SU1165462A1 - Interchamber partition of tube mill - Google Patents

Abstract

INTERCAMERA PARTITION OF THE PIPE MILL, containing sectors of a wedge-shaped profile, forming gaps between each other and fastened with a fastening element, characterized in that, in order to increase operational reliability, each of the sectors is made in the form of a prismatoid with rectangular bases, while the larger sides of the bases are made perpendicular to each other, and the side faces are made in the form of isosceles trapezoids. (L Oi SP 4 Ot tc Fig. 1

Description

The invention relates to the technique of grinding various materials, for example, in the production of cement, and more specifically to the structural elements of pipe mills.

Intercameral partitions of pipe mills are known, having sector partitions with a radial or concentric arrangement of slots. Usually, the partitions are cast and have a uniform thickness of the sectors in cross section 1.

The disadvantage of these partitions is low efficiency due to the low stiffness and wear resistance of the sector elements.

The closest to the technical essence of the invention is the inter-chamber wall of the tube mill, containing the sectors of the wedge-shaped profile, forming gaps between each other and fixed by fastening element 2..

The intercellular septum is known to have low operational efficiency due to the fact that the main parameters of the section of sectors, such as thickness and width, are sharply reduced from the peripheral part to the center of the mill. Low operational efficiency causes uneven wear of the septum. The part of the bulkhead sector, located near the armor fire, wears out more intensely than the central part.

Worn sectors in the peripheral part determines the work of the partition as a whole. So, upon reaching the limit of wear of the surfaces of the partition, facing the side of the balloon chamber, and the side surfaces of the slots, the partitions of the sector are dismantled and replaced with new ones. In addition, an intercameral partition with gapless sectors has low rigidity in the central part of the mill. This is because the construction of the partition requires an increase in the number of sectors to provide the required size of the living section, which leads to a decrease in the design parameters of each sector, and therefore the rigidity decreases.

In the case when the partition has a margin for wear across the thickness of the sector, the wear of the slots, which is 50-70 ° from the original size of the slot, plays a decisive role in culling the sectors of the partition. At the same time, the partition is also dismantled, since the number of coarse particles of grinding material increases in the cylinders chamber. Thus, the operational efficiency of the partition is extremely low due to the constructive shape, geometric dimensions, and the relative positions of the sectors.

The purpose of the invention is to increase operational reliability.

This goal is achieved by the fact that in the inter-chamber wall of a pipe mill containing sectors of a wedge-shaped profile, which form gaps between each other and are fixed by a fastening element, each sector is made in the form of a prismatoid with rectangular bases, while the large sides of the bases are perpendicular to one another. , and the side faces are made in the form of an isosceles trapezium.

FIG. I schematically shows the intercameral partition, general view; in fig. 2 through 5 section A-A in FIG. one; in fig. 3 - sector, axonometrics.

The interchamber wall tube mill 1 consists of a set of sectors 2, between which the slots 3 are formed.

Each of the sectors is designed as

0 prismatoid with upper 4 and lower 5 rectangular bases and side edges in the form of isosceles trapezium 6. In the central part, the sectors are fastened with the help of plates 7 and the bolted joint 8. On the mill case, the sectors are fastened with the bolted joint 9.

As exploitation occurs, sectors wear out in the peripheral part. When the wear limit is reached, the sectors are dismantled and installed in a position opposite to the original, i.e. The bases of the sectors that were initially located in the central part of the mill are mounted on the mill housing. This is because the 5 bases are the same.

The construction of the sectors and their shape makes it possible to increase the service life of the partition at least twice. Moreover, the greatest effect when using an inter-chamber partition is achieved due to the fact that the cross section of each sector, starting from the part located at the lining, to the part of the sector located in the center of the mill, remains constant. Due to the fact that the large sides of the bases 5 are mutually perpendicular, the sectors in the central part of the mill have greater rigidity and strength.

In the case of a single use, the baffle sectors can be made with shoes for mounting on the mill body. In this case, the service life of the partition increases 1.4-1.5 times.

The economic effect due to the increase in service life, reducing the cost of repair and maintenance of the partition for a mill with a diameter of 3.2 and will be 10.0 thousand rubles.

Fig.Z

Claims (1)

INTERCAMERA PARTITION OF A TUBE MILL, containing wedge-shaped sectors, forming slots between themselves and fixed by a fastening element, characterized in that, in order to increase operational reliability, each of the sectors is made in the form of a prismoid with rectangular bases, while the large sides of the bases are made perpendicular to each other , and the side faces are made in the form of isosceles trapezoids. FIG. 1 Joint venture Od u