RU2611838C1 - Rod mill - Google Patents

Abstract

FIELD: technological processes.

SUBSTANCE: invention relates to grinding of solid materials. The rod mill comprises a drum (1), boot (2) and a discharge spout (3) and a drive. The drum is formed by support rings. Between rings a cylindrical mesh surface with the waveform perimeter is fixed. The mesh surface is made of transverse and longitudinal rods. The transverse rods are made in the form of waveform rings with curved pockets. The longitudinal rods are twisted with the same pitch along a helical line of diameters of projections of curved pockets of transverse rods. The longitudinal rods are fixed to the rings of transverse rods from inner side of its curved pockets. Along the whole length of the cylindrical waveform mesh surface along the perimeter the coil spring (4) with a circular cross section is mounted. The spring is fitted with the device for changing of coil pitch by its extension or contraction.

EFFECT: invention increases productivity and improves the quality of finished products.

5 dwg

Description

The invention relates to techniques for grinding solid materials and can find application in the construction, chemical, metallurgical industries, as well as in agricultural production.

Known tube mill (A.S. USSR 1349780, class B02C 17/04, 1987) containing loading, unloading trunnions, a drive and a drum made of interconnected tetrahedral or octahedral elements, forming a helical column.

A disadvantage of the known device is limited technological capabilities, manufacturing complexity, insufficient quality of finished products, high metal consumption.

Closest to the proposed device is a tube screw mill containing loading, unloading trunnions, drive and drum (RF patent No. 2362627, CL 02/17, published. 07/27/2009, bull. No. 21), mounted from sections made of eight, ten, twelve, etc. an even number of equilateral triangles connected to each other by two lateral sides, while the sections are connected to each other by the free third sides of the triangles with the formation of a helical drum, along the perimeter of which there are four, five, six or more broken right and left helical lines directed towards each other, and equipped with internal four, five, six or more helical grooves directed towards each other with the same pitch.

The disadvantages of the known device are limited technological capabilities, manufacturing complexity, insufficient quality of finished products, high metal consumption.

The technical solution to the problem is to expand technological capabilities, simplify manufacturing, improve the quality of finished products, and reduce metal consumption.

The technical solution is achieved by the fact that in the proposed mill bar, containing a drum, loading, unloading trunnion and drive, the drum is mounted from support rings, between which a cylindrical mesh surface of a wave-shaped along the perimeter, made of transverse and longitudinal rods, is fixed, while the transverse rods are made in the form of rings of a wavy shape with curved pockets, and the longitudinal rods are made in the form of rods twisted with the same pitch along the helix of the diameters of the protrusions of a mane of curvilinear shape of the transverse rods, while the longitudinal rods are attached to the rings of the transverse rods on the inside of its pockets of a curvilinear shape and a cylindrical spring with a round coil section is mounted around the perimeter along the perimeter, which is equipped with a device for changing the pitch of the coils by stretching or compression.

According to the patent literature not found a technical solution similar to the claimed, which allows us to judge the inventive step of the proposed design of a bar mill.

The novelty is seen in the fact that the drum is mounted from supporting rings, between which a cylindrical mesh surface of a wave-like shape around the perimeter is fixed, made of transverse and longitudinal rods, which simplifies manufacturing and extends technological capabilities.

The novelty is also seen in the fact that the transverse rods are made in the form of rings of a wavy shape with pockets of a curved shape, which expands the technological capabilities.

The novelty is that the longitudinal rods are made in the form of rods twisted with the same pitch along the helix of the diameters of the protrusions of the pockets of the curved shape of the transverse rods, which expands the technological capabilities.

The novelty lies in the fact that such a structural design of the drum allows for the axial movement of particles of materials from loading to unloading with a horizontal axis of rotation of the drum, which simplifies the operation of a bar mill.

The novelty also lies in the fact that the helical surfaces of the longitudinal rods swirl the flows of crushed materials, which intensifies the grinding process.

The novelty lies in the fact that the longitudinal rods are attached to the rings of the transverse rods on the inside of its pockets of a curved shape, which expands the technological capabilities.

The novelty also lies in the fact that a cylindrical spring with a round cross section is mounted inside the entire length of the wave-shaped drum around the perimeter, which not only ensures the movement of the material from loading to unloading, but also creates their compression inside the wave-shaped drum around the perimeter, which expands technological capabilities and intensifies the grinding process.

The novelty also lies in the fact that the coil spring mounted inside the drum is equipped with a device for changing the pitch of the turns, which allows you to influence the nature of the movement of material particles inside the drum in a wave-like shape around the perimeter and provides control of the speed of their movement from loading to unloading.

The novelty of the proposal lies in the fact that such a structural design of a bar mill, with a cylindrical spring fixed inside with a round cross-section of the turns, allows not only to create counterflows of the movement of grinding bodies and crushed materials, but also to ensure their longitudinal movement from loading to unloading with a horizontal arrangement of the drum and ensure their intensive interaction between themselves and with the bar walls of the drum, which expands the technological capabilities.

