RU147463U1 - ASSEMBLY LINE - Google Patents

Abstract

1. A conveyor belt consisting of a multi-layered carcass transmitting traction, made of layers of impregnated polyester - polyamide fabric with a strength of 100 to 800 N / mm, rubber layers between them and rubber plates, designed to transport various materials with a temperature exceeding 300 ° C, characterized in that in the design of the conveyor belt between the frame and the working load-bearing lining with a thickness of 2 to 15 mm, a contact rubber layer is introduced containing treated with an impregnating composition of basalts yu, keramobazaltovuyu or silica tkan.2. The conveyor belt according to claim 1, characterized in that two contact rubber layers are introduced into the structure, one located between the working plate and the frame, the second between the frame and the non-working layer, the thickness of the rubber plates being equal and can be 6-10 mm.

Description

The utility model relates to a conveyor belt used to complete conveyor systems operating at mining, metallurgical and other industries and intended for transporting materials with high temperatures.

Known conveyor belts of traditional design, consisting of a layered rubber-fabric frame and rubber plates made of a rubber mixture, the basis of which is ethylene-propylene rubber.

The disadvantage of tapes of this design is the low resistance of the rubber plates and frame to the effects of temperatures exceeding 200-250 ° C, i.e. low operational reliability.

A useful model of a conveyor belt is known having a frame in the form of layers of reinforcing textile fibrous materials made of a combined yarn consisting of two interconnected yarns, one of which is made of inorganic, mainly basalt fiber, the second is made of organic polyamide fiber and rubber linings. Rubber linings of the tape include fillers in the form of segments or tow of basalt fiber embedded in the outer layer of the linings during the vulcanization process. (Utility Model Patent No. 130596).

In this design, textile materials made in the form of a mesh have a movable structure, which complicates their processing.

The method of introducing into the outer layer of plates of fillers in the form of segments or tow of basalt fiber and / or particles of solid materials during the vulcanization process has not been developed and is laborious.

The closest analogue of the claimed utility model is a conveyor belt consisting of a rubber frame, an additional fabric layer of basalt fibers and rubber plates made of elastomeric material (Patent for the invention No. 2495810).

The disadvantage of this belt design is the rapid wear of an additional fabric layer of basalt fibers after thermal destruction of the rubber lining on the working side of the tape, which leads to a decrease in the life of the tape, which is the most expensive element of the conveyor installation.

The frame design provides for the presence of only 2 gaskets, i.e. the possibility of using multi-laying tapes (from 3 to 6) in the process of moving goods with extremely high temperatures is not taken into account.

The purpose of the utility model is to create a heat-resistant conveyor belt for transporting materials with a temperature exceeding 300 ° C with enhanced performance and resource.

This goal is achieved by the fact that an additional contact rubber layer is introduced into the construction of the conveyor belt, containing basalt, ceramic-basalt or silica fabric impregnated with a special composition.

The use of a special contact layer ensures a solid structure due to the high bond strength between the elements of the conveyor belt.

Basalt fabric made from one-component raw materials is characterized by high resistance under constant exposure to high temperatures - up to 700 ° C, 2-component ceramic-basalt fabric withstands prolonged exposure to temperatures up to 850 ° C, one-component silica fabric has a unique thermal resistance, operating at temperatures from 1000 up to 1200 ° C. The use of these fabrics in the construction of belts prevents the influence of high temperatures on the traction frame of the conveyor belt, ensuring its durability.

Basalt and silica fibers are made from natural materials - basalt rocks of volcanic origin and polymorphic modifications of silicon dioxide - the main component of all terrestrial rocks. These materials have high natural thermal properties, chemical resistance, and are environmentally friendly raw materials.

The operational properties of materials from rocks: high quality, durability and resistance to natural factors, high temperatures, aggressive environments, absolute incombustibility. In addition, the raw material base for the production of materials and products from them is practically unlimited.

The utility model is illustrated by the construction drawings of the conveyor belt shown in FIG. 1-2:

in FIG. 1 - conveyor belt with one contact layer

in FIG. 2 - conveyor belt with two contact layers

The conveyor belt has a multi-layered fabric skeleton (1), transmitting traction, working (2) and non-working (3) rubber plates. To ensure heat resistance and bond strength between the elements, the tape design has an additional one or two contact rubber layers (4) containing basalt, or ceramobasalt, or silica fabric treated with a latex impregnating composition (plain, twill or satin weave), depending on operating conditions tapes.

Contact rubber layer (4) is located between the frame (1) and the working load-bearing lining (2) with a thickness of 2 to 15 mm.

In a conveyor belt with two contact rubber layers, one is located between the working plate (2) and the frame (1), the second - between the frame (1) and the non-working cover (3). The thickness of the plates is equal and can have a thickness of 6 to 10 mm.

When the conveyor belt is worn on one side, the belt is mounted on the other side. The resource is increasing.

Claims (2)

1. A conveyor belt consisting of a multi-layered carcass transmitting traction, made of layers of impregnated polyester - polyamide fabric with a strength of 100 to 800 N / mm, rubber layers between them and rubber plates, designed to transport various materials with a temperature exceeding 300 ° C, characterized in that in the design of the conveyor belt between the frame and the working load-bearing lining with a thickness of 2 to 15 mm, a contact rubber layer is introduced containing treated with an impregnating composition of basalts yu, keramobazaltovuyu or silica cloth. 2. The conveyor belt according to claim 1, characterized in that two contact rubber layers are introduced into the structure, one located between the working plate and the frame, the second between the frame and the non-working layer, the thickness of the rubber plates being equal and can be 6-10 mm .

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