кінематичний аналіз

Justifying the structure of the improved mechanism for manual control of motor vehicles’ pedals

Due to the challenging military situation in Ukraine, the demand for tailored and flexible pedal control systems for individuals with physical disabilities is especially important. Standard pedal configurations often fail to meet the specific needs of drivers with limited mobility, making vehicle operation both difficult and potentially unsafe. The development of specialized manual control devices, such as hand-operated pedals or adjustable foot controls, is crucial for ensuring that these drivers can manage their vehicles with accuracy and safety.

Design and operational peculiarities of four-degree-of-freedom double-legged robot with pneumatic drive and turning mechanism

Problem statement. Mobile robots are of significant interest among scientists and designers during the last several decades. One of the prospective drives of such robots is based on pneumatically operated walking (stepping) system with no use of electric, heat, magnetic or other types of energy. This allows the use of pneumatically-driven robots in the cases when the use of other energy sources is prohibited (e.g., in some gaseous or fluid mediums).

Structural and kinematic analysis of pantograph-type manipulator with three degrees of freedom

Problem statement. The processes of development and improvement of autonomous mobile robots are significantly constrained because of the lack of an open-access comprehensive scientific and theoretical framework for calculating and designing of autonomous mobile robotic systems Purpose. The main objective of the paper consists in carrying out kinematic analysis and motion simulation of pantograph-type manipulator with three degrees of freedom. Methodology.

Structure and Kinematic Synthesis of Crank-and-slider Walking Mechanism in Order to Ensure the Prescribed Path of Supporting Foot Motion

The prospects of usage of walking drives in mobile robotic systems are overviewed. The structure of crank-and-slider mechanism was synthesized on order to ensure the prescribed motion path of the supporting foot. The problems of kinematics of crank-and-slider mechanism are considered and the equations of the supporting foot motion are deduced. The geometrical parameters of the walking mechanism are determined taking into account the advanced values of step length and foot raising hight.

Structural and Kinematic Analysis Inertia Reel Compilation Shovel Horizontal-axis Wind Turbines

Different constructions of inertial mechanisms of blades folding of horizontal-axis wind turbines are considered in the article. Their structural analysis is held and analytical dependencies for calculation kinematical parameters of the mechanisms are presented. Based on the kinematical analysis data the influence of different geometrical parameters on changing of blades position angle and displacement of regulation sliders is investigated. The features of calculation of construction parameters of inertial mechanisms of blades folding of horizontal- axis wind turbines are analyzed.