The novelty also lies in the fact that a cylindrical spring with a round coil section mounted inside the entire length of the drum is equipped with a device for changing the pitch of the coils of a cylindrical spring by stretching or compressing it, which allows you to influence the nature of the movement of the crushed materials when the mill productivity changes, which ensures regulation the intensity of the interaction of grinding media and crushed materials, increases productivity, expands technological capabilities.

The novelty is seen in the fact that the area and shape of the cross section of the drum changes in each cross section of the drum from loading to unloading, which intensifies the grinding process, increases the energy intensity of the interaction of particles of the crushed material with each other and grinding media, and expands technological capabilities.

The invention is illustrated by drawings, where: in FIG. 1 shows a bar mill, general view; in FIG. 2 - cylindrical mesh surface, visual image; in FIG. 3 - cross bar ring, top view; in FIG. 4 - a longitudinal bar twisted along a helix of the diameter of the protrusions of the pockets of the curved shape of the transverse bar; in FIG. 5 is a view A in FIG. four.

Bar mill (Fig. 1) consists of a drum 1, loading 2 and unloading 3 pins. To provide additional longitudinal movement of particles of grinding media and crushed materials inside the drum 1, a cylindrical spring with a round coil section 4 is mounted, which is equipped with a device for changing the pitch of the coils of the coil spring 4 by tension or compression (not shown in the drawings). The adjustment of the pitch of the turns of the coil spring 4 can also be made during the operation of the mill. The bar mill is equipped with a device for creating a slope to the horizon for the accelerated movement of the crushed materials from loading to unloading, which is not shown in the drawings.

Depending on the characteristics of the material being ground, the required grinding time, a spring pitch is set that meets the optimal grinding conditions. For example, if a short processing time is required, then the step of the spring 4 is reduced and, thus, the flow of particles of the crushed materials changes, and therefore their speed of movement from loading to unloading changes accordingly. When grinding requiring a long residence time in the drum 1, the step of the turns of the spring 4 is increased and, thus, the flow of particles of the crushed material changes, which means that their speed of movement from loading to unloading changes accordingly. In the desired position, the spring 4 is fixed with known devices (not shown in the drawing).

The direction of the coils of the spring 4 may coincide with the direction of rotation of the cylindrical mesh surface of a wave-like shape around the perimeter of the drum 4, or may be opposite to its rotation. The adjustment of the pitch of the turns of the spring 4 can also be carried out during the operation of the bar mill.

The drum 1 in the form of a cylindrical mesh surface of a wave-like shape around the perimeter (Fig. 2) is made of transverse rods 5 made in the form of rings of a wave-like shape A, B, C, D with pockets of a curvilinear shape and longitudinal rods in the form of screw rods 6 twisted along a helical line with the same pitch S ₁ (Fig. 4) along the diameter of the protrusions D _{1 of the} transverse rods 5 (Fig. 5), more precisely curved along a helical line with the same pitch along the outer diameter D _{1 of the} curved pockets of the transverse rods A, B, C, D .

The transverse rods 5 are made in the form of a wave-shaped ring with curved pockets 7, 8, 9, 10, 11, 12 along the outer diameter D _{1 of the} transverse rod 4 (Fig. 3).

In FIG. 2 shows four identical transverse rods 5 in the form of a ring A, B, C, D of a wave-like shape with curved pockets of the ring A-7,8,9,10,11,12; rings B-13,14,15,16,17,18; B-19,20,21,22,23,24; G-25,26,27,28,29,30 located at equal distances L from each other.

Longitudinal rods 6 are mounted on the inside of the protrusions of the curved pockets of the rings A-7,8,9,10,11,12; B-13,14,15,16,17,18; B-19,20,21,22,23,24; G-25,26,27,28,29,30 and form along the perimeter of the drum 1 a cylindrical mesh surface of a wave-like shape around the perimeter with helical lines 7-14-21-28, 8-15-22-29, 9-16-23 -30, 10-17-24-25, 11-18-19-26, 12-13-20-27, while the transverse rods 5 are stretched along the outer diameter D ₁ into a single cylindrical mesh surface of a wave-like shape around the perimeter of the drum 1 without additional methods and methods of fastening longitudinal rods 6 and wave-shaped rings A, B, C, D of transverse rods 5. If necessary, at contact points, longitudinal rods 6 and transverse rods 5 can They are bonded to each other by known methods, such as welding. The number of longitudinal screw rods 6 corresponds to the number of protrusions - curved pockets of the rings of the wave-like shape of the transverse rods 5.

Depending on the characteristics of the materials to be ground, the required grinding time, and the maximum particle size of the material to be ground — the finished product, a number of longitudinal and transverse rods is set that meets the optimal conditions for grinding and obtaining a quality product.

