AbstractThe authors propose a distinctive construction of the planetary mechanism with elliptical gears designed to convert rotational motion into reciprocating rotational (oscillating) one. We conducted a kinematic analysis of the mechanism, found the variation of the rotation angle, the angular velocity analogue and angular acceleration analogue of the mechanism output shaft. The developed mechanism is a classic planetary mechanism and is more reliable and compact in comparison with the lever and electromagnetic inverters
Spatial mechanisms of various types are widely used in technology. Most of them have one or two ball...
Parallel mechanisms, in general, have a rigid base and a moving platform connected by several limbs....
The operation of high-speed automatic machine mechanisms causes oscillating (dynamic) processes beca...
AbstractThe authors propose a distinctive construction of the planetary mechanism with elliptical ge...
Stirred tanks are used in many industries to intensify various physical and chemical processes. Curr...
Synthesis of classical planetary mechanisms is usually based on kinematic relations, considering the...
Intermittent motion mechanisms are widely used in semiautomatic and automatic machinery. Currently, ...
The work was based from previous analytical results that aims to facilitate rotations. It aims to in...
There is a motion of a system of masses that is as simple as the motion of a point mass on a straigh...
A higher kinematic pair that converts rotary motion into helical motion is presented as an alternati...
The synthesis procedures presented in this thesis are intended to bridge a gap in the spherical synt...
The ability to convert reciprocating, i.e., alternating, actuation into rotary motion using linkages...
Aim: To analyse the kinematics of the Reciproc Direct® contra-angle reciprocating device with differ...
In this paper, we describe the design and construction of a cam mechanism to convert a revolute moti...
An analysis to design a particular R-C-C-R spatial mechanism was developed using tensor notations an...
Spatial mechanisms of various types are widely used in technology. Most of them have one or two ball...
Parallel mechanisms, in general, have a rigid base and a moving platform connected by several limbs....
The operation of high-speed automatic machine mechanisms causes oscillating (dynamic) processes beca...
AbstractThe authors propose a distinctive construction of the planetary mechanism with elliptical ge...
Stirred tanks are used in many industries to intensify various physical and chemical processes. Curr...
Synthesis of classical planetary mechanisms is usually based on kinematic relations, considering the...
Intermittent motion mechanisms are widely used in semiautomatic and automatic machinery. Currently, ...
The work was based from previous analytical results that aims to facilitate rotations. It aims to in...
There is a motion of a system of masses that is as simple as the motion of a point mass on a straigh...
A higher kinematic pair that converts rotary motion into helical motion is presented as an alternati...
The synthesis procedures presented in this thesis are intended to bridge a gap in the spherical synt...
The ability to convert reciprocating, i.e., alternating, actuation into rotary motion using linkages...
Aim: To analyse the kinematics of the Reciproc Direct® contra-angle reciprocating device with differ...
In this paper, we describe the design and construction of a cam mechanism to convert a revolute moti...
An analysis to design a particular R-C-C-R spatial mechanism was developed using tensor notations an...
Spatial mechanisms of various types are widely used in technology. Most of them have one or two ball...
Parallel mechanisms, in general, have a rigid base and a moving platform connected by several limbs....
The operation of high-speed automatic machine mechanisms causes oscillating (dynamic) processes beca...