RU2613505C1 - Unit fot cooling clinker - Google Patents

Abstract

FIELD: mechanical engineering.

SUBSTANCE: device for cooling the clinker includes a water bath, which has a rotating reel, means for loading and unloading of clinker. The rotating reel is made of sections, which are assembled from two sub-sections, formed of three or more serially interconnected lateral sides of the isosceles trapezoids and isosceles triangles, whose bases are disposed in the subsections in different directions. Sections are interconnected through large bases of the trapezoids, and the subsections are connected to the section so that the bases of isosceles triangles one subsection connected to the upper base of the isosceles trapezoids of the second subsection, and the bases of isosceles triangles second subsection connected to the upper base of the isosceles trapezoids of the first sub-section to form on the inner perimeter directed meet each other three or more polygonal right and left helical lines, as well as the domestic three or more helical grooves with the same pitch. A wave-like spring with the flat section of turns is provided as well as a device to adjust the turn of the pitch by stretching or compressing the spring.

EFFECT: increased efficiency of the cooling and simplified assembly of the unit.

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Description

The invention relates to the cement, coke, metallurgical industries, and in particular to devices for cooling bulk materials, such as clinker in the production of cement, coke, zinc, lead, tin and ore processing.

A device for cooling bulk materials (USSR AS, No. 1765154, class C10B 39/00, F27B 7/38) is known, including a water bath, a rotating drum with cooling pockets installed in it, made of sections, each of which is mounted from six plates made in the form of isosceles trapezoid, means for loading and unloading. Each of the trapezoids is connected laterally with the subsequent trapezoid along its plane and passes through the top at the upper base and side, forming the internal cavity of the section in the form of a regular octahedron. The sections are interconnected into the drum with lower bases. The lower bases of the trapezoid are larger than the lateral side by the size of the upper base. The cooling pockets are formed by connecting in series along the perimeter of the section at an internal obtuse angle to each other alternately to the ends of the section with upper and lower bases with one-sided inlet in the direction opposite to the internal obtuse angle. One-sided inlet on the outer corner between the two plates is directed towards the rotation of the drum.

The disadvantages of the known device are limited technological capabilities due to insufficient cooling efficiency, due to insufficient heat exchange between clinker particles and cooling water, their low mixing capacity and a certain ordering of the movement of clinker particles inside the drum, the complexity of the assembly structure.

Closest to the proposed invention is a clinker cooler (RF patent No. 2459169, class F27B 7/38, publ. 08/20/2012, bull. No. 23), including a water bath, a rotating drum installed in it, means for loading and unloading clinker, the perimeter drum is made of guide elements in the form of three or more trapezoidal strips curved along the helical line in the longitudinal direction and curved along the helical line on the conical mandrel in the transverse direction with different sizes in width, with an increase in their length along the drum from the zag narrow to be unloaded, while the entire length of the drum is mounted a conical spring, which is equipped with a device for changing a pitch of the turns by stretching or compressing it.

The disadvantages of the known device are limited technological capabilities due to insufficient cooling efficiency, due to insufficient heat exchange between clinker particles and cooling water, their low mixing capacity and a certain ordering of the movement of clinker particles inside the drum, the complexity of the assembly structure.

The technical result of the task is to increase the cooling efficiency, expand technological capabilities and simplify the assembly of the structure.

The technical result is achieved by the fact that in the installation for cooling the clinker, including a water bath, a rotating drum installed in it, means for loading and unloading the clinker, the drum is made of sections mounted from two subsections made of three or more alternately interconnected lateral sides isosceles trapezoid and isosceles triangles, the bases of which in the subsection are located in different directions, while the sections are interconnected by large bases of the trapezoid, and the subsections are connected into the section so that the bases of the isosceles triangles of one subsection are attached to the upper base of the isosceles trapezoids of the second subsection, and the bases of the isosceles triangles of the second subsection are attached to the upper base of the isosceles trapezoids of the first subsection with the formation of three or more broken right and left along the inner perimeter helical lines, as well as internal three or more helical grooves with the same pitch, while a cylinder is mounted along the entire length of the drum Skye spring from a flat section of turns, which is equipped with a device for changing a pitch of the turns by stretching or compressing it, and turns its direction coincides with the direction of rotation of the drum.

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 installation for cooling clinker.

The novelty also lies in the fact that along the perimeter of the drum there are formed helical surfaces of flat elements of various shapes and sizes in the form of isosceles triangles and isosceles trapezoid, which provides a violation of the stationary flow of clinker particles inside the drum and water outside the drum, increases cooling efficiency and extends technological capabilities.

The novelty is also due to the fact that not only isosceles triangles and isosceles trapezoid, from which subsections of the drum sections are assembled, but the sections themselves are mounted at certain angles to each other with the formation of broken helical lines, which not only simplifies the manufacture, but also provides a violation of the steady flow clinker particles inside the drum, as well as water flows outside the drum and expands the technological capabilities.

