Application of hydraulic automation equipment for the efficiency enhancement of the operation elements of the mobile machinery

• Autorzy: Polishchuk Leonid , Kozlov Leonid , Burennikov Yuri , Strutinskiy Vasil , Kravchuk Valerii

Identyfikatory

DOI

10.5604/01.3001.0013.2553

Warianty tytułu

PL

Zastosowanie wyposażenia automatyzacji hydraulicznej w celu poprawy efektywności elementów operacyjnych maszyn mobilnych

• Języki publikacji: EN

Abstrakty

EN

The application of adaptive drives in working units of various technological and mobile machines is considered. The results of theoretical and experimental research have proved the effectiveness of their use for improving the dynamic characteristics of machines, reducing unproductive power losses during their operation.

PL

W pracy rozważane jest zastosowanie napędów adaptacyjnych w jednostkach roboczych różnych maszyn technologicznych i mobilnych. Skuteczność zastosowania tych algorytmów do poprawy charakterystyk dynamicznych maszyn, przy jednoczesnym zmniejszeniu nieproduktywnych strat mocy podczas pracy potwierdziły wyniki badań teoretycznych i eksperymentalnych.

Słowa kluczowe

EN

hydroautomatics; tool; workstation; mobile machine

PL

hydraulika; narzędzie; stacja robocza; maszyna mobilna

• Wydawca: Wydawnictwo Politechniki Lubelskiej
• Czasopismo: Informatyka, Automatyka, Pomiary w Gospodarce i Ochronie Środowiska
• Rocznik: 2019
• Tom: T. 9, nr 2
• Strony: 72--78
• Opis fizyczny: Bibliogr. 26 poz., rys.

Twórcy

autor

Polishchuk Leonid

• Vinnytsia National Technical University

autor

Kozlov Leonid

• Vinnytsia National Technical University

autor

Burennikov Yuri

• Vinnytsia National Technical University

autor

Strutinskiy Vasil

• National Technical University of Ukraine “Igor Sikorsky Kyiv Polytechnic institute”

