Load cell having digital output
First Claim
1. Apparatus for measuring forces or weights comprising, in combination:
- a load cell structure including first and second support portions, at least first and second fixed fixed load beams attached at their respective opposite ends to said first support portion and to said second support portion and with said support portions forming a parallelogram-like structure that is adapted to deflect in response to application of a force to one of said support portions, and at least one compliant cantilever sensor beam having one end attached to said one support portion and extending toward the other support portion and terminating at a free end; and
at least one force-sensitive vibrating beam resonator having mounts at the ends thereof, one attached to the free end of said at least one compliant cantilever sensor beam and the other attached to said other support portion;
wherein the applied force to be measured is transferred by deflection of said parallelogram-like structure and said compliant cantilever sensor beam to said at least one resonator to cause the vibration frequency of said at least one resonator to vary with changes in applied force according to a predetermined relationship.
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Accused Products
Abstract
Apparatus for measuring force, useful in a weighing scale for example, includes a parallelogram-like load cell structure that deflects in response to application of the force to be measured, and a pair of force-sensitive crystal resonators, attached to cantilever sensor beams forming part of the structure for sensing the deflection of the load cell structure. The two resonators are attached to the sensor beams such as to be placed in tension and compression, respectively, upon deflection of the structure and thereby cause their vibration frequency to increase and decrease, respectively, with increases in applied force. The difference between the two frequencies, which varies substantially linearly with changes in applied force and is inherently digital in nature, is used as a measure of the force applied to the load cell structure.
38 Citations
10 Claims
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1. Apparatus for measuring forces or weights comprising, in combination:
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a load cell structure including first and second support portions, at least first and second fixed fixed load beams attached at their respective opposite ends to said first support portion and to said second support portion and with said support portions forming a parallelogram-like structure that is adapted to deflect in response to application of a force to one of said support portions, and at least one compliant cantilever sensor beam having one end attached to said one support portion and extending toward the other support portion and terminating at a free end; and at least one force-sensitive vibrating beam resonator having mounts at the ends thereof, one attached to the free end of said at least one compliant cantilever sensor beam and the other attached to said other support portion; wherein the applied force to be measured is transferred by deflection of said parallelogram-like structure and said compliant cantilever sensor beam to said at least one resonator to cause the vibration frequency of said at least one resonator to vary with changes in applied force according to a predetermined relationship. - View Dependent Claims (2, 3, 4, 5, 6, 7)
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8. Apparatus for measuring force or weight comprising, in combination:
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a parallelogram-like load cell structure including first and second support portions joined together by first and second generally parallel spaced apart fixed fixed load beams, and first and second compliant cantilever sensor beams each attached at one end to a first support portion and extending generally parallel to and spaced from a respective load beam toward said second support portion and terminating at a free end; first and second force-sensitive resonators each having a vibratory beam with an integral mount at each end thereof; means for attaching the mount at one end of each resonator to the free end of said first and second sensor beams, respectively, and means for attaching the mount at the other end of said resonators to said second support portion, said load cell structure being constructed and arranged to transfer a force applied to said first portion to said first and second resonators in tension and compression, respectively, for causing the vibration frequency of said first and second resonators to increase and decrease, respectively, with increases in the applied load; and circuit means coupled to said first and second resonators for measuring the difference between the vibration frequencies of said first and second resonators and producing an output signal that varies substantially linearly with changes in the applied force.
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9. A resonator load cell comprising:
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first and second generally parallel spaced apart load beams both supported at one end on a first support and joined together at the other end by a second support portion and forming a parallelogram-like structure; first and second compliant cantilever sensor beams both attached to said second support portion and extending generally parallel to said first and second load beams, respectively, toward said first support and terminating at a free end, said structure being adapted to receive a force at a location spaced from said one end, thereby causing said load beams and said sensor beams to bend in proportion to the magnitude of said force; and first and second force-sensitive resonators each having first and second ends, one end of each resonator being attached to the free end of a respective sensor beam, and the other end of both resonators being attached to said first support, thereby causing one of said resonators to be placed in tension and the other to be placed in compression in response to bending of said sensor beams, and causing the vibration frequency of said one resonator to increase and the vibration frequency of said other resonator to decrease in proportion to the magnitude of said force. - View Dependent Claims (10)
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Specification