RU2741399C1 - Swinging furnace for burning expanded clay - Google Patents

Abstract

FIELD: furnaces and ovens.SUBSTANCE: invention relates to inclined kilns of drum type used for production of light swollen filling. Swinging furnace for annealing of expanded clay comprises lined housing with swinging mechanism and burners installed on roller supports, lined body is made of three and more strips of variable width of convex curvilinear shape, coiled in vertical plane in longitudinal direction, curved along helical lines in transverse direction and bent along notches with skewed walls in transverse-longitudinal direction, located in pairs at an angle to each other on both sides of strips with formation along the perimeter of the body of directed towards each other broken screw lines and broken helical surfaces with variable pitch.EFFECT: complete rolling of granules, expansion of technological capabilities and increased efficiency.1 cl, 9 dwg

Description

The invention relates to the production of building materials, namely to inclined drum-type kilns used for the manufacture of light swollen filling.

Known rocking kiln, for example, for firing expanded clay, containing a lined cylindrical body mounted on roller supports with a sector cut in the high-temperature zone, burners and a drive.

The disadvantage of the known device is that such furnaces, as a rule, do not provide the necessary conditions for heat treatment, require a large length of the furnace body to ensure the quality of the granules, do not provide complete rolling of the granules and have limited technological capabilities.

Known rocking kiln, for example, for firing expanded clay (USSR AS No. 487281, MKI F27b 7/06, publ. 01/17/72, bull. No. 3), containing a lined body mounted on roller supports with a sector cutout with an opening angle of 150 -160 ° in the high-temperature zone with installed stationary burners, and in the cooling zone, at least one sector cutout is additionally formed, in which a manifold for supplying cooling air, burners and a drive are located.

The disadvantage of the known device is that such furnaces, as a rule, do not provide the necessary conditions for heat treatment, require a large length of the furnace body to ensure the quality of the granules, do not provide complete rolling of the granules and have limited technological capabilities.

Closest to the proposed invention is an oscillating kiln, for example, for firing expanded clay (RF patent No. 2520279, MKI F27b 7/06, publ. 20.06.2014. Bull. No. 17), containing a lined body installed on roller supports with a sector cutout with an angle openings 150-160 ° in the high-temperature zone, and in the cooling zone, at least one sector cutout is additionally formed, in which the manifold for supplying cooling air, burners and the drive are located, the lined body is made with the formation of three oppositely directed towards each other along the inner perimeter or more broken right and left helical lines, as well as internal three or more helical grooves with the same pitch from sections assembled from two subsections, made of three or more alternately interconnected by the lateral sides of isosceles trapezoids and isosceles triangles, while the sections are connected between are large bases of trapeziums, and subsections are connected to section so that the bases of the isosceles triangles of one subsection are attached to the upper base of the isosceles trapeziums of the second subsection, and the bases of the isosceles triangles of the second subsection are attached to the upper base of the isosceles trapeziums of the first subsection.

The technical result is to ensure complete rolling of granules, expanding technological capabilities, increasing productivity.

The technical result is achieved by the fact that in an oscillating kiln for firing expanded clay, containing a lined body with a swing mechanism and burners installed on roller supports, the lined body is made of three or more strips of variable width of a convex curved shape, rolled in a vertical plane in the longitudinal direction, bent along helical lines in the transverse direction and bent along cuts with beveled walls in the transverse-longitudinal direction, located in pairs at an angle to one another on both sides of the strips with the formation of broken helical lines and broken helical surfaces with a variable pitch along the perimeter of the body directed towards each other.

According to the data of the patent-technical literature, a technical solution similar to the claimed one was not found, which makes it possible to judge the inventive level of the proposed structures of a rocking kiln for firing expanded clay.

The novelty of the proposed invention lies in the fact that the body along the entire length has a variable not only transverse, but also a longitudinal section, which intensifies the mixing process, provides complete rolling of granules, expanding technological capabilities, gradual rarefaction and compaction of expanded clay streams, increasing productivity.

In addition, the novelty is due to the fact that the elements from which the body is assembled are mounted at some angles to each other, so the mixing intensity increases, since these elements, working as shelves, capture portions of expanded clay granules and direct them towards each other, breaking, thus, the stationarity of their movement, ensuring complete rolling of the granules.

The novelty of the proposed invention lies in the fact that such a structural design of the body allows for consistent gradual compaction and rarefaction of streams of expanded clay granules, as they move from loading to unloading, and also to increase the mixing efficiency of expanded clay granules and productivity.

The novelty is also seen in the fact that the area and shape of the cross-section and longitudinal sections of expanded clay vary along the entire length of the body many times from loading to unloading, which changes the speed and trajectory of movement of expanded clay granules, expands the technological capabilities of the furnace.

