Terms of the stability for the control valve of the hydraulic impulse drive of vibrating and vibro-impact machines

• Autorzy: Iskovych-Lototsky Rostislav D. , Kots Ivan V. , Ivanchuk Yaroslav V. , Ivashko Evheniy I. , Gromaszek Konrad , Mussabekova Assel , Kalimoldayev Mashat

Identyfikatory

DOI

10.15199/48.2019.04.04

Warianty tytułu

PL

Warunki stabilności zaworu sterującego hydraulicznym napędem impulsowym maszyn wibracyjnych oraz maszyn poddawanych wibracjom

• Języki publikacji: EN

Abstrakty

EN

The working process and regularities of the functioning of vibrating and vibro-impact machines based on hydroimpulse drive with a singlestage valve pulser are analyzed. The essential characteristics determining the conditions for the excitation and existence of periodic oscillations of the valve-pulser shut-off valve are determined. Using the criterion of A. Hurwitz, based on the differential equation of motion, the existence of undamped periodic oscillations of the valve-pulser shut-off valve is analytically justified.

PL

Przeanalizowano działanie i regularność pracy maszyn wibracyjnych oraz maszyn poddawanych wibracjom opartych na napędzie hydro-impulsowym z jednostopniowym zaworem impulsowym. Określono podstawowe cechy wpływające na warunki wzbudzenia oraz występowania drgań okresowych zaworu impulsowego. Przy zastosowaniu kryterium A. Hurwitza, opartego na równaniu różniczkowym ruchu, istnienie nietłumionych drgań okresowych zaworu impulsowego jest analitycznie uzasadnione.

Słowa kluczowe

EN

stability; oscillation; valve pulser; hydraulic impulse

PL

stabilność; zawór impulsowy; oscylacja; impuls hydrauliczny

• Wydawca: Wydawnictwo SIGMA-NOT
• Czasopismo: Przegląd Elektrotechniczny
• Rocznik: 2019
• Tom: R. 95, nr 4
• Strony: 19--23
• Opis fizyczny: Biblior. 24 poz., rys.

Twórcy

autor

Iskovych-Lototsky Rostislav D.

• Vinnytsia National Technical University, Department of Industrial Engineering, 95 Khmelnytske shose av., 21021, Vinnytsia, Ukraine

autor

Kots Ivan V.

• Vinnytsia National Technical University, Department of Industrial Engineering, 95 Khmelnytske shose av., 21021, Vinnytsia, Ukraine

autor

Ivanchuk Yaroslav V.

• Vinnytsia National Technical University, Department of Industrial Engineering, 95 Khmelnytske shose av., 21021, Vinnytsia, Ukraine

autor

Ivashko Evheniy I.

• Vinnytsia National Technical University, Department of Industrial Engineering, 95 Khmelnytske shose av., 21021, Vinnytsia, Ukraine

autor

Gromaszek Konrad

• Lublin University of Technology, Institute of Electronics and Information Technology, Nadbystrzycka 38A, 20-618 Lublin, Poland

