RU2690622C1 - Cement kiln - Google Patents

Abstract

FIELD: cement annealing.SUBSTANCE: invention relates to a cement kiln. Kiln comprises a drum arranged horizontally and mounted on a plate fixed by means of elastic elements on the base, equipped with a vibration activator and located inside along the entire length of the drum with a spring with a device for changing the pitch of the spring turns by stretching or compressing, wherein the drum is mounted from sections assembled from two identical subsections, made from an even number of three and more identical isosceles triangles, successively connected along the perimeter of subsections with three and more identical equilateral trapezoids, with formation of small and large end holes in the form of polygons, number of sides of small end hole is twice more than number of sides of large end hole, and in section two subsections are connected to each other by sides of large end holes, and sections are connected to each other along drum length by their sides of small end holes with formation along perimeter of drum of at least six surfaces of wave-like shape and not less than three pairs of directed towards each other broken screw lines, at that wave-like spring with flat section of turns is arranged along drum length.EFFECT: enabling expansion of technological capabilities, increase in efficiency and simplification of furnace manufacturing.1 cl, 5 dwg

Description

The invention relates to devices for the production of cement and can be used in the cement industry, construction and production of building materials.

Known rotary kiln firing bulk material (AS No. 1322051, CL 27V 7/16, publ. BI No. 25, 1987), containing heat exchangers and screw insert, placed in the working space of the furnace, and equipped with a screw-shaped ring and brackets, the plane of which is directed along the generatrix of the furnace, with a screw insert fixed on one side of the bracket and a screw-shaped ring on the other, the screw-shaped ring fixed at an angle to the radial direction of the furnace and the screw insert fixed in front of heat exchangers, counting in the direction of the gas.

A disadvantage of the known rotary kiln is the need to create a slope for transporting bulk material from loading to unloading, the complexity in connection with its operation, insufficient heat exchange and limited technological capabilities.

Closest to the proposed invention is a cement kiln (options) (RF patent No. 2483260, CL 27В 7/14, publ. BI No. 15, 05.27.2011), containing a drum located horizontally and mounted on the plate rigidly fixed with elastic elements on the base is provided with a vibroactivator and a cylindrical spring arranged inside the entire length of the drum with a device for changing the pitch of the coils of the spring by stretching or compressing it, while the drum is three or more folded in the vertical plane and curved along the helical lines in the transverse direction and bent along the notches, with beveled walls arranged at an angle to each other on both sides of the strips of the same width with the formation of broken helical lines and broken helical surfaces with a constant pitch along the perimeter of the drum.

A disadvantage of the known furnace is the complexity of manufacturing, insufficient productivity and limited technological capabilities.

The technical solution of the problem is to simplify manufacturing, increase productivity and expand technological capabilities.

The technical result is achieved by the fact that in a cement kiln containing a drum horizontally and mounted on a plate fixed with elastic elements on the base is provided with a vibration activator and a spring located inside the full length of the drum with a device for changing the spring pitch of the spring by stretching it or compression, characterized in that the drum is mounted from sections assembled from two identical subsections, made from an even number of three or more identical isosceles triangles, n alternately connected along the perimeter of subsections with three or more identical equilateral trapezoids, with the formation of small and large end openings in the form of polygons, while the number of sides of the small end openings is twice the number of sides of the large end openings, and in section two subsections are connected to each other the sides of the large end openings, and the sections are attached to each other along the length of the drum with their sides of the small end openings with the formation around the perimeter of the drum at least six wave surfaces different forms and at least three pairs, directed towards each other polygonal helical lines, wherein, throughout the length of the drum is mounted a spring wave-shaped cross section with flat coils.

According to the patent-technical literature, no technical solution was found, similar to the declared one, which allows to judge about the inventive level of the proposed designs of the cement kiln.

