Laminated beam weight sensor
First Claim
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1. A weight sensor for sensing an applied weight comprising:
- a) a first and second outer substrate, each having a first and second end and each having an inner surface and an outer surface;
b) at least one inner substrate, having a first and second end, the inner substrate located between the inner surfaces of the first and second outer substrates;
c) at least one fastener fixedly attaching the first and second outer substrates to the inner substrate;
d) a plurality of strain gauge resistors, located on the outer surfaces of the first and second outer substrates, for generating an electrical signal in response to the substrate being stressed by the applied weight, the electrical signal changing as a function of the applied weight; and
e) a neckdown region located in the first and second outer substrate, between the first and second ends for concentrating the applied weight, the strain gauge resistors located in the neckdown region.
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Abstract
A weight sensor for sensing an applied weight. The sensor includes a first and second outer substrate that have a first and second end and an inner surface and an outer surface. The first and second outer substrates are fixedly attached together. Several strain gauge resistors are located on the outer surfaces of the first and second outer substrates to generate an electrical signal in response to the substrate being stressed by the applied weight. The electrical signal changes as a function of the applied weight. The sensor is useful in measuring the weight of a vehicle seat occupant.
34 Citations
10 Claims
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1. A weight sensor for sensing an applied weight comprising:
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a) a first and second outer substrate, each having a first and second end and each having an inner surface and an outer surface;
b) at least one inner substrate, having a first and second end, the inner substrate located between the inner surfaces of the first and second outer substrates;
c) at least one fastener fixedly attaching the first and second outer substrates to the inner substrate;
d) a plurality of strain gauge resistors, located on the outer surfaces of the first and second outer substrates, for generating an electrical signal in response to the substrate being stressed by the applied weight, the electrical signal changing as a function of the applied weight; and
e) a neckdown region located in the first and second outer substrate, between the first and second ends for concentrating the applied weight, the strain gauge resistors located in the neckdown region. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8)
a) bolts and nuts;
b) screws and nuts;
c) rivets; and
d) capscrews.
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7. The weight sensor according to claim 1, wherein the substrate is a metal coated with a dielectric layer.
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8. The weight sensor according to claim 1, wherein the sensor is attached to a vehicle seat for measuring the weight of a seat occupant.
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9. A method of manufacturing a weight sensor comprising the steps of:
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a) providing a first, second and third substrate;
b) screen printing a dielectric layer on an outer surface of the first and second substrates;
c) curing the dielectric layer;
d) screen printing conductors on the outer surface of the first and second substrates;
e) curing the conductors;
f) screen printing resistors on the outer surface of the first and second substrates;
g) curing the resistors;
h) stacking the third substrate on top of the first substrate and stacking the second substrate on top of the third substrate; and
i) affixing the first, second and third substrates together using a fastener. - View Dependent Claims (10)
a) attaching the weight sensor to a vehicle seat for measuring the weight of a seat occupant.
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Specification