Assistive humanoid robot MARKO: development of the neck mechanism

The paper presents the development of neck mechanism for humanoid robots. The research was conducted within the project which is developing a humanoid robot Marko that represents assistive apparatus in the physical therapy for children with cerebral palsy.There are two basic ways for the neck realiz...

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Bibliographic Details
Main Authors: Penčić, Marko, Čavić, Maja, Savić, Srđan, Rackov, Milan, Borovac, Branislav, Lu, Zhenli
Format: Conference Proceeding
Language:English
Subjects:
Actuators
Carrying capacity
Children
Computer simulation
Differential gears
Dynamic models
Head
Humanoid
Robots
Rotation
Spiral bevel gears
Stiffness
Viscoelasticity
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Summary:The paper presents the development of neck mechanism for humanoid robots. The research was conducted within the project which is developing a humanoid robot Marko that represents assistive apparatus in the physical therapy for children with cerebral palsy.There are two basic ways for the neck realization of the robots. The first is based on low backlash mechanisms that have high stiffness and the second one based on the viscoelastic elements having variable flexibility. We suggest low backlash differential gear mechanism that requires small actuators. Based on the kinematic-dynamic requirements a dynamic model of the robots upper body is formed. Dynamic simulation for several positions of the robot was performed and the driving torques of neck mechanism are determined.Realized neck has 2 DOFs and enables movements in the direction of flexion-extension 100°, rotation ±90° and the combination of these two movements. It consists of a differential mechanism with three spiral bevel gears of which the two are driving and are identical, and the third one which is driven gear to which the robot head is attached. Power transmission and motion from the actuators to the input links of the differential mechanism is realized with two parallel placed gear mechanisms that are identical.Neck mechanism has high carrying capacity and reliability, high efficiency, low backlash that provide high positioning accuracy and repeatability of movements, compact design and small mass and dimensions.
ISSN:2261-236X
2274-7214
2261-236X
DOI:10.1051/matecconf/201712108005