Movement Simulations in Manufacturing the Milling Machine Spindle

The ‘operative harmonic response locus’ of a machine tool structure, which is required for the prediction of machining stability, must be determined by vibration tests carried out under conditions which simulate closely those arising during cutting. This requires that such tests be performed while the tool or the workpiece spindle is rotating, the vibrations being excited by a small harmonic force superimposed on a large constant pre-load. It is not possible to satisfy these conditions with vibrators working on electro-dynamic or electro-hydraulic principles and so an electro-magnetic vibrator was designed and developed to meet the above requirements (2). This excitor can be used with all types of machine tools, but in the present investigation its application is restricted to lathe and horizontal milling machines. The effects of the rotational speed of the lathe spindle and milling machine spindle, of the exciting force amplitude and of the pre-load magnitude and direction on the response data, are investigated. It is found that the lathe structure behaves in a linear fashion whereas the behaviour of the milling machine is non-linear.

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Milling machine spindle analysis using FEM and non-contact spindle excitation and response measurement

International Journal of Machine Tools and Manufacture ◽

10.1016/j.ijmachtools.2006.10.004 ◽

2007 ◽

Vol 47 (7-8) ◽

pp. 1034-1045 ◽

Cited By ~ 68

Author(s):

Matti Rantatalo ◽

Jan-Olov Aidanpää ◽

Bo Göransson ◽

Peter Norman

Keyword(s):

Milling Machine ◽

Response Measurement ◽

Machine Spindle

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Milling Machine Spindle Dynamic Analysis

Advanced Materials Research ◽

10.4028/www.scientific.net/amr.819.43 ◽

2013 ◽

Vol 819 ◽

pp. 43-47

Author(s):

Yu Li ◽

Qi Chen Wang ◽

Yin Ming Ge

Keyword(s):

Finite Element ◽

Dynamic Analysis ◽

Dynamic Model ◽

Dynamic Performance ◽

Mode Frequency ◽

Mode Shapes ◽

Milling Machine ◽

Static Stiffness ◽

Cantilever Length ◽

Machine Spindle

This paper uses the FE (finite element) and experimental hybrid modeling method to establish the dynamic model of the spindle system. Calculate and analyze how static stiffness, span, and cantilever length affects mode frequency and mode shapes. Analyze the effect of the flywheel on dynamic performance based on harmonic respond. Moreover, the effect of the flywheel is well testified by experiment.

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Dynamics Analysis of Milling Machine Spindle

Applied Mechanics and Materials ◽

10.4028/www.scientific.net/amm.345.137 ◽

2013 ◽

Vol 345 ◽

pp. 137-140

Author(s):

Yan Ru You ◽

Hong Bin Liu ◽

Li Gao

Keyword(s):

Working Conditions ◽

Machine Tools ◽

Numerical Control ◽

System Structure ◽

Dynamics Analysis ◽

Milling Machine ◽

Processing Quality ◽

Spindle System ◽

Machine Spindle ◽

Specific Working

The paper takes the numerical control milling machine xk8140 as the research object. The machine tools spindle system digital model is established in UG. The spindle systems natural frequency is obtained throng dynamics analysis of milling machine spindle under specific working conditions, as well as the relational of vibration and error in harmony response situation. In view of the result the rational appraisal to the spindle system structure rationality is made. Accordingly, the irrational causes removed, that noise increasing, processing quality reducing obviously and so on attribute to the irrational structure of the spindle system machine tools when the spindle rotational speed achieve 4000rpm or higher.

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A New Approach to CNC Milling Machine Spindle Design

Advanced Materials Research ◽

10.4028/www.scientific.net/amr.445.201 ◽

2012 ◽

Vol 445 ◽

pp. 201-206

Author(s):

Utku Buyuksahin

Keyword(s):

Technological Development ◽

Milling Process ◽

Spindle Motor ◽

The Body ◽

Milling Machine ◽

Cnc Milling ◽

New Approach ◽

Steel Rope ◽

Cnc Milling Machine ◽

Machine Spindle

During the technological development, some equipments remain mostly the first days design besides most of others change repeatedly. CNC Milling machines spindle design is one of these which remains mostly the same. With the existing design, in order to obtain the desired torque for metal milling process, the body of the spindle is made huge and heavy which causes the whole machine body to be constructed huge and heavy. In this study a new approach to CNC Milling Machine Spindle Design is made. The design changes the hob to be held indirectly instead of to be held directly at the lower end of the spindle. The huge spindle motor is fixed to the ceiling over the machine and a flexible steel rope is used to transfer the rotational motion. At the end of the steel rope, a planetary gearbox is fixed which is also fixed to the mobile part of the CNC construction. By this way, the required torque is obtained just at the milling process takes place and the motion transmission parts can be made light in weight like the whole construction would be made.

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TH6213 CNC Boring and Milling Machine Spindle System Thermal Equilibrium Analysis

Applied Mechanics and Materials ◽

10.4028/www.scientific.net/amm.380-384.47 ◽

2013 ◽

Vol 380-384 ◽

pp. 47-50

Author(s):

He Jian Liu ◽

Zai Liang Chen ◽

Ya Xin Xu

Keyword(s):

Temperature Difference ◽

Thermal Effects ◽

Thermal Deformation ◽

Great Influence ◽

Equilibrium Analysis ◽

Machining Accuracy ◽

Milling Machine ◽

Spindle System ◽

System Temperature ◽

Machine Spindle

The thermal deformation of machine tools has a great influence on machining accuracy. Studied on thermal effects of TH6213 CNC boring and milling machine spindle system, bearing heat grows with load and boring spindle extending length, and brings about a changeable temperature difference, which is hard to reduce. A subsection cooling scheme was proposed to reduce the spindle system temperature as well as the temperature difference to reduce the thermal deformation effects.

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