RU2537103C2 - Vibration unit - Google Patents

Abstract

FIELD: machine building.

SUBSTANCE: invention relates to vibration equipment, namely to vibration generation devices. A device includes a shaft, the main end-type rotor, an unbalanced rotor, a base, jackets of guides, a spring-loaded platform, elastic elements and a rotor drive. The rotor drive is made in the form of an end-type stator.

EFFECT: enlargement of a dynamic range of vibrations to a low frequency range.

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Description

The invention relates to vibration technology, namely to a fundamentally new drive of vibration machines using the principles of orbital electromagnetic systems.

Known drives of vibrating machines, including electro-hydraulic, described in the book [V. Baranov - Electro-hydraulic servo drives of vibrating machines. Engineering, 1988 - 264 p. silt. ISBN 5-217-00161-5]. In this source, the main emphasis is placed on the problems of hydrodynamics of oscillatory systems, a theory and a method for calculating the created and experimentally investigated two-channel electro-hydraulic follow-up drive of a vibrating machine are developed. However, it is known that the use of a purely electric drive with unbalanced rotors is most effective.

Of all the known analogues, the closest to the claimed combination of essential features are vibrational units with unbalanced rotors, described, for example, in the article [Epishkin A.E., Shestakov V.M. - Interconnected electromechanical systems of four-rotor vibration units - ELECTRICITY No. 2/2011, p. 64-68]. Thus, the vibration installation includes a shaft, a main rotor, an unbalanced rotor, a base, a guide and an elastic element, a platform and a rotor drive.

Its disadvantage is the increased mass of the sprung part of the installation, which narrows the range of generated vibrations.

The technical result is achieved by reducing the mass of the sprung part, due to the transfer of the rotor drive to a fixed base.

The achievement of the technical result is ensured due to the fact that the vibrating installation comprising a shaft, a main end rotor, an unbalanced rotor, a base, guides clips, a spring-loaded platform, elastic elements and a rotor drive, according to the invention, the rotor drive is made in the form of an end stator.

The invention is illustrated by drawings, where figure 1 shows the inventive installation, side view, figure 2 is a top view, figure 3 is a view of the end rotor, figure 4 is a view of the end stator, figure 5 conditionally shows the interaction zone of the end stator and the end rotor at two positions of the end rotor.

The vibration installation includes a base 1, guides 2, an unbalanced rotor 3, a holder of guides 4, a shaft 5, a spring-loaded platform 6, elastic elements 7, an end rotor 8, an end stator 9, a stator base 10. The end rotor contains: ferromagnetic sectors 11, conductors 12 , external 13 and internal 14 current-limiting sections, the landing section 15 of the shaft 5. The end stator contains: sector magnetic cores 16 and sector coils 17. Figure 5 conventionally shows the area of the lower left 18 and upper right 19 positions of the end rotor.

The operation of the device: when the end stator is connected to the network, a circular rotating field is created in it, which, through the air gap, interacting with the end rotor 8, induces induction currents in it, which interact with the end stator field. This leads to a moment on the rotor 8, shaft 5, which causes the rotation of the unbalanced rotor 3 and, accordingly, the vibration that is transmitted to the spring-loaded platform 6. The possible displacement of the magnetic circuits 11 of the end rotor relative to the magnetic circuits 16 of the end stator is compensated by the optimal combination of the parameters of the end rotor and the end stator, such that they provide a one-sided application of torque when displacing the end rotor. For example, for position 19, this is characterized by the interaction of the upper right sectors, and the interaction of the lower left will be weakened, for position 18, on the contrary, the main interaction is provided by the lower left sectors, and the interaction of the upper right sectors will be weakened.

The technical and economic advantage of this installation is the reduced mass of the sprung part, which expands the dynamic range of vibrations in the low-frequency region.

Claims (1)

A vibration installation comprising a shaft, a main end rotor, an unbalanced rotor, a base, guides clips, a spring-loaded platform, elastic elements and a rotor drive, characterized in that the rotor drive is made in the form of an end stator.

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