Thick film resistor force transducers and weighing scales
First Claim
1. Means for measuring a force between at least two opposed force-transmitting members comprising:
- a mechanical force to electrical signal transducer comprising;
a thin flexible circular wafer of substantially uniform thickness including a flexible metal substrate member, said circular wafer having a central depression therein,at least a part of one surface of said substrate member being flat and being comprised of an electric insulating material, anda resistance element fused upon said electrical insulating material to form an integral part of said flexible member, said resistance element comprising a substantially uniform thickness of a thick film resistor ink of the type used for thick film integrated circuits, the resistance of said resistance element varying in a predictable manner with strain applied to said flexible body, said film layer comprising a substantially circular pattern surrounding and centered upon said central depression, andmeans for mounting and positioning said circular wafer in a plane substantially perpendicular to the direction of the force to be measured, said mounting means including means positioned to engage the outer peripheral edges of said wafer body to confine said body within said mounting means,said force-transmitting members including force-transmitting elements engaging the flat faces of said wafer body respectively on opposite sides thereof to provide bending stress in said body to be measured by said film layer as a measure of said force,said opposed force-transmitting members comprising a substantially circular support shelf member substantially uniformly engaging and supporting one face of said wafer near the outer peripheral edge thereof outside of said film layer and a pin member engaging the opposite face of said wafer at said central depression, the end of said pin member being shaped and dimensioned to fit into said central depression,the position of said resistance element upon said body and the positions of engagement of said force-transmitting elements with said body thereby being arranged to be mutually exclusive so that said force-transmitting elements do not directly engage the portion of said body upon which said resistance element is formed,whereby the force applied to said flexible body may be measured by sensing the change in resistance of said resistance element in response to the application of the force.
2 Assignments
0 Petitions
Accused Products
Abstract
A mechanical force to electrical signal transducer includes a flexible metal body operable as a beam in which a bending strain is to be measured as a measure of a mechanical force. At least a part of one surface of the metal body includes an electrical insulating material with a resistance element formed from a layer of a thick film resistor ink of the type used for thick film integrated circuits fused upon the electrical insulating material. A plurality of such transducers may be combined in a weighing scale, with the individual transducers electrically interconnected to provide for electrical summing of the transducer signals to provide a total weight measurement.
51 Citations
4 Claims
-
1. Means for measuring a force between at least two opposed force-transmitting members comprising:
-
a mechanical force to electrical signal transducer comprising; a thin flexible circular wafer of substantially uniform thickness including a flexible metal substrate member, said circular wafer having a central depression therein, at least a part of one surface of said substrate member being flat and being comprised of an electric insulating material, and a resistance element fused upon said electrical insulating material to form an integral part of said flexible member, said resistance element comprising a substantially uniform thickness of a thick film resistor ink of the type used for thick film integrated circuits, the resistance of said resistance element varying in a predictable manner with strain applied to said flexible body, said film layer comprising a substantially circular pattern surrounding and centered upon said central depression, and means for mounting and positioning said circular wafer in a plane substantially perpendicular to the direction of the force to be measured, said mounting means including means positioned to engage the outer peripheral edges of said wafer body to confine said body within said mounting means, said force-transmitting members including force-transmitting elements engaging the flat faces of said wafer body respectively on opposite sides thereof to provide bending stress in said body to be measured by said film layer as a measure of said force, said opposed force-transmitting members comprising a substantially circular support shelf member substantially uniformly engaging and supporting one face of said wafer near the outer peripheral edge thereof outside of said film layer and a pin member engaging the opposite face of said wafer at said central depression, the end of said pin member being shaped and dimensioned to fit into said central depression, the position of said resistance element upon said body and the positions of engagement of said force-transmitting elements with said body thereby being arranged to be mutually exclusive so that said force-transmitting elements do not directly engage the portion of said body upon which said resistance element is formed, whereby the force applied to said flexible body may be measured by sensing the change in resistance of said resistance element in response to the application of the force. - View Dependent Claims (2, 3, 4)
-
Specification