The novelty also lies in the fact that along the perimeter of the body, broken screw surfaces with variable width of a convex curved shape along the length of the body are formed, directed towards each other, which provides not only a violation of the stationarity of the streams of movement of expanded clay granules inside the body, but also ensures their more complete rolling.

The novelty also lies in the fact that flat edges directed towards each other at an angle, but also to the axis of rotation of the body, are formed along the perimeter of the body, which provides a violation of the stationary movement of streams of expanded clay granules inside the body, while the speed of movement of expanded clay granules inside the body in each at the point of their flows, it pulsates chaotically, therefore, the expanded clay granules inside the body make unsteady random movements along complex trajectories, which provides an increase in productivity and expansion of technological capabilities.

The novelty lies in the fact that broken helical lines are formed along the perimeter of the body, directed towards each other, which increases productivity and expands technological capabilities.

The novelty is also due to the fact that the pitch of the helical lines along the perimeter changes along the length of the body from loading to unloading, which intensifies the process of mixing expanded clay granules and ensures their complete rolling.

The novelty lies in the fact that the twisting of each strip along the incisions with beveled walls in the transverse-longitudinal direction, located in pairs at an angle to one another on both sides of the strips, provides additional surface curvature along the perimeter of the body, thereby increasing the difference between the angles of inclination of the vectors of displacement of the granules expanded clay in adjacent sections of the body, therefore, expanded clay granules move along complex trajectories, increasing the number of collisions with each other and with the walls of the body, which intensifies the mixing process and expands technological capabilities.

The novelty is also due to the fact that the strips have a curved convex shape of variable width and are ribbed in the transverse direction with the formation of alternating edges along the perimeter of the body, which provides a gradual rarefaction and compaction of streams of expanded clay granules, intensifies the process of mixing them, and increases productivity.

The novelty of the proposed invention lies in the fact that the frequency of movement of expanded clay granules in the proposed designs of rocking furnaces is determined not only by the frequency of rotation of the body, but also by the number of flat elements along the perimeter of the body, such a design of the surface of the body by increasing the number of flat elements in each section along the perimeter increases the frequency of collisions of granules with each other and with the walls of the body, increases productivity, increases technological capabilities.

The novelty also lies in the fact that the cross section of the body has the shape of a polygon, the area of which along the length varies many times from loading to unloading, providing periodic compression of streams of expanded clay granules, which increases the mixing intensity and energy intensity of collisions, expands technological capabilities, increases productivity and expands technological opportunities.

FIG. 1 shows the proposed rocking kiln for firing expanded clay, General view; in fig. 2 is a section along a-a in Fig. one; in fig. 3 - section along B-B in Fig. one; in fig. 4 - the body of the rocking kiln for firing expanded clay, General view, in Fig. 5 - view A in FIG. 4; in fig. 6 - one of the strips of variable width, of which the body of the convex shape is made; in fig. 7 - section b-b in fig. 6; in fig. 8 - strip of variable width after twisting in the vertical plane in the longitudinal direction relative to its own axis of symmetry of the strip; in fig. 9 - a strip of variable width after bending along helical lines on a barrel-shaped mandrel.

An oscillating kiln for firing expanded clay includes an inclined body 1 with sector cutouts 2, 3 and 4, mounted inside a fixed frame 5 and mounted on roller supports 17 and 18 (Fig. 1). The body 1 is lined with refractory masonry 7 and is equipped with exhaust devices 8 and 9, a chute 10 and a drive 11. Burners 12 are installed on the fixed holder 5. The pipelines 13 are equipped with slide valves 14.

The body 1 is equipped with rims 15 and 16 (Fig. 1, Fig. 2) mounted for rotation on roller bearings 17, 18 and bushings 19, 20 fixedly fixed to the body 1 with the possibility of rotation of the bushings 19 and 20 with the body 1 in a stationary clip 5.