The novelty is also due to the fact that not only isosceles triangles and isosceles trapezoid, from which subsections of drum sections are assembled, but the sections themselves are mounted at certain angles to each other with the formation of broken helical lines, which increases the energy intensity and changes the frequency of interaction of clinker particles with each other and with the walls of the drum, which expands the technological capabilities.

The novelty also lies in the fact that the cross-sectional passage of the drum has the shape of a polygon, the area of which varies many times in length from loading to unloading, providing periodic compression of clinker particles, which increases the energy intensity of collisions, increases productivity and expands technological capabilities.

The novelty is due to the fact that the drum is equipped with three, four, five, six, etc. helical broken lines of equal pitch, directed towards each other along the perimeter of the drum, and respectively three, four, five, six, etc. screw grooves inside the drum, also directed towards each other, which ensures the creation of directed towards each other flows of clinker particles with maximum energy intensity of collisions of particles to each other and with the walls of the drum at different angles, increases the frequency of interaction of clinker particles with each other and with the walls of the drum, increases productivity and expands technological capabilities.

The novelty of the invention lies in the fact that the drum along the entire length has a variable not only transverse, but also longitudinal section, which intensifies the mixing process and cooling of the clinker, expands technological capabilities.

The novelty of the invention lies in the fact that such a design of the drum allows for consistent gradual compaction and discharge of clinker flows inside the drum, as well as water flows outside the drum as the clinker moves from loading to unloading, as well as to increase the efficiency of mixing of clinker particles and their cooling.

The novelty is also seen in the fact that the area and shape of the cross and longitudinal sections of the drum change over the entire length of the drum many times from loading to unloading, which changes the speed and trajectory of the movement of clinker particles, extends the technological capabilities of the device for cooling the clinker, and increases the cooling rate.

The novelty also lies in the fact that along the perimeter of the drum, broken helical surfaces directed towards each other along the length of the drum are formed, which ensures not only a violation of the stationary flow of clinker particles inside the drum, but also water flows outside the drum.

The novelty also lies in the fact that along the perimeter of the drum there are formed flat faces directed towards each other at an angle, but also to the axis of rotation of the drum, which violates the stationary motion of clinker particle flows inside the drum, as well as water flows outside the drum, while clinker particles inside the drum, as well as water outside the drum at each point of their flows randomly pulsate, therefore, clinker particles inside the drum, as well as water outside the drum make unsteady messy movement on complex trajectories, namely the turbulent flow.

The novelty lies in the fact that along the perimeter of the drum, broken helical lines are formed, directed towards each other, which intensifies the process of mixing the clinker and its cooling.

The novelty is that a coil spring with a flat coil section is mounted along the entire length of the drum, which provides not only the movement of clinker particles from loading to unloading in the radial direction, but also contributes to the intensification of the heat transfer and cooling process, and the direction of its coils coincides with the direction of rotation drum. The radial movement of clinker particles is ensured due to the fact that clinker particles moving inside the drum in planes perpendicular to the axis of symmetry of the drum, meeting with the coil of the spring, change their trajectory and move from loading to unloading, while countercurrent clinker particles are created, increase the intensity of the heat transfer process and expand technological capabilities.

The invention is illustrated by drawings, where: in FIG. 1 shows the proposed installation for cooling clinker, General view; in FIG. 2 - installation drum, general view, front view; in FIG. 3 is a view A in FIG. 2; FIG. 4 - drum installation, visual image.

Installation for cooling the clinker (Fig. 1) includes a water bath 1, a rotating drum 2 installed in it with a loading 3 and unloading 4 devices. A sprinkler 5 is mounted above the drum 2. A reflux condenser is installed above the water bath 1. To ensure the longitudinal movement of clinker particles, a coil spring 7 with a flat section of coils is mounted inside the drum 2, which is equipped with a device for changing the pitch of the coil by stretching or compressing it (not shown shown). The adjustment of the pitch of the turns of the spring 7 can also be made in the process of cooling the clinker. Depending on the required cooling time of the clinker, a spring step 7 is set that meets the optimal conditions of the cooling process.

Drum 2 (Fig. 3) is made of sections 8 mounted from two subsections, for example, 9 and 10 made of three or more alternately connected to the sides of the isosceles trapezoid 11 and isosceles triangles 12 (in Fig. 2 one of the isosceles trapezoid 11 and one of the isosceles triangles 12 are highlighted by double lines), the bases of which in the subsection, for example, subsections 9, are located in different directions, for example, in the subsection 9, the base 13 of the trapezoid 11 and the base 14 of the triangle 12 are located on different sides of the subsection, The sections are interconnected by large bases of the trapezoid 15, 16, as in FIG. 2a, the subsections are connected to the section so that the bases of the isosceles triangles, for example, of one subsection 9 of the base 14 are attached to the upper base, for example, 17 isosceles trapezoids of the second subsection 10, and the bases of the isosceles triangles of the second subsection, for example, subsections 10, the base 18 are attached to the upper the base of 19 isosceles trapezoids, for example 11 of the first subsection 9.