autor

Kravchuk Valerii

• Vinnytsia National Technical University

Bibliografia

• [1] Bing X., Ruqi D., Junhui Z., Min C., Tong S.: Pump valves coordinate control of the independent metering system for mobile machinery. Automation in Construction 2015, 98–11.
• [2] Busquets E., Ivantysynova M.: Toward Supervisory-Level Control for the Energy Consumption and Performance Optimization of Displacement- Controlled Hydraulic Hybrid Machines. Mobile Hydraulics Paper 10(2)/2016, 163–174.
• [3] Cheng G., Shuangxia P.: Adaptive sliding mode control of electro-hydraulic system with nonlinear unknown parameters. Control Engineering Practice 2008, 1275–1284.
• [4] Du C.: Variable Supply Pressure Electrohydraulic System for Efficient Multiaxis Motion Control : A thesis submitted for the degree of Doctor of Philosophy University of Bath Department of Mechanical Engineering. University of Bath: November 2014.
• [5] Finzel R.: New Electro-Hydraulic Control Systems for Mobile Machinery. Fluid Power and Motion Control 2008, United Kingdom 311– 321.
• [6] Forental V., Forental M., Nazarov F.: Investigation of Dynamic Characteristics of the Hydraulic Drive with Proportional Control. Procedia Engineering. International Conference on Industrial Engineering (ICIE-2015) 129/2015, 695–701.
• [7] Kotlobay A.Ya., Kotlobay A.A., Tamelo V.F.: Hydraulic assemblies of drive systems of the road equipment for road-building machines. Science and Technology 15(1)/2016, 69–77.
• [8] Kozlov L.: Energy-saving mechatronic drive of the manipulator. Buletinulinstitutuluipolitehnic Din Iasi. Tomul LVII (LXI), Fasc. 3/2011, 231–239.
• [9] Kozlov L.G., Burennikov Yu.A., Pylyavets V.G., Korinenko M.P. , Lizhov O.V.: Ensuring the stability of the mechanotronic hydraulic drive. Journal of Mechanical Engineering and Transport 1(9)/2019.
• [10] Kozlov L.G., Polishchuk L.K., Piontkevych O.V., Korinenko M.P., HorbatiukR.M., Komada P., Orazalieva S., Ussatova O.: Experimental research characteristics of counterbalance valve for hydraulic drive control system of mobile machine. PrzegladElektrotechniczny 95(4)/2019, 104–109.
• [11] Kozlov L.G.: Mechatronhydrosystem of a mobile machine. Bulletin of the Volodymyr Dahl East-Ukrainian University 6/2012, 22–30.
• [12] Kozlov L.G.: Scientific foundations for designing the systems of manipulator hydraulic drives with an adaptive neural network-based controllers for mobile working machines. Thesis for the scientific degree of Doctor of Science (Engineering). National Technical University of Ukraine Kyiv Polytechnic Institute, Kyiv 2015.
• [13] Lauhoff H.: Speed Control on Belt Conveyors – Does it Really Save Energy? Bulk Solids Handling 22(6/)2005, 368–377.
• [14] Polischuk L.K., Adler A.O., Sturma A.L.: Control device for hydraulic drive with variable load on the working body. Bulletin of the Volodymyr Dahl East Ukrainian National University 3(109)/2007, 195–200.
• [15] Polischuk L.K., Adler A.O.: Embedded hydraulic drives of conveyors with a flexible pulling body, sensitive to load change. VNTU, Vinnitsa 2010.
• [16] Polischuk L.K.: Dynamics of the built-in hydraulic drive of conveyors of mobile machines. VNTU, Vinnytsa 2018.
• [17] Polishchuk L., Kharchenko Y., Piontkevych O., Koval O.: The research of the dynamic processes of control system of hydraulic drive of belt conveyors with variable cargo flows. Eastern-European Journal of Enterprise Technologies 2(8)/2010, 22–29.
• [18] Polishchuk L.K., Adler O.O., Malyarchuk A.O.: Influence of the load change characteristics on the dynamics of the integrated hydraulic drive. Machine Science 11/2009, 31–35.
• [19] Polishchuk L.K., Koval O.O.: Control system of a hydraulic drive of a belt conveyor with variable load. The Bulletin of the Vinnytsia Polytechnic Institute 2(191)/2015, 131–136.
• [20] Polishchuk L.К., Kozlov L.G., Piontkevych O.V., Horbatiuk R.M., Pinaiev B., Wójcik W., Sagymbai A., Abdihanov A.: Study of the dynamic stability of the belt conveyor adaptive drive. Przeglad Elektrotechniczny 95(4)/2019, 98–103.
• [21] Scherer M., Geimer M., Weis B.: Contribution on Control Strategies of Flow- On-Demand Hydraulic Circuits. The 13th Scandinavian International Conference on Fluid Power June 3-5 2013, Sweden, 531–540.
• [22] Shakhmeister L.G., Dmitriev V.G.: Theory and calculation of belt conveyors. Engineering, Moscov 1978.
• [23] Sidorenko V.S., Grishchenko V.I., Rakulenko S.V., Poleshkin M.S.: Adaptive hydraulic drive with volumetric regulation of the tool feed of a technological machine. Bulletin of Donetsk State Technical University 2/2017, 88–98.
• [24] Stamm von Baumgarten T.: A novel system layout for extended functionality of mobile machines. Fluid Power and Motion Control 2008, United Kingdom, 13–25.
• [25] Wheeler C.A.: Evolutionary Belt Conveyor Design – Optimizing Coasts. Bulk Material Handling by Conveyor Belt. 7, Littleton, Colorado 2008.
• [26] Zaika V.T.: Influence of an adjustable drive on cargo flows and energy efficiency of the system of mine conveyor transport. Science bulletin of National Mining University 3/2015, 82–88.

Uwagi

Opracowanie rekordu ze środków MNiSW, umowa Nr 461252 w ramach programu "Społeczna odpowiedzialność nauki" - moduł: Popularyzacja nauki i promocja sportu (2020).