employee
Baku, Azerbaijan
from 01.01.2017 until now
Sumgayit, Azerbaijan
employee
Sumgayit, Azerbaijan
UDK 681.5 Автоматика. Теория, методы расчета и аппаратура систем автоматического управления и регулирования. Техническая кибернетика. Техника автоматизации
BBK 345 Общая технология машиностроения. Обработка металлов
The task is set to select and study information and measuring elements and actuating mechanisms for complex automation of CNC machines based on the analysis of mechanical assembly production sites in the field of mechanical engineering. Paper objective is to develop information support for measuring instruments and actuating mechanisms to implement the automation of a crane manipulator serving a flexible production site with mechanical assembly machines. The following problems are stated: technological analysis of the research object based on recursive procedures; determination of measurement operations and actuating mechanisms on the active elements of a flexible production site, including manipulator crane operations, turning, milling, radial drilling machines; study of the issue of designing a crane manipulator with a clamp; calculation of the power of the crane manipulator actuator to select the load capacity of its clamp. The task is set to develop information support for measuring and actuating devices for machine-assembling machines and crane manipulators servicing the machine body. To determine the power of the manipulator crane drive, a mathematical model of the transmission and the required characteristics of the load release in braking mode are constructed.
mechanical assembly shop, crane manipulator, drive, device, information support
1. Grundig KG. Design of industrial enterprises: Principles. Methods. Practice. Moscow: Alpina Business Books; 2007.
2. Romanenko VI, Yarmak YuYu. Design of mechanical assembly sites and workshops: a manual for students of specialty 1-36 01 01 Technology of Mechanical Engineering. Minsk: BNTU; 2022.
3. Mammadov J, Aliyev I, Huseynova G, Orujova G. Algorithmic support for the management of the computer-aided design of flexible manufacture system and its equipment. Cybernetics and systems analysis. 2021;57: 959-958.
4. Mammadov JF, Abdullaev KS, Agaev UH, Aliev IR, Huseynova GG. Searching and selection of a flexible manufacturing system by means of frame model. Cyber-physical systems: modelling and intelligent control. p.139-152.
5. Bakunina TA, Timofeeva EV. Design of mechanical assembly shops: textbook. Rybinsk: RGATA named after P. A. Solovyov; 2011.
6. Lagerev AV, Lagerev IA, Milto AA. Universal technique for analysing hydraulic articulating crane dynamics, Bulletin of Bryansk State Technical University. 2013;3:24-31.
7. Lagerev IA, Milto AA, Lagerev AV. Effectiveness of elastic damping in the pivot joints of cargo boom of crane-manipulating installations at large gaps. Bulletin of Bryansk State Technical University. 2016;1:18-36.
8. Lagerev IA, Lagerev A.V. Optimal design of lifting-transport machines. Bulletin of Bryansk State Technical University. 2013:228.
9. Osipov OI, Nazhivin AE. Electromechanical complex for test of power transmission of helicopters. 2015 International Siberian Conference on Control and Communications (SIBCON), May 21-23, 2015; Omsk: 2015. p. 12-15.
10. Rahul Tiwari, Bhardwaj AK. Analysis of induction motor with die cast rotor. International journal of innovative research in electrical, electronics, instrumentation and control engineering. 2014;2(6):1552-1558.