RU2536318C1 - Rotary kiln for production of cement clinker - Google Patents

Abstract

FIELD: process engineering.

SUBSTANCE: invention relates to cement industry. This kiln comprises body, dual drive, slime feed pipe, head to feed fuel and air into kiln, iterative filter-heater, heat exchangers, fire grate-displacing refrigerator, water cooling unit and central lubing system. Body perimeter is composed by multistart helical surface of three or more identical rectangular strips twisted in lengthwise direction relative to lengthwise axis and bent in helical line in crosswise direction at cylindrical mandrel. Sais strips are connected to make three or more helical grooves shaped to curved pockets with centre of curvature inside cross-section of said body and lap joints there inside as screw blades over the entire length of the body from inlet to outlet.

EFFECT: high-intensity heat exchange, simplified operation.

7 dwg

Description

The invention relates to a device for producing cement clinker and can be used in the cement industry.

Known rotary kiln for firing bulk material (AS No. 1322051, CL 27B 7/16, 01/07/86), containing heat exchangers and a screw insert located in the working space of the furnace, and equipped with a helical ring and brackets, the plane of which is directed along the generatrix of the furnace, and on one side of the bracket a screw insert is fixed, and on the other a screw-shaped ring, and the screw-shaped ring is fixed at an angle to the radial direction of the furnace and the screw insert is fixed in front of the heat exchangers, counting along in the movement of gases.

A disadvantage of the known device is the lack of heat transfer and limited technological capabilities.

Known rotary kiln for the preparation of cement clinker (Komar A.G. / Building materials and products // A.G. Komar / textbook. Higher school, 1988. S. 147-148), containing a cylindrical body, resting through the bandages on the support rollers , a double drive, consisting of two electric motors and two gears, two gears, one crown wheel, a feed pipe for feeding sludge, a head through which fuel and air are fed into the furnace, a chain filter heater, heat exchangers, a grate-cooler. The housing has a slope of 3.5-4% and is equipped with a water cooling unit and a central lubrication system.

A disadvantage of the known rotary kiln for clinker preparation is the need to create a slope for transporting sludge from loading to unloading, the difficulty of its operation, insufficient heat exchange rate and limited technological capabilities.

The technical solution to the problem is to expand technological capabilities, simplify operation due to the lack of bias.

The technical solution is achieved by the fact that in the furnace, which rotates for the preparation of cement clinker, comprising a housing supported through shafts on the support rollers, a double drive, consisting of two electric motors and two gearboxes, two gears, one crown wheel, a feed pipe for supplying sludge, a head for supplying fuel and air to the furnace, a chain filter heater, heat exchangers, a grate-and-repulsive refrigerator and a housing equipped with a water cooling unit and a central lubrication system the perimeter is made in the form of a multiple helical surface of three or more identical stripes of rectangular shape, twisted in the longitudinal direction relative to the longitudinal axis, curved along the helical line in the transverse direction on a cylindrical mandrel, and connected with the formation of three or more helical grooves in the form of pockets of curved shape with centers of curvature located inside the cross section of the housing, and inlets in the housing in the form of screw blades along the entire length of the housing from the inlet to the outlet.

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 a rotary kiln for the preparation of cement clinker.

The novelty lies in the fact that the casing is made around the perimeter in the form of a multiple screw surface with helical grooves inside the casing in the form of curved pockets with centers of curvature of the pockets of the curved shape of the screw surface located inside the cross section of the casing, which increases the efficiency of the process, intensifies heat transfer processes and expands technological capabilities.

The novelty lies in the fact that the body is made of three or more identical stripes of rectangular shape, twisted in the longitudinal direction relative to the longitudinal axis and curved in a transverse direction on a cylindrical mandrel, with the formation of three or more internal curved surfaces of convex shape along the perimeter of the body with centers of curvature inside the housing and the formation of inlets inside the housing in the form of screw blades along the entire length of the housing from the inlet to the outlet, which increases the efficiency of those process, intensifies heat transfer processes, expands technological capabilities.

The novelty also lies in the fact that due to the twisting of rectangular-shaped stripes in the longitudinal direction and curved in the transverse direction, curved surfaces of various curvatures are formed inside the housing with inlets in the form of blades in each cross section along the length of the housing, which not only changes the particle path at each point of the curved surface of the body, violates the stationarity of their movement and intensifies the process of preparing cement clinker, extends the technological possibilities awns.

