Search engine for discovering works of Art, research articles, and books related to Art and Culture
Javascript must be enabled to continue!
Development of a mathematical model of dynamic characteristics of a drive with a planetary mechanism
View through CrossRef
The article is devoted to the development of a mathematical model of dynamic characteristics of a drive with a planetary gear mechanism. The subject of research is a drive with a planetary gear mechanism. The following issues were considered in the article: the synthesis of a planetary gear mechanism; the development of a mathematical model that describes the dynamic characteristics of the system; the determination of the dynamic characteristics of a drive with a planetary gear mechanism. Research is based on the method of determining the number of gear teeth; the method of determining the kinetic energy of the James gearbox; the method of determining the dynamic characteristics of an electric motor. The possible number of satellites is given in the article; the pitch radii of the wheels for a given modulus are defined; the moment of inertia of the mechanism reduced to the movable central wheel is determined; a mathematical model of the motion of a drive with a planetary gear mechanism is developed. Equations of motion of a drive with a planetary gear mechanism were obtained. Assuming, in a particular case, all the links of the drive with the planetary gear mechanism as rigid links, a mathematical model was developed for this system, considering the dynamic characteristics of an electric motor. A mathematical model was developed that describes the dynamic characteristics of the system. Analytical solutions for the developed mathematical model are given.
Title: Development of a mathematical model of dynamic characteristics of a drive with a planetary mechanism
Description:
The article is devoted to the development of a mathematical model of dynamic characteristics of a drive with a planetary gear mechanism.
The subject of research is a drive with a planetary gear mechanism.
The following issues were considered in the article: the synthesis of a planetary gear mechanism; the development of a mathematical model that describes the dynamic characteristics of the system; the determination of the dynamic characteristics of a drive with a planetary gear mechanism.
Research is based on the method of determining the number of gear teeth; the method of determining the kinetic energy of the James gearbox; the method of determining the dynamic characteristics of an electric motor.
The possible number of satellites is given in the article; the pitch radii of the wheels for a given modulus are defined; the moment of inertia of the mechanism reduced to the movable central wheel is determined; a mathematical model of the motion of a drive with a planetary gear mechanism is developed.
Equations of motion of a drive with a planetary gear mechanism were obtained.
Assuming, in a particular case, all the links of the drive with the planetary gear mechanism as rigid links, a mathematical model was developed for this system, considering the dynamic characteristics of an electric motor.
A mathematical model was developed that describes the dynamic characteristics of the system.
Analytical solutions for the developed mathematical model are given.
Related Results
Spatial and Open Research Data Infrastructure for Planetary Science - Lessons learned from European developments
Spatial and Open Research Data Infrastructure for Planetary Science - Lessons learned from European developments
The planetary community has access to a wealth of raw research data by using central data distribution platforms such as the Planetary Data System (PDS) [1], the Planetary Science ...
Planetary Cartography: Challenges for Mapping and Research Data Management
Planetary Cartography: Challenges for Mapping and Research Data Management
<p>The aim of this contribution is to summarize recent activities in the field of Planetary Cartography by highlighting current issues the community is facing, and by...
METHODOLOGY OF THE DESIGN CALCULATION OF THE ELECTRO-HYDRAULIC SERVO DRIVE OF TECHNOLOGICAL EQUIPMENT
METHODOLOGY OF THE DESIGN CALCULATION OF THE ELECTRO-HYDRAULIC SERVO DRIVE OF TECHNOLOGICAL EQUIPMENT
Machine-building industries and enterprises for modernization of railway rolling stock are constantly increasing the requirements for the technical and functional char...
Model-Based Fault Diagnosis of a Planetary Gear Using Transmission Error
Model-Based Fault Diagnosis of a Planetary Gear Using Transmission Error
A Planetary gear can transmit high torque ratio stably and, therefore, the gear is widely used in industrial applications, i.e., wind turbines, automobiles, he...
Belt conveyor starting mode optimization
Belt conveyor starting mode optimization
The work is aimed at increasing the efficiency of belt conveyors by choosing the drive mechanism movement mode.
During the operation of belt conveyors, significant energy and dyna...
Analysis of vibration and load-sharing characteristics of two-stage planetary gear transmission system with cracks
Analysis of vibration and load-sharing characteristics of two-stage planetary gear transmission system with cracks
To reveal the influence of cracks on the dynamic characteristics of a two-stage planetary gear transmission system (TSPGTS), a nonlinear dynamic model with 30-DOF in bending and to...
OpenPlanetaryMap Updates: Planetary Basemaps and Geocoding Web Services
OpenPlanetaryMap Updates: Planetary Basemaps and Geocoding Web Services
<p>OpenPlanetaryMap (OPM) is a collaborative project to build the first Open Planetary Mapping and Social platform for researchers, educators, storytellers, and the g...
OpenPlanetaryMap Updates: Planetary Basemaps and Geocoding Web Services
OpenPlanetaryMap Updates: Planetary Basemaps and Geocoding Web Services
<p>We introduce the project and present recent updates on OPM planetary basemaps, geocoding APIs and user interfaces.</p>
<p>OpenPlanetary...