Design of a wheeled wall climbing robot based on the performance of bio-inspired dry adhesive material

Abstract Inspired by gecko’s adhesive feet, a wheeled wall climbing robot is designed in this paper with the synchronized gears and belt system acting as the wheels by considering both motion efficiency and adhesive capability. Adhesion of wheels is obtained by the bio-inspired adhesive material wrapping on the outer surface of wheels. A ducted fan mounted on the back of the robot supplies thrust force for the adhesive material to generate normal and shear adhesion force whilemoving on vertical surfaces. Experimental verification of robot climbing on vertical flat surface was carried out. The stability and the effect of structure design parameters were analyzed.

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Design and analysis of a new frame-foot wall-climbing robot

Proceedings of the Institution of Mechanical Engineers Part D Journal of Automobile Engineering ◽

10.1177/09544070211040258 ◽

2021 ◽

pp. 095440702110402

Author(s):

Ping Huo ◽

Yangyang Xu ◽

Jiangtao Yu ◽

Yazhou Wang

Keyword(s):

Structure Design ◽

Working Environment ◽

Structure Stability ◽

Foot Wall ◽

Climbing Robot ◽

3D Design ◽

Motion Equations ◽

Solution Models ◽

New Type ◽

The Stability

This paper designs and develops a new type of frame-foot wall-climbing robot structure. According to the bionic principle, a new parallel telescopic leg structure is proposed, and the 3D design of the overall structure of the wall-climbing robot is completed. Secondly, the kinematics analysis of the robot is carried out, and the forward and inverse solution models of the leg structure position are completed to verify the feasibility of the leg structure stability. Based on the polynomial motion equations, the robot motion planning and gait design are established, and the speed and acceleration change graphs of the leg structure slider are obtained, which avoids the rigid impact between the parts, and realizes the alternate adsorption and continuous movement of the robot legs, which the rationality of the legs structure design and the stability of the movement are verified. Through simulation and experimental results, it is shown that during the robot’s movement, the leg structure can adjust the step distance and step height according to obstacles, so as to achieve the expected obstacle crossing goal. The leg structure is adjusted according to the working environment to ensure that the fuselage and the working surface are always kept parallel to improve the stability of the overall structure.

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Investigation of sustainability of lubricated journal bearing under relevant design parameters

Industrial Lubrication and Tribology ◽

10.1108/ilt-02-2017-0039 ◽

2018 ◽

Vol 70 (4) ◽

pp. 789-804 ◽

Cited By ~ 1

Author(s):

M.M. Shahin ◽

Mohammad Asaduzzaman Chowdhury ◽

Md. Arefin Kowser ◽

Uttam Kumar Debnath ◽

M.H. Monir

Keyword(s):

Aspect Ratio ◽

Elastic Strain ◽

Journal Bearing ◽

Design Parameters ◽

Content Type ◽

Computational Fluid Dynamics Cfd ◽

Stress Formation ◽

Bearing Design ◽

The Stability ◽

Bearing Friction

Purpose The purposes of the present study are to ensure higher sustainability of journal bearings under different applied loads and to observe bearing performances such as elastic strain, total deformation and stress formation. Design/methodology/approach A journal bearing test rig was used to determine the effect of the applied load on the bearing friction, film thickness, lubricant film pressure, etc. A steady-state analysis was performed to obtain the bearing performance. Findings An efficient aspect ratio (L/D) range was obtained to increase the durability or the stability of the bearing while the bearing is in the working condition by using SAE 5W-30 oil. The results from the study were compared with previous studies in which different types of oil and water, such as Newtonian fluid (NF), magnetorheological fluid (MRF) and nonmagnetorheological fluid (NMRF), were used as the lubricant. To ensure a preferable aspect ratio range (0.25-0.50), a computational fluid dynamics (CFD) analysis was conducted by ANSYS; the results show a lower elastic strain and deformation within the preferable aspect ratio (0.25-0.50) rather than a higher aspect ratio using the SAE 5W-30 oil. Originality/value It is expected that the findings of this study will contribute to the improvement of the bearing design and the bearing lubricating system.