The novelty lies in the fact that the drum is mounted from sections assembled from two identical subsections, made from an even number of three or more identical isosceles triangles alternately connected along the perimeter of the subsections with three or more equal equilateral trapeziums, with the formation of small and large end holes in the form polygons, and in section two subsections connect with each other the sides of large end openings, and the sections are attached to each other along the length of the drum with their sides small end holes s, making it easier to manufacture.

The novelty of the invention lies in the fact that such a structural design of the drum allows to provide not only the expansion of technological capabilities, but also the compression of the particles of the raw cement mass as it moves from loading to unloading, as well as to increase productivity.

The novelty is also seen in the fact that the area and shape of the transverse and longitudinal sections of the drum vary along the entire length from loading to unloading, which changes the speed and trajectory of movement of particles of the raw cement mass, expands technological capabilities, improves productivity.

The novelty of the invention lies in the fact that this structural design of the drum allows for consistent gradual compaction and rarefaction of the flow of particles of the raw cement mass from loading to unloading, which intensifies the process of burning cement and expands the technological capabilities of the furnace.

The novelty lies in the fact that, due to the interdirectional broken screw lines, the vectors of the velocity of the particles of the raw cement mass during transportation from loading to unloading change, which contributes to an increase in the productivity of the cement kiln process and expands its technological capabilities.

The novelty also lies in the fact that broken screw surfaces along its entire length are formed along the inner perimeter of the drum, which ensures a violation of the stationary flows of particles of the raw cement mass inside the drum, increasing productivity, expanding technological capabilities.

The novelty is due to the fact that the drum is made with the formation along the inner perimeter of at least three broken right and left helix lines directed towards each other, which ensures the creation of streams of particles of raw cement mass directed towards each other with the maximum energy intensity of collisions to each other and with the walls of the drum under different angles, increases the frequency of their interaction with each other and with the walls of the drum, increases productivity and expands technological capabilities.

The novelty of the invention is as follows: since the frequency of movement of the particles of the raw cement mass in the proposed design of the kiln is determined not only by the frequency of the vibroactivator, but also by the number of flat elements around its perimeter, this structural design of the drum surface by increasing the number of flat elements each section along the perimeter, increases the frequency of collisions of particles of raw cement mass between themselves and with the walls of the drum, increases productivity, increases t technological capabilities.

In addition, the novelty is due to the fact that the elements of which the drum is assembled are of different configurations and mounted at certain angles to each other, therefore the intensity of movement of the particles of the raw cement mass increases and directs them towards each other, thus disturbing their stationarity movement, providing increased productivity and enhanced technological capabilities.

The novelty is seen in the fact that the cross-sectional area and shape of the drum changes in each cross-section along its entire length from loading to unloading, which intensifies the mixing process, increases the energy intensity of the interaction of particles of the raw cement mass, expands technological capabilities.

The novelty lies in the fact that the cross section of the drum has a polygon shape, the area of which varies many times from loading to unloading, providing periodic compression of the raw cement mass, which increases the intensity of mixing and energy intensity of collisions, expands technological capabilities and increases productivity.

The novelty is also seen in the fact that the area and shape of the transverse and longitudinal sections of the drum vary along the entire length from loading to unloading, while the number of sides of the small end opening is two times less than the number of sides of the large end opening, which changes the speeds and trajectories of movement of the raw cement particles mass, expands technological capabilities.

The novelty also lies in the fact that along the perimeter of the drum there are formed broken surfaces from flat elements of various shapes and sizes, which ensures a violation of the stationarity of the flow of particles of the raw cement mass inside the drum, expands technological capabilities and improves productivity.

The novelty of the proposal also lies in the fact that along the entire length of the drum a wavy-shaped spring is mounted that provides not only the movement of particles of the raw cement mass in the longitudinal direction from loading to unloading, but also contributes to the intensification of the cement burning process due to the fact that the particles of raw cement mass circulating movement inside the drum in planes perpendicular to its axis of symmetry, meeting with coils of the wave-shaped spring, change the trajectory of its movement and move to the periphery of the drum, increase the intensity of their interaction with each other and the walls of the drum, expanding technological capabilities and improve performance.

