Methodology for Designing Vibration Devices with Asymmetric Oscillations and a Given Value of the Asymmetry of the Driving Force
In mechanical engineering, the building industry, and many other branches of industry, vibration machines are widely used, in which circular and directed oscillations predominate in the form of movement of the working equipment. This article examines methods for generating asymmetric oscillations, w...
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MDPI AG
2025-01-01
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| Series: | Vibration |
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| Online Access: | https://www.mdpi.com/2571-631X/8/1/3 |
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| author | Mihail D. Gerasimov Nickolai S. Lubimyi Andrey A. Polshin Boris S. Chetverikov Anastasia Chetverikova |
| author_facet | Mihail D. Gerasimov Nickolai S. Lubimyi Andrey A. Polshin Boris S. Chetverikov Anastasia Chetverikova |
| author_sort | Mihail D. Gerasimov |
| collection | DOAJ |
| description | In mechanical engineering, the building industry, and many other branches of industry, vibration machines are widely used, in which circular and directed oscillations predominate in the form of movement of the working equipment. This article examines methods for generating asymmetric oscillations, which are estimated by a numerical parameter, namely by the coefficient of asymmetry of the magnitude of the driving force when changing the direction of action in a directed motion within each period of oscillations. It is shown that for generating asymmetric mechanical vibrations, vibration devices are used, consisting of vibrators of directed vibrations, called stages. These stages form the total asymmetric driving force. The behavior of the total driving force of asymmetric vibrations and the working equipment of the vibration machine are described by analytical equations, which represent certain laws of motion of the mechanical system. This article presents a numerical analysis of methods for obtaining laws of motion for a two-stage, three-stage, and four-stage vibration device with asymmetric oscillations. An analysis of the methodology for obtaining a generalized law of motion for a vibration device with asymmetric oscillations is performed based on the application of polyharmonic oscillation synthesis methods. It is shown that the method of forming the total driving force of a vibration device based on the coefficients of the terms of the Fourier series has limited capabilities. This article develops, substantiates, and presents a generalized method for calculating and designing a vibration device with asymmetric oscillations by the value of the total driving force and a given value of the asymmetry coefficient in a wide range of rational designs of vibration machines. The proposed method is accompanied by a numerical example for a vibration device with an asymmetry coefficient of the total driving force equal to 10. |
| format | Article |
| id | doaj-art-a336d20d4b7d49ffbf5b020acfff5199 |
| institution | OA Journals |
| issn | 2571-631X |
| language | English |
| publishDate | 2025-01-01 |
| publisher | MDPI AG |
| record_format | Article |
| series | Vibration |
| spelling | doaj-art-a336d20d4b7d49ffbf5b020acfff51992025-08-20T01:50:02ZengMDPI AGVibration2571-631X2025-01-0181310.3390/vibration8010003Methodology for Designing Vibration Devices with Asymmetric Oscillations and a Given Value of the Asymmetry of the Driving ForceMihail D. Gerasimov0Nickolai S. Lubimyi1Andrey A. Polshin2Boris S. Chetverikov3Anastasia Chetverikova4Department of Hoisting-and-Transport and Road Machines, Belgorod State Technological University named after V.G. Shukhova, st. Kostyukov 46, 308012 Belgorod, RussiaDepartment of Hoisting-and-Transport and Road Machines, Belgorod State Technological University named after V.G. Shukhova, st. Kostyukov 46, 308012 Belgorod, RussiaDepartment of Hoisting-and-Transport and Road Machines, Belgorod State Technological University named after V.G. Shukhova, st. Kostyukov 46, 308012 Belgorod, RussiaDepartment of Hoisting-and-Transport and Road Machines, Belgorod State Technological University named after V.G. Shukhova, st. Kostyukov 46, 308012 Belgorod, RussiaFaculty of Foreign Languages, Institute of Pedagogy, The National Research University—Belgorod State University, st. Pobeda, 85, 308015 Belgorod, RussiaIn mechanical engineering, the building industry, and many other branches of industry, vibration machines are widely used, in which circular and directed oscillations predominate in the form of movement of the working equipment. This article examines methods for generating asymmetric oscillations, which are estimated by a numerical parameter, namely by the coefficient of asymmetry of the magnitude of the driving force when changing the direction of action in a directed motion within each period of oscillations. It is shown that for generating asymmetric mechanical vibrations, vibration devices are used, consisting of vibrators of directed vibrations, called stages. These stages form the total asymmetric driving force. The behavior of the total driving force of asymmetric vibrations and the working equipment of the vibration machine are described by analytical equations, which represent certain laws of motion of the mechanical system. This article presents a numerical analysis of methods for obtaining laws of motion for a two-stage, three-stage, and four-stage vibration device with asymmetric oscillations. An analysis of the methodology for obtaining a generalized law of motion for a vibration device with asymmetric oscillations is performed based on the application of polyharmonic oscillation synthesis methods. It is shown that the method of forming the total driving force of a vibration device based on the coefficients of the terms of the Fourier series has limited capabilities. This article develops, substantiates, and presents a generalized method for calculating and designing a vibration device with asymmetric oscillations by the value of the total driving force and a given value of the asymmetry coefficient in a wide range of rational designs of vibration machines. The proposed method is accompanied by a numerical example for a vibration device with an asymmetry coefficient of the total driving force equal to 10.https://www.mdpi.com/2571-631X/8/1/3vibration machinesvibration deviceasymmetric vibrationsdriving forcesummation of vibrationsasymmetry coefficient of the driving force |
| spellingShingle | Mihail D. Gerasimov Nickolai S. Lubimyi Andrey A. Polshin Boris S. Chetverikov Anastasia Chetverikova Methodology for Designing Vibration Devices with Asymmetric Oscillations and a Given Value of the Asymmetry of the Driving Force Vibration vibration machines vibration device asymmetric vibrations driving force summation of vibrations asymmetry coefficient of the driving force |
| title | Methodology for Designing Vibration Devices with Asymmetric Oscillations and a Given Value of the Asymmetry of the Driving Force |
| title_full | Methodology for Designing Vibration Devices with Asymmetric Oscillations and a Given Value of the Asymmetry of the Driving Force |
| title_fullStr | Methodology for Designing Vibration Devices with Asymmetric Oscillations and a Given Value of the Asymmetry of the Driving Force |
| title_full_unstemmed | Methodology for Designing Vibration Devices with Asymmetric Oscillations and a Given Value of the Asymmetry of the Driving Force |
| title_short | Methodology for Designing Vibration Devices with Asymmetric Oscillations and a Given Value of the Asymmetry of the Driving Force |
| title_sort | methodology for designing vibration devices with asymmetric oscillations and a given value of the asymmetry of the driving force |
| topic | vibration machines vibration device asymmetric vibrations driving force summation of vibrations asymmetry coefficient of the driving force |
| url | https://www.mdpi.com/2571-631X/8/1/3 |
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