The Development and Application of CNC Lathe for Electrical Maintenance of Teaching Machine

In this study, piezoelectric actuator, Flexure guide, Power transmission element and control method and considered for Nano-positioning system apparatus. The main objectives of this thesis were to develop the 3-axis Ultra-precision stages which enable the 3-axis control by the manipulation of the piezoelectric actuator and to enhance the precision of the Ultra-Precision CNC lathe which is responsible for the ductile mode machining of the hardened-brittle material where the machining is based on the single crystal diamond. Ultra-precision CNC lathe is used for machining and motion error of the machine are compensated by using 3-axis Ultra-precision stage. Through the simulation and experiments on ultra-precision positioning, stability and priority on Nano-positioning system with 3-axis ultra-precision stage and control algorithm are secured by using NI Labview. And after applying the system, is to analyze the surface morphology of the mold steel (SKD61)

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CNC lathe comes with robot for unmanned production

Production Engineer ◽

10.1049/tpe.1981.0070 ◽

1981 ◽

Vol 60 (4) ◽

pp. 2

Keyword(s):

Cnc Lathe

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Apparatus for Selective Learning Research with Low-Cost Teaching Machine Potential

Psychological Reports ◽

10.2466/pr0.1964.14.1.59 ◽

1964 ◽

Vol 14 (1) ◽

pp. 59-62 ◽

Cited By ~ 1

Author(s):

Roy Lachman

Keyword(s):

Concept Formation ◽

Teaching Machine ◽

Low Cost ◽

Verbal Learning ◽

Learning Problems ◽

Automatic Apparatus ◽

Learning Tasks ◽

Experimental Learning ◽

Fully Automatic ◽

Learning Research

A fully automatic apparatus is described for investigations of concept formation and a variety of verbal learning problems. The machine will administer a series of experimental learning tasks with automatic changes in stimuli and reinforcement between problems. A relatively inexpensive component of the apparatus functions as a highly versatile teaching machine.

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Development of CAM System for 3D Surface Machining With CNC Lathe (Tool Path Generation Considering Acceleration)

Volume 2A: Advanced Manufacturing ◽

10.1115/imece2014-37647 ◽

2014 ◽

Author(s):

Keigo Takasugi ◽

Katsuhiro Nakagaki ◽

Yoshitaka Morimoto ◽

Yoshiyuki Kaneko

Keyword(s):

Lead Time ◽

Internal Combustion Engines ◽

Tool Path ◽

Tool Path Generation ◽

Combustion Engines ◽

Determination Method ◽

Experimental Procedure ◽

Surface Machining ◽

Cnc Lathe ◽

Lathe Tool

This study developed a method called non-axisymmetric curved surface turning (NACS-Turning) for a CNC lathe composed of a turning axis and two translation axes. The NACS-Turning method controls the three axes synchronously. This new machining method can reduce the lead time for non-circular shapes such as cam profiles or pistons for internal combustion engines. In our previous report, we presented an outline of a machining principle and a CAM system for NACS-Turning. However, at the same time, we found the problem that the X-axis slide exceeds the allowable acceleration. Therefore, it is preferable that the acceleration is verified during the cam application, and the tool path is generated within the allowable acceleration range. Therefore, this paper first describes the determination method of machinable conditions for NACS-Turning in the cam application. Next, based on the result, relationships between the acceleration of the X-axis slide and machining conditions are clarified. Finally, the experimental procedure showed that our proposed method does not exceed the allowable acceleration of the X-axis slide.

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