RU2546180C1 - Mixer of loose materials - Google Patents

Abstract

FIELD: process engineering.

SUBSTANCE: invention relates to drum-type mixers used for preparation of fodder. This mixer comprises bed to support spinning drum and drive. Said drum is composed of sections interconnected in turns by their end polyhedron-shape openings over the drum length. Each section consists of two subsections.

EFFECT: higher quality of mixing.

9 dwg

Description

The invention relates to devices for mixing, in particular to drum mixers of continuous action of bulk materials, and can be used for mixing coarse, juicy, watery and concentrated feed.

Known drum feed mixer (and.with. No. 1666173, class B01F 19/02, 1987) containing a drum with helical surfaces, consisting of sections, each of which is made of identical in size plates having the shape of equilateral triangles interconnected two sides on the surface of the drum and placed at an angle to each other and to its axis, while the sections are interconnected by the free sides of the plates and form multidirectional screw surfaces of equal pitch, and the number of plates in the section is even and, as a minimum m, equal to six.

A disadvantage of the known device is the limited technological capabilities due to the fact that mixing is carried out with insufficient mixing intensity and insufficient interaction of the feed components with each other, as well as the need to create a tilt of the drum for transporting them from loading to unloading.

Closest to the proposed invention is a device for the preparation of feed (RF patent No. 2028070, class A23N 17/00, 1990), containing a frame mounted on it with the possibility of rotation of the drum, consisting of sections made in the form of a straight triangular prism, formed by the cross section of the cube diagonally, with the same-name ribs of adjacent sections connected at right angles.

A disadvantage of the known device is the limited technological capabilities due to the fact that mixing is carried out with insufficient mixing intensity and insufficient interaction of the feed components with each other, as well as the need to create a tilt of the drum for transporting them from loading to unloading.

The technical solution to the problem is to expand technological capabilities and ensure the transportation of feed components from loading to unloading with a horizontal axis of rotation of the drum.

The technical solution is achieved by the fact that in the mixer of bulk materials containing the frame and mounted on it with the possibility of rotation of the drum, consisting of sections, and the drive, the drum is mounted from sections, alternately connected to each other along the length of the drum with their end holes in the form of polygons, each of sections is assembled from two subsections, the first perimeter subsection is mounted from an even number (at least four) of the same first isosceles triangles, alternately connected by their sides with the sides of at least four identical second isosceles triangles, the bases of which are larger than the bases of the first four isosceles triangles, with the formation of small and large end holes in the form of polygons, and the second subsection is mounted from at least four identical equilateral triangles alternately connected along the perimeter with the sides equal to the bases of the second isosceles triangles of the first subsection, with the sides of at least four identical isosceles t triangles with an angle at the apex of 90 ° with the formation of small and large end holes in the form of polygons, and the large end hole in the form of a polygon of the first subsection is equal to the small end hole in the form of a polygon of the second subsection, while the subsections are connected to each other in sections by their end holes in in the form of polygons and along the entire length of the drum, a conical spring is mounted with a flat section of turns and with a direction of turns opposite to the direction of rotation of the drum, which is equipped with Wang device for changing a pitch of the turns by stretching or compressing it.

According to the patent literature not found a technical solution similar to the claimed, which allows to judge about the inventive step of the proposed design of the mixer bulk materials.

The novelty is seen in the fact that the area and shape of the cross and longitudinal sections of the drum vary along the entire length from loading to unloading, which changes the speeds and trajectories of the movement of particles of components of bulk materials, expands technological capabilities.

The novelty lies in the fact that due to the mutually directed broken helical lines, the vectors of the particle velocity of the components of bulk materials during transportation from load to unload change, which contributes to the intensification of the processing process and expands technological capabilities.

The novelty also lies in the fact that along the inner perimeter of the drum, broken helical surfaces are formed along the length of the drum, which ensures a violation of the stationary flows of particles of the components of bulk materials, increase the productivity of feed preparation, and expand technological capabilities.

The novelty is also seen in the fact that the length and area of the cross-section of the drum increases from loading to unloading due to the conditionally conical shape of the drum, which not only intensifies the process of mixing bulk materials, since it violates the stationary motion of the mass flows of particles of components of bulk materials, changing the amplitude fluctuations as they move from loading to unloading, but also ensures their movement in the axial direction.

