• Title/Summary/Keyword: built-in force sensor

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A Study on Real-time Monitoing of Tool Fracture in Turning (선삭공정시 공구파손의 실시간 검출에 관한 연구)

  • Park, D.K.;Chu, C.N.;Lee, J.M.
    • Journal of the Korean Society for Precision Engineering
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    • v.12 no.3
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    • pp.130-143
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    • 1995
  • This paper presents a new methodology for on-line tool breadage detection by sensor fusion of an acoustic emission (AE) sensor and a built-in force sensor. A built-in piezoelectric force sensor, instead of a tool dynamometer, was used to measure the cutting force without altering the machine tool dynamics. The sensor was inserted in the tool turret housing of an NC lathe. FEM analysis was carried out to locate the most sensitive position for the sensor. A burst of AE signal was used as a triggering signal to inspect the cutting force. A sighificant drop of cutting force was utilized to detect tool breakage. The algorithm was implemented on a DSP board for in-process tool breakage detection. Experiental works showed an excellent monitoring capability of the proposed tool breakage detection system.

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Basic Study on In-Process Monitoring of B.U.E. using Force Sensor (Force Sensor를 이용한 구성인선의 In-Process 감시에 관한 기초 연구)

  • 원종식;오민석;정윤교
    • Proceedings of the Korean Society of Precision Engineering Conference
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    • 1996.11a
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    • pp.200-205
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    • 1996
  • Recently, in order to achieve high flexibility of manufacture, monitoring and control strategies cf a new type have been developed. Since the generation of built-up edge on the cutting tool damages the surface finish of the workpiece, the monitoring system of built-up edge is an important process monitoring. In this study, the analyzing methods of cutting force signal to detect the built-up edge during cutting process are described. The cutting force signals are analyzed using the mean, standard deviation and mean to standard deviation of this cutting signals. We can obtain the guide to detect the built-up edge during turning process.

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Basic Study on in-Process Monitoring of B.U.E. Using Force Sensor (Force Sensor를 이용한 구성인선의 In-Process 감시에 관한 기초 연구)

  • Won, Jong-Sik;Oh, Min-Seok;Jung, Youn-Gyo
    • Journal of the Korean Society for Precision Engineering
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    • v.14 no.7
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    • pp.67-72
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    • 1997
  • Recently, in order to achieve high flexibility of manufacture, monitoring and control strategies of a new type have been developed. Since the generation of built-up edge on the cutting tool damages the surface finish of the workpiece, the monitoring system of built-up edge is an important process monitoring. In this study, the analyzing methods of cutting force signal to detect the built-up edge during cutting process are described. The cutting force signals are analyzed using the mean, standard deviation and mean to standard deviation of this cutting signals. We can obtain the guide to detect the built-up edge during turning process.

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A Cylindrical Spindle Displacement Sensor and its Application on High Speed Milling Machine (원통형 주축 변위 센서를 이용한 고속 밀링 가공 상태 감시)

  • Kim, Il-Hae;Jang, Dong-Young
    • Transactions of the Korean Society of Machine Tool Engineers
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    • v.16 no.5
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    • pp.108-114
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    • 2007
  • A new cutting force estimating approach and machining state monitoring examples are presented which uses a cylindrical displacement sensor built into the spindle. To identify the tool-spindle system dynamics with frequency up to 2 kHz, a home-built electro-magnetic exciter is used. The result is used to build an algorithm to extract the dynamic cutting force signal from the spindle error motion; because the built-in spindle sensor signal contains both spindle-tool dynamics and tool-workpiece interactions. This sensor is very sensitive and can measure broadband signal without affecting the system dynamics. The main characteristic is that it is designed so that the measurement is irrelevant to the geometric errors by covering the entire circumferential area between the target and sensor. It is also very simple to be installed. Usually the spindle front cover part is copied and replaced with a new one with this sensor added. It gives valuable information about the operating condition of the spindle at any time. It can be used to monitor cutting force and chatter vibration, to predict roughness and to compensate the form error by overriding spindle speed or feed rate. This approach is particularly useful in monitoring a high speed machining process.

Development of Force Sensor to Measure Contact Force of Pantograph for High-Speed Train (고속철도용 판토그라프 접촉력 측정을 위한 스트레인 게이지 내장형 하중센서 개발)

  • Park, Chan-Kyoung;Kim, Young-Guk;Cho, Yong-Hyeon;Paik, Jin-Sung
    • Journal of the Korean Society for Railway
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    • v.13 no.5
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    • pp.488-492
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    • 2010
  • In order to verify the performance of high-speed train and core equipments such as current collection system, sophisticated tests and evaluating procedures must be considered. In case of force sensor to test contact force of pantograph, it should customize the test instruments according to characteristics of pantograph. In this paper, the force sensor with a built-in strain-gauge which developed to improve measuring performance of contact force between the pantograph and catenary system is introduced. The test and evaluation results of force sensor's static and dynamic calibration with pantograph shows that its design is very suitable and applicable for on-line test. Henceforth, the force sensor will be applied to test interaction characteristics between the pantograph and catenary system on the high-speed line and expected by a part of measuring system for evaluating current collecting characteristics more reliably.

