Transition mechanism design of a hybrid wheel-track-leg based on foldable rims

Zhou, Faliang; Xu, Xiaojun; Xu, Hui; Zou, Teng’an; Zhang, Lei

doi:10.1177/0954406219831029

Cited by 7 publications

(8 citation statements)

References 22 publications

Supporting

Mentioning

Contrasting

Order By: Relevance

“…A commonly adopted three-or four-leg wheel design consists of arciform lobes connected through linkages that cause the lobes to fold or extend [36], [37], [38], [39]. Deformable wheels presented in [40], [41], and [42] could switch between circle and ellipse and also use the track motion. While most of the existing active mechanisms use a motor for transformation, some use wire-driven actuation for its simplicity and lightweight [43], [44].…”

Section: B Existing Hybrid Locomotion Systemsmentioning

confidence: 99%

$\mathbf{\alpha }$-WaLTR: Adaptive Wheel-and-Leg Transformable Robot for Versatile Multiterrain Locomotion

et al. 2023

View full text Add to dashboard Cite

Adaptability is a fundamental yet challenging requirement for mobile robot locomotion. This article presents α-WaLTR, a new adaptive wheel-and-leg transformable robot for versatile multiterrain mobility. The robot has four passively transformable wheels, where each wheel consists of a central gear and multiple leg segments with embedded spring suspension for vibration reduction. These wheels enable the robot to traverse various terrains, obstacles, and stairs while retaining the simplicity in primary control and operation principles of conventional wheeled robots. The chassis dimensions and the center of gravity location were determined by a multiobjective design optimization process aimed at minimizing the weight and maximizing the robot's pitch angle for obstacle climbing. Unity-based simulations guided the selection of the design variables associated with the transformable wheels. Following the design process, α-WaLTR with an embedded sensing and control system was developed. Experiments showed that the spring suspension on the wheels effectively reduced the vibrations when operated in the legged mode and verified that the robot's versatile locomotion capabilities were highly consistent with the simulations. The system-level integration with an embedded control system was demonstrated via autonomous stair detection, navigation, and climbing capabilities.

show abstract

Section: B Existing Hybrid Locomotion Systemsmentioning

confidence: 99%

$\mathbf{\alpha }$-WaLTR: Adaptive Wheel-and-Leg Transformable Robot for Versatile Multiterrain Locomotion

et al. 2023

View full text Add to dashboard Cite

show abstract

“…Folding mechanism is the key to realizing the safe and smooth switching between wheelchair and stretcher. Analyzing the movement characteristic of the wheelchair-stretcher assistive robot and researching the references [23][24][25][26][27], the corresponding mechanism is proposed, as shown in Figure 7. There is one rack, five motion components and seven revolute joints in the mechanism.…”

Section: Kinematics Analysis and Parameters Optimization Of The Foldimentioning

confidence: 99%

Analysis, Design, and Experimental Research of a Novel Wheelchair-Stretcher Assistive Robot

et al. 2019

View full text Add to dashboard Cite

Featured Application: This novel robot could be applied in hospital, family and nursing home to help the elderly complete the basic daily activities and move patient autonomously.Abstract: Life care for disabled or semi-disabled elderly has become an increasingly common problem in society. In this paper, a novel wheelchair-stretcher assistive robot, which can meet the physiological needs of patients, is investigated and designed. The following tasks are conducted: (1) the mecanum wheel is adopted as the executive device of the walking mechanism, and its kinematics is analyzed in detail.(2) A five-link mechanism with single degree of freedom is proposed to realize the folding motion of the robot. Through the minimum conclusive area method, the optimal sizes of the armrests link and the side link are 507.9, and 332.5 mm, respectively. Based on the force analysis of the linkage mechanism, six torsion springs and RV (rotate vector) reduction motor are used as the driving device, which reduces the driving torque of the motor. (3) Based on the STM32 (STMicroelectronics 32-bits Microcontroller) chip, and combined with the theoretical analysis, the mechanical structure and the control system of the whole prototype are designed, and the feasibility of each module is verified by experimental research. The results confirm that the proposed robot has good performance, and that the control algorithm for the walking mechanism and the lifting mechanism are suitable.

show abstract

“…However, the robot is driven by two sets of motion structures, which are complicated in structure. Faliang Zhou et al [17] proposed a hybrid mobile robot based on foldable wheels. When the robot encounters an obstacle, it folds the wheel into an oval shape to get over the obstacle.…”

Section: Introductionmentioning

confidence: 99%

“…The robot adopts a variable wheel structure. Compared with the folding of the robot wheels in [17], the TurboQuad robot splits and unfolds the wheels, which greatly increases the obstacle-crossing performance.…”

Section: Introductionmentioning

confidence: 99%

TALBOT: A Track-Leg Transformable Robot

Wenzhi

Qiu

et al. 2022

Sensors

View full text Add to dashboard Cite

This article introduces a tracked-leg transformable robot, TALBOT. The mechanical and electrical design, control method, and environment perception based on LiDAR are discussed. The original tracked-leg transformable structure allows the robot to switch between the tracked and legged mode to achieve all-terrain adaptation. In the tracked mode,TALBOT is controlled by the method of differential speed between the two tracked feet. In the legged mode, TALBOT is controlled based on a bionic control strategy of the central pattern generator to realize the generation and conversion of gait. In addition, the robot is equipped with a LiDAR, through sensor preprocessing and optimization of the slam mapping algorithm, so that the robot achieves a better mapping effect. We tested the robot’s motion performance and the slam mapping effect, including going straight and turning in tracked and legged modes and building a map in an indoor environment.

show abstract

Transition mechanism design of a hybrid wheel-track-leg based on foldable rims

Cited by 7 publications

References 22 publications

$\mathbf{\alpha }$-WaLTR: Adaptive Wheel-and-Leg Transformable Robot for Versatile Multiterrain Locomotion

$\mathbf{\alpha }$-WaLTR: Adaptive Wheel-and-Leg Transformable Robot for Versatile Multiterrain Locomotion

Analysis, Design, and Experimental Research of a Novel Wheelchair-Stretcher Assistive Robot

TALBOT: A Track-Leg Transformable Robot

Contact Info

Product

Resources

About