SU1315021A1 - Method of mincing hard materials - Google Patents

Description

one

The invention relates to the field of grinding of solid materials and can be applied in the building materials industry, ore-dressing, chemical and other areas that use grinding materials as a technological process, mainly in cement industry when grinding materials and cement blends in pipe mills, as well as mills types Hydrofol and Aerofol.

The purpose of the invention is to reduce specific energy consumption.

The drawing shows a drum with the contours of a moving load, a cross section.

The method is carried out in the following way.

When the drum rotates about the axis O with a constant angular velocity w, the load consisting of the grinding bodies and the material to be ground rises to the point A corresponding to the angle d, and continues to move along the parabolic trajectory to the point c. At the site of be in the zone of ny, the actual grinding takes place. The central loading zone, which is located inside the contour bounded by the Ac parabola and the correct arc Oa, practically does not accept the grinding of the grinding media. Mixing of grinding bodies and the grinding material, i.e. their mutual movement is extremely limited.

When the drum rotates with an angular velocity U) of 0.3-0.9, the critical loading contour periodically changes the outlines with a frequency corresponding to the frequency of changes in angular velocity, i.e. from 0.5 to 5.0 for one turn of the drum. In this case, the minimum angular velocity (A) ,, ("corresponds to the separation point A, and the drop point c, and the maximum angular velocity, the separation point A2 and the drop point c. The active grinding zone varies from line to, i.e. covers the area B b7. C2 with, in 150212

This is from the known method, where the active grinding zone is determined only by the line be.

Transverse pulsations of the whole mass

5 loads, which occur at a variable angular velocity of the mill drum, lead to the intensification of the work of its inner layers and intensive mixing with grinding bodies.

to Variable angular speed of rotation of the ball mill drum can be obtained by means of a synchronous cardan joint with an angular displacement of the master and the driven

5 shafts included in the system of an existing drive, elliptical gears or electronic devices based on a multivibrator.

Other variants of using and implementing the invention are possible, for example, the proposed method can be used in mills of the types Hydrofol or Aerofol of planetary and centrifugal mills. The advantages of the proposed method are as follows: the rotation of a ball drum mill with variable angular velocity intensifies the grinding process following

expansion of the active grinding zone on the load line and its operation in the inner layers, as well as an increase in the efficiency of its movement with the material being crushed. This allows 35 liter to increase the efficiency of the grinding process and to reduce the specific energy consumption in comparison with the known method by 1.2 - 1.5 times.

40 Formula from gaining the Method of grinding solid materials in rotating tubes -. mills, by acting on the material with a grinding load, about 45 liters and h with the fact that, in order to reduce the specific energy consumption, the drum is rotated with a variable angular velocity, the latter being varied within

50 0.3-0.9 critical with a frequency of 0.5-5.0 per revolution of the drum.

Editor E. Papp

Compiled by N. B Ibina

Tehred M. Khodanich Proofreader L. Patay

Order 2231/3 Circulation 572 Subscription VNIIPI USSR State Committee

for inventions and discoveries 113035, Moscow, Zh-35, Raushsk yab., d. 4/5

Production and printing company, Uzhgorod, st. Project, 4

Claims (1)

40 Formula, from acquisition Method of grinding solid materials in rotating ball tubes. mills, by exposing the material to a grinding charge, about 45 liters, so that, in order to reduce the specific energy consumption, the drum is rotated at a variable angular velocity, the latter being varied within 50 0.3-0.9 critical with a frequency of 0.55.0 per revolution of the drum.