SU1155510A1 - Metering hopper of mine hoist - Google Patents

Abstract

CUTTING LIFT BUNKER, vertical walls lined with wear-resistant material, inclined chute and their connecting section, characterized in that, in order to increase the durability of the hoisting ropes by reducing the dynamic forces in them during loading, the material of the lining of the bottom of the inclined chute and two opposite walls of the joint section, adjacent to the bottom, has a coefficient of friction lower than the coefficient of friction of the material of the lining of the rest of the surface. (L ate ate

Description

The invention relates to devices intended for volumetric or weight dosing and loading of bulk materials, and can be used on skip hoists of the mining industry.

The aim of the invention is to increase the durability of the hoisting ropes by reducing the dynamic forces therein during loading.

The drawing shows the hopper, general view.

The metering hopper consists of vertical walls 1 and an inclined chute 2 with a shutter 3 connected by section 4.

The lining of two opposite narrowing walls 5 and 6 of the connecting section 4 and the bottom 7 of the inclined chute 2 is made of a material whose friction coefficient is less than the coefficient of friction of the main lining of the metering hopper. For example, when the main lining is made of steel sheets (the coefficient of friction of potash ore on steel is 0.4) the lining of walls 5 and 6 and bottom 7 is made of enameled sheets (the coefficient of friction of potash ore on enamel is 0.16). The walls 8 and 9 are lined with the material of the main lining of the bunker.

The flow of ore from the hopper is as follows.

When the shutter 3 is opened, part of the ore in the inclined chute 2 starts to move. As a result of applying the lining of the bottom 7 of the chute 2 with a coefficient of friction lower than the coefficient of friction of the main lining of the metering hopper, the rate of ore outflow increases.

The movement of cargo in conjunction. the main part of the bunker begins only after the lifting of the backwater. This movement is accompanied by the appearance of a dynamic unloading arch in the area of the connecting section 4.

The coefficient of friction of the opposite walls 5 and 6 of the connecting section 4 is less than the coefficient of friction of the two other walls. Therefore, at walls 5 and 6, the moving ore particles are affected by the frictional force less than the frictional force at walls 8 and 9. As a result, the speed of the ore particles at different walls of the connecting section 4 is not the same. Different and the radius of the surface of the forming dynamic dome. The shape of the dynamic dome is markedly different from the stable symmetric dome, acquiring an unstable saddle shape. An exemplary image of a saddle surface inscribed in the connecting portion 4 is shown in the drawing.

Due to the instability of the shape of the dynamic dome, it collapses at the initial stage of formation. As the friction coefficient of the lining of walls 5 and b decreases with respect to the coefficient of friction of the main lining, the difference in friction forces at adjacent walls of connecting section 4 increases, the speeds of ore particles movement at these walls differ more. As a result, the instability of the shape of the dynamic destructive roof increases, the rate of ore precipitation from the metering hopper increases, which increases the service life of the bunker.

Claims (1)

MINERAL LIFT BUNKER-DISPENSER containing vertical walls lined with wear-resistant material, an inclined trough and a section connecting them, characterized in that, in order to increase the durability of the lifting ropes by reducing the dynamic forces in them when loading, the lining material of the bottom of the inclined trough and two opposite walls connecting section adjacent to the bottom, has a coefficient of friction less than the coefficient of friction of the lining material of the rest of the surface.