FIG. 1 shows a longitudinal section of a part of the furnace; in fig. 2 shows section A-A in FIG. one; in fig. 3-drum oven, front view; FIG. 4 - section-BB in FIG. 3; FIG. 5 - a visual image of the furnace drum.

The cement kiln (Fig. 1, Fig. 2) contains a drum 1 mounted horizontally on a plate 2, which is fixed to the base 4 by means of elastic elements 3. The drum 1 is equipped with a vibroactivator 5, which is rigidly attached to the plate 2. To ensure the longitudinal moving the particles of cement raw mass inside the drum is mounted a spring wave 6, which is equipped with a device for changing the pitch of the coils of the spring 6 by stretching or compressing it (not shown). The adjustment of the step size of the coils of the spring 6 can also be made in the process of cement firing, i.e. in the process of the furnace. Depending on the material being processed (cement raw mass), the required heat treatment time, this spring pitch 6 is set, which meets the optimal heat treatment conditions. For example, if a small heat treatment time is required, then to increase the throughput of the drum 1, the spring pitch 6 is increased by stretching it by known means, which accelerates the movement of the material from loading to unloading. During the heat treatment of the material, requiring a long residence time in the drum 1, the pitch of the coils of the spring 6 is reduced by its compression. In the desired position, the spring 6 is fixed with known devices (not shown). Adjusting the pitch of the spring 6 can be carried out while rotating the drum 1 in the process of roasting cement.

Drum 1 (Fig. 3, Fig. 4) is assembled from sections 7 mounted from two identical subsections 8 and 9 (Fig. 3, Fig. 4, Fig. 5).

Subsections are made, for example, subsection 8 (Fig. 5) from an even number of at least three identical isosceles triangles 10, 11, 12, alternately connected along the perimeter of subsection 8 with at least three identical equilateral trapeziums 13, 14, 15 with the formation of small and large end openings in the form of polygons 16, 17, while the number of sides of the small end opening 16 is twice the number of sides of the large end opening 17.

In section 7, two subsections 8 and 9 are connected to each other by the sides of large end openings 17, and the sections are attached to each other along the length of the drum by their sides of small end openings 16 with the formation of a wave-like shape of at least three pairs of broken towards each other helix lines, for example, 18-19-20-21 and 21-22-19-23, and the formation along the perimeter of drum 1 at least six wave-shaped surfaces, for example, 24-25-26 (Fig. 3).

Along the entire length of the drum 1, a wave-shaped spring 6 is mounted, which is equipped with a device for changing the pitch of the turns by stretching or compressing it (not shown).

Broken helixes form around the perimeter of the drum 1 broken screw surfaces consisting of faces, for example, in the form of isosceles triangles 10, 11, 12 and isosceles trapezoids 13, 14, 15 in the cross section of drum 1 and along the longitudinal axis of drum 1 not less than six surfaces undulating forms, for example 24-25-26 and 27-28-29 (Fig. 3, Fig. 5).

Broken helixes on the outer surface of the drum 1 have the same position designations with their corresponding grooves on the inner surface.

Since subsections 8 and 9 have small end openings 16 and large end openings 17, sections 7 have variable longitudinal and variable flow sections along the length of drum 1.

The cement kiln is equipped with a device to control the inclination of the kiln (not shown). The change of the angle of inclination is carried out in order to control the speed of movement of the cement raw mass from loading to unloading.

To provide additional longitudinal movement of the cement raw mass and to intensify the process of moving the cement raw mass inside, along the entire length of the drum 1, a wave-shaped spring 6 is mounted, which is equipped with a device for changing the coil pitch by stretching or compressing it (not shown). Adjustment of the step size of the coils of the spring can be made in the process of cement firing.

