SU837406A1 - Grinding body - Google Patents

Description

(54) SOFT BODY

The invention relates to the grinding technique of various materials and can be used in cement ore-dressing and other industries that use mills loaded with grinding media. Constructions of grinding bodies for pipe mills in the form of a body of rotation i are known. The disadvantage of these structures of grinding bodies is that the working surface is made smooth cylindrical. This body shape does not give a large contact surface between the grinding bodies and the material to be ground, while increasing the working surface of the grinding bodies is required to increase the grinding fineness. The purpose of the invention is to increase the grinding efficiency. This goal is achieved by the fact that the grinding body is made in the form of a sinusoid, the abscissa axis of which is parallel to the axis of rotation of the body when the period of the sinusoid is equal to 0.8-1 and the amplitude is 0.2-0.25 from the average diameter of the grinding body half-sum of the diameters of the depression and the protrusion of the 5th-shaped surface. The drawing shows a schematic of a grinding body. The working surface of the grinding body is made of a sinusoid with a period equal to 0.8-1.4, and an amplitude of 0.20-0.25 of the average body diameter equal to half the sum of the diameters of the depressions and protrusions. The average diameter is equal to the diameter of the known rods or tsilpebs. The diameter of the used rods and cylpeps with a smooth cylindrical surface is selected depending on the size and hardness of the particles of the material to be ground. Typically, the diameter of the cylpebs ranges from 16 to 25 mm, and the diameter of the rods is 80 100 mm. In order to reduce the wear of the working surface, the pitch and amplitude of the sinusoidal surface of the proposed grinding body design should be determined taking into account the coefficient of friction of the material to be ground over the surface of the grinding body from the condition that their mutual displacement is eliminated. Sliding of the material to be ground along a sinusoidal surface will not occur if the angle of inclination of the sinusoid does not exceed, i.e., less than. la frenci On the other hand, in order to increase the working surface of a small body, the period of the sinusoid should be small and the amplitude high. But from the conditions of strength and durability of the grinding body, the depth of the depressions should not exceed 1/5 of the diameter of the grinding body. All these requirements are fulfilled with the following sinusoid parameters: amplitude 0.20 0, 25, 0.8-1.4 of the average diameter of the trough and the projection of the sinusoid on the body surface.

Work pipe mill with grinding bodies is as follows.

As the mill casing rotates, the load rises to a certain height and the grinding bodies begin to roll down. At the same time they work as a set of roller crushers, grinding material. Since the size of the sinusoidal surface of new grinding bodies is larger than that of smooth cylindrical ones with the same degree of filling of the body, the total working surface of the grinding load increases with the new design of small bodies and, accordingly, the productivity of the mills increases. So, with a maximum angle of inclination of a sinusoid of 28, the surface of the small body is 11% higher compared to

smooth cylindrical, thus, the maximum increase in the productivity of mills when they are loaded with grinding bodies of a new design increases the productivity of mills by 11%, which gives an annual economic effect of at least 32 thousand r. on one mill. Making melgazih bodies of new design does not cause difficulties and can be done both by casting and rolling.

The efficiency of the grinding process with grinding media increases,

Claims (1)

1. Ilyevich A.P. Equipment of the plants of silicate industry. K. Stroyizdat, 1959, p. 237. UCL stock. pa.6O4etj surface