• Title/Summary/Keyword: robots finger

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Design of Two-axis Force Sensor for Robot's Finger

  • Kim, Gob-Soon
    • Transactions on Control, Automation and Systems Engineering
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    • v.3 no.1
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    • pp.66-70
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    • 2001
  • This paper describes the design of a two-axis force sensor for robots finger. In detects the x-direction force Fx and y-direction force Fy simultaneously. In order to safely grasp an unknown object using the robots fingers, they should detect the force or gripping direction and the force of gravity direction, and perform the force control using the forces detected. Therefore, the robots hand should be made by the robots finger with tow-axis force sensor that can detect the x-direction force and y-direction force si-multaneously. Thus, in this paper, the two-axis force sensor for robots finger is designed using several parallel-plate beams. The equations to calculate the strain of the beams according to the force in order to design the sensing element of the force sensor are derived and these equations are used to design the aize of two-axis force sensor sensing element. The reliability of the derive equa-tions is verified buy performing a finite element analysis of the sensing element. The strain obtained through this process is compared to that obtained through the theory analysis and a characteristics test of the fabricated sensor. It reveals that the rated strains calculated from the derive equations make a good agreement with the results from the Finite Element Method analysis and from the character-istic test.

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A Study on the Development of Finger Fault Diagnosis System for Industrial Robots (산업용 로보트의 손가락고장 진단시스템 개발에 관한 연구)

  • 김병석;송수정
    • Journal of the Korean Society of Safety
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    • v.10 no.3
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    • pp.110-114
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    • 1995
  • Bacause of increasing the use in Industrial robots, the accident rate has been increasing now a days. The prediction of accident could be very hard as there are so many factors which occured accident. Removing the accident factors in industrial robots can be diagnosed by the human experts who are very familiar with in those area. The purpose of this study is a development of finger fault diagnosis system for industrial robots. We have many problems such as a long time to get the expert knowledge and the number of expert to be limited. To solve these problems lots of investment and time are required, and then the exepert system to finger fault diagnosis for industrial robots can be applied.

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Development of Force Sensors for Rectangular-Type Finger-Rehabilitation Robot Instruments and Their Characteristic Test (직교형 손가락 재활로봇기구를 위한 힘센서 개발 및 특성실험)

  • Kim, Gab-Soon
    • Journal of Sensor Science and Technology
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    • v.21 no.2
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    • pp.127-134
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    • 2012
  • Stroke patients must do the rehabilitation exercise to recover their fingers' function using a rehabilitation robot. But the rehabilitation robots mostly have not the force sensors to control the applied force to each finger. Thus, in this paper, the development of a force sensor for thumb rehabilitation robot and four two-axis force sensors for four-finger rehabilitation robot were developed. The force sensor and four two-axis force sensors could be used to measure the applied force to each finger, and the forces could be used to control the applied forces to each sensor in rehabilitation exercise using in the rehabilitation robot. The developed sensors have non-linearlity error of less than 0.05 %, repeatability error of less than 0.03 %, and the interference error of two-axis force sensor is less than 0.2 %.

Four degrees of freedom robot gripper for assembly robots (SCARA robot를 위한 4자유도 end-effector 개발)

  • ;Besant, C.S.
    • 제어로봇시스템학회:학술대회논문집
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    • 1991.10a
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    • pp.511-516
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    • 1991
  • A new end-effector has been devised and the problems resulted from using it with SCARA robots are discussed. The end effector has two modules: one composed of two ultrasonic motors and two encoders for controlling each finger, and the other module composed of two ultrasonic motors and two encoders for controlling the wrist. The wrist module adds two degrees of freedom to the SCARA type robot, which generally has four degrees of freedom. With independent finger actuation and touch sensors, the gripper under computer control can feedback information about part size and part presence. Ultrasonic motors with high torque and slow motion characteristics are used. The principle of ultrasonic motors is explained and the servo characteristics of ultrasonic motors are studied. They are controlled by the general motion controller (Hewlett Packard HCTL-1000) which is linked to an IBM-PC AT.

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3-Finger Robotic Hand and Hand Posture Mapping Algorithm for Avatar Robot (아바타 로봇을 위한 3지 로봇 손과 손 자세 맵핑 알고리즘)

  • Kim, Seungyeon;Sung, Eunho;Park, Jaeheung
    • The Journal of Korea Robotics Society
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    • v.17 no.3
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    • pp.322-333
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    • 2022
  • The Avatar robot, which is one of the teleoperation robots, aims to enable users to feel the robot as a part of the body to intuitively and naturally perform various tasks. Considering the purpose of the avatar robot, an end-effector identical to a human hand is advantageous, but a robotic hand with human hand level performance has not yet been developed. In this paper we propose a new 3-finger robotic hand with human-avatar hand posture mapping algorithm which were integrated with TOCABI-AVATAR, one of the teleoperation system. Due to the flexible rolling contact joints and tendon driven mechanism applied to the finger, the finger could implement adaptive grasping and absorb the impact force caused by unexpected contacts. In addition, human-avatar hand mapping algorithm using five calibration hand postures propose to compensate physical differences between operators. Using the TOCABI-AVATAR system with the robotic hands and mapping algorithm, the operator can perform 13 out of 16 hand postures of grasping taxonomy and 4 gestures. In addition, using the system, we participated in the ANA AVATAR XPRIZE Semi-final and successfully performed three scenarios which including various social interactions as well as object manipulation.

