Gravity compensation of a 2R1T mechanism with remote center of motion for minimally invasive transnasal surgery applications

Aldanmaz, Ataol Behram; Ayit, Orhan; Kiper, Gökhan; Dede, Mehmet İsmet Can

doi:10.1017/s0263574722000534

Cited by 6 publications

(2 citation statements)

References 11 publications

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“…Then they proposed a 2URRR-URR type parallel manipulator for MIS [4]. Yaşır et al [7] and Aldanmaz et al [8] proposed gravity balancing solution for the manipulator presented in [4]. This paper presents a serial manipulator as an alternative solution for the same application.…”

Section: Introductionmentioning

confidence: 99%

Design and Balancing of a Novel 2R1T Manipulator with Remote Center of Motion

Yılmaz

Kiper

2023

Mechanisms and Machine Science

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The paper presents a novel manipulator design to be used as an endoscope holder for endonasal skull base surgeries. The manipulator should provide two rotational and one translational motions for the endoscope, where it should be able to be oriented about and slide along the tip of the nostril of a patient as a pivot point. First, suitable manipulators with remote center motion are investigated. Manipulators with serial and hybrid kinematic structure and redundant manipulators with a passive joint are examined. A serial manipulator with a circular arc as the second rotation axis is chosen for the detailed design. The novelty of the kinematic structure of the manipulator is that the end-effector heave motion is achieved in a tangential direction to the circular arc. The constructional design and counter-mass balancing solution for the manipulator are presented. The total assembly mass is 11.6 kg for navigating an endoscope of 0.44 kg mass.

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Section: Introductionmentioning

confidence: 99%

Design and Balancing of a Novel 2R1T Manipulator with Remote Center of Motion

Yılmaz

Kiper

2023

Mechanisms and Machine Science

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“…[9] proposed the design of a medical robot arm for ultrasound imaging, which used tension spring to achieve static balance; ref. [10] developed a gravity balanced 2R1T (2 rotations and 1 translation) mechanism and used it on surgery applications. Other applications such as upper arm exoskeletons [11, 12] and lower limb rehabilitation devices [13, 14], with balancing of limbs’ weight, users can perform overhead work or rehabilitation easily.…”

Section: Introductionmentioning

confidence: 99%

Spring-balanced 3-DoF serial planar manipulators for constant forces in arbitrary directions

2023

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With the use of springs, a method to balance the constant forces in arbitrary directions on a planar serial manipulator is developed in this study. Gravity balancing has been discussed a lot in the past. However, manipulators usually bear forces from various directions rather than only a fixed one as gravity. For instance, an industrial manipulator would bear forces from everywhere during the working process. Therefore, a method to balance these forces in arbitrary directions with springs is proposed. Based on the representation of energy, spring energy is the function of springs’ attachment points. Two spring systems with different attachment angles are needed to balance respectively forces in arbitrary directions and gravity. The spring installations of the above systems on 3-DoF manipulators are proposed. Finally, a resistive force-balanced manipulator with/without gravity balance in the grinding process is shown. In sum, this paper for the first time develops the balancing method for forces in arbitrary directions, expanding the spring balance theory to a broader application.

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