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Aeroelastic Behavior of Low Aspect Ratio Metal and Composite Blades

Volume 1: Turbomachinery ◽

10.1115/86-gt-243 ◽

1986 ◽

Cited By ~ 1

Author(s):

James F. White ◽

Oddvar O. Bendiksen

Keyword(s):

Aspect Ratio ◽

Opposite Effect ◽

Design Parameters ◽

Aeroelastic Stability ◽

Low Aspect Ratio ◽

Supersonic Flutter ◽

Type Mode ◽

The Stability ◽

Composite Blades ◽

Plate Type

The aeroelastic stability of titanium and composite blades of low aspect ratio is examined over a range of design parameters, using a Rayleigh-Ritz formulation. The blade modes include a plate-type mode to account for chordwise bending. Chordwise flexibility is found to have a significant effect on the unstalled supersonic flutter of low aspect ratio blades, and also on the stability of tip sections of shrouded fan blades. For blades with a thickness of less than approximately four percent of chord, the chordwise, second bending, and first torsion branches are all unstable at moderately high supersonic Mach numbers. For composite blades, the important structural coupling between bending and torsion cannot be modeled properly unless chordwise bending is accounted for. Typically, aft fiber sweep produces beneficial bending-torsion coupling that is stabilizing, whereas forward fiber sweep has the opposite effect. By using crossed-ply laminate configurations, critical aeroelastic modes can be stabilized.

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Seismic stability analyses of reinforced tapered landfill cover systems considering seepage forces

Waste Management & Research ◽

10.1177/0734242x18757628 ◽

2018 ◽

Vol 36 (4) ◽

pp. 361-372 ◽

Cited By ~ 2

Author(s):

Afshin Khoshand ◽

Ali Fathi ◽

Milad Zoghi ◽

Hamidreza Kamalan

Keyword(s):

Parametric Study ◽

Limit Equilibrium ◽

Practical Method ◽

Seismic Stability ◽

Design Parameters ◽

Cover System ◽

Landfill Cover ◽

Cover Systems ◽

Landfill Cover System ◽

The Stability

One of the most common and economical methods for waste disposal is landfilling. The landfill cover system is one of the main components of landfills which prevents waste exposure to the environment by creating a barrier between the waste and the surrounding environment. The stability and integrity of the landfill cover system is a fundamental part of the design, construction, and maintenance of landfills. A reinforced tapered landfill cover system can be considered as a practical method for improving its stability; however, the simultaneous effects of seismic and seepage forces in the reinforced tapered landfill cover system have not been studied. The current paper provides a solution based on the limit equilibrium method in order to evaluate the stability of a reinforced tapered landfill cover system under seismic and seepage (both horizontal and parallel seepage force patterns) loading conditions. The proposed analytical approach is applied to different design cases through parametric study and the obtained results are compared to those derived from literature. Parametric study is performed to illustrate the sensitivity of the safety factor (FS) to the different design parameters. The obtained results reveal that parameters which describe the geometry have limited effects on the stability of the landfill cover system in comparison to the rest of the studied design parameters. Moreover, the comparisons between the derived results and available methods demonstrate good agreement between obtained findings with those reported in the literature.

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A 3-DOF Friction-Free Planar Motor Using Piezoelectric Elements

Key Engineering Materials ◽

10.4028/www.scientific.net/kem.523-524.739 ◽

2012 ◽

Vol 523-524 ◽

pp. 739-744 ◽

Cited By ~ 1

Author(s):

Akihiro Torii ◽

Mitsuhiro Nishio ◽

Yuki Itatsu ◽

Kae Doki ◽

Akiteru Ueda

Keyword(s):

Flat Surface ◽

Thrust Force ◽

Levitation Force ◽

Vertical Vibration ◽

Degree Of Freedom ◽

Horizontal Direction ◽

Horizontal Deformation ◽

Piezoelectric Elements ◽

Three Degree Of Freedom

A friction-free planar motor, which is composed of piezoelectric elements (piezos), is proposed. The motor is based on the principle of an inchworm using levitation mechanisms. The vertical vibration of the piezo generates the levitation force of the motor. The horizontal deformation of the piezo causes the thrust force of the motor. These piezos realizes three degree-of-freedom motion on a flat surface. We measure the displacement in the vertical and horizontal direction of the levitation mechanism. The feasibility of the inchworm using levitation mechanisms is described.

