Optical linear strain gage
First Claim
1. An optical strain gage comprising:
- a target comprising a set of parallel lines in the form of a one-dimensional barcode, two of the parallel lines being chosen as end lines, and a gage length defined by and perpendicular to the end lines, the target being adapted for association with a body for which at least one of strain and fatigue damage is to be calculated in such a way that deformation of the gage length and deformation under load of the body with which the target is associated bear a one-to-one relationship, and being adapted to emit a detectable physical quantity, wherein the one-dimensional barcode is based on the Code 39 barcode standard, and includes start and stop characters and a sequential string of a plurality of intermediate characters that hold the actual coded information, each character being defined by a total of nine bars and spaces;
a sensor compatible with and adapted to pre-process the detectable physical quantity emitted by the target and output data representing the physical quantity;
means for analyzing the data output by the sensor to define the gage length of the target; and
means for calculating at least one of the strain and the fatigue damage on the body directly, based on the pre-processed and analyzed data.
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0 Petitions
Accused Products
Abstract
An optical linear strain gage includes a target, a sensor, and a computer, wherein the target contains a gage length defined by end points. The target can be a one-dimensional barcode, the gage length defined between, and perpendicular to, two chosen parallel lines of the barcode. The target, including a gage length, is associated with an object such that deformation of the gage length and deformation of the object are the same; target can emit or reflect a detectable physical quantity. The sensor is compatible with and pre-processes the physical quantity from the target and provides data to the computer. The computer analyzes the data output and calculates the strain directly on the body based on the pre-processed and analyzed data. Measuring strain on an object using the strain gage includes identifying the changes in the gage length as a function of time and load applied and calculating strain.
30 Citations
4 Claims
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1. An optical strain gage comprising:
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a target comprising a set of parallel lines in the form of a one-dimensional barcode, two of the parallel lines being chosen as end lines, and a gage length defined by and perpendicular to the end lines, the target being adapted for association with a body for which at least one of strain and fatigue damage is to be calculated in such a way that deformation of the gage length and deformation under load of the body with which the target is associated bear a one-to-one relationship, and being adapted to emit a detectable physical quantity, wherein the one-dimensional barcode is based on the Code 39 barcode standard, and includes start and stop characters and a sequential string of a plurality of intermediate characters that hold the actual coded information, each character being defined by a total of nine bars and spaces; a sensor compatible with and adapted to pre-process the detectable physical quantity emitted by the target and output data representing the physical quantity; means for analyzing the data output by the sensor to define the gage length of the target; and means for calculating at least one of the strain and the fatigue damage on the body directly, based on the pre-processed and analyzed data. - View Dependent Claims (2, 3, 4)
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Specification