The rods 5 and rods 6 form a cylindrical mesh surface of the drum 1 of a wave-like shape around the perimeter, in which the longitudinal bars 6, when moving inside its crushed materials, transmit forces to the transverse bars 5, more precisely, the rings of the wave-like form A, B, C, G. Along with this, the bars 5 and 6 also perceive lateral loads arising under the action of lateral forces generated by the movement of the crushed materials inside the cylindrical mesh surface of the drum 1 of a wave-like shape around the perimeter, which are perceived to be transverse rutki 5 wave-shaped and transferred curved pockets to the helical longitudinal rods 6.

The mill operates as follows.

The drum 1 is filled with balls or other crushing medium and crushed material or one crushed material, which (Fig. 1) are fed through the loading pin 2 into the rotating screening surface of a wave-like shape around the perimeter of the drum 1, where they are captured by the walls of the cylindrical mesh surface of the drum 1 and in the direction rotations rise up. Upon reaching a certain height under the influence of gravitational forces and the angle of repose formed, the crushed materials, depending on their own mass, are separated from the walls of the mesh surface of the drum 1 and from different heights fall down inside the mesh surface of the drum 1 with subsequent simultaneous movement of the turns of longitudinal coils 6, as well as the spring 4. The process of movement of subsequent portions of the crushed materials that rise up and fall down is continuous. Since the longitudinal rods 6 of the cylindrical mesh surface of a wave-like shape around the perimeter of the drum 1 are located at an angle not only to each other, but also to the axis of rotation of the drum 1, in each portion each particle of the crushed materials moves along its direction vector towards the discharge side, which is significant intensifies the process of mixing and grinding, as well as collisions with each other and with the walls of the cylindrical mesh surface of a wave-like shape around the perimeter of the drum 1, as well as with grinding media, ec whether they are inside the drum 1. Therefore, expanding technological capabilities. This contributes to the wave-like inner surface of the cylindrical mesh surface of the drum 1. The crushed materials through the cylindrical mesh surface of the wave-like shape of the drum are discharged outside the drum 1 into a receiving device for small fractions of the finished product (not shown). At the output of the drum 1, large fractions of the crushed material through the discharge pin 3 are discharged outside the bar mill.

Technical and economic advantages arise due to the fact that the drum is mounted from supporting rings, between which a cylindrical mesh surface of a wave-like shape around the perimeter is fixed, made of transverse and longitudinal bars, while the transverse bars are made in the form of rings of a wave-like shape with pockets of a curvilinear shape, and the longitudinal rods are made in the form of rods twisted with the same pitch along the helix of the diameters of the protrusions of the pockets of the curved shape of the transverse rods, while the longitudinal rods rikrepleny transverse bars to the rings with its inner side pockets curved shape, wherein the entire length of the cylindrical surface of the net-like waveform is mounted a coil spring having a circular section, which is equipped with a device for changing a pitch of the turns by stretching or compressing it. The simultaneous action of the transverse and longitudinal rods of the drum and the spring provides an increase in the frequency and energy intensity of the interaction of particles of the crushed materials with each other and with the walls of the cylindrical mesh surface of a wave-like shape along the perimeter of the drum, as well as with their presence with grinding media, and their direction of movement changes, which provides expansion of technological capabilities of a bar mill. At the same time, the technological processes of grinding materials are combined and their separation into two fractions - into small fractions, the sizes of which are smaller than the corresponding holes of the cylindrical mesh surface of a wave-like shape around the perimeter of the drum - the gaps between the rods, and large, which are discharged through the unloading journal.

Technical and economic advantages also arise due to an increase in the frequency of interaction of particles of the crushed material not only with each other, but also with the walls of the screw drum, as well as with grinding media, if they are involved in the process, which increases the intensity of mixing, increases the energy consumption of the interaction of material particles , increases productivity and expands technological capabilities.

Technical and economic advantages also arise due to the fact that the present invention provides for the manufacture of a mill drum not integral, but from rods, thus ensuring not only the separation of the crushed material into fractions, but also reduces the metal consumption and the mass of the drum.

Claims (1)

A rod mill containing a drum, a loading, unloading journal and a drive, characterized in that the drum is mounted from support rings, between which a cylindrical mesh surface of a wave-like shape is fixed along the perimeter, made of transverse and longitudinal bars, while the transverse bars are made in the form of wave-shaped rings forms with pockets of curved shape, and longitudinal rods made in the form of rods twisted with the same pitch along the helix of the diameters of the protrusions of pockets of curved cross-sectional shape bars, while the longitudinal bars are attached to the rings of the transverse bars on the inside of its pockets of curved shape, and a cylindrical spring with a circular cross section is mounted along the entire length of the cylindrical mesh surface of the wave-like shape, which is equipped with a device for changing the pitch of the coils by stretching or compressing it .

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