Method and system for component replacement based on use and error correlation
First Claim
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1. In a system with operator replaceable component devices and identifiable error conditions, a method of determining a replacement need for each operator replaceable component device, said method comprising the steps of:
- tracking a system use using a predetermined parameter;
providing a predetermined life expectancy for each said operator replaceable component device, in terms of said predetermined parameter;
tracking an accumulated life for each said operator replaceable component device, using said predetermined parameter;
tracking an occurrence frequency of each identifiable error condition;
cross-referencing each said operator replaceable component device to each said error condition with a probability factor, each said probability factor being a predetermined probability, expressed as a %, that said replaceable component could contribute to the cause of said error condition;
for each said operator replaceable component device, tracking an error weighting, said error weighting being the sum, for all said error conditions, of the result of multiplying each said probability factor for each said error condition times said occurrence frequency for each said error condition;
for each said operator replaceable component device, comparing a predetermined combination of said accumulated life and said error weighting with a predetermined threshold; and
reporting to the system operator the result of the comparing step, for all said operator replaceable component devices, on a periodic basis, said periodic basis being a predetermined amount of said system use.
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Abstract
A method and system, for component replacement, which use a combination of replaceable component life tracking and error condition occurrence history to identify the need for component replacement.
8 Citations
20 Claims
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1. In a system with operator replaceable component devices and identifiable error conditions, a method of determining a replacement need for each operator replaceable component device, said method comprising the steps of:
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tracking a system use using a predetermined parameter; providing a predetermined life expectancy for each said operator replaceable component device, in terms of said predetermined parameter; tracking an accumulated life for each said operator replaceable component device, using said predetermined parameter; tracking an occurrence frequency of each identifiable error condition; cross-referencing each said operator replaceable component device to each said error condition with a probability factor, each said probability factor being a predetermined probability, expressed as a %, that said replaceable component could contribute to the cause of said error condition; for each said operator replaceable component device, tracking an error weighting, said error weighting being the sum, for all said error conditions, of the result of multiplying each said probability factor for each said error condition times said occurrence frequency for each said error condition; for each said operator replaceable component device, comparing a predetermined combination of said accumulated life and said error weighting with a predetermined threshold; and reporting to the system operator the result of the comparing step, for all said operator replaceable component devices, on a periodic basis, said periodic basis being a predetermined amount of said system use. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10)
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11. A system with operator enabled maintenance and identifiable error conditions, said system comprising:
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a plurality of operator replaceable component (ORC) device, each said ORC devices having an expected life span using a predetermined parameter; a computational element having stored therein a data table cross-referencing, with a probability factor, each said ORC device to each identifiable error condition, each said probability factor being a predetermined probability, expressed as a %, that said ORC device could contribute to the cause of said error condition; a use mechanism coupled to said computational element and to each said ORC device, said use mechanism tracking a system use and, for each said ORC device, tracking an ORC device use, using said predetermined parameter; an error detection mechanism coupled to said computational element and to each said ORC device, said error detection mechanism tracking;
1) an occurrence frequency of each said error condition, and
2) an ORC device error weighting, said ORC error weighting being the sum, for all said error conditions, of the result of multiplying each said probability factor times said occurrence frequency for each said error condition;a comparison mechanism coupled to said computational element and to each said ORC device, said comparison mechanism comparing to a predetermined threshold, for each said ORC, a predetermined combination of said ORC use and said ORC error weighting; a user interface including a display mechanism and a graphical user interface; and a reporting mechanism, responsive to said comparison mechanism, providing, on a periodic basis, a report to the system operator via said user interface, said periodic basis being a predetermined amount of said system use. - View Dependent Claims (12, 13, 14, 15, 16, 17, 18, 19, 20)
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Specification