SU1720756A1 - Vibratory separator - Google Patents

Abstract

The invention relates to a laboratory-type technique for the separation of bulk materials, mixtures with different physicomechanical properties of components, and used, for example, to process asbestos ore samples. The goal is to increase the separation efficiency. The separator includes a conical working position 2 8 F (RP) 2 with a stem 3 in the center under its bottom, a loading device 4 is installed above it. Receivers of separation products 5 and 6 are installed at the descent of RP 2, and frame 1 is equipped with a vibration exciter. The latter is made in the form of a curved guide (KN) 7 and a shaft (B) 9 with a groove 10 at the upper end and a bearing 11 at the lower end. The lower end of the B 9 is mounted for movement in the CH 7, which is fixed at the end of the pulley 8. The rod 3 of the FP 2 is installed in the groove 10 and is spring-loaded. Under RP 2 on the frame 1 there are installed impactors 12 in contact with the bottom of RP 2. When the separator RP 2 is in operation, it makes circular oscillations and, when interacting with the impactors 12, it shakes and under the influence of circular spatial oscillations, the material is distributed along RP 2. Vertical oscillations promote the ascent of asbestos fiber over the particles. 1 il. 3b JV s / 18 VI y VI VI a o

Description

The invention relates to a laboratory type technique for separating bulk materials, mixtures with different physicomechanical properties of components, and can be used, for example, to process asbestos ore samples.

The purpose of the invention is to increase the separation efficiency by creating an optimal mode of oscillation of a conical friction surface and controlling the frequency of its shaking when the bottom interacts with one of the impactors.

The drawing shows a vibration separator, a general view.

The vibration separator contains a frame 1 on which a conical working surface 2 with a rod 3 in the center under its bottom is mounted, a loading device 4, receivers 5 and b of separation products for light and heavy fractions, respectively, vibration exciter 7, made in the form of a curved guide, a pulley 8 fixed on the end face, and a shaft 9 with a groove 10 on the upper end and a bearing 11 on the lower one mounted for movement in a curved guide 7. Concentric to the bottom of the working surface 2 and with the possibility of tact with him on the frame 1 is placed drummers 12, made in the form of rods. Rod 3. working surface 2 is installed in the groove 10 of the shaft 9 and is spring-loaded 13. The upper part of the strikers 12 and the bottom of the working surface 2 in places of contact with them are lined with shock-absorbing pads 14 made of an elastic material, for example rubber. To prevent the shaft 9 from spinning, it is provided with a locking device 15. A spherical bearing 16 (center of oscillating masses) is mounted on the shaft 9 below the groove 10. A frame 17 is fixed to the frame 1 with a pulley 8. The bearing 11 is moved along a guide 7 with a screw. The conical working surface 2 is provided with an airtight cover 18.

Vibrating separator works as follows.

A sample of asbestos ore is loaded through the loading device 4, the conical working surface 2 is hermetically sealed with a lid 18 on top. Depending on the size of the material, the required eccentricity of the shaft 9 is set in the sample being processed. When processing a large material, a large amount of eccentricity is set. For this purpose, the bearing 11, in which the lower end of the shaft 9 is installed, is moved with the help of a screw along the guide 7 by a greater distance to the right or

to the left from the axis of the pulley 8. When reducing the size of the material in the sample, a smaller eccentricity of the shaft 9 is set. When the electric motor 17 is turned on, the pulley 8

with guide 7 and bearing 11, it is driven into rotational motion. In this case, the lower end of the shaft 9, mounted in the bearing 11, has circular oscillations. The shaft 9 passes through the center of oscillating masses - a spherical bearing 16, and its upper end with the working surface 2 performs similar circular oscillations, but in the opposite direction (in antiphase). Opportunity

5 rotation of the shaft 9 around its axis is eliminated by a locking device 15 (spring). The amplitude of the circular spatial oscillations of the conical working surface 2 depends on the magnitude

0 shaft eccentricity 9. When making circular spatial oscillations of the working surface 2, its bottom interacts with one of the impactors 12 and shakes it at the moment of impact. Because

5, the working surface 2 is connected to the shaft 9 via a spring-loaded unit (the rod 3 with the spring 13 in the groove 10 of the shaft 9), after striking the drummer 12, it receives vertical oscillations that are performed with a gradual damping before interacting with the next drummer 12. Conical working surface 2 simultaneously with spatial circular oscillations, it makes vertical oscillations, which occur in the period between the strikes of its bottom against the impactors 12. Under the influence of circular spatial oscillations, the material is distributed over the conical section eyes surface, vertical oscillation

0 contributes to the ascent of the fiber over the rock particles and more rapid movement of the material along the working surface 2 (due to the vibration of the working surface, with vertical oscillations). Asbestos

5, the fiber, fine rock particles are spirally traced. The trajectories rise along the conical working surface 2, more; the horn rock particles roll into the receiver 6 for a heavy fraction. Under the action of shock impulses directed from below, ejection of small rock particles from the fiber occurs, cleaning of the fiber from rock particles occurs more intensively. The fiber enters the receiver

5 5. Increasing or decreasing the number of impactors 12 involved in the operation of the separator regulates the frequency of shaking of the working surface 2 and the amplitude of its vertical oscillations. Depending on the size of the material in the ore sample work

the separator is carried out with one, two or more impactors 12 (the number of impactors can be 4 or more). The smaller the coarse material in the sample, the greater the number of impactors 12 involved in the operation of the separator and, therefore, the shaking of the working surface occurs more often. With the predominance in the sample of coarse material, the frequency of shaking of the working surface 2 is reduced, reducing the number of impactors 12 in the operation of the separator. For this, the strikers 12 raise or lower relative to the bottom of the working surface 2 (decrease or increase the distance between the strikers and the bottom of the working surface).

Forum and Vibration Separator including a conical working surface mounted on the frame with a rod in the center under

its bottom, mounted above the working surface, the loading device, located at the gathering from the upper and lower bases of the working surface, the receivers of separation products, installed under the working surface, the exciter and its drive with a pulley, characterized in that

0 is provided with impactors made in the form of rods placed on the frame centrally to the bottom with the possibility of contact with it, and the vibration exciter is made in the form of a curvilinear guide rigidly fixed at the end of the pulley and mounted in a curvilinear guide shaft with a groove at the top end and bearing on the bottom, while the rod is installed in the groove of the shaft

0 and is spring-loaded relative to it.

Claims (1)

Formula Vibration separator, including a conical working surface mounted on the frame with a rod in the center under its 20 bottom, a loading device mounted above the working surface, located at the exit from the top and the lower base of the working surface with the separating product seal installed under the working surface of the vibration exciter and its drive with a pulley, characterized in that? that, in order to increase the separation efficiency, it 10 is equipped with hammers made in the form of rods placed concentrically on the frame on the bottom with the possibility of contact with it, and the vibration exciter is made in the form of a curved guide fixed rigidly to I5 mounted on the end of the pulley, and mounted with the possibility of movement in curved guide shaft with a groove on the upper end and a bearing on the lower. while the rod is installed in the groove of the shaft! 0 and is spring-loaded relative to it.