RU2568496C1 - Tubular continuous-operation mill - Google Patents

Abstract

FIELD: process engineering.

SUBSTANCE: claimed mill can be used for grinding of hard materials in construction, chemical industry, metallurgy and agricultural production. This mill comprises drum (1), loading and unloading spindles (2) and (3) and drive. Said drum consists of at least four rectangular constant-width strips, in even number. Said strips are twisted in lengthwise direction relative to their axes and in helical line on cylindrical mandrel in transverse direction. Said strips are bent alternately in opposite sides over weakened cross-section areas, that is notches. Said notches are made from the strips opposite sides at 60 degrees to each other and to strips lengthwise edges at different angles on walls-skews of said areas. Wall edges are connected to make equilateral triangles over the strip width. Said triangles alternate in opposite sides. Said strips are interconnected by their lengthwise edges to make, in inner perimeter, four and more curvilinear zigzag helical surfaces and grooves of the main and opposite directions.

EFFECT: simplified drum fabrication, higher intensity of mixing and efficiency.

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

A disadvantage of the known device is the insufficient frequency of interaction of the particles of the crushed material with each other and the grinding bodies, causing a low intensity of mixing and interaction of the particles of the material and limited technological capabilities.

Closest to the proposed device is a tube screw mill containing loading, unloading trunnions, a drive and a drum (RF patent No. 2362627, CL B02C 17/04, published on July 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.

A disadvantage of the known device is the insufficient change in the orientation of the resulting displacement vectors of the crushed materials and grinding media, which leads to a low intensity of interaction of material particles and limited technological capabilities in the process of transportation from loading to unloading.

A disadvantage of the known device is also the difficulty of assembling (manufacturing) such a drum from a large number of plates in the form of equilateral triangles, which leads to the formation of broken, rather than smooth helical lines around the perimeter of the drum, which also limits the performance and technological capabilities of the device.

A disadvantage of the known device is the lack of the ability to mechanize and automate the assembly process of the drums due to the fact that it is mounted from separate sections, and the sections are mounted from a large number of individual plates in the form of equilateral triangles in each section.

The technical solution to the problem is to simplify the assembly (manufacturing) of the drum, increase the orientation of the resulting displacement vectors of the crushed materials and grinding media, increase the frequency of movement and collisions of particles of the crushed materials with each other with grinding media and the walls of the drum, expand technological capabilities, and increase productivity.

The technical solution is achieved by the fact that in the proposed continuous tube mill containing a drum, loading, unloading trunnion and drive, the drum is made of an even number of at least four strips of a constant width of rectangular shape twisted in the longitudinal direction relative to its own axis 0 ₁ -0 ₁ and bent along a helical line on a cylindrical mandrel in the transverse direction, while the stripes are bent alternately in opposite directions along the zones of weakened section-notches made from different from the opposite sides of the strips at an angle of 60 ° to each other and to the longitudinal edges of the strips with a different combination of the slope of the bevel walls of the zones of weakened section-notches (α, β, ω, γ, δ, ω), and then the edges of the walls of the bevels of the zones of weakened cross-sectional notches are connected to each other with the formation along the length of the strip of equilateral triangles located alternately in opposite directions, while the strip is connected to each other along the longitudinal edges with the formation on the inner perimeter of four or more curved broken screw surfaces Tei polygonal and curved helical grooves mainstream as well as four or more curved surfaces and the polygonal spiral curved polygonal helical grooves in opposite directions.

The novelty lies in the fact that the drum is made of an even number of at least four strips of a constant width of rectangular shape twisted in the longitudinal direction relative to its own axis 0 ₁ -0 ₁ and curved in a helical direction on a cylindrical mandrel in the transverse direction, while the strips are bent alternately in opposite directions along the zones of weakened section-notches made from different opposite sides of the strips at an angle of 60 ° to each other and to the longitudinal edges of the strips with a different combination of wall angles of cuts of zones of weakened cross-section-cuts (α, β, ω, γ, δ, ω), and then the edges of the cuts are connected to each other with the formation along the length of the strip of equilateral triangles located alternately in opposite directions, while the stripes are connected one to the other longitudinal edges with the formation on the inner perimeter of four or more curved broken helical surfaces and curved broken helical grooves of the main direction, as well as four or more curved broken helical surfaces of curved scrap helical grooves in the opposite direction, which expands the range of resulting displacement vectors of grinding media and particles of the crushed material. Thus, the double curvature of the drum surface enhances the technological and transport effect due to the presence of multidirectional motion vectors of particles of the crushed materials and grinding media throughout the length of the drum.

The novelty of the invention lies in the fact that the elements of the broken curved helical surface of the drum are differently inclined not only to each other, but also to the axis of symmetry of the drum, therefore grinding bodies and crushed material receive additional movement from the elements of broken curved helical surfaces of the drum inclined to each other, and since the number of curved broken helical grooves of the main direction is equal to the number of broken helical grooves of the opposite direction, it increases and intensity of the interaction of working bodies and machined parts, increasing productivity and expanding technological capabilities.

