SU1661095A1 - Vibrating feeder - Google Patents

Abstract

The invention relates to vibration technology, namely, vibration feeders and conveyors with electromagnetic drives, and can be used in various industries of the national economy. The goal is to increase the performance of the feeder when changing the dynamic parameters of the oscillating system. The vibrating feeder contains a working body 1 mounted on base 2 on elastic elements (ue) 3. On the working body 1 also on the ue 4 there is a moving part 5 of the electromagnetic vibration exciter with a fire. On the movable part 5, additional weight 13 is established by means of additional ue 13. The stiffness of ue 12 in the axial direction, which coincides with the line of action of the perturbing force of the vibration exciter, is substantially less than the rigidity in the radial direction. The amplitude-frequency characteristic of the vibrating feeder in the region of resonance has a significant horizontal section, which indicates the stability of the amplitude of oscillations when changing the dynamic parameters of the oscillating system. This improves the performance of the feeder. 3 il.

Description

The invention relates to vibration technology, namely, vibration feeders and conveyors with electromagnetic drives, and can be used in various industries of the national economy.

The aim of the invention is to improve the performance of the feeder when changing the dynamic parameters of the curing system. 1 shows schematically a vibratory feeder, a general view; FIG. 2 is a structural diagram of an electromagnetic vibration exciter with integrated additional mass; in fig. 3 - amplitude-frequency characteristics of the vibration feeder.

Vibrating feeder contains the working body 1, mounted on the base 2 on the elastic elements 3. On the working body 1 on the elastic elements 4 is fixed

the movable part 5 of the electromagnetic vibration exciter, which includes 6. The elastic elements 3 can be made in the form of annular membranes, a part of the electromagnetic vibration exciter rigidly fixed on the working body 1 enters the housing 7, the working windings 6, the windings 9

bias laid in the grooves of cores 10 and 11. On the moving part 5 of the vibration exciter using ring elastic elements 12, the rigidity of which in the axial direction is significantly less than the rigidity in the radial direction, an additional mass 13 is installed.

angle to the axis of the working body.

Vibrating feeder works as follows.

In the presence of direct current in the windings 9 bias and the absence of alternating current in the windings 8, the cores 10 and 11 and the common core b are magnetized, resulting in magnetic fluxes in the magnetic conductors and air gaps with equal inductances. In this case, the movable part 5 with the bark 6 from the side of the magnetic cores 10 and 11

equal and opposite forces act, resulting in measles 6 being in equilibrium. When connected to the working windings 8

an alternating current source, the magnetic flux formed by the alternating current, at each time instant, is added to a constant magnetic flux in one magnetic core and subtracted in another.

This leads to the appearance of the resulting Ram force. acting on measles 6. In the absence of additional mass 13 in the feeder design, the amplitude-frequency characteristic has a sharp peak in the region

resonance (curve 1 in FIG. 3). In the presence of additional mass 13, the amplitude-frequency characteristic (curve 2, Fig. 3) in the resonance region has a significant horizontal section, as a result of which

the amplitude of the oscillations in the resonance region is stabilized. To reach the initial value of the amplitude of oscillations, it is necessary to slightly increase the amount of current (curve 3, fig. 3). The magnitude of the additional mass is approximately 5% of the mass of the movable part 5. Stabilizing the amplitude of oscillations contributes to an increase in the performance of the feeder.

Claims (1)

Invention Formula A vibrating feeder containing a working body mounted on a base on shock absorbers, tori, with a movable part of an electromagnetic vibration exciter fixed to it on elastic elements, whose line of action of the disturbing force is angled to the axis of the working body, characterized in that in order to improve the performance of the feeder when changing the dynamic parameters of the oscillatory system, it is provided with additional mass fixed on the moving part of the electromagnetic airborne through additional elastic elements, while their rigidity along the line of action of the disturbing force of the vibration exciter is less than their rigidity in the direction perpendicular to this line. at 6 h t Fig 3 S / S