Apparatus for controlling vibrational chatter in a machine-tool utilizing an updated synthesis circuit
First Claim
1. An apparatus for controlling a machining operation wherein a workpiece and a machining tool are mounted in a machine structure and one of said workpiece and tool is moved with respect to the other to cause said tool to exert a machining force on said workpiece and to remove material therefrom, comprising first transducer means connected to the machine structure at a position spaced from said tool and workpiece for detecting a force representative of the machining force and for generating a first electrical signal corresponding thereto;
- second transducer means connected to the machine structure for detecting the actual motion of one of said tool and workpiece in response to the machining force and for generating a second electrical signal corresponding thereto;
a synthesis circuit electrically coupled to said first and second transducer means for generating a synthesized electrical signal representative of the motion in response to the maching force of the one of said tool and workpiece not connected to said second transducer means, said synthesis circuit having updating circuit means responsive to said first and second electrical signals for continuously altering parameters of said synthesis circuit in accordance with changes in the machine static and dynamic characteristics;
comparison means for comparing said second electrical signal with said synthesis signal and for generating an error signal in accordance therewith; and
compensatory force means electrically coupled to said comparison means and having mechanical means for delivering compensatory forces to the machine structure in response to said error signal for maintaining said tool and workpiece in predetermined spatial relationships during the machining process irrespective of vibratory movements of said workpiece, tool, or machine structure.
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Abstract
A method and apparatus for controlling vibrational chatter in a machine tool operation wherein a workpiece and a tool are mounted in a manner to permit controlled and forced engagement of the tool and workpiece to remove material from said workpiece. A first transducer is spatially disposed from the tool-workpiece interface and generates an electrical signal representative of the applied cutting forces on the workpiece. This force signal is applied to a workpiece movement synthesis circuit for continuous calculation of the workpiece displacement in response to cutting forces and in accordance with continuously updated static and dynamic characteristics of the machine structure and the workpiece. Simultaneously, another transducer on the machine structure continuously provides a tool acceleration signal for use in deriving an electrical signal representing the actual displacement of the tool.
The synthesis circuit output signal representing the calculated workpiece displacement is electronically compared with the signal representing the actual tool displacement, with vibrational chatter occurring whenever the two signals are not equal and offsetting. When the two signals are not equal, the differential therebetween is used to generate an error signal for controlling a compensatory force actuator mounted on the machine structure. The compensatory actuator provides forces of controlled magnitude and frequency to the machine structure to offset and eliminate the vibrational chatter.
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Citations
9 Claims
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1. An apparatus for controlling a machining operation wherein a workpiece and a machining tool are mounted in a machine structure and one of said workpiece and tool is moved with respect to the other to cause said tool to exert a machining force on said workpiece and to remove material therefrom, comprising first transducer means connected to the machine structure at a position spaced from said tool and workpiece for detecting a force representative of the machining force and for generating a first electrical signal corresponding thereto;
- second transducer means connected to the machine structure for detecting the actual motion of one of said tool and workpiece in response to the machining force and for generating a second electrical signal corresponding thereto;
a synthesis circuit electrically coupled to said first and second transducer means for generating a synthesized electrical signal representative of the motion in response to the maching force of the one of said tool and workpiece not connected to said second transducer means, said synthesis circuit having updating circuit means responsive to said first and second electrical signals for continuously altering parameters of said synthesis circuit in accordance with changes in the machine static and dynamic characteristics;
comparison means for comparing said second electrical signal with said synthesis signal and for generating an error signal in accordance therewith; and
compensatory force means electrically coupled to said comparison means and having mechanical means for delivering compensatory forces to the machine structure in response to said error signal for maintaining said tool and workpiece in predetermined spatial relationships during the machining process irrespective of vibratory movements of said workpiece, tool, or machine structure. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8)
- second transducer means connected to the machine structure for detecting the actual motion of one of said tool and workpiece in response to the machining force and for generating a second electrical signal corresponding thereto;
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9. An apparatus for controlling a machining operation wherein a workpiece and a machining tool are mounted in a machine structure and one of said workpiece and machining tool is moved with respect to the other to cause said tool to exert a machining force on said workpiece and to remove material therefrom, comprising first transducer means connected to one of said tool and said workpiece for detecting the actual motion thereof and for generating an electrical signal representative of said actual motion;
- a force signal generation circuit coupled to said first transducer means for acting on said motion signal to generate a force signal representative of the machining force;
a synthesis circuit electrically coupled to said force signal generation circuit and to said first transducer means for generating a synthesized electrical signal representative of the motion in response to the machine force of the one of said tool and workpiece not connected to said first transducer means, said synthesis circuit having updating circuit means responsive to the signals generated by said force signal generation circuit and said first transducer means for continuously altering parameters of said synthesis circuit in accordance with changes in the static and dynamic characteristics of the workpiece;
comparison means for comparing said motion signal generated by said first transducer means and said synthesized signal to generate an error signal in accordance with the compared signals; and
a compensatory force actuator electrically coupled to said comparison means and mechanically coupled to said machine structure for delivering compensatory forces to the machine structure in response to said error signal to maintain said tool said workpiece in a predetermined spatial relationship during the machining process irrespective of any vibratory movements of said workpiece with respect to said tool.
- a force signal generation circuit coupled to said first transducer means for acting on said motion signal to generate a force signal representative of the machining force;
Specification
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- Resources
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Current AssigneeVoith-Morden Incorporated (Voith GmbH & Co. KGaA)
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Original AssigneePurdue Research Foundation (The Trustees of Purdue University (d/b/a Purdue University))
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InventorsKlein, Richard G., Nachtigal, Chester L., Maddux, Kenneth C.
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Primary Examiner(s)Vlachos, Leonidas
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Application NumberUS05/586,572Time in Patent Office389 DaysField of Search82/2 B, 82/DIG. 9, 318/561, 318/571, 51/165.77, 51/165.92, 51/103 R, 235/151.11, 90/11 RUS Class Current82/118CPC Class CodesB23Q 15/12 Adaptive control, i.e. adju...B23Q 17/0976 Detection or control of cha...G05B 2219/37351 Detect vibration, ultrasoundG05B 2219/41256 Chattering controlY10S 82/904 Vibrating method or toolY10T 409/300896 with sensing of numerical i...Y10T 409/304312 with means to dampen vibrationY10T 82/2502 with program control
