RU2655352C1 - Installation for cooling of particles of bulk materials - Google Patents

Abstract

FIELD: cooling.

SUBSTANCE: invention relates to devices for cooling bulk materials, for example, clinker in the production of cement, coke, zinc, lead, tin during ore processing, and can be used in the cement, coke-chemical, metallurgical industries. Installation for cooling bulk materials includes a water bath accommodating a rotating drum made of strips, means for loading and unloading bulk materials. This is a screw multiple-thread drum made of rectangular strips, twisted in a vertical plane in the longitudinal direction and curved along the helical lines in the transverse direction on a cylindrical mandrel with the formation along the perimeter of the drum of the helical lines and helical curvilinear surfaces of one direction of a concave shape relative to the axis of symmetry of the drum, with centers of curvature located outside the cross section of the drum.

EFFECT: expansion of technological capabilities, increase in the perimeter surface of the drum, increase in the displacement speed of particles of bulk materials from loading to unloading procedure, an increase in the intensity of heat exchange between particles of bulk materials and cooling water, as well as cooling efficiency due to an increase in the range of changes in the displacement vector and the reorientation of particles of bulk materials.

1 cl, 7 dwg

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 (AS USSR, 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 of 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 the insufficient intensity and efficiency of cooling, due to the insufficient intensity of mixing and reorientation of particles of bulk materials and heat transfer between bulk materials and cooling water due to insufficient perimeter of the drum and its passage section, as well as insufficient speed of movement of particles of bulk materials from loading to unloading.

Closest to the proposed invention is a device for cooling bulk materials (application for invention No. 2009137941/05 (053636), class MKI C10B 39/00, F27B 7/38, 2009), including means for loading and unloading bulk materials, water a bathtub, a rotating drum installed in it, made of rectangular strips bent alternately in opposite directions at an angle of 140 ° along cuts made at an angle of 60 ° to each other and to the longitudinal edges of the strips with the formation of equilateral triangles located along the length of the strip in opposite directions, with the strips connected to each other along the longitudinal edges at an angle of 70 °, with the formation along the inner perimeter of three broken helical grooves of the main direction and two broken helical grooves of the opposite direction, and along the outer perimeter of three broken helical lines of the main direction and two broken helical lines of the opposite direction, at the break points of which there are places of convergence of the sides of six equilateral triangles.

The disadvantages of the known device are limited technological capabilities due to the insufficient intensity and efficiency of cooling, due to the insufficient intensity of mixing and reorientation of particles of bulk materials and heat transfer between bulk materials and cooling water due to the insufficient perimeter of the drum and its passage section, as well as the insufficient speed of movement of particles of bulk materials from loading to unloading.

The technical result of the task is to expand technological capabilities, increase the perimeter of the drum and its bore, and increase the speed of movement of particles of bulk materials from loading to unloading, increase the intensity of heat exchange between particles of bulk materials and cooling water, as well as cooling efficiency by increasing the range of changes vector displacements and reorientation of particles of bulk materials, which increases their mixing.

The technical result is achieved by the fact that in the installation for cooling bulk materials, including a water bath, a rotating drum mounted therein made of strips, means for loading and unloading bulk materials, the drum is made of multi-helical spiral strips of rectangular shape twisted in a vertical plane in the longitudinal direction and curved along helical lines in the transverse direction on a cylindrical mandrel with the formation along the perimeter of the drum of helical lines and helical curved surfaces one direction of concave shape relative to the axis of symmetry of the drum with centers of curvature located outside the cross section of the drum.

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 design of the installation for cooling bulk materials.

The novelty of the invention lies in the fact that such a design of the drum and its implementation of a multi-helical screw of rectangular strips twisted in a vertical plane in the longitudinal direction and curved along the helical lines in the transverse direction on a cylindrical mandrel with the formation of helical lines and helical curved along the perimeter of the drum surfaces of one concave direction relative to the axis of symmetry of the drum with centers of curvature located outside the cross section drum, expands technological capabilities, increases the perimeter of the drum, increases the speed of movement of particles of bulk materials from loading to unloading, increases the heat transfer between particles of bulk materials and cooling water, as well as the cooling efficiency, increases the range of changes in the displacement vector and reorientation of particles of bulk materials, as well as mixing them.

The novelty is due to the fact that the drum is made with a constant cross-section along the entire length, which eliminates the occurrence of oncoming flows of movement of bulk materials.

