RU139987U1 - DEVICE FOR TRANSPORTING MATERIALS - Google Patents

Abstract

A device for transporting materials containing loading and unloading nozzles, a pipeline for supplying a working fluid and a drive casing, characterized in that the drive casing is mounted from sections made of different shapes and sizes, increasing from loading to unloading, connected in series and alternately, while the first section is made of two subsections, one of which is mounted from two large different-sided triangles connected by their bases to the sides of the large equilateral trapezoid, and the second subsection is mounted from a small equilateral trapezoid, to the sides of which are attached two smaller miscellaneous triangles with their smaller sides, the bases of which are equal to the large sides of the triangles of the first subsection, by which the subsections are connected to each other, and the upper bases of the trapezoid of the two subsections are equal to each other to each other and equal to the small lateral sides of the triangles of the first subsection with the formation of a small inlet section, and the lower bases of the trapezoid are equal to each other and large equal sides of the triangles to form the second subsection large outlet section to which is connected a second section, made in the form of a straight triangular prism formed by a section of a cube diagonal.

Description

The invention relates to devices for transportation, for example, transportation of granular and bulk materials and can find application in the construction, exploration, engineering, chemical, pharmaceutical, food, animal feed and other industries.

A device is known (AS No. 490734, class B65G 33/12, 1972) containing loading and unloading nozzles, a drive housing in the form of a column of cylindrical shape, inside which a pipeline for supplying a working fluid is fixedly installed.

A disadvantage of the known device is the limited technological capabilities in view of the insufficient speed of movement of the material and the need to create a slope of the entire structure of the device to move materials from loading to unloading. The bore of the drive housing is constant over the entire length, which determines the stationary material movement.

Closest to the proposed invention is a device for transporting materials (patent No. 2220896, class B65G 33/26, publ. 01/10/2004. Bull. No. 1), containing loading and unloading nozzles, a pipeline for supplying a working fluid and a drive housing made of sections sequentially installed along the length of the drive housing, each of which is made of plates in the form of two pairs of triangles connected by the sides, and the first pair is made of plates in the form of two identical isosceles triangles, and the second pair and made of plates in the form of an isosceles triangle, equal to the isosceles triangle of the first pair, and from a plate in the form of an equilateral triangle, whose sides are equal to the side of the isosceles triangle, with each subsequent section being rotated 120 ° relative to the previous one.

A disadvantage of the known device is the complexity of manufacture and limited technological capabilities.

The technical solution to the problem is the expansion of technological capabilities due to the formation along the perimeter of the drive case of a multi-start conditionally conical helical surface and four broken conical helical lines of the main direction and two broken helical lines of the opposite direction with increasing not only the pitch of the helical lines, but also the transverse area section of the drum from loading to unloading.

This object is achieved in that in a device for transporting materials containing loading and unloading nozzles, a pipeline for supplying a working fluid and a drive housing, the drive housing is mounted from sections made of different shapes and sizes, increasing from loading to unloading, connected in series and alternately, when this first section is made of two subsections, one of which is mounted from two large versatile triangles connected by their bases to the sides of the bol a larger equilateral trapezoid, and the second subsection is mounted from a small equilateral trapezoid, to the sides of which are attached two smaller miscellaneous triangles, the bases of which are equal to the large lateral sides of the triangles of the first subsection, by which the subsections are connected to each other, and the upper bases of the trapezoid of two subsections equal to each other and equal to the small lateral sides of the triangles of the first subsection with the formation of a small inlet section, and the lower base of the ladder tions are equal to each other and are large lateral sides of the triangles to form the second subsection large outlet section to which is connected a second section, made in the form of a straight triangular prism formed by a section of a cube diagonal.

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 device for transporting materials.

The novelty of the invention lies in the fact that by increasing the bore of the drive housing from loading to unloading, i.e. conditionally conical shape of the drive housing, the stationary motion is violated, the productivity and efficiency of material transportation is increased, its movement from loading to unloading is ensured, technological capabilities are expanded.

The novelty is that the elements from which the sections and subsections are assembled are different in shape and size, so the transportation speed increases, since these elements, working like shelves, capture portions of material different in volume, directing them to the walls of the drive housing, which increases productivity and expands technological capabilities.

The novelty is also due to the fact that since the number of visits of screw broken lines of the main direction is two times greater than the number of screw broken lines of the opposite direction and the pitch of these helical lines increases from loading to unloading, this increases the speed of transportation from loading to unloading, expanding technological capabilities .

The novelty also lies in the fact that the centers of symmetry of each cross section of the drive housing along its length are offset not only relative to each other, but also relative to the axis of rotation of the drive housing, which provides a significant increase in energy intensity, intensity and frequency of interaction of particles and expands technological capabilities.

The novelty is also due to the fact that the elements from which the sections of the drive housing are assembled, different in area, size and configuration, interact with moving particles of materials, are directed to each other at certain angles and therefore direct this material at different angles, which increases their miscibility, energy consumption , amplitude and frequency of interaction of particles and expands technological capabilities.

The novelty also lies in the fact that since the length of the drive housing changes not only the dimensions of the bore, but also the shape of the bore, which increase from loading to unloading, the mixing process is intensified, the amplitude of oscillations of the particles of materials increases, i.e. the length of the path of their movement to meet with other portions of the material increases, the speed of transportation from loading to unloading increases.

The invention is illustrated by drawings, where: in Fig.1 shows a device for transporting materials, General view; figure 2 is a section aa in figure 1; figure 3 -. drive housing, general view, front view; figure 4 - drive housing, a top view of figure 3; Fig.5, - drive housing, view A, Fig.4; 6 is a first section Assembly, a perspective view; Fig.7 is a first subsection of the first section in the Assembly, axonometric projection; Fig. 8 is a second sub-section of the first section, a perspective view; Fig.9 - the second section, axonometric projection; figure 10 - assembly diagram of the sections of the drive housing.

