SU1715407A1 - Rotor for crushers - Google Patents

Abstract

The invention relates to structural elements for crushing devices. ^ The goal is to increase the crushing efficiency. The crusher rotor contains a shaft 1, in which an annular groove 2 and associated longitudinal grooves 4 are mounted, in which working bodies 5 are mounted close to each other. An elastic element 3 is installed in the annular groove 2. 2 ill.

Description

The invention relates to a working member of a crusher for treating solid abrasive bulk materials, such as diamonds, for the purpose of crushing, rounding and ovalization.

The purpose of the invention is to increase the efficiency of crushing.

The rotor of the crusher contains a shaft on which the working bodies are mounted, pressed by an elastic element. According to the invention, the rotor shaft is made with an annular groove and longitudinal grooves associated with it, in which working bodies are mounted close to each other, and the elastic element is placed in the annular groove.

Installing the working bodies close to each other allows creating an intensive volumetric movement of fluid in the working chamber of the crusher, which cannot be achieved with a single arrangement of the working bodies on the shaft.

Intensive movement (movement) of the fluid in the working chamber contributes to an increase in the processing performance of the abrasive powder granular materials in it.

Claims (3)

Tight placement of an elastic element in the annular groove of the shaft ensures a stable position of the working bodies in the longitudinal grooves, which virtually eliminates their radial movement, harmful when processing abrasive bulk materials. If the organs are strongly pressed into the elastic elastic element, then the particles of the material being processed can fall into the grooves of the shaft and prevent the organs from returning to their original position. At the same time, an elastic element placed in the annular groove allows, to some extent, changing the position of the organs during the flexible oscillation of the latter in the horizontal plane, removing unnecessary unnecessary loads from them. The flexibility of the working bodies with the use of an elastic element increases. Figure 1 is a General view, a cross-section, and figure 2 is a top view. The rotor includes a shaft 1, in which an annular groove 2 is made, with an elastic element 3 (for example, rubber) mounted therein. On the lateral cylindrical surface of the shaft 1, grooves 4 are made communicating with the annular groove 2. In the slots 4, working bodies are installed, for example, in the form of fingers 5, of which 6 arms abut against an elastic element 3. For fixing the element 3 in the annular groove on shaft 1, a washer 7 and a figure bolt 8 are provided. element 3 presses head 6 to the periphery of groove 2, fingers 5 grab the liquid and abrasive material and set them in motion. The size of the working bodies and their flexibility may change when they are replaced by others. Moving them relative to each other in the groove 4 takes place very slightly, to a greater extent such movement is carried out in the cantilever parts projecting from the shaft 1. When the rotor rotates in a liquid medium with a loose abrasive 5 6 material that is saturated and unevenly distributed in it, the load on each organ is not the same, and due to its flexibility, the latter move relative to each other. As a result of continuously acting and varying loads, on each rotating body together with the rotor, oscillatory motions occur, which take place in the horizontal plane relative to the place of their fixation in the longitudinal groove. Since the working bodies in the grooves are installed close to each other in the row, the area of fluid capture by them is considerable, as a result of which the load on each of them can also vary considerably. By changing the mode of operation of the rotor, the size of the working bodies can be achieved by the different nature of the processing of abrasive materials: under more stringent conditions, from crushing to rounding and ovalization, under milder conditions. Claims Rotor of a crusher containing a shaft on which working elements are mounted, pressed by an elastic element, characterized in that, in order to increase the efficiency of crushing, the rotor shaft is made with an annular groove and longitudinal grooves associated with it, in which working bodies, and the elastic element is placed in the annular groove. Fig1 Fi8,2