Load cell
First Claim
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1. A unitary load cell for measuring forces applied thereto, said load cell comprising:
- first end constraint means;
second end constraint means;
stabilizer flexure means including upper and lower flexures connected between said first and second end constraints to form a parallelogram, said first and second end constraints being relatively massive in relation to said stabilizer flexure means, said stabilizer flexure means permitting relative motion between said first end constraint and said second end constraint in response to a load applied in the sensing direction;
a sensing beam with a first end thereof supported by the first end constraint at a point between said flexures;
load directing flexure means between said second end constraint and a second end of said sensing beam for applying equal tensile and compressive stresses along a common surface of said sensing beam while avoiding any axial loading of said sensing beam, said load directing flexure means being disposed along a centerline which intersects said sensing beam near a midpoint thereof; and
means for sensing said stresses in said sensing beam, said means for sensing stresses in said beam including a multiple element resistive strain gage mounted on a top surface of said sensing beam for responding to tensile and compressive strains in said sensing beam by variation in resistance in said strain gages.
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Abstract
A strain gage load cell for measurement of weight or other forces. The load cell includes opposite and relatively massive end constraints, a pair of stabilizer flexures connected between opposite end constraints in a parallelogram type frame, a sensing beam with a first end supported by one of the end constraints, and a load directing flexure between the other end constraint and a second end of the sensing beam. The load directing flexure intersects the midpoint of the sensing beam and causes equal tensile and compressive stresses along a common surface of the beam upon which the strain gages are mounted.
29 Citations
13 Claims
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1. A unitary load cell for measuring forces applied thereto, said load cell comprising:
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first end constraint means; second end constraint means; stabilizer flexure means including upper and lower flexures connected between said first and second end constraints to form a parallelogram, said first and second end constraints being relatively massive in relation to said stabilizer flexure means, said stabilizer flexure means permitting relative motion between said first end constraint and said second end constraint in response to a load applied in the sensing direction; a sensing beam with a first end thereof supported by the first end constraint at a point between said flexures; load directing flexure means between said second end constraint and a second end of said sensing beam for applying equal tensile and compressive stresses along a common surface of said sensing beam while avoiding any axial loading of said sensing beam, said load directing flexure means being disposed along a centerline which intersects said sensing beam near a midpoint thereof; and means for sensing said stresses in said sensing beam, said means for sensing stresses in said beam including a multiple element resistive strain gage mounted on a top surface of said sensing beam for responding to tensile and compressive strains in said sensing beam by variation in resistance in said strain gages. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8)
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- 9. A load cell comprising spaced apart first and second end constraints, a pair of spaced apart parallel stabilizer flexures connected to their ends to the end constraints to form a parallelogram, a stress sensing beam extending parallel to said stabilizer flexures and having a first end supported by one of the end constraints at a point between said stabilizer flexures and a second end, and load directing flexure means extending between the other of said end constraints and said second end of said sensing beam including an enlarged sensing beam end constraint having a leg underlying at least half of the sensing beam and a load directing flexure depending from said leg along a centerline extending perpendicular to and intersecting the midpoint of said sensing beam the lower end of which is connected to a projection extending from the other of said end constraints.
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13. A load cell for measuring forces applied thereto, said load cell comprising:
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first end constraint means; second end constraint means; stabilizer flexure means connected between said first and second end constraints to form a parallelogram, said first and second end constraints being relatively massive in relation to said stabilizer flexure means, said stabilizer flexure means permitting relative motion between said first end constraint and said second end constraint in response to a load applied to the sensing direction; a sensing beam with a first end thereof supported by the first end constraint at a point between said stabilizer flexure means; load directing flexure means between said second end constraint and a second end of said sensing beam for applying equal tensile and compressive stresses along a common surface of said sensing beam while avoiding any axial loading of said sensing beam, said load directing flexure means being disposed along a centerline which intersects said sensing beam near a midpoint thereof, said load directing flexure means including an enlarged center portion between a pair of neck portions; an enlarged sensing beam end constraint at one end of said sensing beam, said sensing beam end constraint having a leg thereof underlying said sensing beam which permits the load directing flexure means connected between the leg of said sensing beam end constraint and said second end constraint to apply a bending moment, as well as a force representative of the measured force, to the end of the sensing beam; and means for sensing said stresses in said sensing beam.
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Specification