Torsional sensing load cell
First Claim
1. A torsional sensing load cell for use as a force indicator comprising:
- a first arm held in a relatively fixed position, a second arm, parallel to the first arm, connected to a load associated with a force, a joining section integrally connected to an end of said first arm and to an end of said second arm, a force transducer connected to produce an electrical output signal representing torsion between the first and second arms, and an electrical circuit connected to receive said output signal representing torsion and to use said signal to indicate the load associated with a force, wherein the load is connected to the second arm in a manner to produce torsion between the first arm and the second arm thus producing torsion in the joining section.
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Accused Products
Abstract
A torsional sensing load cell, particularly for mounting at support locations of an automotive seat in order to determine weight and sitting position of an occupant of a motor vehicle. The load cell has the shape of a tuning fork, with one arm fixed to a foot attached to a chassis and a second parallel arm, not contacting the first arm, arranged to support a quadrant of a seat by means of a flange on the side of the second arm, causing torsion in the arm. The two arms are connected at one end by means of a bridge section through which torsion is transmitted arising from twisting in the second arm. Torsion is measured by transducers on the bridge section with torsion signals converted to weight signals. The weight signals are used to control deployment of an air bag or other safety apparatus.
30 Citations
15 Claims
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1. A torsional sensing load cell for use as a force indicator comprising:
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a first arm held in a relatively fixed position, a second arm, parallel to the first arm, connected to a load associated with a force, a joining section integrally connected to an end of said first arm and to an end of said second arm, a force transducer connected to produce an electrical output signal representing torsion between the first and second arms, and an electrical circuit connected to receive said output signal representing torsion and to use said signal to indicate the load associated with a force, wherein the load is connected to the second arm in a manner to produce torsion between the first arm and the second arm thus producing torsion in the joining section. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9)
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10. A torsional sensing load cell comprising:
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a first member;
a second member;
a third member integrally coupling together the first and second members, wherein the first member and second member are configured to be coupled to a load in a manner to produce torsional stress in the first, second, and third members;
a first force transducer connected to the first member detect torsional stress in the first member; and
a second force transducer connected to the second member to detect torsional stress in the second member. - View Dependent Claims (11, 12)
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13. A torsional sensing load cell comprising:
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a generally U-shaped member having a main body portion and first and second extending portions extending away from the main body portion;
a first transducer coupled along the first extending portion and proximate the main body portion; and
a second transducer coupled along the second extending portion and proximate the main body portion, the first extending portion and the second extending being coupled to a load in a manner to produce torsional stress through the generally U-shaped member when subjected to the load, the first and second transducers configured to detect a torsional force respectively in the first extending portion and the second extending portion resulting from the torsional stress. - View Dependent Claims (14, 15)
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Specification