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Effect of hydrostatic compression design parameters on the stability of the liquid film

Chemical and Petroleum Engineering ◽

10.1007/bf01144754 ◽

1975 ◽

Vol 11 (4) ◽

pp. 322-325

Author(s):

N. V. Peredrii

Keyword(s):

Liquid Film ◽

Hydrostatic Compression ◽

Design Parameters ◽

The Stability

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Control/Network Codesign Basics for IP-Based Shared Networks

Mathematical Problems in Engineering ◽

10.1155/2011/239512 ◽

2011 ◽

Vol 2011 ◽

pp. 1-23 ◽

Cited By ~ 3

Author(s):

Miguel Díaz-Cacho Medina ◽

Emma Delgado Romero ◽

Antonio Barreiro Blas

Keyword(s):

Control Systems ◽

Networked Control Systems ◽

Transmission Rate ◽

Design Parameters ◽

Control Network ◽

Transport Protocol ◽

Test Platform ◽

Shared Networks ◽

The Stability ◽

And Control

Network and control relationship is an essential aspect in the design of networked control systems (NCSs). The design parameters are mainly centered in the transmission rate and in the packet structure, and some studies have been made to determine how transmission rate affects the network delay and consequently the stability of the control. In Internet, these analysis are mathematically complex due to the large number of different potential scenarios. Using empirical methods, this work deduces that the transmission scheduling problem of an NCS can be solved by designing an appropriate transport protocol, taken into account high and periodic sampling rates. The transport protocol features are determined by simulation, using a new test platform based on the NS2 network simulation suite, to develop control/network codesign solutions. Conclusions of this paper are that the transport features are packet-loss-based flow control, best effort, and fairness, supplemented by a packet priority scheme.

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Sensitivity Analysis on the Stability of a Submarine Concerning its Design Parameters

Journal of the Society of Naval Architects of Korea ◽

10.3744/snak.2006.43.4.521 ◽

2006 ◽

Vol 43 (4) ◽

pp. 521-528 ◽

Cited By ~ 3

Keyword(s):

Sensitivity Analysis ◽

Design Parameters ◽

The Stability

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Research Results of the Potato Digger Technological Process

Agricultural machinery and technologies ◽

10.22314/2073-7599-2018-12-5-14-19 ◽

2018 ◽

Vol 12 (5) ◽

pp. 14-19 ◽

Cited By ~ 1

Author(s):

V. M. Alakin ◽

G. S. Nikitin

Keyword(s):

Design Parameters ◽

Operating Speed ◽

Working Process ◽

Projectile Motion ◽

Operating Process ◽

Cutoff Angle ◽

The Stability ◽

Theoretical Results ◽

Optimum Working

A potato digger equipped with a fourbladed beater operating in connection with rotary separating surface has low material and energy consumption, higher separating efficiency, as well as lower degree of tuber damaging. The potato digger design should include a fourbladed intakeandfeed beater to prevent potato heap transportation faults in front of the first section. (Research purpose) Increasing the technological and economic efficiency of a potato diggingand separating unit through the determination of the optimum values of the design parameters and operating process of the intakeandfeed beater. (Materials and methods) the authors have made an overview of general principles of ensuring the stability of the potato heap movement provided by the fourbladed intakeandfeed beater. The dependency of the minimum beater speed on the operating speed of the potato digger has been found to exclude a probability of its overloading. The methodology of calculating the potato heap velocity and the cutoff angle between the material and the beater blades has been worked out by analyzing potato heap lifting to the upper points of the working units of the rotary separator’s first section. Operating speed of the beater has been determined through the differential equation for the speed of a potato heap moving along the blade surface. (Results and discussion) Preliminary potato heap speed and cutoff angle have been found through the equation of dynamics describing the projectile motion of an object thrown at an angle. The operating values of the angles are dependent on the potato digger working speed and can be selected from the triangle of speeds. The authors have determined the dependence of the optimal beater speed on the working speed of a potato digger. Its value should exceed the minimum speed of the beater. (Conclusions) Theoretical results allow proposing the best design features and optimum working process parameters of a fourbladed beater receiving a potato heap, transporting it and lifting on the rotary separating surface.

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