• Title/Summary/Keyword: OMM(On-Machine-Measurement)

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A Study on the 3-dimensional feature measurement system for OMM using multiple-sensors (멀티센서 시스템을 이용한 3차원 형상의 기상측정에 관한 연구)

  • 권양훈;윤길상;조명우
    • Proceedings of the Korean Society of Machine Tool Engineers Conference
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    • 2002.10a
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    • pp.158-163
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    • 2002
  • This paper presents a multiple sensor system for rapid and high-precision coordinate data acquisition in the OMM (On-machine measurement) process. In this research, three sensors (touch probe, laser, and vision sensor) are integrated to obtain more accurate measuring results. The touch-type probe has high accuracy, but is time-consuming. Vision sensor can acquire many point data rapidly over a spatial range but its accuracy is less than other sensors. Also, it is not possible to acquire data for invisible areas. Laser sensor has medium accuracy and measuring speed among the sensors, and can acquire data for sharp or rounded edge and the features with very small holes and/or grooves. However, it has range- constraints to use because of its system structure. In this research, a new optimum sensor integration method for OMM is proposed by integrating the multiple-sensor to accomplish mote effective inspection planning. To verify the effectiveness of the proposed method, simulation and experimental works are performed, and the results are analyzed.

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On-Machine Measurement of Sculptured Surfaces Based on CAD/CAM/CAI Integration : II. Inspection Planning Strategy (CAD/CAM/CAI 통합에 기초한 자유곡면의 On-Machine Measurement : II. 측정계획 수립)

  • Cho, Myeong-Woo;Kim, Jin-Seop;Seo, Tae-Il;Cho, Jae-H.
    • Journal of the Korean Society for Precision Engineering
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    • v.16 no.12
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    • pp.109-118
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    • 1999
  • The objective of this research is to develop an effective inspection planning strategy for sculpture surfaces in OMM(On-Machine Measurement) process. As a first step, effective measuring point locations are determined to obtain optimum results for given sampling numbers. Two measuring point selection methods are suggested in this study based on newly proposed CAD/CAM/CAI integration concept: (1) by the prediction of cutting errors, (2) by considering cutter contact points to avoid the measurement errors caused by cusps. As a next step, the TSP(Traveling Salesman Problem)algorithm is applied to minimize the probe moving distance. Appropriate simulations and experiments are performed to verify the proposed inspection planning strategy in this study, and the results are analyzed.

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Development of 3D-based On-Machine Measurement Operating System

  • Yoon Gil-Sang;Heo Young-Moo;Kim Gun-Hee;Cho Myeong-Woo
    • International Journal of Precision Engineering and Manufacturing
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    • v.6 no.3
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    • pp.45-50
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    • 2005
  • This paper proposed an efficient manufacturing system using the OMM (on-machine measurement) system. The OMM system is software-based 3D modeler for inspection on machine, and it is interfaced with machine tools via RS232C. The software is composed of two inspection modules; one is touch probe operating module, and the other is laser displacement sensor operating module. The module for touch probe needs the inspection feature extracted from CAD data. The touch probe moves to workpiece by three operating modes as follows: manual, general and automatic mode. The operating module of the laser displacement sensor is used to inspect profiles and very small holes. An advantage of this inspection method is the ability to execute on-line inspection during machining or afterward. The efficiency of proposed system which can predict and define the machining errors of each process was verified, so the developed system was applied to inspect a mold-base (cavity, core).

Integrated Machining Error Compensation Method Using OMM Data and Modified PNN Algorithm (PNN을 이용한 기상측정데이터 기반 가공오차보상법)

  • Seo Tae-Il;Cho Myeong-Woo;Hong Yeon-Chan;Kim Gun-Hee
    • Transactions of the Korean Society of Machine Tool Engineers
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    • v.15 no.4
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    • pp.92-97
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    • 2006
  • This paper presents an integrated machining error compensation method based on PNN(Polynomial Neural Network) approach and inspection database of OMM(On-Machine-Measurement) system. To efficiently analyze the machining errors, two machining error parameters are defined and modeled using the PNN approach, which is used to determine machining errors for the considered cutting conditions. Experiments are carried out to validate the approaches proposed in this paper. In result, the proposed methods can be effectively implemented in a real machining situation, producing much fewer errors.

On-Machine Measurement Error Compensation Using Ball-bar System (볼바 시스템을 이용한 기상측정오차 보정)

  • 이세희;서태일;조명우
    • Transactions of the Korean Society of Machine Tool Engineers
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    • v.10 no.2
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    • pp.56-63
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    • 2001
  • The objective of this research is to develop a measurement error compensation method for On-Machine Measurement (OMM) process based on a closed-loop configuration. Geometric errors of vertical machining center are measured using ball-bar system, and probing errors are measured using master ball. The errors are represented using homogeneous trans-formation matrices and the closed-loop configuration method is applied to calculate 3-dimensional errors. To verify the effectiveness of the method proposed in this research, compensated results are compared to the data using CMM process, and the results are analyzed. The results show the proposed method can be applied in OMM process to make the measured data more reliable.

