System and method for determining the effectiveness of production installations, fault events and the causes of faults
First Claim
1. A system for determining an effectiveness of production installations of various types, significant fault events which bring about deviations from a prescribed desired effectiveness, and causes of the significant fault events, the system comprising:
- a data acquisition device to be connected to a respective production installation and set up for continuous acquisition and ready-to-call-up storage of data including installation-related data and production-related data; and
a service device connected to said data acquisition device, said service device including;
an input device for inputting additional descriptive data including installation-related descriptive data and production-related descriptive data that cannot be called up from said data acquisition device;
a display device for displaying the effectiveness determined, the significant fault events and the causes of the significant fault events;
an online system part connected to and set up for calling up the installation-related data and the production-related data from said data acquisition device, said online system part having a fault event detector detecting the significant fault events on a basis of the data, the additional descriptive data input by said input device, and on an overall equipment effectiveness (OEE) script, and online system part determining the significant fault events by fault event evaluation using a configured assessment model, determining in each case the causes of the significant fault events using a configured fault model, and calculating the effectiveness;
an offline system part connected to said online system part, said offline system part one of containing and has access to a number of models including generic fault models and assessment models, said offline system part set up for searching for the models on a basis of at least one of called-up and input descriptive data, said off line system part configuring the models and storing the models one of locally and in a locally distributed form, said offline system part configured for storing the models in said online system part as one of the configured assessment model and the configured fault model.
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Abstract
A method and a system are described for determining the effectiveness of production installations, significant fault events that bring about deviations from a desired effectiveness and the causes of fault events. The production installation is connected to a data acquisition device, which is set up for continuous acquisition and ready-to-call-up storage of installation and production-related data. A service device is connected to the data acquisition device and has an input device for the input of additional installation and production-related descriptive data that cannot be called up from the data acquisition device. An online system part is set up for calling up installation and production-related data from the data acquisition device, calculating the effectiveness, detecting fault events, determining significant fault events by fault event evaluation, and determining in each case the causes of faults. An offline system part is provided and contains a number of generic fault models and assessment models.
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Citations
21 Claims
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1. A system for determining an effectiveness of production installations of various types, significant fault events which bring about deviations from a prescribed desired effectiveness, and causes of the significant fault events, the system comprising:
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a data acquisition device to be connected to a respective production installation and set up for continuous acquisition and ready-to-call-up storage of data including installation-related data and production-related data; and
a service device connected to said data acquisition device, said service device including;
an input device for inputting additional descriptive data including installation-related descriptive data and production-related descriptive data that cannot be called up from said data acquisition device;
a display device for displaying the effectiveness determined, the significant fault events and the causes of the significant fault events;
an online system part connected to and set up for calling up the installation-related data and the production-related data from said data acquisition device, said online system part having a fault event detector detecting the significant fault events on a basis of the data, the additional descriptive data input by said input device, and on an overall equipment effectiveness (OEE) script, and online system part determining the significant fault events by fault event evaluation using a configured assessment model, determining in each case the causes of the significant fault events using a configured fault model, and calculating the effectiveness;
an offline system part connected to said online system part, said offline system part one of containing and has access to a number of models including generic fault models and assessment models, said offline system part set up for searching for the models on a basis of at least one of called-up and input descriptive data, said off line system part configuring the models and storing the models one of locally and in a locally distributed form, said offline system part configured for storing the models in said online system part as one of the configured assessment model and the configured fault model. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13)
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14. A method for automatically determining an effectiveness of a production installation, significant fault events and causes of the effectiveness deviating from a prescribed desired state, which comprises the steps of:
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calling up productivity-relevant historical data acquired and stored by a data acquisition device connected to the production installation using a fault event detector;
inputting additional data including installation-related data and production-related data;
carrying out a continuous calculation of the effectiveness using an OEE calculator;
performing an investigation of the data with regard to fault event patterns using a fault event detector;
storing detected fault events as time series in a fault database;
identifying the significant fault events from the detected fault events using a fault event evaluation and a stored configured assessment model;
determining causes of faults using a cause determiner with respect to a respective significant fault event, taking into account additionally input data containing a description of specific environmental conditions; and
presenting the causes of faults determined and the effectiveness determined at least one of visually and as a data output. - View Dependent Claims (15, 16, 17, 18, 19, 20, 21)
determining significant fault events using a fault event evaluator; and
presenting visually the significant fault events in a Pareto diagram.
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18. The method according to claim 14, which comprises:
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using a model searcher for searching by use of descriptive data stored in a model library for that generic model which best matches a specific fault event and the production installation; and
feeding the generic model to a model editor and to a model configurer for forming configured models, the configured models are used for an evaluation of fault events and for a cause analysis.
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19. The method according to claim 18, wherein for determining the causes of faults by the cause determiner, cause hypotheses of a configured error model which contains cause-effect diagrams extending over a number of model levels are verified by the cause determiner using the descriptive data, the configured error model being worked step by step from one level to the next until an actual cause is found.
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20. The method according to claim 14, which comprises using a fault model, which has a recommendation model added to it and with the aid of which recommendations for eliminating faults are determined and output.
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21. The method according to claim 18, which comprises:
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generalizing models configured in a course of the method by a model generalizer for later reuse resulting in generalized models; and
storing the generalized models in a model library, elements of a respective model being one of generalized and removed.
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Specification