SU1144946A1 - Vibrating bin - Google Patents

Description

The invention relates to a hoisting and transport machinery, in particular, to vibration hoppers and vibratory feeders, and can be used in various industries of the national economy.

Vibration feeders are known, consisting of a working body with a spiral tray, installed by means of elastic elements on the base and vibration drive 1.

The closest to the invention is a vibrating hopper containing a working body mounted on a base through inclined elastic elements with a spiral tray and an actuator including an electromagnet, measles and an electric circuit supplying an electromagnet with a pulsating current depending on the position of the core 2.

A disadvantage of the known constructions is a relatively low productivity, since the working member with a working condition has harmonic oscillations in operation, while asymmetric oscillations are most optimal from the point of view of productivity.

The purpose of the invention is to increase productivity due to the asymmetric law of oscillations of the working body.

This goal is achieved by the fact that in a Bibrobunker containing a working body mounted on a base through inclined elastic elements with a spiral tray and a drive including an electromagnet, measles and an electric circuit of the electromagnet with a pulsating current depending on the position of the core, the working body and base are fitted with stops installed with the ability to interact with each other.

FIG. 1 shows a vibrating hopper, a slit; in fig. 2 is a power supply circuit of an electromagnet with a pulsating current.

The vibratory bunker consists of a working body 1 with a spiral tray mounted on the base 2 by inclined elastic elements 3. Base 2 is fixed to an electromagnet consisting of radially arranged W-shaped sections 4 with two ring windings 5. The electromagnet is enclosed with b blocks that are mounted relative to the poles of an electromagnet with an offset in the direction opposite to transportation. On the base 2 and the working organ I, stops 7 and 8 are fixed, interoperable and serving for the preliminary deformation of the elastic elements 3. The electromagnet 4 is controlled by a directional switch 9 mounted on the base 2 and the flap 10 mounted on the working organ 1 The circuit-breaker circuit 9 consists of an illuminator 11, a photodiode 12, an element 13 constructed on the basis of a two-stage DC amplifier with positive feedback, a resistor 14, a potentiometer 15, and an output amplifier 16.

When the vibrating hopper is turned on, direct current is applied to the windings 5 of the electromagnet. The anchors 6 tend to stand up against the poles of the electromagnet, and the working body 1 is rotated rapidly, deforming and further elastic elements 3. Connected with the working body 1 valve 10 in the process

rotation overlaps the luminous flux of the illuminator 11 and acts on the photodiode 12. The signal from the photodiode 12 is fed to the input element 13, which serves to convert a smoothly changing signal from the photodiode to a discrete output signal of a set level. The tripping voltage is regulated by a resistor 14. Next, the signal goes to the output amplifier 16, which de-energizes the windings 5 of the electromagnet. The operating member 1 continues to move by inertia, stops and moves under the action of the elastic elements 3 in an accelerated manner in the opposite direction. The valve 10 opens the luminous flux and turns on the photodiode 12, the voltage is again applied to the windings 5 of the electromagnet and under

by its action with the resistance of the elastic elements 3, the working body 1 moves slowly and, not reaching the stop 8 against the stop 7, stops and starts moving in the opposite direction. The cycle is repeated.

The amplitude of the oscillations is constantly reduced, eliminating the impact of the stops 7 and 8 until the oscillation process becomes steady. In addition, the amplitude of oscillations in an established asymmetric mode, because the elastic elements are pre-deformed;

Due to the asymmetry of the oscillations of the working body, the productivity of the vibro-bunkerase is increased due to the preliminary deformation (twisting) of the elastic elements.

Claims (1)

(54X57) VIBROBUNKER, comprising a working element mounted on the base through inclined elastic elements with a spiral tray and a drive including an electromagnet, an armature and an electric circuit supplying an electromagnet with a pulsating current depending on the position of the armature, characterized in that, in order to increase productivity due to the asymmetric the law of oscillations of the working body, the working body and the base are equipped with stops established with the possibility of interaction between each other. FIG. 1