Implementation of a Sensor to Detect the Foot-pushing Force for an Agricultural Transport-convenience Vehicle (농업용 이동편의장치를 위한 발로 미는 힘을 감지하는 센서 구현)

  • Seung-hee, Baek;Ik-hyun, Kwon;Cheong-worl, Kim
    • Journal of Sensor Science and Technology
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    • v.31 no.6
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    • pp.411-417
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    • 2022
  • In this paper, we propose a sensor with a C-shaped load cell to detect force change when a person sitting on the chair in an electrical transport-convenience vehicle is pushing ground by both heels. The load cell built in the vehicle is mechanically deformed by the vertical force owing to the human weight and the horizontal force by ground-pushing feet. The deformation rate of the load cell and its distribution are simulated using finite element analysis. In the simulation, the applied loads are preset in the range of 10 kg - 100 kg with a step size of 10 kg, and the ground-pushing force by feet is increased to 40 N with a step size of 5 N with respect to each applied load level. The resistance change of the load cell was observed to be linear in simulation as well as in measurement. the maximum difference between simulation and measurement was 0.89 % when the strain gauge constant was 2.243. The constant has a large influence on the difference. The proposed sensor was fabricated by connecting an instrument amplifier and a microcontroller to a load cell and used to detect the force by ground-pushing feet. To detect foot driving, the reference signal was set to 130% of the load, and the duration of the sensor output signal exceeding the reference signal was set to 0.6 s. In a test of a vehicle built with the proposed sensor, the footpushing force by the worker could be successfully detected even when the worker was working.

내장형 절삭력센서와 AE 센서를 이용한 인-프로세스 공구파괴 검출에 관한 연구

  • 최덕기;박동삼;주종남;이장무
    • Proceedings of the Korean Society of Precision Engineering Conference
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    • 1992.10a
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    • pp.344-348
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    • 1992
  • This paper presents a new methodology for on-line tool breakage detection by sensor fusion concept of an acoustic-emission (AE) sensor. A built-in piezoelectric force sensor was used to measure cutting force instead of a tool dynamometer to preserve the machine tool dynamics. he sensor was inserted in the tool turret housing of an NC lathe. FEM analysis was carried out to locate the most sensitive position for the sensor. When a tool is broken, the explicit changes of signals' pattern take place. A burst-type AE signal increases abruptly. Followingly, a cutting force drops significantly. Therefore a burst of AE signal is used as a triggering signal to inspect the following cutting force. Significant drop of cutting force is utilized to detect tool breakage. The algorithm was implemented in a DSP board for in-process tool breakage detection. The proposed monitoring system was capable of a good applicable tool breakage detection.

Active Stick Control using Frictional Torque Compensation

  • Nam, Yoonsu
    • 제어로봇시스템학회:학술대회논문집
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    • 2002.10a
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    • pp.90.6-90
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    • 2002
  • An active stick which has the variable force-feel characteristics is developed. A combined position and force control strategy is mechanized using a 2-axis built-in force sensor and LVDT. The 2-axis force sensor which measures the stick force felt by the operator is developed by using strain gages and appropriate instrumental amplifiers. A mathematical model of the active stick dynamics is derived, and compared with the experimental results. The frictional torque of the stick due to the mechanical contacts of several parts makes the experimental frequency responses to be dependent on the magnitude of excitation signal, and the precision closed loop control to be difficult. A friction observe...

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Robust Model Based Fault Detection of EPB System for Varying Temperature (온도변화에 강인한 EPB 시스템의 모델기반 고장검출 방법)

  • Moon, Byoung-Joon;Park, Chong-Kug
    • Transactions of the Korean Society of Automotive Engineers
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    • v.17 no.5
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    • pp.26-30
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    • 2009
  • In this paper, a robust model based fault detection for varying temperature is proposed, To develop a robust force estimation model, it needs temperature information because the force sensor's output is affected by a temperature variation. If an EPB system does not include a temperature sensor, the model has a much larger error than an EPB system with a built-in temperature sensor. Therefore, the temperature is estimated by using Ohm's law. The force model is applied with a motor current, battery voltage, operation mode, and the estimated temperature to detect a force sensor's abnormal signal fault. The residual is calculated by comparing the value of the measured force and the estimated force. Fault information is collected by using the output of the evaluated residual with the adaptive thresholds. A proposed robust model based fault detection for varying temperature was verified by HILS (Hardware in the Loop Simulation).

Experimental Studies of Force Control for Crack Sealing Robot

  • Jeon, Poong-Woo;Cho, Hyun-Taek;Jung, Seul
    • 제어로봇시스템학회:학술대회논문집
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    • 2003.10a
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    • pp.1077-1081
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    • 2003
  • In this paper, experimental studies of force tracking control for the crack sealing robot are presented. Crack sealing robot is built to detect, track and seal the crack on the pavement. Before sealing, crack must be detected by a laser sensor and a camera sensor, then cleaned for a better sealing job. In order to maintain contact with the ground force control is required to brush all dirt in the crack out for preparing sealing cracks with tars. Impedance control algorithm is presented to regulate a specified desired force. Experimental studies of the proposed force control algorithm are conducted under unknown environment stiffness and location. Performances of force control algorithm are stable and excellent.

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