2020
DOI: 10.1115/1.4045650
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Gravity Compensation Design of Planar Articulated Robotic Arms Using the Gear-Spring Modules

Abstract: This paper presents a design concept for gravity compensation of planar articulated robotic arms using a series of gear-slider mechanisms with springs. The spring-attached gear-slider mechanism has one degree-of-freedom (DOF) of motion, which can serve as a gear-spring module (GSM) to be installed onto the robot joints for leveraging the gravitational energy of the robot arm. The proposing GSM-based design is featured by its structure compactness, less assemblage effort, ease of modularization, and high perfor… Show more

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Cited by 40 publications
(10 citation statements)
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“…It can be seen that as N increases, the result is more accurate, and the smoothness of the data after the solution increases, but the calculation time increases and the sensitivity decreases [22]. In actual engineering, the value of N is usually selected according to specific requirements to obtain the required filtering effect [23].…”
Section: Digital Filtering Methods To Deal With Small Fluctuations In mentioning
confidence: 99%
“…It can be seen that as N increases, the result is more accurate, and the smoothness of the data after the solution increases, but the calculation time increases and the sensitivity decreases [22]. In actual engineering, the value of N is usually selected according to specific requirements to obtain the required filtering effect [23].…”
Section: Digital Filtering Methods To Deal With Small Fluctuations In mentioning
confidence: 99%
“…3,19,34 Other gravitational torque compensation methods in the literature are not suitable for hyperredundant robotic arms in terms of the precision, lightness and compactness. The method proposed by Nguyen et al 36 achieves passive compensation of a planar robotic arm having non-parallelogram links using gear-spring modules (GSM), i.e. gear-slider mechanism acting on a spring.…”
Section: Discussion and Resultsmentioning
confidence: 99%
“…The static balancing of a closed-loop planar mechanism with one DoF was performed by integrating two colinear springs [14]. Using a spring-gear concept, a planar mechanism based straight open linkage (instead of parallelogram) was statically balanced [15]. The same design has been used for the static balancing of a Delta mechanism [16].…”
Section: Static Balancing Of Diversified Mechanical Archtitecturesmentioning
confidence: 99%
“…The same principle is applied for the position mechanism. The theoretical stiffnesses can be calculated from Equations ( 14) and (15). However, the mass of the orientation mechanism, m S = 815.47 g, will be considered this time.…”
Section: Identification Of the Mechanical Parametersmentioning
confidence: 99%