The novelty of the proposal lies in the fact that such a design of a continuous tube mill with a cylindrical spring fixed with a flat coil section 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 drum arrangement, and ensure their intensive interaction between themselves and with the walls of the drum, which expands technological capabilities.

The novelty also lies in the fact that a cylindrical spring with a flat section of coils 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 intensity the interaction of grinding media and crushed materials, increases productivity, expands technological capabilities.

The novelty also lies in the fact that the twisting of each strip in the longitudinal and transverse directions provides an additional curvature of the drum surface, which increases the difference between the angles of inclination of the displacement vectors of the crushed materials and grinding bodies in adjacent parts of the drum surface, while particles of the crushed materials move along complex trajectories, increasing the frequency of collisions or otherwise intensifying the grinding process, which increases productivity and extends t hnologicheskie opportunities.

In addition, the novelty is due to the fact that the elements from which the drum is assembled are mounted at certain angles to each other, therefore, the grinding intensity increases, since these elements, working as shelves, capture portions of the material being ground and grinding media, direct them towards each other , thus violating the stationarity of their movement.

The novelty is seen in the fact that the area and shape of the cross section of the drum change 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, expands technological capabilities.

The novelty also lies in the fact that the cross-sectional passage of the drum has the shape of a polygon, the area of which along the length of the screw drum changes many times from loading to unloading, providing periodic compression of the masses of the material being crushed, which increases the intensity of grinding and the energy intensity of the collisions, expanding technological capabilities.

The novelty is due to the fact that the drum is equipped with four or more helical broken lines of equal pitch directed towards each other along the perimeter of the drum, and accordingly four and more curved broken helical grooves inside the drum directed also towards each other, which ensures the creation of flows directed towards each other crushed materials with maximum energy intensity of collisions of particles to each other and with the walls of the drum at different angles, increases the frequency of interaction of the part comminuted materials with each other, with the grinding bodies and with the drum wall, increases productivity and expands technological possibilities.

The invention is illustrated by drawings, where: in FIG. 1 shows a continuous tube mill, general view; in FIG. 2 is a section A-A in FIG. one; FIG. 3 - mill drum, general view, front view; in FIG. 4 is a view A in FIG. 3; FIG. 5 is a view of a strip from which a drum with weakened sections in plan is made; in FIG. 6 is a section BB in FIG. 5; in FIG. 7 is a view of the strip after twisting in a vertical plane relative to its longitudinal axis 0 ₁ -0 ₁ ; in FIG. 8 is a view of a strip after bending on a mandrel bent along a helical line in the transverse direction and bent along notches, with beveled walls; in FIG. 9 is a cross-section BB in FIG. 8.

The continuous tube mill (Fig. 1, Fig. 2) consists of a drum 1, loading 2 and unloading 3 pins. To provide additional longitudinal movement in the opposite direction of the particles of grinding media and crushed materials inside the drum 1, a cylindrical spring with a flat section of coils 4 is mounted, which is equipped with a device for changing the pitch of the coils of a coil spring 4 by stretching or compression (not shown in the figures). The adjustment of the pitch of the turns of the coil spring 4 can also be carried out during the operation of the mill. The continuous tube 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, the spring 4 spacing is reduced and, thus, the particle flow of the crushed materials changes in the opposite direction, which means that 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 coils of the spring 4 is increased and, thus, the flow of particles of the crushed material in the opposite direction 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).

Drum 1, for example (Fig. 3, Fig. 4), is made of four strips of constant width of rectangular shape 5, 6, 7, 8 with the formation along the perimeter along the outer diameter of the drum 1 of four helical lines of the main direction, for example, 9-10- 11-12-13-14 and four broken helical lines of the opposite direction, for example, 15-16-12-17-18-18-19.

On all strips 5, 6, 7, 8 (Fig. 5, Fig. 6) at an angle of 60 ° to the longitudinal edges 20 and 21 are made alternately from opposite sides of the zone of weakened section-notches 22 and 23 with beveled walls (Fig. 6) located in pairs at an angle to one another by milling, pressure treatment, etc., with the formation of equilateral triangles 24.