The drum 1 has (fig. 3, fig. 4, fig. 5) a variable longitudinal section and a variable passage cross-section along the length.

The cement kiln works as follows. The disturbing force of the rotating vibrator through the plate 2 and the walls of the drum 1 is transmitted to the particles of the cement raw mass. Under the influence of vibration, the cement raw mass makes a rotational movement — a circulation movement in planes perpendicular to the longitudinal axis of the drum 1. Radial movement of the particles of the cement raw mass is ensured by the fact that the particles of the raw cement mass making circulation movement inside the drum 1 in planes perpendicular to the axis of symmetry drum 1, meeting with coils of a motionlessly fixed spring of a wave-like shape, change the trajectory of its movement and move from loading to uzke along helical lines. In this case, the particles of the raw cement mass move along the helical windings of the spring 6, ensuring their movement from loading to unloading. The frequency of movements and collisions of particles of cement raw materials is determined not only by the frequency of the vibroactivator, but also by the presence of coils and spring pitch 6 of a wavy shape mounted stationary (stationary) inside drum 1. Therefore, the proposed design of the cement kiln improves not only the frequency characteristics, but also amplitudes of movement of masses of cement raw materials; active circulation and mixing of masses of cement raw materials is also provided. The mixing process is also intensified by coils of a wave-shaped spring mounted 1 permanently inside a rotary kiln that change the direction of movement of the particles of the masses of cement raw materials, directing them radially to the discharge side, which accelerates the heat exchange processes and increases the mass circulation intensity of the cement raw materials. The mixing process is also intensified by the fact that the faces, for example, 10, 11, 12, 13, 14, 15, 16 broken helical surfaces 24, 25, 26, 27, 28, 29 of drum 1 change the direction of movement of particles of masses of cement raw materials that make a rotational movement in planes perpendicular to the longitudinal axis of the drum 1, guiding them towards each other. As a result, the zones of compression of masses of cement raw materials and the zone of discharge are formed, which intensifies the mixing process and heat exchange processes.

Feasibility benefits arise from simplifying the manufacture of drum 1, ensuring the longitudinal movement of the cement raw mass from loading to unloading with the horizontal arrangement of drum 1, due to the fact that a spring 6 of a wave-like shape is mounted inside the entire length of the drum 1 of the furnace, which ensures not only moving the cement raw mass from loading to unloading in the radial direction, but also contributes to the intensification of the mixing and heat exchange processes, due to Wavy spring 6 is equipped with a device for changing the pitch of its turns by stretching or compressing it, which allows to influence the nature of the movement of the cement raw mass, when the furnace productivity changes, which provides control over the intensity of mixing of the cement raw mass and productivity, expands technological capabilities, because the faces of 10, 11, 12, 13, 14, 15, 16 broken helical surfaces 24, 25, 26, 27, 28, 29 of drum 1 change the direction of movement of particles of masses of cement raw materials, which is intensified iruet mixing processes, heat transfer processes, cement kiln productivity and expands technological possibilities.

Claims (1)

A cement kiln containing a drum horizontally mounted on a plate fixed with elastic elements on the base and equipped with a vibroactivator and a spring arranged inside the entire length of the drum with a device for changing the spring pitch of the spring by stretching or compressing it, characterized by that the drum is mounted from sections assembled from two identical subsections, made from an even number of three or more identical isosceles triangles, alternately connected along the perimeter of the subsection with three or more identical equilateral trapezoids, with the formation of small and large end openings in the form of polygons, while the number of sides of a small end opening is twice the number of sides of a large end opening, while in the section two subsections are connected to each other by sides of large end faces holes, and the sections are attached to each other along the length of the drum with their sides of small end holes with the formation around the perimeter of the drum at least six surfaces of a wave-like shape and at least three pairs of -directional towards each other polygonal helical lines, wherein the entire length of the drum is mounted a spring wave-shaped cross section with flat coils.

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