The monoreactive multibody floating-frequency oscillator

Igor P. Popov; Попов Игорь Павлович

doi:10.17816/2074-0530-585185

The monoreactive multibody floating-frequency oscillator

作者: Popov I.P.¹
隶属关系:
1. Kurgan State University
期: 卷 18, 编号 1 (2024)
页面: 75-81
栏目: Heat engines
URL: https://ogarev-online.ru/2074-0530/article/view/256848
DOI: https://doi.org/10.17816/2074-0530-585185
ID: 256848

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BACKGROUND: The study is related to the machine science field and to oscillating mechanical systems in particular. The study relevance is explained with the fact that oscillations of inertial masses can be found all-around.

AIM: Development of the mathematical model of the monoreactive multibody floating-frequency oscillator.

METHODS: It is proved that points x₁, x₂, …., x_n, which are coordinates of the end of the random vector R in the coordinate system 0x_z₁, 0x_z₂, …., 0x_z_n, are vertexes of a regular polygon. Shape and size of the polygon are not related to coordinates of the vector R, so they are constant. The center of the regular polygon always coincides with the middle of the vector R. In the considered (idealized) case, the polygon with the oscillating bodies with the mass m located at vertexes belongs to the plane Z. In technical applications, bodies should not impede motion of each other, so each body should have an own plane, and all planes should be in parallel (alike the multipiston mechanism).

RESULTS: The condition of occurrence of natural harmonic oscillations is equal-zero full energy of the system, which is exclusively kinematic in the considered case and which ensures monoreactive behavior of the oscillator. In the considered multidimensional planar monoreactive oscillator, free harmonic oscillations of bodies can occur.

CONCLUSIONS: Only kinetic energy takes part in energy exchange. There is no necessity in spring elements. The oscillator does not have fixed value of natural oscillation frequency. The frequency depends on initial velocities and location of bodies. The regular polygon x₁, x₂, …., x_n executes double rotation: around the point 0 and around the point r. Meanwhile, bodies execute linear harmonic oscillations with the amplitude of R. Use of either a slider-crank mechanism or a rod-crank mechanism helps to make bodies move in parallel. The obtained results can be used in development and study of mechanisms executing reciprocating motion in piston engines, in mechatronics and robotic systems, in hydraulic machines, vacuum and compressor machinery, in hydraulic and pneumatic systems, in on-ground transport and technological means and facilities.

关键词

polygon, oscillating body, free oscillations, monoreactive system, frequency

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作者简介

Igor Popov

Kurgan State University

编辑信件的主要联系方式.
Email: uralakademia@kurganstalmost.ru
ORCID iD: 0000-0001-8683-0387
SPIN 代码: 9668-2780

Cand. Sci. (Engineering.), Associate Professor of the Technology of Mechanical Engineering, Machine Tools and Instruments Department

俄罗斯联邦, 63/4 Sovetskaya street, 640020 Kurgan

参考

Popov IP. Monoreactive harmonic oscillator. Trudy MAI. 2022;126. (In Russ). doi: 10.34759/trd-2022-126-01
Popov IP. Free sinusoidal oscillations based on the mutual exchange of kinetic energy between three loads. Trudy MAI. 2023;129. (In Russ). doi: 10.34759/trd-2023-129-02
Popov IP. Free harmonic oscillations without the use of potential energy. Oboronnyy kompleks — nauchno-tekhnicheskomu progressu Rossii. 2022;4(156):9–12. (In Russ). doi: 10.52190/1729-6552_2022_4_9
Popov IP. Application of the Symbolic (Complex) Method to Study Near-Resonance Phenomena. Journal of Machinery Manufacture and Reliability. 2020;49(12):1053–1063. (In Russ). doi: 10.3103/S1052618820120122
Popov IP. Symbolic representation of forced vibrations of branched mechanical systems. Vestnik Tomskogo gosudarstvennogo universiteta. Matematika i mekhanika. 2021;72:118–130. (In Russ). doi: 10.17223/19988621/72/10
Popov IP. Sources of harmonic force and velocity in mechatronic automatic systems. Mekhatronika, avtomatizatsiya, upravlenie. 2021;22(4):208–216. (In Russ). doi: 10.17587/mau.22.208-216
Popov IP. Application of the symbolic (complex) method for calculating complex mechanical systems under harmonic influences. Prikladnaya fizika i matematika. 2019;4:14–24. (In Russ). doi: 10.25791/pfim.04.2019.828
Popov IP. Towing devices of a multi-link vehicle. Izvestiya MGTU MAMI. 2023;17(1):35–42. (In Russ). doi: 10.17816/2074-0530-321254
Popov IP. Varieties of Mechanical Powers. Journal of Machinery Manufacture and Reliability. 2022;51(8):746–750. doi: 10.3103/S1052618822080155
Popov IP. Components of mechanical power under harmonic influences. Fundamentalnye i prikladnye problemy tekhniki i tekhnologii. 2022;1(351):9–14. (In Russ). doi: 10.33979/2073-7408-2022-351-1-9-14

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2. Fig. 1. The multidimensional planar monoreactive oscillator.

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