SU1106551A1 - Electromechanical exciter of subharmonic oscillations - Google Patents

Abstract

1. Electromechanical exciter of subharmonic oscillations, containing elastically connected active and reactive parts, main and additional electromagnets consisting of two elements - a stator and a core, a source of full-wave voltage and an adjustable source of direct current, connected respectively to the stator of the main and additional electromagnets, the elements of the main electromagnet are fixed on the active and reactive parts, one of the elements of the additional electromagnet is fixed on the active part This is related to the reactive part, characterized in that, in order to increase the stability of subharmonic vibrations at any working amplitudes, the second element of the additional electromagnet is rigidly connected to the reactive part of the exciter. 2. The electromechanical exciter according to claim 1, characterized in that, in order to simplify its construction, the stators of the main and additional electromagnets are made in the form of one H-about-different magneto (L wire attached to the active part so that its branches are symmetric with respect to the active parts. O5 SL SP

Description

The invention relates to a vibration technique and can be used in many sectors of the national economy for exciting mechanical vibrations. An electromagnetic vibrator with an elastic system of helical coil springs and an active mass 1 fixed between them is known. However, this vibrator does not excite subharmonic resonant oscillations. The closest in technical essence to the invention is a pathogen containing an elastically connected reactive and active part, the main and additional electromagnets consisting of two elements — the stator and the core, the elements of the main electromagnet are fixed on the active and reactive parts, one of the elements of the additional electromagnet fixed to the active part, and the other is connected to the reactive one, as well as a one-half-period voltage source and an adjustable DC source, connected respectively to a hundred tori of the main and auxiliary electromagnets 2. The specified electromechanical vibration exciter is designed to accelerate the excitation of subharmonic vibrations of the system by entering it first into the main resonant mode and then instantly changing its active mass and stiffness, with the amplitude of oscillation generated, generating the subharmonic mode. However, the specified input of the vibration exciter in the subharmonic mode leads to an uncontrolled increase in amplitude from .. .... „.,. ,,„ .. “, j.J f-.j -j, -. - relative oscillations of the active and reactive parts, the collision of the core with the stator of the electromagnet during any working purpose of the invention is to increase the stability of subharmonic oscillations. This goal is achieved by the fact that in an electromechanical driver, containing the elastic connected reactive and active parts, there is a main and additional electromagnets consisting of two elements — a stator and a core, a full-wave voltage source and an adjustable DC source, respectively electromagnets, elements of the main electromagnet are fixed on the active and reactive parts, one of the elements of the additional electromagnet is fixed on the active the second part, and the second is associated with the reactive part of the second additional element of the electromagnet is rigidly coupled to the reactive part of the pathogen. The stators of the main and additional electromagnet are made in the form of a single H-shaped magnetic circuit fixed on the active part so that its branches are symmetrical with respect to the active part. FIG. 1 shows a diagram of an electromechanical exciter of subharmonic oscillations; in fig. 2 - diagram of the exciter with the H-shaped stator of the electromagnet. The electromechanical causative agent of subharmonic oscillations contains the main electromagnet consisting of two elements of the stator 1, which is fixed, for example, on the reactive part 2, and the core 3 on the active part 4, which is connected to the reactive part through an elastic system 5, the rigidity of which provides the subharmonic mode of relative oscillations of the active 4 and reactive 2 parts. The natural frequency of the system "active part 2 - elastic system 5 - reactive part 2 has a natural frequency equal to half the frequency of the supply current. At the same time between the active 4 and reactive 2 parts there is an additional electromagnet connected to the direct current source with the regulator 6 of the magnitude of the direct current strength. One of the elements of the additional electromagnet, for example, the stator 7, is fixed on the active part 3, and the measles 8 is rigidly connected to the reactive part 2. The main electromagnet 1 is powered by a full-wave rectifying device 9 (Fig. 1). In another embodiment (Fig. 2), the stators of the main worker 1 and an additional 7 electromagnets are made in the form of one U-shaped stator 10 mounted on the active part 4. The vibration exciter works as follows. When the main working electromagnet with the stator 1 and the core 3 is turned on through a half-wave rectifier device 9, for example a semiconductor diode, the measles 3 periodically attracts the stator 1, and the relative oscillations of the active 4 and reactive 2 parts of the system are excited. In view of the fact that the rigidity of the elastic system provides a natural oscillation of the system with a frequency nj equal to half the frequency of the power supply current, the system active part 4 - elastic element 5 - reactive part 2 excites subharmonic oscillations with frequency U; Shyoeb f. To ensure a smooth adjustment of the amplitude of oscillations of this system, an additional permanent magnet with a stator 7 and a cortex 8 is put into operation, fed by the regulator 6 (for example, a rheostat) of the magnitude of the direct current. This creates a permanently controlled attractive force between the stator 7 and the core 8, i.e. an additional permanent electromagnet creates a constant, adjustable in magnitude force opposing the attractive force of the main electromagnet.

Thus, regulator 6 sets the required amplitude of oscillations of the exciter, changing the amount of direct current supplying the additional electromagnet.

The operation of the system in FIG. 2 is similar.

Providing a smooth adjustment of the amplitude of oscillations of subharmonic pathogens and the possibility of their remote control allows the most efficient use of the vibration excited by subharmonic pathogens during various technological operations in various sectors of the national economy.

The application of the invention allows to extend the useful use of subharmonic vibration machines.

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Claims (2)

1. ELECTROMECHANICAL SUBSTANCE OF SUBHARMONIC OSCILLATIONS, which contains elastically connected active and reactive parts, the main and additional electromagnets, consisting of two elements - a stator and an armature, a half-wave voltage source and an adjustable constant current source, connected respectively to the stators of the main and additional electromagnets, the elements of the main electromagnet are fixed to active and reactive parts, one of the elements of the additional electromagnet is fixed on the active part, and the other is connected with the react the other part, characterized in that, in order to increase the stability of subharmonic oscillations at any working amplitudes, the second element of the additional electromagnet is rigidly connected with the reactive part of the pathogen. 2. Electromechanical pathogen according to π. 1, characterized in that, in order to simplify its design, the stators of the main and additional electromagnets are performed in the form of one H-shaped magnetic circuit fixed to the active part so that its branches are symmetrical with respect to the active part. SU. „, 1106551 Figure 1