The novelty is due to the fact that the housing along the perimeter is equipped with three, four, five, six, etc. helical lines, and, accordingly, three, four, five, six, etc. helical grooves inside the body with curved surfaces of various curvatures with inlets in the form of blades, which increases not only the speed of particles from the inlet to the outlet, but also increases the swirl of their flows, increasing the frequency of their interaction with each other and with the walls of the body, increases energy intensity of collisions, productivity and expands technological capabilities.

The novelty lies in the fact that thanks to the internal helical surfaces with inlets in the form of blades, the vectors of particle velocity from the inlet to the outlet of the housing change, which contributes to the intensification of the preparation of cement clinker, expands technological capabilities.

The novelty of the proposal also lies in the fact that inside the case with a complex inner surface with inlets in the form of blades, multidirectional components of movement appear at each point, which intensifies the process of preparing cement clinker and expands technological capabilities.

The novelty lies in the fact that such a design of the casing allows for smooth axial movement of the sludge from loading to unloading with a horizontal axis of rotation of the casing, which simplifies operation due to the lack of slope of the casing.

The novelty lies in the fact that due to the internal helical surfaces of double curvature, the vectors of the speed of movement of the sludge change during transportation from load to unload, which contributes to the intensification of heat transfer and expands technological capabilities.

The novelty of the proposal also lies in the fact that inside the screw case with a complex inner surface in the form of a combination of two curved surfaces, at each point there are multidirectional components of the movement, which intensifies heat transfer processes and expands technological capabilities.

The invention is illustrated by drawings, where in FIG. 1 shows a general view of a rotary kiln for preparing cement clinker; in FIG. 2 - part of the furnace body, rotating for the preparation of cement clinker; in FIG. 3 is a section AA in FIG. 2; FIG. 4 - one of the strips with a lap; in FIG. 5 is a view of a strip with an inlet after twisting its ends relative to the longitudinal axis; in FIG. 6 is a view of a strip with an inlet after bending it on a cylindrical mandrel; in FIG. 7- section BB in FIG. 7.

The rotary kiln for the preparation of cement clinker consists of a housing 1, supported through shafts 2 on the support rollers 3. Housing 1 is mounted horizontally and rotates at a speed of 0.5-1.5 rpm, ensuring the process of movement of sludge in it. The furnace’s drive is double and consists of two electric motors 4, two gears 5, two gears and one crown wheel 6. In the middle of the furnace, on one of its supports, a pair of rollers is installed (horizontally) to control the displacement of the furnace along the axis (down or up ), in FIG. 1 are not shown. The auxiliary drive is included in the repair of the furnace, during ignition and stop, when the furnace should rotate slowly. The rotary kiln is equipped on one side with a feed pipe 7 for supplying sludge to the housing 1, and on the opposite side, with a head 8 for supplying fuel and air. From the side of the head 8, fuel and air are supplied to the furnace. As a result of fuel combustion, hot gases are obtained, the flow of which is directed from the hot end of the furnace to the cold - towards the moving material. To improve heat transfer and dust removal of gases inside the furnace, a chain filter heater 9 is placed in its cold end, a chain curtain 10 is created and heat exchangers 11 are installed in the hopper, and from it using a peripheral loader 12 is sent to the hollow part of the furnace located next to the chain curtain sides of the hot end. To cool the clinker 1, the furnace is equipped with a grate-repulsive refrigerator 14. On furnaces 185 m long, the housing 1 in the sintering zone is equipped with a water cooling unit 15 and a central lubrication system 16.

The housing 1 is made around the perimeter in the form of a multiple screw surface with helical grooves, for example, in FIG. 3 to five - 17, 18, 19, 20, 21.

Multiple helical hollow housing 1 (Fig. 2, Fig 3), for example, is made of three or more, for example, in Fig 2 and Fig. 3 of the five strips of rectangular shape 22, 23, 24, 25, 26 with the formation along the perimeter of the housing 1 of internal curved surfaces of convex shape with centers of curvature inside the housing 1 and the formation of slits 27, 28, 29, 30, 31 (Fig. 3) in the form of screw blades along the entire length of the housing 1 (in Fig. 3 screw blades are darkened). Thus, helical grooves are formed inside the housing 1 in the form of pockets of curved shape 17, 18, 19, 20, 21 with centers of curvature located inside the cross section of the housing 1 (Fig. 3).