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Non-contacting OMM (On Machine Measurement) based on CAD Model (CAD 모델 기반 비접촉 기상 측정에 관한 연구)

  • 권세진;이정근;박정환;고태조;김선호
    • Journal of the Korean Society for Precision Engineering
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    • v.20 no.11
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    • pp.134-141
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    • 2003
  • An industrial product is designed and fabricated, followed by the inspection process in order to check whether it is dimensionally tolerable or not. The machining process produces a part such as a mold or die, in which the three-dimensional coordinate might be measured by a CMM (Coordinate Measuring Machine) for assessment of its dimension. It is not ignorable, however, that a CMM measurement requires a lot of operating time and cost, which has led to many studies on the OMM system. The OMM system can be categorized into contact and non-contact types, and each of which has its own strengths and weaknesses. Non-contacting types generally utilize structured lights, sounds or magnetic fields. Though they show rather poor performance in positional accuracy, the measuring speed is faster than the contacting probes. This paper presents the development of an OMM system based on a non-contacting laser displacement sensing apparatus and CAD model. The system is composed of software modules of center-aligning and measuring, which has been operated and verified on a NC machining center on a shop floor.

Development of an Analytic Surface Measurement Module for OMM System (기상측정 시스템을 위한 일반형상 측정 모듈 개발)

  • 조승현;이승용;조명우;권혁동;김문기
    • Proceedings of the Korean Society of Precision Engineering Conference
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    • 2000.11a
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    • pp.239-242
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    • 2000
  • The purpose of this paper is to establish an effective inspection system by using OMM(ON-Machine Measurement) system. This allows us to reduce the manufacturing lead time by separating the inspection process from manufacturing system. As a first step, the inspection process planning is accomplished by determining the number of measuring points, their locations, measuring path and their sequence. Subsequently, we generate measuring G-codes to be transferred to the machining center through RS232C, and then the inspection process will be performed for each shape. Analysing obtained measuring data, the dimensional tolerance will be validated.

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OMM (On-the-Machine Measurement) based on CAD Model (CAD 모델에 기초한 기상측정)

  • 김승록;박영근;권기복;박정환;고태조;김희술;김창일
    • Proceedings of the Korean Society of Precision Engineering Conference
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    • 2000.11a
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    • pp.169-172
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    • 2000
  • In this paper, an OMM (On-the-Machine Measuring) system has been developed, which can perform measuring and inspection of sculptured surfaces of die and mold, by use of a scanning-type touch probe mounted into the spindle of a NC machine. The calibration procedures of a scanning prove (SP2-1, Renishaw) and an algorithm for measuring surface points by a ball-nosed stylus have been studied. The system has been developed based on commercial CAM software (Z-Master 2000), and tested through measuring a plastic injection molding-die. Also some experimental results of the calibration and measuring for given surface positions are analyzed to verify its accuracy and reliability.

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Development of Error Compensation System and On the Machine Measurement System for Ultra-Precision Machine (초정밀가공기용 오차보상시스템 및 기상측정장치 개발)

  • 이대희;나혁민;오창진;김호상;민흥기;김민기;임경진;김태형
    • Proceedings of the Korean Society of Precision Engineering Conference
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    • 2003.06a
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    • pp.599-603
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    • 2003
  • This paper present an error compensation system and On-Machine Measurement(OMM) system for improving the machining accuracy of ultra-precision lathe. The Fast-Tool-Servo(FTS) driven by a piezoelectric actuator is applied for error compensation system. The controller is implemented on the 32bit DSP for feedback control of piezoelectric actuator. The control system is designed to compensates three kinds of machining errors such as the straightness error of X-axis slide, the thermal growth error of the spindle. and the squareness between spindle and X-axis slide. OMM is preposed to measure the finished profile of workpiece on the machine-tool using capacitive sensor with highly accurate ruby tip probe guided by air bearing. The data acquisition system is linked to the CNC controller to get the position of each axis in real-time. Through the experiments, it is founded that the thermal growth of spindle and tile squareness error between spindle and X-axis slide influenced to machining error more than straightness error of X-axis slide in small travel length. These errors were simulated as a sinusoidal signal which has very low frequency and the FTS could compensate the signal less than 30 m. The implemented OMM system has been tested by measuring flat surface of 50 mm diameter and shows measurement error less than 400 mm

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