RU2629227C2 - Method of solid materials crush by a vibration gyratory-cone crusher - Google Patents

Abstract

FIELD: mining.

SUBSTANCE: speed of the unbalanced vibrators installed on the outer cone with the possibility of smooth speed control is set to the corresponding male cone oscillation minimum amplitude of the vibration gyratory-cone crusher including the inner cone mounted by elastic suspension on an outer cone mounted by elastic suspension on a stationary base.

EFFECT: increased crushing performance.

2 dwg

Description

The invention relates to the processing of ore, can be used in the production of building materials, in the mining industry, etc.

Devices for crushing and grinding solid materials have long been known. Among their various types, there is a large group of vibratory, in particular cone, crushers. Distinctive features of these mechanisms is the presence of an external and internal cone connected by springs to each other and to a fixed base. The material intended for grinding is loaded between cones driven into oscillatory motion by inertial vibrators [1].

The designs of inertial cone crushers differ in shape, size, weight, arrangement and execution of elements, productivity and power consumption. In particular, one of the options involves installing an external cone on a spring suspension attached to a fixed base, and an internal one on springs attached to an external cone. Such a layout was chosen as a prototype [2].

The objective of the invention was to find ways to improve the efficiency of the cone inertial crusher, the device of which is shown in FIG. 1. On a fixed base 1, springs 2 are installed that support the external cone 3. The internal cone 4 hangs on the springs connected to the external cone 5. The vibrations are excited by unbalanced vibrators installed on the external cone 3. At the same time, the speed of the vibrators 6 can be continuously adjusted.

The solution to this problem was found during tests of the crusher in a wide frequency range, the average values of which correspond to the resonance of mutual oscillations of the external and internal cones.

It was found out that the maximum crusher productivity is achieved at the minimum amplitude of the oscillations of the outer cone, which, as was found, corresponds to the acceleration of the oscillations of the inner cone to maximum values, i.e. achieving resonance. Thus, the observed effect is an unexpected consequence of the combination of a large amplitude of oscillations of the inner cone with an almost complete stop of the outer cone.

The experiments were carried out on a standard VKD-100 cone crusher, modified by a unit for smoothly changing the speed of the vibrators, the current values of which were measured with an ATT-6000 phototachometer. The oscillation amplitudes of the outer and inner cones were measured with an SD-12m vibration analyzer with an AP-28i acceleration piezoelectric sensor.

The white alumina grade 25A was used as crushed material.

The results are presented in the graphs shown in FIG. 2. Lines A ₁ and A ₂ show the dependences of the oscillation amplitudes of the external and internal cones, respectively, on the rotation frequency of unbalanced vibrators, counted from the bottom on a horizontal scale. The amplitude scale in mm is given on the vertical scale on the left. It is clearly seen that at the resonance point (f ₀ = 1270 rpm), the amplitude of the oscillations of the outer cone (A ₁ ) takes a minimum value, and the amplitude of the oscillations of the inner cone (A ₂ ) becomes maximum and even goes beyond the picture.

To assess the technical result of using the crusher, the dependence of the specific productivity Q, in kg / h, the scale of which is given on the vertical scale on the right, on the speed of unbalanced vibrators, is also given here. It is clearly seen that this curve has a complex form, acquiring maximum values at the resonance point (f ₀ ). This frequency has been selected as the operating frequency. Obviously, in comparison with the usual mode of using vibratory cone crushers in the frequency domain significantly higher than resonance, the object of the invention allows to obtain a significant gain in specific productivity. In this case, tuning to the resonance is made by simply minimizing the amplitude of the oscillations of the outer cone.

The technical result of the invention is to increase the productivity of crushing.

Information sources

1. USSR Copyright Certificate No. 627859, dated 16/08/1976.

2. USSR author's certificate No. 573188, dated December 29, 1975.

Claims (1)

A method of crushing solid materials using a vibratory cone crusher, including an inner cone mounted by means of an elastic suspension on an external cone mounted by means of an elastic suspension on a fixed base, unbalanced vibrators mounted on an external cone and having the ability to smoothly control the rotation speed, which is set to the corresponding minimum amplitude vibrations of the outer cone.

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