The novelty of the proposal also lies in the fact that a conical spring with a rectangular section of coils and with a direction of coils opposite to the direction of rotation of the drum, which provides not only the movement of particles of bulk materials in a radial direction opposite to the direction of inclination of the drum of a conditionally conical shape, is mounted along the entire length of the drum, but also contributes to the intensification of the feed preparation process due to the fact that particles of materials circulating inside the drum in oskostyah perpendicular to its symmetry axis, meeting with rectangular coils conical spring, change the trajectory of its motion and moved to the periphery of the drum, increase the intensity of their interaction with each other and with the walls of the drum, extend technological capabilities.

The novelty also lies in the fact that the conical spring mounted along the entire length of the drum with a rectangular section of the coils is equipped with a device for changing the pitch of the coils by stretching or compressing it, which allows you to influence the nature of the movement of particles of bulk materials and change the speed of their movement from loading to unloading, expands technological capabilities.

The novelty also lies in the fact that the direction of the coils of a spring of a conical shape with a rectangular cross-section of the coils is opposite to the direction of rotation of the drum, which ensures the creation of counter-directed flows of particles of bulk materials, increases the intensity of processing, and expands technological capabilities.

The invention is illustrated by drawings, where: in Fig.1 shows a General view of the mixer of bulk materials; figure 2 is a view A in figure 1; figure 3 is a drum, front view; figure 4 is a view of B in figure 3; figure 5 is a view of B in figure 4; figure 6 is a first subsection, a visual image; in Fig.7 - the second subsection, a visual image; on Fig - assembly diagram of a section of two subsections, a visual image; Fig.9 is a diagram of the assembly of sections with each other in a drum.

The mixer of bulk materials (figure 1, figure 2) consists of a frame 1, made in the form of a welded frame. A drive of the main movement is fixed on the bed, consisting of an electric motor 2, a gearbox 3 and four roller bearings 4. The drum 5 is equipped with two rims 6 and 7, which rely on roller bearings with flanges 4.

A means for loading 8 and unloading 9 is mounted on the bed 1. To provide additional longitudinal movement of particles of bulk materials inside the drum 5, a conical spring 10 with a flat section of turns is mounted with the direction of the turns opposite to the direction of rotation of the drum 5. The spring 10 is equipped with a device for changing the pitch turns of the spring 10 by tension or compression (not shown in the drawings). The adjustment of the pitch of the turns of the spring 10 can be carried out during the preparation of feed. The spring 10 is mounted inside the drum 5 and is mounted on one side to the loading device 8, and on the other hand, to the stand 11, which in turn is mounted on the frame 1. The device for changing the pitch of the turns of the spring 10 is not shown in the drawings.

The drum 5 (figure 3, figure 4, figure 5) is mounted from sections 12, alternately connected to each other by their end holes in the form of polygons. Each of the sections is assembled from two subsections 13 and 14.

The first subsection 13 (Fig.6) around the perimeter is mounted from an even number of at least four identical first isosceles triangles 15, alternately connected along the perimeter of subsection 13 with their sides and sides of the same four second isosceles triangles 16, the bases 17 of which are larger than the bases 18 of the first isosceles triangles 15. At the ends of the subsection 13, a small end hole in the form of a polygon 19 and a large end hole in the form of a polygon 20 are formed.

The second subsection 14 (Fig. 7) is mounted around the perimeter of at least four identical equilateral triangles 21, the sides of which are equal to the base 17 of the second isosceles triangles 16 of the first subsection 13, alternately connected along the perimeter of their sides with the sides of at least four identical isosceles triangles 22 with apex angle of 90 °. At the ends of the subsection 14, a small end hole in the form of a polygon 23 and a large end hole in the form of a polygon 24 are formed.

In the subsection section 13 and 14 are mounted (Fig. 8) the sides of the large end hole 20 with the sides of the small end hole 23 of the subsection 14.

The drum 5 is mounted (Fig.9) by attaching a large end hole in the form of a polygon 24 of the first section 12 to the small end hole 19 of the second section 12. Sections 12 of the first, second and subsequent are the same in shape and assembly, but different in size. Thus, the drum 5 is mounted with the formation of a multi-start helical drum 5 of conditionally conical shape with mutually directed broken helical lines.

For example, in FIG. 3, one of the right broken helical lines is shown by a thickened line 25-26-27-28-29 and one of the left broken helical lines is shown by a thickened line 30-31-27-32-33.

