RU179532U1 - STEER LINE OF THE BALL DRUM MILL - Google Patents

Abstract

The utility model relates to the linings of the cylindrical part of drum ball mills and can be used in cement, mining and chemical industries. The objective of the utility model is to increase the efficiency of the grinding process by reducing the size of the slow-moving core in a ball drum mill. This is achieved by the fact that a stepwise The lining of the ball drum mill is made in the form of alternating smooth plates 1 and plates with protrusions 2, mounted on the housing 3. In the proposed solution, the protrusions arranged in increments of 25-36 ° and each height is (0.8-1.1) ⋅d, where d is the diameter of the weighted average ball.

Description

The utility model relates to the linings of the cylindrical part of drum ball mills and can be used in the cement, mining and chemical industries.

Known armored pipe mill [Copyright certificate for the invention SU No. 1012983, 04/23/83, bull. No. 15], including elements of long products and fasteners. The armor lining of the tube mill is made of successive annular sections composed of a set of plates with protrusions that are located at half the arc length of each annular section, and in the subsequent section, the plates with protrusions are offset relative to the plates with protrusions in the previous section.

The disadvantage of the lining is the complexity of installation and maintenance of the mill, which leads to a decrease in the efficiency of the equipment.

Known armored lining of the inner surface of the housing of a drum mill [Copyright certificate for the invention SU No. 1200977, 12.30.85, bull. No. 48], including rolling elements of various heights, which are equipped with an additional element of a T-shaped profile.

The disadvantages of the lining is the high wear of the working surface, which indicates the inconsistent performance of the ball mill.

Closest to the proposed utility model in design and achieved technical result, adopted as a prototype, is an armored plate with a lifting bar for a drum ball mill [Duda V. Cement. Moscow ed. Stroyizdat 1981, p. 164, fig. 9.3, g]. The armor plate (lining) consists of alternating smooth plates and plates with a lifting bar (protrusions).

The following features of the prototype coincide with the essential features of the utility model: lining in the form of alternating smooth plates and plates with protrusions.

The disadvantage of the prototype is the low efficiency of the grinding process, which leads to a decrease in the performance of the ball drum mill.

The objective of the utility model is to increase the efficiency of the grinding process by reducing the size of the inactive core in a ball drum mill.

The objective is achieved by the fact that the stepped lining of the ball drum mill is made in the form of alternating smooth plates and plates with protrusions mounted on the housing. In the proposed solution, the protrusions are arranged in increments of 25-36 ° and each height is (0.8-1.1) ⋅d, where d is the diameter of the weighted average ball.

The utility model is illustrated by drawings, where in FIG. 1 shows a cross-section of a ball drum mill with mounted stepped lining; in FIG. 2 - the trajectory of the grinding bodies in the mill drum; in FIG. 3 - shows a graph of the inactive core and the drive power of the mill on the pitch of the plates with protrusions; in FIG. 4 - shows a graph of the inactive core and the drive power of the mill on the height of the plate with a ledge.

=25-36°. При этом высота каждой составляет h=(0,8-1,1)⋅d, где d - диаметр средневзвешенного шара.The stepped lining is made in the form of alternating smooth plates 1 and plates 2 with protrusions (Fig. 1). The plates 2 with the protrusions are fixed, for example, by means of a bolted connection, to the housing 3 of the mill drum, ensuring the fastening of smooth plates at a time. Plate 2 with a protrusion has a rectangular shape and is mounted on the housing in increments

= 25-36 °. The height of each is h = (0.8-1.1) ⋅d, where d is the diameter of the weighted average ball.

The stepped lining of the ball drum mill protects the inner surface of the drum casing 3 from wear, while transmitting energy to the grinding media. Grinding of material in a ball drum mill is carried out by impacts of freely falling grinding media, as well as by abrasion.

When rotating at a given angular speed of the housing 3 with the plates 2 fixed on it with protrusions and smooth plates 1, grinding of the material, for example, clinker, is carried out due to the effective operation of grinding media (Fig. 2). Plates 2 with protrusions promote the lifting of grinding media to a certain height, then they are torn off and move under the action of inertia forces, passing into free fall along a parabolic curve, which ensures the greatest intensity of movement of grinding media.

In the course of numerical experiments, it was found that the rational value of the step of plates with protrusions is 25-36 °, while the change in the inactive core C _k is small (increases from 15.7% to 16.7%) (Fig. 3). The rational value of the height of the plate with the protrusion is in the range (0.8-1.1) ⋅d, where d is the diameter of the weighted average ball (Fig. 4), since the value of the inactive core C _k decreases from 16.7% to 16.1 %

It was investigated that the stepped lining of a ball drum mill, the protrusions of which are spaced at 25 ° -36 ° steps and each height is (0.8-1.1) ⋅d, where d is the diameter of the weighted average ball, due to a decrease in the size of the sedentary core, leads to increase the efficiency of the grinding process, which helps to increase the productivity of the mill.

Claims (1)

The stepped lining of a ball drum mill, made in the form of alternating smooth plates and plates with protrusions mounted on the mill body, characterized in that the plates with protrusions are located in increments of 25-36 °, and each height is (0.8-1.1) ⋅d, where d is the diameter of the weighted average ball.

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