System and method for machining process characterization using mechanical signature analysis
First Claim
1. A method for characterizing a machine tool system including a machine tool having a plurality of cooperating elements defining a machine tool structure, tooling connected to the machine tool structure for performing a machining operation on a workpiece, and fixturing connected to the machine tool structure for securing the workpiece during machining, the method comprising:
- mounting at least one sensor on the machine tool for monitoring vibrations during operation of the machine for a plurality of operating conditions including machining of the workpiece and generating a signal indicative thereof, wherein positioning of the at least one sensor is determined based on the machining operation;
storing a representation of the signal generated during operation of the machine for the plurality of operating conditions;
processing the stored representation of the signal in both time and frequency domains to select at least one discriminant characterizing the machine tool system during operation of the machine for the plurality of operating conditions; and
storing the at least one discriminant in a database for future comparison of the machine tool system.
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Accused Products
Abstract
A system and method for characterizing a machining process using techniques of mechanical signature analysis produces discriminants based on vibrational activity, measured at various positions on a machine tool. The system and method provide a complete characterization of an industrial machine tool including the machining structure, tooling, fixturing, workpiece, and operating environment under transient and steady state conditions both with and without machining loads. The method includes selection of appropriate sensors (24), sensor locations (24), mounting methods (24), signal conditioning (26), and data acquisition (28) and analysis (30) based upon the particular type of machine and machining process. The vibration signature analysis includes both time and frequency domain analysis. Dynamic stiffness measurements (36) are utilized in combination with data gathered from the machine tool during idle and machining periods to generate uniform discriminants (32) which provide an indication of machine operation. Machine information, including the uniform discriminants, is preferably stored in a database for future comparison and trending.
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Citations
17 Claims
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1. A method for characterizing a machine tool system including a machine tool having a plurality of cooperating elements defining a machine tool structure, tooling connected to the machine tool structure for performing a machining operation on a workpiece, and fixturing connected to the machine tool structure for securing the workpiece during machining, the method comprising:
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mounting at least one sensor on the machine tool for monitoring vibrations during operation of the machine for a plurality of operating conditions including machining of the workpiece and generating a signal indicative thereof, wherein positioning of the at least one sensor is determined based on the machining operation; storing a representation of the signal generated during operation of the machine for the plurality of operating conditions; processing the stored representation of the signal in both time and frequency domains to select at least one discriminant characterizing the machine tool system during operation of the machine for the plurality of operating conditions; and storing the at least one discriminant in a database for future comparison of the machine tool system. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9)
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10. A method for characterizing a machining process using a limited number of discriminants, the machining process being performed on a workpiece by a machine tool having a plurality of cooperating components defining a machine tool structure, the method comprising:
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analyzing the machine tool and the machining process to select at least one of the plurality of cooperating components to determine subsequent positioning and mounting of at least one sensor; determining testing conditions based on the analyzing step; mounting at least one sensor on the selected component for monitoring vibrations during operation of the machine for a plurality of different operating conditions including while machining the workpiece and generating a vibration signal indicative thereof, the at least one sensor being positioned and mounted according to the step of analyzing; sampling the vibration signal and storing a digital representation thereof during operation of the machine for the plurality of different operating conditions; processing the digital representation in both time and frequency domains to determine at least one discriminant value for each of the limited number of discriminants; and modifying at least one of the cooperating components based on the limited number of discriminants. - View Dependent Claims (11, 12, 13, 14, 15)
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16. A system for characterizing a machine tool system including a machine tool having a plurality of cooperating elements defining a machine tool structure, tooling connected to the machine tool structure for performing a machining operation on a workpiece, and fixturing connected to the machine tool structure for securing the workpiece during machining, the system comprising:
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at least one sensor mounted on the machine tool system for monitoring vibrations of the machine tool system under a plurality of different operating conditions including during machining of the workpiece and generating a vibration signal indicative thereof; and a processor and a memory operatively associated with the sensor for sampling the vibration signal, storing a digital representation of the vibration signal, processing the digital representation to select at least one discriminant characterizing interaction among the plurality of cooperating elements including during machining of the workpiece, and storing the at least one discriminant for subsequent comparison. - View Dependent Claims (17)
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Specification