autor

Mussabekova Assel

• Kazakh Academy of Transport & Communication

autor

Kalimoldayev Mashat

• Institute Information and Computational Technologies CS MES RK

Bibliografia

• [1] Iskovych-Lototsky R. D., Ivanchuk Y. V., Vibrating and vibro-impact devices for unloading vehicles, UNIVERSUM, 2012
• [2] Iskovych–Lototsky R. D., Zelinska O. V., Ivanchuk Y. V., Veselovska N. R., Development of the evaluation model of technological parameters of shaping workpieces from powder materials, Eastern–European Journal of Enterprise Technologies. Engineering technological systems, 1 (2017), n.85, 9-17
• [3] Sung-Ho H., Kyung-Woong K., The validity of the Reynolds equation in spool valve analysis considering cavitation, Friction, 4 (2016), n.3, 266-276
• [4] Alessandro D., Modelling and experimental validation of a nonlinear proportional solenoid pressure control valve, International Journal of Fluid Power, 17 (2016), 90-101
• [5] Feng R., Xinhui L., Jinshi C., Ping Z., Boliang L., Qinmeng W., Dynamic Characteristics Analysis of Power Shift Control Valve, Advances in Mechanical Engineering, 6 (2015), 1-7
• [6] Iskovych-Lototsky R. D., Ivanchuk Y. V., Veselovsky Y. P., Simulation of working processes in the pyrolysis plant for waste recycling, Eastern–European Journal of Enterprise Technologies. Energy-saving technologies and equipment, 1 (2016), n.8(79), 1120
• [7] Cheng C., Chen Z., Shi H., Liu Z., Xiong Y., System-Level Coupled Modeling of Piezoelectric Vibration Energy Harvesting Systems by Joint Finite Element and Circuit Analysis, Shock and Vibration, (2016), 1-9
• [8] Deli W., Wei X., Xudong G., Haiqing P., Response analysis of nonlinear vibro-impact system coupled with viscoelastic force under colored noise excitations, International Journal of Non-Linear Mechanics, 86 (2016), 55-65
• [9] Jörg C., Mont K., Pornsak S., Response analysis of nonlinear vibroimpact system coupled with viscoelastic force under colored noise excitations, Chemical Engineering Research and Design, 88 (2010), n.1, 100-108
• [10] Vedmitskyi Y. G., Kukharchuk V. V., Hraniak V. F., New nonsystem physical quantities for vibration monitoring of transient processes at hydropower facilities, integral vibratory accelerations, Przeglad Elektrotechniczny, 93 (2017), nr.3, 69-72
• [11] Kukharchuk V. V., Kazyv S. S., Bykovsky S. A., Discrete wavelet transformation in spectral analysis of vibration processes at hydropower units, Przeglad Elektrotechniczny, 93 (2017), nr.5, 65-68
• [12] Kukharchuk V. V., Hraniak V. F., Vedmitskyi Y. G., Bogachuk V. V., etc., Noncontact method of temperature measurement based on the phenomenon of the luminophor temperature decreasing, Proc. SPIE, 10031 (2016)
• [13] Kukharchuk V. V., Bogachuk V. V., Hraniak V. F., Wójcik W., Suleimenov B., Karnakova G., Method of magneto-elastic control of mechanic rigidity in assemblies of hydropower units, Proc. SPIE, 10445 (2017)
• [14] AllaEl-Marhomya A., Eldin A., Stability analysis of rotor-bearing systems via Routh-Hurwitz criterion, Applied Energy, 77 (2004), n.3, 287-308
• [15] Jacob K., Hurwitz stability of weighted diamond polynomials, Systems & Control Letters, 22 (1994), n.4, 303-312
• [16] Azarov O. D., Dudnyk O. V., Kaduk O. V., Smolarz A., Burlibay A., Method of correcting of the tracking ADC with weight redundancy conversion characteristic, Proc. SPIE, 9816 (2015)
• [17] Azarov O. D., Murashchenko O. G., Chernyak O. I., Smolarz A., Kashaganova G., Method of glitch reduction in DAC with weight redundancy, Proc. SPIE, 9816 (2015)
• [18] Osadchuk V. S., Osadchuk A. V., The magneticreactive effect in transistors for construction transducers of magnetic field, Electronics and Electrical Engineering, Technologija, 3 (2011), n.109, 119-122
• [19] Osadchuk V. S., Osadchuk A. V., The microelectronic transducers of pressure with the frequency, Electronics and Electrical Engineering, Technologija, 5 (2012), n.121, 105-108
• [20] Vasilevskyi O. M., Advanced mathematical model of measuring the starting torque motors, Technical Electrodynamics, 6 (2013), 76-81.
• [21] Pavlov S. V., Kozhemiako V. P., Kolesnik P. F., et al., Physical principles of biomedical optics: monograph, VNTU, 2010
• [22] Vassilenko V., Valtchev S., Teixeira J. P., Pavlov S., Energy harvesting: an interesting topic for education programs in engineering specialities, Internet, Education, Science, 2016
• [23] Vasilevskyi O. M., Yakovlev M. Y., Kulakov P. I., Spectral method to evaluate the uncertainty of dynamic measurements, Technical Electrodynamics, 4 (2017), 72-78
• [24] Voronin A., Ajtchanov B., Partyka J., Aldibekova A., Elemements automatic control of hydrodynamic systems, Informatyka Automatyka Pomiary w Gospodarce i Ochronie Srodowiska, 2 (2013), 35-36.

Uwagi

Opracowanie rekordu w ramach umowy 509/P-DUN/2018 ze środków MNiSW przeznaczonych na działalność upowszechniającą naukę (2019).