector means coupled to the output end of the fiber optic waveguide and to the light source for determining the reduction in light intensity transmitted through the bent waveguide as the waveguide bend radius changes due to the force imparted to the waveguide from the force amplifying means and including means for generating an electrical signal for display or control as a function of the reduced light intensity and of the force action on the body.
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3. A method of measuring mechanical motion or vibration of a body relative to a fixed mechanical reference point, with an elongated fiber optic waveguide mechanically coupled to the body and the fixed mechanical reference point, which fiber optic waveguide is bent beyond the critical angle at which light directed through the waveguide is substantially totally internally reflected along the waveguide, which method comprises;
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amplifying the force acting on the body, directing light through the bent waveguide, detecting the reduction in light intensity transmitted through the bent waveguide as the waveguide bend radius changes due to the mechanical force imparted to the waveguide by the mechanical motion of the body, and generating an electrical signal which is a function of this reduced light intensity and of the mechanical motion or vibration of the body.
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4. A system for measuring the force acting on a body producing mechanical motion or vibration of the body relative to a fixed mechanical reference point, which system comprises,
an elongated fiber optic waveguide formed in a sinuous path with a plurality of bends beyond the critical angle at which light directed through the waveguide is substantially totally internally reflected along the waveguide, and wherein the sinuous path waveguide is embedded within an elastic material which is disposed between the body where mechanical or vibratory motion is to be measured and the fixed reference point, a light source coupled to the input end of the fiber optic waveguide for directing light along the fiber optic waveguide, light detector means coupled to the output ends of the fiber optic waveguide and to the light source for determining the reduction in light intensity transmitted through the bent waveguide as the waveguide bend radius changed due to the force imparted to the waveguide from the body and including means for generating an electrical signal for display or control as a function of the reduced light intensity and of the force acting on the body.
Specification