RU2040341C1 - Lining - Google Patents

Abstract

FIELD: grinding and disintegrating materials. SUBSTANCE: lining comprises plastic base 1 made of a steel, e.g. carbon steel, in which inserts 2 made of, e.g. high-chromium iron are imbedded, the insert being reinforced with rods 3 made of a plastic material and projected in the body of base 1. Inserts 3 are usually trapezoidal. The rock moves over the working surface of the lining whose plastic base is protected by wear- resisting inserts. Under the shock load the insert are cracked but their integrity and connection with the base is conserved owing to the rods. EFFECT: enhanced reliability. 2 cl, 3 dwg

Description

 The invention relates to structural elements of devices for crushing, grinding and transportation of mineral raw materials and can be used in mining, construction, chemical and other industries.

A known lining containing a rectangular plate made of plastic material with inserts of wear-resistant material on the working surface, the cross section of the inserts has the shape of a trapezoid, the larger base of which is buried in the body of the plate, and the inserts are located at an angle to the longitudinal axis of the plate [1]
The service life of this lining is longer than that of a lining without inserts, but it is not sufficiently stable for conditions with high impact loads, as cracks form in the solid inserts and they gradually crumble. This is especially true in ball mills, in which the inserts act as lifters and significantly protrude above the base. At low impact loads, the lining lasts longer, but with a certain wear, the inserts fall out and the plate quickly wears out.

Closest to the invention is the lining of a ball mill made of a plastic base with stakes of wear-resistant material on the working surface, the cross section of which is in the form of a trapezoid, the larger base of which is buried in the body of the base, the lining provided with longitudinal ribs to the length of the working surface in which inserts [2]
The disadvantage of this solution is that the ribs protect the inserts from shock loads only for the first time, but then they wear out with abrasive material and the shock loads are perceived directly by the inserts, which crack and break. Thus, the service life of the lining is small and, in addition, the lining is difficult to manufacture.

 The objective of the invention is the creation of a lining with a long service life, resistant to impact and abrasion, with low material costs, technologically advanced in manufacture.

 The task is achieved in that in a lining made of a plastic base with inserts of wear-resistant material on the working surface buried in the body of the base, the inserts are reinforced with rods of plastic material protruding into the body of the base.

 Another difference is that the inserts are made with a cross section in the shape of a trapezoid and are buried in the body of the base with a smaller base.

 Reinforcing the inserts with rods of plastic material protruding into the body of the base, allows to increase the service life of the lining, since even cracking from impact loads, the inserts maintain their integrity and are held in the plastic base until they are completely abraded.

 The implementation of inserts with a cross-section in the form of a trapezoid buried in the body with a smaller base, allows to increase the service life of the lining in self-grinding mills and bins. In this case, the grooves between the inserts are filled with crushed material, which protects the lining base from wear, and the inserts do not fall out of the base, as they are held by rods protruding into the body of the base.

 In FIG. 1 shows a lining plate, cross section; figure 2 is the same, a top view; figure 3 option lining.

 The lining consists of a plastic base 1 made of steel, for example carbon, in which wear-resistant inserts 2 are buried, for example, of high-chromium cast iron, reinforced with rods 3 of plastic material, for example, carbon steel, which protrude into the body of the base 1. The inserts 2 are usually made (for technological reasons) a trapezoidal shape with a large base 4 and a smaller base 5. For self-grinding mills and silos, inserts 2 can be buried in the body of the base 1 with a smaller base 5.

 The lining is made as follows.

 First, inserts 2 are made. For this, the rods 3 are installed in the mold and filled with wear-resistant cast iron so that the ends of the rods remain free. The inserts 2 are installed in the mold cavity and poured with steel so that the inserts 2 and rods 3 are buried in the body of the base 1. In the working position, the lining is installed by the inserts 2 across the direction of movement of the material.

 Lining works as follows.

 The rock mass moves along the working surface of the lining, the plastic base of which is protected by wear-resistant inserts. During shock loading, the inserts crack, but retain their integrity and connection with the base due to the rod. The base steel of the lining wears out very slowly as the inserts wear. Quick steel wear only occurs after the inserts are completely erased. For a long time, the initial configuration of the working surface of the lining is preserved, especially during ball grinding, so the mill performance does not drop.

Claims (2)

 1. Lining made of a plastic base with inserts of wear-resistant material on the working surface, recessed into the body of the base, characterized in that the inserts are reinforced with rods of plastic material protruding into the body of the base.  2. Lining according to claim 1, characterized in that the inserts are made with a cross section in the form of a trapezoid and are buried in the body of the base with a smaller base.

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