Multiple helical hollow housing 1 is made of three or more strips of rectangular shape, for example, (Fig. 2, Fig. 3) of five strips 22, 23, 24, 25, 26. Each of the strips of a rectangular shape is made with an inlet and with side edges, for example, in FIG. 4 shows a strip 22 with an inlet 27 and side edges 32 and 33 (FIG. 5). The inlet 27 is shown in FIG. 4 separated, for example from strip 22, by a dashed line 34. Strip 22 is twisted along a helical line in the longitudinal direction (Fig. 5) relative to the longitudinal axis O ₁ -O ₁ and curved in a transverse direction on the cylindrical mandrel 35 (Fig. 7 , Fig. 8).

Strips 22, 23, 24, 25, 26 with flaps 27 after bending are removed from the mandrel 35 and connected to each other by the lateral side 33 of one strip with a dashed line 34 of another strip by known methods, for example, by welding, with the formation of helical lines around the perimeter of the hollow body 1 and helical surfaces in the form of helical grooves 17, 18, 19, 20, 21 with a constant pitch S ₁ . Part of one of the helical lines 36-37 is shown in FIG. 2 thickened line.

For example, the strip 22 with its helical edge 33 (Fig. 3) is connected to the strip 26 along the dashed line 34 with its convex side, for example by welding, in turn, the strip 26 is connected with its helical edge 33 with the strip 25 along its dashed line 34, etc. d., with the formation of a multi-helical helical surface in the form of a hollow body 1 with inlets 27, 28, 29, 30, 31 (Fig. 3) in the form of screw blades along the entire length of the housing 1 (in Fig. 3 the screw blades are darkened). The twisting of each strip provides an additional curvature of the surface of the hollow body 1, thereby increasing the swirl of the flow of particles of the sludge.

The proposed rotary kiln for the preparation of cement clinker works as follows. The housing 1, mounted horizontally, rotates at a speed of 0.5-1.5 rpm

Sludge is fed into the feed pipe 7 using bucket or volumetric dispensers located at the cold end of the furnace (housing 1). From the side of the head 8, fuel and air are supplied to the furnace (housing 1). As a result of fuel combustion, hot gases are obtained, the flow of which is directed from the hot end of the furnace (housing 1) to the cold, towards the moving material - sludge. The sludge, being inside the rotating housing 1, carried away by its curved helical surfaces rises up and, rising in the direction of rotation of the housing 1 slightly above the angle of its natural slope, rolls down like an avalanche. Since the multi-screw surface of the housing 1 with helical lines around the perimeter is located at an angle of inclination of 3.5-4%, the slurry when rolling down is directed at the same angle to the axis of rotation of the housing 1, which ensures the movement of the sludge along the helical lines inside the housing 1 and moving it from loading to unloading with a horizontal arrangement of the housing 1. The filter-heater 9 improves heat transfer and dedusts gases. The dust collected behind the furnace as a result of gas cleaning is returned to the furnace. It is transported by a pneumatic pump to the hopper, and from it, using the peripheral loader 12, is sent to the hollow part of the furnace, located next to the chain curtain from the hot end. The clinker is cooled in a grate-cooler 14.

Technical and economic advantages arise due to the creation on the inner surface of the housing of smooth helical grooves and internal surfaces of double curvature with centers of curvature inside the housing and the formation of blades in the form of blades inside the housing by expanding the range of changes of the resulting displacement vectors, which not only extends the technological capabilities and provides the movement of sludge from loading to unloading with a horizontal axis of rotation of the furnace body, but also increases the intensity of heat exchange and to simplify operation of the rotary kiln at its horizontal position.

Claims (1)

A rotary kiln for the preparation of cement clinker, comprising a housing supported through shafts on the support rollers, a double drive consisting of two electric motors and two gears, two gears, one crown wheel, a feed pipe for feeding sludge, a head for feeding fuel and air into the furnace , a chain filter heater, heat exchangers, a grate-cooler, a water cooling unit and a central lubrication system, characterized in that the housing along the perimeter is made in the form of multiple one helical surface of three or more identical rectangular-shaped strips twisted in the longitudinal direction relative to the longitudinal axis, curved along the helical line in the transverse direction on the cylindrical mandrel, and connected with the formation of three or more helical grooves in the form of pockets of curved shape with centers of curvature located inside the cross section of the housing, and inlets in the housing in the form of screw blades along the entire length of the housing from the inlet to the outlet.

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