Strain gage load cell
First Claim
1. In a load cell of the type which measures forces along and parallel to a first axis, comprising:
- a substantially rigid force input structure to which the force to be measured is applied;
a substantially rigid force output structure adapted to be supported on a stationary reaction surface;
said force input and force output structures being in the form of oppositely oriented generally L-shaped structures, a first leg of said force input structure receiving the force to be measured and a first leg of said force output structure engaging the reaction surface, said first two legs being generally parallel to each other and at right angles to the first axis, the second legs of each of said structures being generally parallel to each other and to the first axis,said force input and output structures being normally spaced from each other and interconnected for resilient relative movement in the direction of the first axis by resilient means including upper and lower flexure beams which are parallel to and between said first legs, said force input and output structures and said flexure beams defining a resilient parallelogram linkage lying in a plane parallel to the first axis, said flexure beams and their end connections being dimensioned and proportioned to be resilient to a relatively large degree to forces parallel to the first axis, while being relatively stiffer to forces in all other directions;
said resilient means further including a sensing beam located between and parallel to said flexure beams, one end of said sensing beam being rigidly connected to said second leg of said force output structure and the other end of said sensing beam being connected to said second leg of said force input structure by a connection which is relatively flexible to the forces parallel to the axis of said sensing beam but which is substantially rigid to forces in the direction of the first axis;
said sensing beam being provided with strain gages which produce a signal responsive to the bending of said beam induced by forces applied to the load cell in a direction parallel to the first axis.
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Accused Products
Abstract
Theload cell herein disclosed is designed for precise measurement of forces along or parallel to a single axis, while being substantially immune to forces applied along the other mutually perpendicular axes as well as moments applied about any of the three mutually perpendicular axes. Rigid force input and force output members are resiliently interconnected by a pair of parallel flexure beams which establish with such members a parallelogram type of linkage which is relatively yieldable to forces parallel to the selected measurement axis while being relatively stiff and unyieldable to forces parallel to the other two axes and to moments about any of the three axes. A strain gage-equipped sensing beam is mounted within the plane of the parallelogram linkage and between the two flexure beams. One end of the sensing beam is rigidly connected to the fixed force output member, while the other end is free to flex in cantilevered fashion responsive to displacement of the force input member. The sensing beam thereby provides part of the resilient interconnection between the force input and force output members, and is dimensioned so that its stiffness relative to that of the two flexure beams causes it to absorb 80 to 90% of the applied loads. Adjustable overload protection means are provided, which cause excessive forces to be safely by-passed around the resilient members and the strain gages.
46 Citations
7 Claims
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1. In a load cell of the type which measures forces along and parallel to a first axis, comprising:
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a substantially rigid force input structure to which the force to be measured is applied; a substantially rigid force output structure adapted to be supported on a stationary reaction surface; said force input and force output structures being in the form of oppositely oriented generally L-shaped structures, a first leg of said force input structure receiving the force to be measured and a first leg of said force output structure engaging the reaction surface, said first two legs being generally parallel to each other and at right angles to the first axis, the second legs of each of said structures being generally parallel to each other and to the first axis, said force input and output structures being normally spaced from each other and interconnected for resilient relative movement in the direction of the first axis by resilient means including upper and lower flexure beams which are parallel to and between said first legs, said force input and output structures and said flexure beams defining a resilient parallelogram linkage lying in a plane parallel to the first axis, said flexure beams and their end connections being dimensioned and proportioned to be resilient to a relatively large degree to forces parallel to the first axis, while being relatively stiffer to forces in all other directions; said resilient means further including a sensing beam located between and parallel to said flexure beams, one end of said sensing beam being rigidly connected to said second leg of said force output structure and the other end of said sensing beam being connected to said second leg of said force input structure by a connection which is relatively flexible to the forces parallel to the axis of said sensing beam but which is substantially rigid to forces in the direction of the first axis; said sensing beam being provided with strain gages which produce a signal responsive to the bending of said beam induced by forces applied to the load cell in a direction parallel to the first axis. - View Dependent Claims (2, 3, 4, 5, 6, 7)
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Specification
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- Resources
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Current AssigneeEaton Corp. (Wisconsin) (Eaton Corporation PLC.), Lebow Associates Incorporated
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Original AssigneeEaton Corp. (Wisconsin) (Eaton Corporation PLC.)
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InventorsAmlani, Kish, Morgan, Craig, Ellwood, Thomas, Zink, Frederick J.
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Primary Examiner(s)Ciarlante, Anthony V.
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Application NumberUS06/197,369Time in Patent Office636 DaysField of Search73/862.65, 73/862.62, 177/211, 177/229US Class Current73/862.382CPC Class CodesG01G 23/005 Means for preventing overloadG01G 3/1412 the supports being parallel...G01L 1/2243 the supports being parallel...G01L 1/26 Auxiliary measures taken, o...
