RU146076U1 - LINING - Google Patents

Abstract

1. The lining containing the lining plates of a durable plastic material with wear-resistant inserts embedded in the working surface of the lining plate, characterized in that the lining plates are equipped with an elastic frame made in the form of a perforated metal plate, in the openings of which are wear-resistant inserts made in the form of a truncated cone with shoulder in base. 2. Lining according to claim 1, characterized in that the wear-resistant inserts are inserted into the holes of the elastic frame to their beads. The lining according to claim 1, characterized in that the wear-resistant inserts are made of ceramic.

Description

The utility model relates to the structural elements of devices for crushing, grinding and transportation of mineral raw materials, in particular to linings, and can be used to protect work surfaces in contact with the material to be crushed under shock-abrasive nature of the loads at enterprises in the metallurgical, mining, construction, chemical and other industries.

A lining is known that contains lining plates of strong plastic material having reinforcing elements, wear-resistant inserts of which are embedded in the working surface of the lining plate (see ed. Certificate No. 948439 according to IPC B02C 17/22, op. 07.08.1982.)

Known lining has a low reliability of the connection of wear-resistant inserts with the elastomeric material of the lining plates, which reduces the service life of the lining. A disadvantage of the known lining is due to the fact that during operation, significant loads are applied to the lining working surface, creating permanent deformation changes in the elastomeric material, which loosen wear-resistant inserts, which leads to weakening of their contact with the elastomeric material and loss of lining from the body.

The closest in technical essence is a lining containing lining plates made of durable plastic elastomeric material with wear-resistant inserts embedded in the work surface in the form of metal spikes. The upper parts of each plate have a trapezoid shape, the front, middle and rear faces of which form a sinusoidal wave working surface of the lining, while the wear-resistant inserts are made in the form of parallelepipeds, vulcanized in the said front and upper faces of the plates and are located at an acute angle to the axis of the drum, and the perimeter of the vulcanized often wear-resistant inserts made grooves filled with elastomeric material of the plates, and at the base of the wear-resistant inserts are made of two cylindrical fingers, skip filled into the holes of the mounting fixtures so that the space between the bases of the wear-resistant inserts and the mounting fixtures is filled with the elastomeric material of the plates. Wear-resistant inserts are vulcanized in the front and middle faces of the plates at an acute angle of 30-45 ° to the axis of the drum. Wear-resistant inserts vulcanized in the front faces of the plates are beveled at an angle of 20-30 ° in the direction of rotation of the drum. Wear-resistant inserts are vulcanized in the front and middle faces of the plates so that their protruding parts above the surfaces of the faces of the plates in height are h = 30-50 mm. Wear-resistant inserts in the front and middle faces of the plates are vulcanized with the same interval equal to t = 30-60 mm. A trapezoidal grooves with a width of a larger base located on the side surface of the wear-resistant insert equal to s = 10-20 mm and a depth equal to b = 10-20 mm are made along the perimeter of the vulcanized part of the wear-resistant inserts. The distance between the bases of wear-resistant inserts and installation fittings is 10-15 mm. (see RF patent №2321459 for IPC B02C 17/22, op. 10.04.2008.).

Known lining has a complex structure and low manufacturability of the manufacture of lining plates. The dynamics of the impact of abrasive loads on the elastomeric material of such a lining improves slightly and its service life increases insignificantly.

The technical result consists in simplifying the design of the lining, reducing costs in the manufacture of the lining plate and increasing the service life of the lining by increasing the fastening strength of wear-resistant inserts.

The technical result is achieved by the fact that in a lining containing lining plates made of strong plastic material, according to a utility model, the lining plates are provided with an elastic frame made in the form of a perforated metal plate, in the openings of which are wear-resistant inserts made in the form of a truncated cone with a shoulder in the base, moreover, the wear-resistant inserts are made of ceramic and inserted into the holes of the elastic frame to their flanges, and as a durable plastic material of the lining plate s used elastomeric material with wear-resistant properties, e.g., based on rubbers or polymers.

