SU889139A1 - Vibrator - Google Patents

Description

(54) VIBRATOR

Claims (2)

This invention relates to technical acoustics and can be used by mechanical engineering to produce mechanical vibrations and create pulsating loads. Known vibrators comprising a housing c. motor, an oscillating element associated with the body by a spring, and a vibration exciter, made in the form of two coaxial surfaces rotating with respect to each other with permanent magnets. With such vibrators, a continuous pulsating load on the working bodies is created due to the vibrating element being preliminarily resiliently pressed against them. But the presence of a link with a spring in the vibrators in the oscillating system increases the inertia of the oscillating system, which, coupled with the constant rigidity of the spring, negatively affects some technological processes. In addition, such vibrators do not allow to regulate the amplitude of oscillations, and the frequency of their oscillations, equal to the number of revolutions of the engine per second, is small. Since the main exciters of oscillations are tangentsial interaction forces of permanent magnets, which are much smaller than normal forces (attraction and repulsion of magnets, therefore, the efficiency of vibrators is relatively low. The closest technical solution to the invention is a vibrator containing a vibrating an element and a causative agent of oscillations with permanent magnets 23 fixed on their flanges around the circumferences. However, this vibrator also has an oscillatory system of increased inertia due to The presence of the rod of the rod does not provide for the regulation of the amplitudes of the oscillations. The aim of the invention is to improve the dynamic characteristics of the vibrator and to control the amplitude of the oscillations. The goal is achieved by the fact that the magnets are mounted at different levels in height and attached to the flanges of the same poles. One of the flanges is made of composite parts with the ability to move them relative to each other in the direction of the normal interaction forces of the magnet. Neighboring magnets are mounted on different parts on the integral flange. FIG. 1 Image showing the inside of the list; figure 2 is a view of the poles of the magnetic system of the oscillating exciter. The vibrator consists of a housing 1 in which a vibrating element 2 and a vibration exciter are located, including an axis 3 with a flange having evenly spaced radial grooves in which the movable flag 4 is placed, as well as including a thrust bearing 5 and a nut 6. On the flanges of a vibrating the element and the vibration exciter are fixed uniformly, along the ring of permanent magnets forming two two-magnetic systems 7 and 8. The magnets in the systems are located by the same poles to the flanges through one at different levels, in height, in the form of protrusions and hollows, and the oscillation exciter magnets are fixed through one on different flanges (basement and stationary}. Each system contains the same even number of magnets. The axis of the excitation exciter is kinematically connected to the shaft of the electric motor (not shown. The vibrator works as follows. Under the action of the device's actuator, with which the vibrator is used, the vibrating element 2 is displaced to the exciter exciter. When the exciter is rotated, the magnetic systems 7 and 8 alternately oppose either projections to the protrusions and as a result of measuring the gap between magnetic systems, the force interacting with them changes: at the moment of opposition of the protrusions to the projections, it is maximum, and if they are not equal, the vibrating element or a continuous pulsating load on the working body. The frequency of vibration of the vibrator is equal to the number of revolutions of the oscillation exciter per second multiplied by the halved number of magnets in the system. The oscillation range of the vibrator is adjusted with a nut. 6 by moving the mobile fdan 4 with the magnets. Due to the fact that the resistors of the vibrating element are the magnets themselves, the inertia of the oscillating system is reduced and, consequently, the dynamic characteristics of the vibrator are improved. The arrangement of the magnets at different heights also contributes to this, which makes it possible to obtain different levels of oscillations at different frequencies in this device. The adjustment of these levels is ensured by making one of the flanges composite. Claim 1. Vibrator containing a vibrating element and a rotating vibration exciter with permanent magnets fixed on their flanges around the circumference, characterized in that, in order to improve the dynamic characteristics and control the amplitude of oscillations, the magnets are installed at different levels in height and attached to the flanges of the same poles. 2. The vibrator in accordance with claim 1, also with the fact that at least one of the flanges is made of separate parts with the possibility of moving them relative to each other in the direction of the normal forces of interaction of the magnets. 3. The vibrator according to claim 1 and 2.0 tonnes of liter and the fact that the adjacent magnets on the composite flange are fixed to different parts. Sources of information taken into account during the examination 1. USSR author's certificate No. 291412, cl. In About In 1/04, 1969. 2. Authors certificate of the USSR 626834, cl. B 06 B 1/04, 1976.