Wear monitoring system with embedded conductors
First Claim
1. A wear monitoring system comprising:
- a first component having a surface;
a second component;
a first conductor embedded in the first component at a predetermined depth beneath the surface;
a power source operatively connected to provide current to the first conductor, whereby an electrical circuit is formed; and
a measurement device operatively positioned to measure an electrical value across at least a portion of the first conductor, wherein the second component contacts the surface of the first component such that at least the surface of the first component wears, whereby a user can monitor the measurement device for changes in the measured value indicating that the wear has progressed at least to the predetermined depth.
3 Assignments
0 Petitions
Accused Products
Abstract
Aspects of the invention relate to a system for monitoring the wear of a component. A conductor can be embedded in the component at a depth from a surface of the component. In one embodiment, the conductor can be operatively connected to a power source to form an electrical circuit. The resistance across the conductor can be measured. As the component contacts a second component, the component can begin to wear. Once the wear progresses to the conductor, changes in the measured resistance can result. Thus, an operator can be alerted that the component has worn to a certain point and that service may be needed. Alternatively, impedance can be measured across the conductor. Because the dielectric permeability of the material surrounding the conductor can affect impedance, changes in impedance can occur as the surface material of the component is worn away.
46 Citations
20 Claims
-
1. A wear monitoring system comprising:
-
a first component having a surface;
a second component;
a first conductor embedded in the first component at a predetermined depth beneath the surface;
a power source operatively connected to provide current to the first conductor, whereby an electrical circuit is formed; and
a measurement device operatively positioned to measure an electrical value across at least a portion of the first conductor, wherein the second component contacts the surface of the first component such that at least the surface of the first component wears, whereby a user can monitor the measurement device for changes in the measured value indicating that the wear has progressed at least to the predetermined depth. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10)
-
-
11. A wear monitoring system comprising:
-
a first component having a first surface;
a second component having a second surface, wherein at least a portion of the surface of the second component is conductive;
a first conductor embedded in the first component at a predetermined depth beneath the first surface; and
a power source operatively connected to the first conductor and to the conductive surface of the second component, wherein an initially open circuit is formed, the second surface and the first surface being in contact such that at least the first surface wears, wherein, when the first surface is sufficiently worn such that the second surface contacts the first conductor, the circuit is completed, whereby the completion of the circuit can alert a user that the wear has progressed to at least the predetermined depth. - View Dependent Claims (12, 13, 14, 15, 16, 17, 18, 19, 20)
-
Specification