Force measuring system having several force-measuring cells and a circuit calculating a total signal
First Claim
1. A system for measuring a force, comprising:
- at least two load cells, each detecting a partial force of the force to be measured and outputting a corresponding digital output signal,an electronic unit;
an electronic circuit that, based on the output signals of the load cells, calculates a total signal corresponding to a magnitude of the force to be measured and transmits the total signal to the electronic unit for further processing or data output; and
at least one additional electronic circuit,wherein the load cells are interconnected by a bus system, wherein the electronic unit is connected to the bus system, wherein each of the electronic circuits is integrated into a different one of the load cells, and wherein a determination as to which of the electronic circuits calculates the total signal and transmits the total signal to the electronic unit is made by connector coding, selector switch or parameterization in a read-only memory.
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Accused Products
Abstract
A force measuring system with at least two load cells (1, 2), which detect and convert partial forces of the force to be measured into a digital output signal, and with an electronic circuit (5), which calculates a total signal from the output signals of the individual load cells according to the amount of the force to be measured and transmits this total signal to another electronic unit (3) for further processing or data output. The electronic circuit (5) is integrated into at least one load cell (2), whereby the hardware requirements are minimized while detection of the measured values is clearly separated from further processing of the measured values. Advantageously the electronic circuit (5) can be integrated into each load cell (2).
32 Citations
27 Claims
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1. A system for measuring a force, comprising:
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at least two load cells, each detecting a partial force of the force to be measured and outputting a corresponding digital output signal, an electronic unit; an electronic circuit that, based on the output signals of the load cells, calculates a total signal corresponding to a magnitude of the force to be measured and transmits the total signal to the electronic unit for further processing or data output; and at least one additional electronic circuit, wherein the load cells are interconnected by a bus system, wherein the electronic unit is connected to the bus system, wherein each of the electronic circuits is integrated into a different one of the load cells, and wherein a determination as to which of the electronic circuits calculates the total signal and transmits the total signal to the electronic unit is made by connector coding, selector switch or parameterization in a read-only memory. - View Dependent Claims (4, 5, 6, 7, 8, 9, 10)
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2. A system for measuring a force, comprising:
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at least two load cells, each detecting a partial force of the force to be measured and outputting a corresponding digital output signal, an electronic unit; an electronic circuit that, based on the output signals of the load cells, calculates a total signal corresponding to a magnitude of the force to be measured and transmits the total signal to the electronic unit for further processing or data output; and at least one additional electronic circuit, wherein the load cells are interconnected by a bus system, wherein the electronic unit is connected to the bus system, wherein each of the electronic circuits is integrated into a different one of the load cells, wherein at least two of the electronic circuits each calculates a respective total signal and transmits the respective total signal to the electronic unit, wherein the transmitted total signals are compared, and wherein an error signal is output if the transmitted total signals do not match. - View Dependent Claims (20, 21)
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3. A system for measuring a force, comprising:
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at least two load cells, each detecting a partial force of the force to be measured and outputting a corresponding digital output signal, an electronic unit; an electronic circuit that, based on the output signals of the load cells, calculates a total signal corresponding to a magnitude of the force to be measured and transmits the total signal to the electronic unit for further processing or data output; and at least two additional electronic circuits, wherein the load cells are interconnected by a bus system, wherein the electronic unit is connected to the bus system, wherein each of the electronic circuits is integrated into a different one of the load cells, wherein each of the electronic circuits calculates a respective total signal and forwards that the respective total signal to the electronic unit, wherein the three forwarded total signals are compared, and wherein an output is generated by the electronic unit only if at least two of the respective total signals match. - View Dependent Claims (22, 23)
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11. A system for measuring a force, comprising:
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a first load cell that detects a first part of the force to be measured and outputs a corresponding first load cell signal; a second load cell that detects a second part of the force to be measured and outputs a corresponding second load cell signal; a first electronic circuit integrated into the first load cell; a separate electronic unit downstream of the first and second load cells; and a second electronic circuit integrated into the second load cell; wherein, based on the first load cell signal and the second load cell signal, the first electronic circuit calculates a first total signal corresponding to a magnitude of the force to be measured and transmits the first total signal to the electronic unit for further processing or data output; and
wherein a determination that the first electronic circuit calculates the first total signal and transmits the first total signal to the electronic unit is made by connector coding, selector switch or parameterization in a read-only memory of at least one of the first and second load cells. - View Dependent Claims (12, 13, 17, 18, 19)
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14. A system for measuring a force, comprising:
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a first load cell that detects a first part of the force to be measured and outputs a corresponding first load cell signal; a second load cell that detects a second part of the force to be measured and outputs a corresponding second load cell signal; a first electronic circuit integrated into the first load cell; a separate electronic unit downstream of the first and second load cells; and a second electronic circuit integrated into the second load cell; wherein, based on the first load cell signal and the second load cell signal, the first electronic circuit calculates a first total signal corresponding to a magnitude of the force to be measured and transmits the first total signal to the electronic unit for further processing or data output;
wherein the second electronic circuit calculates a second total signal corresponding to a magnitude of the force to be measured and transmits that second total signal to the electronic unit; and
wherein the transmitted first and second total signals are compared and an error signal is output if the transmitted total signals do not match. - View Dependent Claims (24, 25)
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15. A system for measuring a force, comprising:
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a first load cell that detects a first part of the force to be measured and outputs a corresponding first load cell signal; a second load cell that detects a second part of the force to be measured and outputs a corresponding second load cell signal; a first electronic circuit integrated into the first load cell; a separate electronic unit downstream of the first and second load cells; a second electronic circuit integrated into the second load cell, a third load cell that detects a third part of the force to be measured and outputs a corresponding third load cell signal; and a third electronic circuit integrated into the third load cell; wherein, based on the first load cell signal and the second load cell signal, the first electronic circuit calculates a first total signal corresponding to a magnitude of the force to be measured and transmits the first total signal to the electronic unit for further processing or data output; wherein the second electronic circuit calculates a second total signal corresponding to a magnitude of the force to be measured and transmits that second total signal to the electronic unit; wherein the third electronic circuit calculates a third total signal corresponding to a magnitude of the force to be measured and transmits that third total signal to the electronic unit; and wherein the first through third total signals are compared and at least one of the first through third total signals is output only if at least two of the total signals match. - View Dependent Claims (16, 26, 27)
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Specification