A device for transporting bulk materials (Fig. 1, Fig. 2) consists of a drive housing 1 mounted on bearings 2, a loading pipe 3, a discharge pipe 4, a fixed pipe 5 of a cylindrical or conical (not shown) shape and a drive 6.

The drive housing 1 (Fig. 3, Fig. 4, Fig. 5) is mounted from two different sections alternately connected - the first section - A (Fig. 6) and the second section - B (Fig. 9) and is equipped with multidirectional broken conical helical lines with a variable along the length of the drum 1 step S ₁ and S ₂ . The step of four broken conical helical lines S ₁ , one of which is shown in figure 3, figure 4 thickened line 7-8-9-10-11-12-13-14-15-16-16 twice the step of two broken conical helical lines opposite direction S ₂ , one of which is shown in figure 3, figure 4 by a double line 17-18-19-20-21-22-23-24-24-25-26-27-28. Sections A and B differ from each other not only in shape, but also in size. The first section A (Fig.6) is mounted from two subsections 29 (Fig.7) and 30 (Fig.8), connected to each other by the sides 31 and 32 (Fig.6). Subsection 29 (Fig. 7) is mounted from a large equilateral trapezoid 33 and two different-sided triangles 34 and 35, the bases of which are equal to the lateral sides of the trapezoid 33, along which they are connected at an angle of 90 °. The lateral sides 36 and 37 of triangles 34 and 35 are equal to the upper base 30 of the trapezoid 33 with the lower base 39. The second subsection 30 (Fig. 6) is mounted (Fig. 8) from a small equilateral trapezoid 40, which is connected by its angles 41 and 42 at an angle 90 (with small sides of triangles 43 and 44. The large sides of 45 and 46 of triangles 43 and 44 are equal to the lower base 47 of the small trapezoid 40 and the lower base 39 (Fig. 7) of the large trapezoid 33 with the formation of a large outlet of the first section. 48 small trapezium 40 second subsection (Fig. 8) is equal to the upper base 38 of the trapezoid 33 and the lateral sides 36 and 37 of the triangles 34 and 35 of the first subsection (Fig. 7) with the formation of a small inlet of the first section. Therefore, when connecting the subsections 29 and 30 (Fig. 6), so as the sides 36, 37, 38, 48 forming the inlet of the first section are equal to each other and are located at an angle of 90 °, then the inlet is square in shape, and the sides 45, 46, 47, 39, forming the outlet of the first section are also equal to each other and are also located at an angle of 90 °, then the outlet is also square ormy on which the second section joins the first section AB

The second section B (Fig. 9) is made in the form of a straight triangular prism formed by the cross section of the cube diagonally with the formation of sides 49, 50, 51, along which the second section B is connected to the outlet of the first section A after turning 90 ° (Fig. 10 )

Mounting the drive housing 1 (figure 10) is performed in the following sequence:

- to the first section A with a square-shaped inlet equal to, for example, a = 500 mm and a square-shaped outlet, for example b = 600 mm, after turning 90 °, a second section B is attached with side dimensions, in = 600 mm, to which, in turn, after turning through 90 °, the next first section A is connected with the dimensions of the square inlet already equal to = 600 mm. and the output square hole d = 700 mm. The next second section B is connected to the outlet of this section already with side dimensions w = 700 mm. etc. the installation of the drum sections 1 is subsequently carried out by sections A and B, with the dimensions of the inlet and outlet square openings increasing from loading to unloading sequentially and alternately. This structural design of the drive housing 1 provides a change in the length of the drive housing not only the size of the passage section of the drive housing (figure 1, figure 2, figure 3, figure 4, figure 5), but also the shape of the passage section of the drive case 1. Moreover, the centers of symmetry of the inner surface of the drive housing 1 in each of its cross-sectional elements along its length are shifted relative to the axis of rotation of the drive housing 1, which violates the stationary motion of the particles of the material.

The transportation of materials in the device is as follows.

When the drive housing 1 rotates, the materials fed through the loading nozzle 3 move along the helical grooves between the walls of the pipeline 5 and the side walls of the drive housing 1, move at a higher speed, and this speed with increasing pitch of the helical lines along the length of the drive housing 1 increases, and are removed from the installation through the discharge pipe 4.

The process of transportation, mixing and drying can be accelerated or slowed down by supplying refrigerant and heat agent to the cavity of the stationary pipe 5, or installing thermocouples in the pipe 5 (not shown in the drawing).

Claims (1)

A device for transporting materials containing loading and unloading nozzles, a pipeline for supplying a working fluid and a drive casing, characterized in that the drive casing is mounted from sections made of different shapes and sizes, increasing from loading to unloading, connected in series and alternately, while the first section is made of two subsections, one of which is mounted from two large different-sided triangles connected by their bases to the sides of the large equilateral trapezoid, and the second subsection is mounted from a small equilateral trapezoid, to the sides of which are attached two smaller miscellaneous triangles with their smaller lateral sides, the bases of which are equal to the large lateral sides of the triangles of the first subsection, by which the subsections are connected to each other, and the upper bases of the trapezoid of the two subsections are equal to each other to each other and equal to the small lateral sides of the triangles of the first subsection with the formation of a small inlet section, and the lower bases of the trapezoid are equal to each other and large equal sides of the triangles to form the second subsection large outlet section to which is connected a second section, made in the form of a straight triangular prism formed by a section of a cube diagonal.

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