The geometry and angles α, β, ω, γ, δ, ω of the bevels of the zones of weakened cross-section-notches 22, 23 (Fig. 5, Fig. 6) and their relative position determine the angles of inclination of equilateral triangles 24 to each other around the perimeter of drum 1 The strips 5, 6, 7, 8 are twisted in a vertical plane (Fig. 7) in the longitudinal direction relative to the axis of symmetry of the strip 0 ₁ -0 ₁ , and then bent along helical lines on the cylindrical mandrel 25 in the transverse direction (Fig. 9) and bent along incisions 22 and 23 with beveled walls in the transverse-longitudinal direction, located in pairs at an angle to one another on both sides of the strips, such as strip 5 in FIG. 5, FIG. 6, FIG. 7, FIG. 8. In FIG. 8 shows one of the strips, for example 5, twisted in a vertical plane along its longitudinal axis 0 ₁ -0 ₁ with side edges 20 and 21. Pre-twisted in a vertical plane relative to the longitudinal axis 0 ₁ -0 ₁ strip, for example 6, is placed on the mandrel 25 (Fig. 8, Fig. 9) and bend so that the edges 20 and 21 are placed along helical lines and in the transverse direction. After bending in the transverse direction, each of the strips 5, 6, 7, 8 is rotated relative to the longitudinal axis 0 ₁ -0 _{1 of the} drum 1 so that their edges form helical lines in the transverse direction of the strips with the same pitch for all strips. After that, the strip is removed from the mandrel 25 or fixed on the mandrel 25. The remaining strips, for example, 6, 7 and 8, are treated in the same way. After folding the strip, for example strip 5 (Fig. 6, Fig. 7, Fig. 8, Fig. 9 ), the incisions are welded, resulting in stiffening ribs. Strips 5, 6, 7.8 after bending are connected to each other along the longitudinal edges 20 and 21. Such a connection of strips, for example four strips 5, 6, 7, 8, becomes possible, since after bending strips 5, 6, 7, 8 along straight lines of bend 22 and 23 (Fig. 7, Fig. 8) alternately to each other in opposite directions (Fig. 3) on the strip, faces are formed in the form of equilateral triangles 24 located on the strip alternately in opposite directions with the formation along the longitudinal the edges of the strips 5, 6, 7, 8, more precisely along the perimeter of the outer diameter of the drum 1, broken helical lines of the main direction, for example in FIG. 3 four broken helical lines of the main direction, one of which in FIG. 3 shows thickened lines 9-10-11-12-13-14 in increments of S ₁ , and four broken helical lines of the opposite direction, one of which in FIG. 3 is shown by the thickened line 15-16-12-17-18-18-19 in increments of S ₂ . In this case, the pitch of the helical lines of the main direction S ₁ and the opposite S ₂ are equal. In this design, along the length of the drum 1, each cross section-passage section is different from the previous one, while the area of the passage section changes, which violates the stationary motion of particles of the crushed material, increases the intensity of their interaction, and expands technological capabilities. In such a design of the drum 1, curved linear broken helical grooves of the main direction with a step S ₁ and curved broken screw grooves of the opposite direction with a step S _{2 are} formed on the inner perimeter. These grooves not only facilitate the movement of particles crushed, but also provide intensive interaction between them and expand technological capabilities.

The mill operates as follows. The drum 1 is filled with balls or other crushing medium and crushed material or one crushed material. When the drum 1 rotates, flat elements — equilateral triangles mounted around the perimeter of the drum 1 are differently inclined to the axis of rotation of the drum and to each other, working as buckets (shelves), capture different volume mixtures of grinding media and material or a mixture of particles of different particle sizes, lift them in the direction of rotation of the screw drum is slightly higher than the angle of repose, and then these portions of the mixture of material and grinding bodies are directed in the directions perpendicular to these shelves (buckets), at a certain angle not to the drum axis of rotation, but also to other mass flows by weight of a crushed material moving within the drum at different angles and with different speeds. The length of the trajectory of motion (amplitude) of the masses of the crushed materials and grinding media largely depends on the diameter of the drum, on the angle of inclination of the flat elements to each other and to the axis of rotation. The frequency of movement and collisions of the masses of material and grinding media is determined not only by the frequency of rotation of the drum, but also by the number of flat elements around the perimeter of the screw drum. Therefore, the proposed design of the mill provides an increase in the frequency characteristics of tens of times, expanding technological capabilities. Since the shape and dimensions of the cross section having the shape of a polygon change many times along the length of the drum from loading to unloading, multiple periodic compression of the masses of the crushed material is ensured, which increases the intensity of mixing, the energy intensity of the collisions, and expands the technological capabilities.

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

Technical and economic advantages also arise due to the fact that the present invention provides for the twisting of strips not only in the longitudinal but also in the transverse direction, thereby eliminating the need for local heating, plastic deformation, fitting and the like, and providing the possibility of manufacturing a drum using mechanization and automation .

Claims (1)

A continuous tube mill comprising a drum, loading, unloading journal and a drive, characterized in that the drum is made of an even number of at least four stripes of a constant width of rectangular shape, twisted in the longitudinal direction relative to its own axis 0 ₁ -0 ₁ and bent along a helical line on a cylindrical mandrel in the transverse direction, while the strips are bent alternately in opposite directions along the zones of weakened section-cuts made from different opposite sides of the strips at an angle 60 ° to each other and to the longitudinal edges of the strips with a different combination of the slope of the bevel walls of the zones of weakened section-notches (α, β, ω, γ, δ, ω), and then the edges of the bevel walls of the zones of weakened section-notches are connected with each other with the formation along the length of the strip of equilateral triangles alternately located in opposite directions, while the strip is connected to each other along the longitudinal edges with the formation of four or more curved broken screw surfaces and curved broken wines along the inner perimeter ovyh main direction grooves, and four or more curved surfaces and the polygonal spiral curved polygonal helical grooves in opposite directions.

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