As a result of such a sequential assembly of the wall elements of the drum 2, along the perimeter are formed, for example in FIG. 2, five right and five left broken helical lines with the same pitch S ₁ and S ₂ . One of the five left broken helix lines with step S _{1 is} shown in FIG. 2 by a thickened line 20-21-22-23-24, and one of the five right broken helical lines with step S _{2 is} shown in FIG. 2 thickened line 25-26-22-27-28.

Installation for cooling clinker works as follows.

The hot clinker or coke enters the rotating drum 2 using the loading device 4 through a conical pipe. The drum is irrigated with water coming from the sprayer 5. When the drum 2 rotates, flat elements - equilateral trapezoid 11 and equilateral triangles 12 mounted along the perimeter of the drum 2 are differently inclined to the axis of rotation of the drum 2 and to each other, working like buckets (inner pockets), capture various by volume of a portion of coke or clinker particles, lift them in the direction of rotation of the drum slightly above the angle of repose, and then direct these portions in directions perpendicular to these shelves (buckets), under otorrhea angles not only to the axis of rotation of the drum 2, but also to other mass flows or mass of coke clinker moving in the drum 2 at different angles and with different speeds. The length of the motion path (amplitude) of these flows of hot materials largely depends on the diameter of the drum 2, on the angle of inclination of the flat elements of the walls of the drum 2 to each other and to the axis of rotation. The frequency of collisions of the flows of hot materials is determined not only by the frequency of rotation of the drum 2, but also by the number of flat-shaped elements different in shape along the perimeter of the drum 2. Therefore, in the proposed design of the clinker cooling installation, the frequency of interaction of the material flows (hot clinker or coke) with each other is increased with the walls of the drum 2, provides intensive heat transfer of the cooled materials and the walls of the drum 2, cooled from the outside with water, including by watering the wall to the drum 2 with water, which is captured by the recesses on the outer surface of the drum 2 between the flat triangles and the trapeziums located at an angle to each other. Thus, during the rotation of the drum 2, the flat elements — equilateral trapezoid 11 and equilateral triangles 12 mounted along the perimeter of the drum 2 are differently inclined to the axis of rotation of the drum 2 and to each other, forming outer pockets capture portions of water different in volume, and lift them in the direction of rotation of the drum 2, and thus provide additional watering of the upper surface of the drum 2 with water, which ensures the intensification of heat transfer, expands technological capabilities. Since the shape and dimensions of the cross section having the shape of a polygon change many times along the length of the drum 2 from loading to unloading, not only is the periodic compression of the masses of coke or clinker streams ensured, which increases the intensity of collisions, expands technological capabilities, increases cooling efficiency, but ensures miscibility water, which improves heat transfer. As the clinker or coke passes through the drum 2, it is cooled and removed from the drum 2 using an unloading device 4. The movement of the clinker or coke inside the drum 2 is carried out not only due to the presence of broken helical lines inside the drum 2, but also the spring 7. It is released during cooling clinker or coke steam condenses in a reflux condenser 6, which allows to reduce water consumption during cooling.

Technical and economic advantages arise due to the expansion of technological capabilities, increased cooling efficiency, due to increased heat transfer between clinker or coke and cooled water, increased their mixing and intensified movement of clinker or coke particles inside the drum, simplified drum assembly, due to the formation around the perimeter of the drum screw surfaces from flat elements of various shapes and sizes in the form of isosceles trapezoid and isosceles triangles, th о provides for violation of the stationary flow of particles of hot coke or clinker inside the drum, increases the frequency of their interaction not only with each other, but also with the walls of the drum, increases the cooling efficiency and extends technological capabilities.

Claims (1)

Installation for cooling the clinker, comprising a water bath, a rotating drum installed in it, means for loading and unloading the clinker, characterized in that the drum is made of sections mounted from two subsections made of three or more alternately connected to the sides of the isosceles trapezoid and isosceles triangles, the bases of which in the subsection are located in different directions, while the sections are interconnected by the large bases of the trapezoid, and the subsections are connected in a section so that The isosceles triangles of one subsection are attached to the upper base of the isosceles trapezoid of the second subsection, and the bases of the isosceles triangles of the second subsection are attached to the upper base of the isosceles trapezoids of the first subsection with the formation of three or more broken right and left helical lines along the inner perimeter, as well as internal three or more helical grooves with the same pitch, while a cylindrical spring with a flat spring is mounted along the entire length of the drum a section of turns, which is equipped with a device for changing the pitch of the turns by stretching or compressing, and the direction of its turns coincides with the direction of rotation of the drum.

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