The body 1 has a convex shape (Fig. 4, Fig. 5) is made of strips 21, 22, 23, 24, 25, 26 of variable width (Fig. 6) with notches 27 and 28 (Fig. 6, Fig. 7), twisted not only in the vertical plane in the longitudinal direction relative to the strip's own axis of symmetry (Fig. 8), but also in the transverse direction on the barrel-shaped mandrel 29 along helical lines (Fig. 9). Since the strips 21, 22, 23, 24, 25, 26 have a variable width (Fig. 6), the body 1 (Fig. 2, Fig. 3) has a variable longitudinal section and a variable flow cross-section along the length of the body 1. In addition to in addition, the strips 21, 22, 23, 24, 25, 26 are ribbed in the longitudinal-transverse direction, forming along the perimeter of the screw body 1 (Fig. 2, Fig. 3) alternating triangular faces, for example, faces 30, 31, 32, 33, 34, 35, 36, 37, etc., for a strip, for example, 23. In this case, every two adjacent edges, for example 30 and 31, 31 and 32, etc., are located at an obtuse angle to one another from the outer and inner sides of the strips 21, 22, 23, 24, 25, 26, intersect with each other to form helical lines of the main direction with a pitch S ₁ , for example, 38, 39, 40, 41, 42, 43, 44 on the outer surface and helical grooves on the inner surface of the body 1, as well as on the outer surface of the body of depressions and protrusions between adjacent faces, for example, 30 and 31, 31 and 32, etc., located at an obtuse angle to one another ugly. FIG. 4 and FIG. 5 one of the helical lines with a pitch S _{1 of the} main direction 38-39-40-41-42-43-44 is shown by a thickened line. On the outer surface of the body 1, helical grooves and helical lines of opposite direction with a pitch S _{2 are formed} , for example, 45-46-47-48-49-50 (in Fig. 4, Fig. 5), which are also shown by a thickened line. The helical lines on the outer surface of the housing 1 have the same reference designations with the corresponding grooves on the inner surface, and the helical grooves and helical lines of the housing 1 can have a different number of starts and different pitches of the helical lines.

On the strips 21, 22, 23, 24, 25, 26, before rolling, incisions 27 and 28 with beveled walls are made, located in pairs at an angle to one another, as, for example, in FIG. 6, figs. 7 by milling, shaping, etc. The geometry and magnitude of the angles Δ, ξ, σ, τ, ν, χ of the bevels of the notches and their mutual arrangement correspond to the number of entries and the steps of the helical lines in the opposite direction. Cuts 27, 28 are created (Fig. 6, Fig. 7) alternately from opposite sides of each strip 21, 22, 23, 24, 25, 26. Then, relative to the longitudinal axis, each of the strips 21, 22, 23, 24, 25, 26 twisted in a vertical plane relative to the longitudinal axis of the strip. FIG. 8 shows one of the strips, twisted in a vertical plane along its longitudinal axis, with side edges 51 and 52 located along helical lines along the longitudinal axis. A strip previously twisted in a vertical plane relative to the longitudinal axis, for example 23, is placed on a barrel-shaped mandrel 29 (Fig. 9) and bent so that the side edges 51 and 52 are located along the helical lines and in the transverse direction. After bending in cross-section on a barrel-shaped mandrel, each strip is rotated relative to the longitudinal axis of the housing 1 so that its edges form helical lines in the transverse direction of the strip with the same pitch for all strips. After that, the strip 23 is deformed and removed from the mandrel 29. The remaining strips, for example, 21, 22, 24, 25, 26, are processed in the same way. Further, all deformed strips 21, 22, 23, 24, 25, 26 are aligned and joined by known methods such as welding. Since the strips from which the body 1 is mounted are rolled not only in the longitudinal direction, but also in the transverse direction, along the perimeter of the body 1, helical inner surfaces of different pitch directed towards each other and at the points of their connection are formed helical grooves. The formation of a complex inner surface in the form of a combination of two curved surfaces, at each point of which there are multidirectional components of movement, increases the intensity of movement of expanded clay granules and expands the technological capabilities of the furnace.

The proposed swing kiln for firing expanded clay works as follows.

Raw granules through the chute 10 enter the heating zone of the housing 1, where they are heated to 1100 ° C due to the heat of the combustion products sucked from the swelling zone by the exhaust device 8. In the housing 1, the layer of fired granules moves due to the inclination of the rolling axis of the housing 1 with rims 15 and 16 on roller bearings 17 and 18 using the drive (rolling mechanism) 11. From the heating zone, the granules enter the swelling zone, where through the sector cutout 2 directly onto the layer of the pellets, hot combustion products obtained by means of burners 12. Through the sector cutout 3 and the slide gate 14, through the pipeline 13, a reducing-oxidizing gas medium is supplied to the firing zone, which improves the quality of the pellets.

Through the sector cutout 4, cooling air is supplied to the cooling zone or gases are sucked out of it, as a result of which the pellets are rapidly cooled. In order to improve the cooling of the pellets, additional cuts can be made along the length of the furnace. Excess combustion products are removed from the housing 1 by an exhaust device 9 located on the side of the finished granules discharge.

Technical appraisal and economic benefits arise due to the expansion of technological capabilities, due to complete rolling, increasing their mixing and intensifying the movement of clinker granules inside the body, increasing productivity.

Claims (1)

An oscillating kiln for firing expanded clay, containing a lined body with a swing mechanism and burners installed on roller supports, characterized in that the lined body is made of three or more strips of variable width of a convex curved shape, rolled in a vertical plane in the longitudinal direction, bent along helical lines in transverse direction and bent along incisions with beveled walls in the transverse-longitudinal direction, arranged in pairs at an angle to one another on both sides of the strips with the formation of broken helical lines and broken helical surfaces with a variable pitch along the perimeter of the body directed towards each other.

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