Pneumatic Grasp-and-Suction Soft Gripper with Variable Stroke (파지와 흡착이 가능한 가변 스트로크 공압 소프트 그리퍼)

  • Jun-Hyuck Ryoo;Sung-Jae Park;Hyo-Jong Jeon;Jae-Bok Song
    • The Journal of Korea Robotics Society
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    • v.19 no.3
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    • pp.274-280
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    • 2024
  • With the recent emergence of collaborative robots, demand for grippers to be used in service sites is increasing. Soft grippers have advantages in terms of compliance, cost, weight, and stability, but it is difficult to handle objects of various shapes, sizes, and weights with a single gripper. In this study, based on a fluidic elastomer actuator (FEA), we propose a pneumatic soft gripper that can grip a variety of objects, consisting of fingers capable of both grasping and vacuum suction and a base with variable stroke between the fingers using a pneumatic cylinder. A check valve is installed inside the finger, so that when positive pressure is supplied, the finger expands to perform adaptive grasping, and when negative pressure is supplied, vacuum suction can be performed. Grasping experiments were conducted on various objects to evaluate the performance of the proposed gripper, and 94% of 54 gripping objects were successfully grasped.

Safety Design analysis of a Robot Hand for Accurate Grasping Various Objects (정밀한 파지를 할 수 있는 로봇 손의 안정성 평가)

  • Lee, Min-Gyu;Lee, Yong-Hoon;Yim, Hong-Jae;Lee, Yong-Kwun
    • Proceedings of the Korean Society for Noise and Vibration Engineering Conference
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    • 2007.11a
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    • pp.1203-1210
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    • 2007
  • Robots have begun to perform various tasks on replacing the human in the daily life such as cleaning, entertainments etc. In order to accomplish the effective performance of intricate and precise tasks, robot hand must have special capabilities, such as decision making in given condition, autonomy in unknown situation and stable manipulation of object. In this study, we addresses the development of a 3-fingered humanoid robot hand system. We execute static analysis, vibration analysis and flexible dynamics to reserve stability at the design. Grasp motion of the finger uses a linear actuator and gears. Motion can be distinguished into four parts depending on the grasping thin paper, sphere, and column. In each motion, we compare the displacement of the case to be rigid with the case to be flexible. As a result, manufactured and feasibility of the robot hand is validated through preliminary experiments.

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A Stydy on the Design and Control of Master/Slave Type Robot Hand) (Master/Slave형 로봇 손의 설계 및 제어에 관한 연구)

  • 문희형;권대갑
    • Proceedings of the Korean Society of Precision Engineering Conference
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    • 1994.04a
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    • pp.390-394
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    • 1994
  • In many cases, tasks are unpredictable and therefore not doable by special-purpose or pro-programble robots. So master/slave type robot hands which combine human perceptions with conventional robot hands are required as robot end effector. These also can be applied to hazardous worksites such as outer space, deep sea and nuclear power plant. In this study, master/slave type robot fingers with 3 joints each are designed and constructed. To control force accurately, TDT(tension difference type) torque sensors are constructed and attached toeachjoints of slave finger and new force reflecting control algorithm is suggested. Finally, experimental results show that the new control algorithm can be successfully applied.

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Design of a Robot's Hand with Two 3-Axis Force Sensor for Grasping an Unknown Object

  • Kim, Gab-Soon
    • International Journal of Precision Engineering and Manufacturing
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    • v.4 no.3
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    • pp.12-19
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    • 2003
  • This paper describes the design of a robot's hand with two fingers for stably grasping an unknown object, and the development of a 3-axis force sensor for which is necessary to constructing the robot's fingers. In order to safely grasp an unknown object using the robot's fingers, they should measure the forces in the gripping and in the gravity directions, and control the measured forces. The 3-axis force sensor should be used for accurately measuring the weight of an unknown object in the gravity direction. Thus, in this paper, the robot's hand with two fingers for stably grasping an unknown object is designed, and the 3-axis force sensor is newly modeled and fabricated using several parallel-plate beams.

Noble Development of Array Type Gripper for Robot Arm

  • Lee, Jaeman;Lee, Wangheon
    • Journal of the Korean Society of Industry Convergence
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    • v.25 no.2_1
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    • pp.185-193
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    • 2022
  • For grippers of industrial robots, parallel grippers and multi-function finger grippers are used. The former has the advantage of low cost but has the disadvantage of low precision, and the latter has the advantage of excellent precision but has the disadvantage of being expensive. In this paper, we developed a grip that can detects the various shapes of the object to be gripped on the gripper surface by using mesured pressure information frome Veloset Sheet sensor so that the gripper can be gripped without deforming the surface of the gripper. Also we did not only developed the array type gripper and 4 array type grippers (ATG), but also confirmed the usefulness of array type gripper developed in this study according to the 4 predefined evaluation criteria