SU1755924A1 - Vibratory tray - Google Patents

Description

It is designed so that the natural frequency of the core coincides with the natural frequency of the bottom 2 of the groove 1, /

Works vibrating jet chute as follows.

When an alternating current is applied to the coil 5 of the electromagnet for the first half period, the magnetic flux is closed through the magnetic conductor 6 and an attractive force occurs between the upper and lower parts of the core 4, resulting in deformation of the core 4, i.e. bend. When the current in coil 5 changes its direction, i.e. equal to zero, between the upper and lower parts of the core 4 there is a repulsive force due to the elastic properties of the core. During the second half period, when the magnetic flux in the core 4 changes its direction, an attractive force acts again between the upper and lower parts of the core. Thus, an oscillation of the core 4 occurs. In this case, when the natural frequency of the oscillations of the core 4 coincides with the frequency of the alternating current oscillations in the coil 5 in the core 4, resonant oscillations occur. In the process of oscillation of the core 4, oscillation of the bottom 2 of the groove 1 occurs. Since the tension of the core 4 and the frequency of the current are chosen so that the frequency of natural oscillations of the core 4 coincides with the frequency of natural oscillations of the bottom 2 of the groove 1, then the bottom 2 of the groove 1 oscillates with such the frequency at which the resonance effect occurs. The bottom 2 of the groove 1 is magnetized along the groove a with alternating polarity of the magnetic poles, therefore, in addition to resonant oscillations, a wave deformation of the working surface of the bottom 2 arises, as well as the bottom 2, for example, with the southern plate during the first half-cycle of the current on the coil 5 repel from the core 4, and with the north polarity they are attracted to the core 4. During the second half period of the current on the coil 5, the bottom sections 2 with the south polarity are attracted to the core 4, and with the north polarity are repelled. As a result

the occurrence of the effect of resonating die 2 of chute 1 and its wave-like deformation inside the pulp flowing along the gas supply line / yunnaya plane, the separation of the particles of the material from the bottom 2 of the chute, i.e. the state of vibropenia occurs, at which effective segregation of particles occurs. As a result, smaller, denser particles of beneficial minerals remain

and the lower layers of the pulp and are cut off using known devices (not shown in Figs. 1, 2) when the pulp stream leaves the narrow part of the groove 1.

The design of the gutter allows to reduce

energy intensity and metal intensity due to the fact that the vibration is transmitted directly to the bottom of the chute. At the same time, due to the intensive vibration effect, the efficiency of the enrichment process is increased.

The implementation of the claimed technical solution at the Verkhnedneprovsk Mining and Metallurgical Combine will increase the efficiency of the classification process by at least 5%. Economic efficiency

at the same time will be not less than 100 thousand rubles per year.

Claims (1)

Vibration chute, including inclined tapering chute, pulp flow distributor and vibration exciter, characterized in that decrease in power consumption, metal intensity and increasing the efficiency of enrichment the vibration exciter is made in the form of an electromagnet with a core in the form of a closed loop with two sides parallel to the bottom of the groove, with one gap between it and the other, installed under the bottom of the chute. a magnetic conductor is installed, the bottom of the groove and the core of the electromagnet are made of elastic material and installed with preliminary tension, the core is made of magnetically soft material, and the bottom of the groove is made of magnetic solid with polarity of magnetic poles alternating along the axis of the groove J-Fiu .2