AbstractAbout AuthorsReferences
A new approach to the design of an automated system of control of a concrete factory which is a complex of means of technical, information, mathematical and software provision for managing technological objects is proposed. The system ensures the optimal level of automation of accumulation and processing of information for the formation of control signals and transmitting them without losses and distortion to actuators for achieving the most efficient operation of the management object as a whole.
A.V. OSTROUH1, Doctor of Sciences (Engineering) (This email address is being protected from spambots. You need JavaScript enabled to view it.)
I.V. NEDOSEKO2, Doctor of Sciences (Engineering) (This email address is being protected from spambots. You need JavaScript enabled to view it.)
A.A. AJSARINA3, Engineer (This email address is being protected from spambots. You need JavaScript enabled to view it.)
M.I. STRUGOVEC2, Engineer (This email address is being protected from spambots. You need JavaScript enabled to view it.)
I.V. NEDOSEKO2, Doctor of Sciences (Engineering) (This email address is being protected from spambots. You need JavaScript enabled to view it.)
A.A. AJSARINA3, Engineer (This email address is being protected from spambots. You need JavaScript enabled to view it.)
M.I. STRUGOVEC2, Engineer (This email address is being protected from spambots. You need JavaScript enabled to view it.)
1 Moscow State Automobile and Road Technical University (64, Leningradsky Avenue, Moscow, 125319, Russian Federation)
2 Ufa State Petroleum Technological University (1, Kosmonavtov Street, Republic of Bashkortostan, Ufa, 450062, Russian Federation)
3 The branch of FSEI HPE MSUTM named after K.G. Razumovskiy in Meleuz , Bashkortastan (34, Smolenskaja Street, Meleuz, 453850, Respublika Bashkortostan)
1. Ostroukh A.V., Nikolaev A.B. Intellektual’nye sistemy v nauke i proizvodstve [Intelligent systems in science and industry]. Saarbrucken: Palmarium Academic Publishing. 2012. 312 p.
2. Ostroukh A.V., Tyan’ Yu. Modern methods and approaches to building management systems of production and technological activities of industrial enterprises. Avtomatizatsiya i upravlenie v tekhnicheskikh sistemakh. 2013. No. 1, pp. 29–31. (In Russian).
3. Ostroukh A.V., Glebov A.O., Karpov S.V., Karpushkin S.V., Krasnyanskiy M.N. Optimization of design and performance characteristics of heating system of press equipment. American Journal of Applied Sciences. 2014. Vol. 11. No. 6, pp. 939–946.
4. Kalashnikov V.I. How to transform old generation of high-performance concretes concretes new generation. Beton i zhelezobeton. 2012. No. 1, pp. 82. (In Russian).
5. Kalashnikov V.I., Borisov A.A., Polyakov L.G., Krapchin V.Yu., Gorbunova V.S. Modern views on the use of fine ground cement and concrete in the VNV. Stroitel’nye Materialy [Construction Materials]. 2000. No. 7, pp. 12–13. (In Russian).
6. Vei P.A., M’o L.A., Ostroukh A.V., Ismoilov M.I. Overview of the current state of development of automation of production of dry construction mixtures. V mire nauchnykh otkrytii. 2012. No. 12, pp. 12–19. (In Russian).
7. Ostroukh A.V., Vei P.A. Optimization of the process parameters of mixing of dry building mixes in a horizontal drum mixer by continuous simulation. Avtomatizatsiya i upravlenie v tekhnicheskikh sistemakh. 2014. No. 2, pp. 21–28. (In Russian).
8. Kabir M.R., Ismoilov M.I., Ostroukh A.V. Automated Control System for concrete plant. Avtomatizatsiya i upravlenie v tekhnicheskikh sistemakh. 2014. No. 3, pp. 178–190. (In Russian).
9. Ostroukh A.V., Aisarina A.A. Development of an automated control system of concrete mixing plants with twin-shaft mixer. Avtomatizatsiya i upravlenie v tekhnicheskikh sistemakh. 2015. No. 1, pp. 51–59. (In Russian).
2. Ostroukh A.V., Tyan’ Yu. Modern methods and approaches to building management systems of production and technological activities of industrial enterprises. Avtomatizatsiya i upravlenie v tekhnicheskikh sistemakh. 2013. No. 1, pp. 29–31. (In Russian).
3. Ostroukh A.V., Glebov A.O., Karpov S.V., Karpushkin S.V., Krasnyanskiy M.N. Optimization of design and performance characteristics of heating system of press equipment. American Journal of Applied Sciences. 2014. Vol. 11. No. 6, pp. 939–946.
4. Kalashnikov V.I. How to transform old generation of high-performance concretes concretes new generation. Beton i zhelezobeton. 2012. No. 1, pp. 82. (In Russian).
5. Kalashnikov V.I., Borisov A.A., Polyakov L.G., Krapchin V.Yu., Gorbunova V.S. Modern views on the use of fine ground cement and concrete in the VNV. Stroitel’nye Materialy [Construction Materials]. 2000. No. 7, pp. 12–13. (In Russian).
6. Vei P.A., M’o L.A., Ostroukh A.V., Ismoilov M.I. Overview of the current state of development of automation of production of dry construction mixtures. V mire nauchnykh otkrytii. 2012. No. 12, pp. 12–19. (In Russian).
7. Ostroukh A.V., Vei P.A. Optimization of the process parameters of mixing of dry building mixes in a horizontal drum mixer by continuous simulation. Avtomatizatsiya i upravlenie v tekhnicheskikh sistemakh. 2014. No. 2, pp. 21–28. (In Russian).
8. Kabir M.R., Ismoilov M.I., Ostroukh A.V. Automated Control System for concrete plant. Avtomatizatsiya i upravlenie v tekhnicheskikh sistemakh. 2014. No. 3, pp. 178–190. (In Russian).
9. Ostroukh A.V., Aisarina A.A. Development of an automated control system of concrete mixing plants with twin-shaft mixer. Avtomatizatsiya i upravlenie v tekhnicheskikh sistemakh. 2015. No. 1, pp. 51–59. (In Russian).
For citation: Ostrouh A.V., Nedoseko I.V., Ajsarina A.A., Strugovec M.I. Design of Automated System of Control of Factories and Plants for Production of Mortar and Concrete Mixes. Stroitel’nye Materialy [Construction Materials]. 2015. No. 10, pp. 00-00. (In Russian). DOI: https://doi.org/10.31659/0585-430X-2015-730-10-70-74