Monitoring device for detecting stress strain and method for using same
First Claim
1. A monitoring device for detecting stress and strain in a structure, said monitoring device comprising a base material, one or more attachment points for attaching said monitoring device to said structure, a detection zone comprising a single layer of photoelastic material for detecting the presence of stress and strain in said detection zone, said single layer of photoelastic material comprising material that is unstressed when said monitoring device does not have stress or strain applied to it through said attachment points;
- the surface of said detection zone comprising a continuous substantially crack-free surface, and said base material and the dimensions of said monitoring device chosen so that a predetermined level of strain transmitted to said monitoring device by said structure through said attachment points results in a known level of stress and strain in said detection zone.
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Abstract
The present invention provides a monitoring device for detecting stresses and strains in structural components and a method of using the monitoring device. The monitoring device comprises a base material, one or more attachment points for attaching the monitoring device to a structure to be monitored, a detection zone on the monitoring device, and a means for detecting the presence of stress and strain in the detection zone. The dimensions and material of the monitoring device are chosen such that a predetermined level of strain transmitted to the monitoring device from the structure will result in a known level of stress and strain in the detection zone. Detection of stress and strain in the detection zone can be correlated to a level of stress and strain experienced by the structure at the point of attachment of the monitoring device.
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Citations
12 Claims
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1. A monitoring device for detecting stress and strain in a structure, said monitoring device comprising a base material, one or more attachment points for attaching said monitoring device to said structure, a detection zone comprising a single layer of photoelastic material for detecting the presence of stress and strain in said detection zone, said single layer of photoelastic material comprising material that is unstressed when said monitoring device does not have stress or strain applied to it through said attachment points;
- the surface of said detection zone comprising a continuous substantially crack-free surface, and said base material and the dimensions of said monitoring device chosen so that a predetermined level of strain transmitted to said monitoring device by said structure through said attachment points results in a known level of stress and strain in said detection zone.
- View Dependent Claims (2, 3, 4, 5, 6)
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7. A monitoring device for detecting stress and strain in a structure, said monitoring device comprising a base material, one or more attachment points for attaching said monitoring device to said structure, a detection zone, a strain gauge applied to said detection zone for detecting the presence of stress and strain in said detection zone;
- the surface of said detection zone comprising a continuous substantially crack-free surface, said strain gauge comprising a wire or an optical fiber that changes in length when strain is applied to allow for detection of said strain through measuring a change in electrical resistance through said wire or a change in optical resistance through said optical fiber;
said base material and the dimensions of said monitoring device chosen so that a predetermined level of strain transmitted to said monitoring device by said structure through said attachment points results in a known level of stress and strain in said detection zone.
- the surface of said detection zone comprising a continuous substantially crack-free surface, said strain gauge comprising a wire or an optical fiber that changes in length when strain is applied to allow for detection of said strain through measuring a change in electrical resistance through said wire or a change in optical resistance through said optical fiber;
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8. A monitoring device for detecting vibration or shock loads in a structure, said monitoring device comprising a base material, a free end, a fixed end with one or more attachment points for attaching said monitoring device to said structure, a detection zone located between said fixed end and said free end, and a means for detecting the presence of stress and strain in said detection zone;
- the surface of said detection zone comprising a continuous substantially crack-free surface, said base material and the dimensions of said monitoring device chosen so that a predetermined level of vibration transmitted to said monitoring device by said structure through said attachment points results in plastic deformation in said detection zone.
- View Dependent Claims (9, 10, 11, 12)
Specification
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- Resources
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Current AssigneeSimpson Strong-Tie Company Incorporated (Simpson Manufacturing Company Incorporated)
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Original AssigneeDuhane Lam, Mark William Ellens
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InventorsEllens, Mark William, Lam, Duhane
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Primary Examiner(s)Punnoose, Roy M
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Application NumberUS12/481,571Publication NumberTime in Patent Office1,546 DaysField of Search356/32, 356/33, 356/34, 356/35US Class Current356/35CPC Class CodesG01B 11/168 by means of polarisation