Wear-resistant inserts can be made of alloy steel, cast iron or ceramics in the form of aluminum oxide, tungsten carbide and other known wear-resistant materials.

Figure 1 shows the lining plate of the lining, a perspective view; figure 2 shows a wear-resistant insert, a perspective view; figure 3 shows a fragment of a cross section of a lining plate with wear-resistant inserts with flanges; figure 4 shows a fragment of a cross section of a lining plate with wear-resistant inserts without flanges; figure 5 shows a fragment of an elastic skeleton, a perspective view.

The lining contains lining plates 1 of elastomeric material with wear-resistant inserts 2 embedded in the working surface of the lining plate 1 having an elastic frame 3 in the elastomeric base. The elastic frame 3 is made in the form of a perforated metal plate, in the holes of which wear-resistant inserts 2 are in the form of a truncated cone with shoulder 4 at the base. Moreover, wear-resistant inserts 2 are installed in the holes of the elastic frame 3, forming a monolithic structure of the lining plate 1 with wear-resistant inserts 2 firmly fixed in it.

The manufacture of the lining plate 1 is carried out in a widely known manner, namely by pouring under pressure an unpolymerized elastomeric material into the corresponding mold with a pre-installed elastic frame 3 with wear-resistant inserts 2, forming a solid monolithic structure with subsequent polymerization of the elastomeric material.

Lining works as follows.

During the operation of the lining, the crushed or transported material falls on the lining plates 1 and mixes along the working surface of the lining, the elastomeric base of the lining plates 1 of which is protected by wear-resistant ceramic inserts 2.

Under shock-abrasive load, wear-resistant inserts 2 retain their integrity and connection with the elastomeric base due to their monolithic relationship with the elastic frame 3, the shock-abrasive load from pieces of material is transferred from each individual ceramic wear-resistant insert 2 to the elastic frame 3 of the lining plate 1.

Since the elastic frame 3 with ceramic wear-resistant inserts 2 occupies the entire area of the lining plate 1, the shock-abrasive loads from the wear-resistant inserts 2 are distributed evenly over the entire surface of the lining plate 1, and the elastomeric material of the lining plate 1, located under the base of the wear-resistant inserts 2, protects them from splitting, as it acts as a damping substrate.

Ceramic wear-resistant inserts 2 with their shoulders 4 abut against the elastic frame 3, which prevents them from “popping out” of the elastomeric monolith of the lining plate 1, in which they are firmly fixed.

The presence of flanges in wear-resistant inserts, interacting as a whole with an elastic frame, allows you to securely fix them in the body of the lining plate.

The implementation of wear-resistant ceramic inserts allows to increase the service life of the lining, the inserts maintain their integrity and are held in an elastomeric basis until they are completely abraded under shock-abrasive nature of the loads.

Wear-resistant inserts can be made without beads in the form of truncated cones, the diameter of the bases of which is larger than the diameter of the holes of the elastic frame. Moreover, due to the larger size of the bases, wear-resistant inserts, as well as using wear-resistant inserts with shoulders, interact with their base with the lower surface of the elastic frame, not allowing to weaken the fastening of wear-resistant inserts.

In the proposed lining, the elastomeric material and the elastic frame dampen the ceramic wear-resistant layer of the working surface, which consists of ceramic wear-resistant inserts embedded in the elastomeric material, ensuring its cushioning under shock-abrasive nature of the loads, which minimizes abrasive wear.

The proposed lining has a simple design using reliably fixed ceramic wear-resistant inserts, can significantly improve the processability and service life of the lining, increasing the overhaul time.

Claims (3)

1. The lining containing the lining plates of a durable plastic material with wear-resistant inserts embedded in the working surface of the lining plate, characterized in that the lining plates are equipped with an elastic frame made in the form of a perforated metal plate, in the openings of which are wear-resistant inserts made in the form of a truncated cone with a shoulder at the base. 2. Lining according to claim 1, characterized in that the wear-resistant inserts are inserted into the holes of the elastic frame to their beads. 3. The lining according to claim 1, characterized in that the wear-resistant inserts are made of ceramic.