RU172043U1 - Press roll unit for producing cuboid material - Google Patents

Abstract

The utility model relates to the field of production of building materials, namely, equipment for producing cube-shaped materials used in the production of asphalt concrete, concrete and products from them. The problem the utility model aims to solve is to reduce energy consumption when producing cuboid materials by reducing the destructive forces by reducing the contact surface between the longitudinal protrusions and the material. The press-roll unit for producing cuboid material contains a housing 1 with a loading hopper 7 with installed therein with a gap by rolls 4 made in the form of drums, along the edges of one of them there are flanges 5 and longitudinal protrusions of a wedge-shaped 6. In the proposed solution, the loading hopper 7 has a loading device 8, and on the second roll there are longitudinal protrusions of a wedge-shaped shape 6, and the rolls 4 are installed so that the vertices of the longitudinal protrusions 6 coincide when they are counter-rotating, and the height of the protrusions does not exceed half the minimum clearance between the rollers.

Description

The utility model relates to the field of production of building materials, namely, equipment for producing cube-shaped materials used in the production of asphalt concrete, concrete and products from them.

Known press roller grinder [patent for the invention of the Russian Federation No. 2085287, IPC V02C 4/02. Sevostyanov B.C., Minasyan A.G., Litvinov A.S., Kalashnikov A.T., Romanovich A.A .; applicant and patent holder Belgorod, state. technol. un-t them. V.G. Shukhov - publ. July 27, 1997]. It contains a housing installed in it with a roll gap, made in the form of drums having longitudinal grooves. On the rolls, protruding protruding and recessed segments located between them with arcuate geometric profile along the axis of the rolls and convex on one side and concave on the other, pre-stressed with wedges, are mounted on the rolls and are rigidly fixed to the surface of the drums in their central part by means of a bolt connection.

The disadvantage of this device is the inability to obtain cubic material with this device.

The closest technical solution adopted for the prototype is a press roller grinder for producing cuboid material [patent for the invention of the Russian Federation No. 2530508 V02C 4/02, V30V 11/18, V02C 4/30, Romanovich AA, Meshcheryakov S.A. ., Romanovich L.G., Romanovich M.A .; applicant and patent holder Belgorod, state. technologist. un-t them. V.G. Shukhov - publ. 10/10/2014, Bull. No. 28. - 8 s]. The chopper contains a housing with a loading hole (loading hopper). Rolls in the form of drums are installed in the housing with a clearance. On the working surface of one of the rolls longitudinal grooves are installed, with a certain interval equal to the installed longitudinal protrusions on the other roll. There are flanges along the edges of the second roll. When the rolls rotate, cavities are formed as close as possible to the cuboid shape.

With the design features of the invention, the following set of features of the prototype coincides: with a loading hopper, a housing with rolls installed in it with a gap made in the form of drums, along the edges of one of them there are flanges and longitudinal protrusions of a wedge-shaped shape.

The disadvantage of this press roller mill is the high energy consumption for the destruction of the material. This is due to the large contact surface of the material and the one-way pressure of the longitudinal protrusions of the wedge-shaped shape when the material is destroyed.

The task to which the utility model is directed is to reduce energy consumption in obtaining cuboid materials by reducing destructive forces by reducing the contact surface between the longitudinal protrusions and the material.

This is achieved by the fact that the press-roll assembly for producing cuboidal material contains a housing with loading hopper with rolls installed in it with a gap, made in the form of drums, along the edges of one of them there are flanges and longitudinal protrusions of a wedge-shaped shape. In the proposed solution, the loading hopper has a loading device, and on the second roll there are longitudinal protrusions of a wedge-shaped shape, the rolls being set so that the vertices of the longitudinal protrusions coincide when they are counter-rotating, and the height of the protrusions does not exceed half the minimum clearance between the rollers.

The essence of the utility model is illustrated by drawings, where in FIG. 1 shows a diagram of a press roll assembly for producing a cube-like material (side view), FIG. 2 is a longitudinal section through a roll with wedge-shaped longitudinal protrusions mounted on its surface; FIG. 3 - a method of installing longitudinal projections of a wedge-shaped form on the surface of the roll.

The press roll assembly comprises a housing 1, for example, made in the form of an oval cover 2 and a bottom 3 with a discharge zone.

In the central part of the housing 1, rolls 4 made in the form of drums are coaxially mounted with a gap, and one of them has flanges 5. On the surface of both rolls, longitudinal projections of a wedge-shaped shape 6 are fixed, not more than half the minimum clearance between the rolls.

In the upper part of the housing 1 above the rollers 4 there is a loading hopper 7, in which a loading device 8 for directional supply of materials is installed.

Press-roll unit for producing a cuboid material operates as follows.

The crushed material with an anisotropic texture (slate, basalt, limestone and others, including those having high strength) from the feed hopper 7 through the feed device 8 for directional feed of materials, the material is fed into the housing 1 of the roll space. The loading device 8 allows for the directed supply of material into the roll space, systematizing the supply of material along its greater axis, due to less destructive forces, which contributes to the formation of cuboid materials.

In the roll space, material is crushed by longitudinal projections of a wedge-shaped form 6, which are arranged uniformly around the circumference of each of the synchronously rotating rolls 4, kinematically connected to each other. The working contact surface between the longitudinal protrusions of the wedge-shaped 6, located on the rolls 4, and the material is limited to a small area, which allows you to destroy and get a cuboid material with minimal effort. The ratio of the height size of the longitudinal protrusions of the wedge-shaped form 6 and the gap between the rolls is not more than half the value of the minimum clearance, so that the material is caught and split by the rolls from two at the same time.

To prevent material from escaping from the grinding zone along the edges of one of the rolls, flanges 5 are provided that hold it in the grinding zone and contribute to effective grinding.

The material, falling between the longitudinal protrusions of the wedge-shaped form 6, is destroyed along the line of their influence, which allows the material to be affected evenly with a small contact contact surface, which helps to reduce energy consumption when obtaining a cuboid product. The two-sided impact of the longitudinal protrusions of the wedge-shaped form 6 with a small contact surface of their contact with the crushed material allows it to be destroyed with less effort, and, consequently, with less energy. The installation of the longitudinal protrusions of the wedge-shaped form 6 motionlessly determined by the reliability of their fastening in the grooves cut on the surfaces of the rolls with a certain step.

Getting into the roll space of kinematically interconnected rolls 4, due to the longitudinal protrusions of the wedge-shaped 6 with a certain step so that their vertices coincide when the rolls 4 rotate, and the rotational speeds of the rolls 4 are synchronized, it makes it possible to uniformly act on the material, which helps reduce energy consumption when receiving a cuboid product. Due to the counter rotation of the rolls 4, the material moves from the cover 2 to the bottom 3 and is unloaded.

Thus, the proposed design of the press-roll unit allows you to reduce the effort when grinding the material, which helps to reduce energy consumption in obtaining cubical materials for the production of asphalt concrete.

Claims (1)

 A press-roll unit for grinding material with an anisotropic structure to obtain a cuboid shape, comprising a housing with a loading hopper and two rolls in the form of drums mounted in the housing with a gap between them and with the possibility of rotation in the opposite direction, while one of the rolls is made with longitudinal wedge-shaped protrusions and with flanges located at the edges, characterized in that the feed hopper is provided with a loading device, and the second roll is made with longitudinal wedge-shaped protrusions, while the flanges are installed so that the vertices of the longitudinal protrusions coincide with their rotation, the height of which does not exceed half the minimum gap between the rolls.

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