Broken helical lines form along the inner perimeter of the drum 5 broken helical surfaces consisting of faces in the form of equilateral and isosceles triangles 15 and 16 of the first subsection 13 and equilateral triangles 21 and isosceles triangles 22 of the second subsection 14.

Helix lines on the outer surface of the drum 5 have the same position designations with their corresponding grooves on the inner surface.

Since subsection 13 has a small end hole 19 and a large end hole 20, and subsection 14 has a small end hole 23 and a large end hole 24, sections 12 have variable longitudinal and variable passage sections along the entire length of the conditionally conical drum formed as a result of the assembly 5.

A conical spring 10 with a rectangular coil section and a coil direction opposite to the direction of rotation of the drum 5 is mounted along the entire length of the drum 5, which provides not only the movement of particles of bulk materials in the radial direction in the opposite direction of the slope of the conical drum 5, but also helps to intensify the processing due to the fact that particles of bulk materials circulating inside the drum 5 in planes perpendicular to its axis of symmetry, meeting with rectangular turns of a conical spring 10, change the trajectory of their movement and move to the periphery of the drum 5, increase the intensity of their interaction with each other and with the perforated walls of the drum 5, expand technological capabilities.

The mixer bulk materials works as follows.

In the rotary drum 5 of the mixer of bulk materials through the means for loading 8 are continuously loaded components of bulk materials. During the rotation of the drum 5, the components of the bulk materials move along the helical grooves, after mixing in the drum 5, they are discharged from the drum 5 into a means for unloading 9.

During the rotation of the drum 5, the particles of the components of the bulk materials are captured by the faces of the inner screw surface and in the direction of rotation rise up and move towards the discharge side. Upon reaching a certain height under the influence of gravitational forces and the angle of repose formed, the particles of the components of bulk materials move towards each other at certain angles and to the walls of the rotating drum 5 and move towards the discharge side. Since the broken inner surface of the drum 5 is continuous, bulk materials that rise up and fall down, move at different angles. Since the inner surface of the drum 5 is mounted from different in shape equilateral and isosceles triangles, which are located at different angles not only to each other, but also to the axis of rotation of the drum 5, each portion of the particles of the components of bulk materials moves along its direction vector towards the discharge side, which significantly intensifies the process of their interaction with each other and with the walls of the drum 5, increases the intensity of the interaction of particles of feed components, particles of bulk materials and The growing technological possibilities. Since, due to the broken shape of the inner surface of the drum 5, the range of changes in the resulting displacement vectors of the particles of feed components, particles of bulk materials is significantly expanded, each particle of feed components, particle of bulk materials moves in different direction vectors, which provides a greater probability of collisions at the initial moment of separation them from the walls of the drum 5, where they have a certain supply of kinetic energy and move with high kinetic energy, therefore, intensification is ensured process, for example, the preparation of feed.

The speed of movement of particles of bulk materials is determined not only by the conicity of the conditionally conical shape of the drum 5, but also by the step size of the spring 10, the turns of which are opposite to the rotation of the screw drum 5.

Technical and economic advantages arise due to the widening of the range of changes in the resulting displacement vectors of particles of bulk materials, increasing the intensity of their mixing and reorientation, as well as increasing the speed of their movement from loading to unloading, which increases the intensity of mixing, increases the energy intensity of their interaction with each other and with the walls drum 5, improves productivity, expands technological capabilities.

Claims (1)

A bulk material mixer comprising a bed and a rotationally mounted drum consisting of sections, and a drive, characterized in that the drum is assembled from sections, alternately connected to each other along the length of the drum by their end openings in the form of polygons, each of the sections is assembled of two subsections, the first perimeter subsection is mounted from an even number of at least four identical first isosceles triangles, alternately connected by their sides on the sides at least four identical second isosceles triangles, the bases of which are larger than the bases of the first four isosceles triangles, with the formation of small and large end holes in the form of polygons, and the second subsection is mounted from at least four identical equilateral triangles alternately connected along the perimeter with sides equal to the bases second isosceles triangles of the first subsection, with the sides of at least four identical isosceles triangles with an angle at a vertex of 90 ° with the formation of a small and a large end hole in the form of polygons, the large end hole in the form of a polygon of the first subsection is equal to the small end hole in the form of a polygon of the second subsection, and a conical spring with a flat section of coils is mounted along the entire length of the drum the direction of the turns opposite to the direction of rotation of the drum, which is equipped with a device for changing the pitch of the turns by stretching or compressing it.

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