Skip directly to search Skip directly to A to Z list Skip directly to page options Skip directly to site content

NIOSHTIC-2 Publications Search

Search Results

A general design and implementation procedure for sensor-based electrical diagnostic systems for mining machinery.

Authors
Kohler-JL; Sottile-J
Source
Pittsburgh, PA: U.S. Department of the Interior, Bureau of Mines, RI 9443, 1993 Jan; :1-24
NIOSHTIC No.
10003140
Abstract
Component failures in the electrical control circuits of mining machines account for a large percentage of the total downtime of the machine. Once a failure has occurred it is always a tedious and usually a time-consuming task to locate the failed component. Moreover. the pressure to quickly locate the cause of a delay can lead to compromises in safety. Thus an onboard diagnostic system. essential for an automated machine, would be a very useful addition to existing machines. This report details U.S. Bureau of Mines development of a generic procedure for synthesizing diagnostic systems for electrical-control-circuit failures in mining machinery. A continuous mining machine is used as the testbed to illustrate the application of the developed methodology. Substantive differences among mining machine control circuits made it impossible to achieve a generic diagnostic system. but a generic approach for the synthesis of the diagnostic system was possible. As the research progressed. it became apparent that an algorithmic approach was better than an expert-system-based implementation. A prototype system was constructed and used to evaluate the diagnostic system. Prototype implementation issues are also examined.
Keywords
Mining-equipment; Mining-industry; Electrical-systems; Diagnostic-techniques; Safety-engineering; Safety-monitoring
Publication Date
19930101
Document Type
Report of Investigations
Fiscal Year
1993
NTIS Accession No.
PB93-186013
NTIS Price
A03
Identifying No.
RI-9443
NIOSH Division
PRC
Source Name
Pittsburgh, PA: U.S. Department of the Interior, Bureau of Mines, RI 9443
State
PA
TOP