Concurrent measurement method of spindle radial, axial and angular motions using concentric circle grating and phase modulation interferometers

Madden, Muhummad; Aketagawa, Masato; Kumagai, Takuya; Maeda, Yoshitaka; Okuyama, Eiki

doi:10.1088/0957-0233/25/9/094005

Cited by 25 publications

(19 citation statements)

References 16 publications

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“…Zhang et al studied the typical manufacturing errors, such as errors caused by spindle rotation, fixture distortion, misalignment of spindles and work centers, workpiece deflection et al The effects of these errors on manufactured surfaces are also investigated 20 . Muhummad et al described a concurrent measurement of radial, axial and angular motions of spindle using concentric circle grating and phase modulation interferometers in order to depict the deviation of the manufactured surface from the nominal surface 23 . Chien expanded the approximated harmonic model by adding the knowledge of machining process 24 .…”

Section: With This Regard Efficient Methods To Model Practical Manufmentioning

confidence: 99%

A novel representation method of non-ideal surface morphologies and its application in shaft-hole sealing simulation analysis

Qiao

Zhu³

et al. 2017

Proceedings of the Institution of Mechanical Engineers, Part B:

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Assembly process simulation has been recognized as an effective tool for design verification. The representation of actual part surfaces produced by manufacturing processes is an important issue for assembly simulation. Manufactured part surfaces can also be regarded as non-ideal surface morphologies caused by manufacturing errors. This paper presents a new approach to describe non-ideal cylindrical surface morphologies. A deviation coordinate system is developed by adding a new deviation dimension along the normal direction of the nominal surface modelled in the cylindrical surface curvilinear coordinate system. Considering characteristics of the cylindrical surface machining process, a unified expression of combined Hermite polynomials and Fourier series is used to demonstrate variations that commonly appear on manufactured non-ideal cylindrical surfaces. The Hermite-Fourier polynomials constitute multimorphologies resulting from different manufacturing errors. In the proposed method, a parametric matrix is created from the expansion of the Hermite-Fourier polynomials. Each morphology can be represented by a corresponding matrix. The total deviation of a non-ideal part surface is the sum of deviations caused by each manufacturing error source through a linear combination of various matrices. The effectiveness of the proposed method is verified by a simulation of the sealing function of shaft-hole assemblies.

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Section: With This Regard Efficient Methods To Model Practical Manufmentioning

confidence: 99%

A novel representation method of non-ideal surface morphologies and its application in shaft-hole sealing simulation analysis

Qiao

Zhu³

et al. 2017

Proceedings of the Institution of Mechanical Engineers, Part B:

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“…Spindle runout is a rotation inaccuracy which occurs when the cutting tool is no longer aligned with the rotational axis, and can be classified as axial runout and radial runout. The former occurs when the cutting tool is rotating at an angle to the axis [1][2][3][4][5][6], and the latter occurs when the cutting tool is rotating off center to the rotational axis. Spindle runout in computer numerical control (CNC) machine tools can decrease tool life and leads to the machining of defective parts, for example, in drilling applications, spindle runout can result in a bore diameter that is actually larger than the drill's nominal diameter [6][7][8].…”

Section: Introductionmentioning

confidence: 99%

“…Capacitive sensors (CS) or eddy current sensors (ECS) are particularly well suited for measuring the performance of high speed precision spindles and other rotating shafts [6,8]. Since CS and ECS provide high measurement bandwidth and fast response, they are capable of gathering data even as the spindle or shaft sweeps through its entire speed range.…”

Section: Introductionmentioning

confidence: 99%

A simple optical system for miniature spindle runout monitoring

2017

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We proposed a novel optical technique to monitor miniature spindle runout in a simple manner. Miniature spindles are commonly used in many machining applications, for example: micro-milling and micro-grinding. However, the capacitive sensors (CS) or eddy current sensors typically used for spindle runout measurements cannot be used for miniature spindle systems. This is due to the nonlinearity of the charge between a curved surface and a flat plate (sensing area) and a curved surface (measuring target area) and the effective sensing area being larger than the measuring target area. The proposed sensor utilizes curved-edge diffraction (CED), which uses the effect of the cylindrical surface curvature on the diffraction phenomenon in the transition regions adjacent to shadow, transmission, and reflection boundaries. The laser beam is incident to the spindle shaft edges along the Y and Z axes, four photodetectors then collect the total fields produced by the interference created by the waves due to CED around the spindle shaft edges. Two CS were used as a baseline comparison with the proposed sensor's performance. A spindle with a shaft diameter of ϕ 5.0 mm (same as CS effective sensing area) was selected to compare the results of the curved-edge sensor (CES) with the results of the CS. The spindle runout was measured and the following results were found: CES-CS calibration nonlinearity (Z 0.35% and Y 0.40%) and resolution (Z 20.1 nm and Y 26.0 nm for CS and Z 20.3 nm and Y 15.9 nm for CES). The fundamental sensing limit of CES was estimated to be: Z 0.52 nm Hz / and Y 0.41 nm Hz / for a working range of approximately 100 µm, respectively.

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“…The sinusoidal phase-modulating laser diode (SPM-LD) interferometer has been used for vibration sensing and displacement measurement because of unique features such as simplicity and good expansibility [1][2][3][4][5][6][7][8][9][10][11][12][13][14][15][16][17] . However, the measurement range of this interferometer is limited to a few micrometers because an important parameter, the effective SPM depth, is considered to be a constant in conventional signal processing [1][2][3] .…”

mentioning

confidence: 99%

“…Moreover, as the real value of the effective SPM depth moves away from the fixed one used in the traditional method, the errors could be greater. So, these errors cannot be eliminated perfectly by common nonlinear error correction methods, such as the Lissajous diagram [12][13][14] and the ellipse-fitting method [15] . A novel method for obtaining the dynamic value of m, which is denoted as m r ðtÞ, is proposed.…”

mentioning

confidence: 99%

Large-range displacement measurement using sinusoidal phase-modulating laser diode interferometer

Zhang

Zhu

et al. 2017

Chin. Opt. Lett.

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A signal processing method of realizing a large-range displacement measurement in a sinusoidal phasemodulating laser diode interferometer is proposed. The method of obtaining the dynamic value of the effective sinusoidal phase-modulating depth is detailed, and the residual amplitude modulation is also taken into account. Numerical simulations and experiments are carried out to compare this method with the traditional one. We prove that, with this method, the sinusoidal phase-modulating laser diode interferometer can realize a centimeter-level displacement measurement range with high precision, which is much better than the traditional method.

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Concurrent measurement method of spindle radial, axial and angular motions using concentric circle grating and phase modulation interferometers

Cited by 25 publications

References 16 publications

A novel representation method of non-ideal surface morphologies and its application in shaft-hole sealing simulation analysis

A novel representation method of non-ideal surface morphologies and its application in shaft-hole sealing simulation analysis

A simple optical system for miniature spindle runout monitoring

Large-range displacement measurement using sinusoidal phase-modulating laser diode interferometer

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