The novelty is seen in the fact that the drum is made of strips of equal width and length, which simplifies the design and manufacturing technology of the drum.

The novelty of the proposal lies in the fact that due to the execution of the drum with a multi-helical screw with the formation of helical lines and helical curved surfaces along the perimeter of the drum of the same direction with a concave shape relative to the axis of symmetry of the drum with the centers of curvature located outside the cross section of the drum, the area and intensity of irrigation of the drum increases.

The novelty also lies in the fact that due to the execution of the drum by a multi-helical screw with the formation of helical lines and screw curved surfaces along the perimeter of the drum of the same direction with a concave shape relative to the axis of symmetry of the drum with the centers of curvature located outside the drum cross section, turbulent jets are excited in the water, the continuity is violated inside the water, air bubbles form in the entire volume of water in the washing chamber, which intensifies the cooling process.

The invention is illustrated by drawings, which show the following.

In FIG. 1 schematically shows an installation for cooling bulk materials, a longitudinal section; in FIG. 2 - drum, general view; in FIG. 3 is a section AA in FIG. 2 drums made of rectangular strips twisted in a vertical plane in the longitudinal direction and curved along helical lines in the transverse direction of the concave shape; in FIG. 4 - one of the strips after twisting in a vertical plane relative to its horizontal axis O ₁ -O ₁ ; in FIG. 5 is a view of a strip curved along helical lines in the transverse direction on a cylindrical mandrel; in FIG. 6 is a section BB in FIG. 5; in FIG. 7- section BB in FIG. 5 with the alignment of the sides of two bands.

Installation for cooling bulk materials (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 installed above the drum 2. A reflux condenser 6 is installed above the water bath 1. To ensure output, the unloading device 4 is equipped with an internal screw winding 7.

The drum 2 with helical curved surfaces of one direction of a concave shape relative to the axis of symmetry of the drum 2 with the centers of curvature located outside the cross section of the drum 2 (Fig. 1, Fig. 2, Fig. 3) is made of multi-helical screw from rectangular strips 8, 9, 10, 11, 12, 13, 14, 15, twisted in a vertical plane in the longitudinal direction (Fig. 4) and bent along helical lines in the transverse direction on a cylindrical mandrel 16 with the formation along the perimeter of the drum 2 helical lines and helical curved surfaces about one direction (Fig. 3) concave relative to the axis of symmetry of the drum 2 with centers of curvature located outside the cross section of the drum 2.

Each of the strips 8, 9, 10, 11, 12, 13, 14, 15 is twisted in the longitudinal direction relative to its own axis of symmetry O ₁ -O ₁ , for example, strip 8 in FIG. 4 with longitudinal side edges 17 and 18, in which one of the ends is fixed in a hot or cold state and the other end of the strip is turned in a predetermined direction. The strip 8 thus twisted is placed on a cylindrical mandrel 16, as, for example, in FIG. 5 strip 8, and bend so that the edges 17 and 18 of the strip 8 would be placed in the transverse direction along helical lines. When this strip 8 is deformed and it is either removed from the mandrel, or fixed on it in a deformed position. The remaining strips 9, 10, 11, 12, 13, 14, 15 are treated in a similar manner. The strips 8, 9, 10, 11, 12, 13, 14, 15 thus deformed in this way are placed on a cylindrical mandrel 16, for example, as in FIG. . 6 strip 8, and align the longitudinal edges, for example the edge 18 of the strip 8, with the longitudinal edge 17 of the strip 15, as in FIG. 7, and connected by known methods, for example by welding.

Installation for cooling bulk materials (Fig. 1) works as follows. Hot particles of bulk materials, such as clinker, coke, etc., enter the rotating drum 2 using the loading device 3, where they are captured by the inner screw surface and moved towards the discharge side. Drum 2 is irrigated with water coming from the sprinkler 5. Upon reaching a certain height under the influence of gravitational forces and the angle of repose formed, bulk materials are moved by screw grooves K ₁ , K ₂ , K ₃ K ₄ , K ₅ , K ₆ K ₇ , K ₈ ( Fig. 1) of the drum 2 in the direction of unloading. Since helical lines and curved surfaces around the perimeter of the drum are continuous, the process of movement of subsequent portions of bulk materials, which rise up and move to the discharge side, is continuous. Since the lateral surfaces around the perimeter of the drum 2 are curved, in each portion each particle of bulk materials moves along its direction vector towards the discharge side, which increases the cooling efficiency of the particles of bulk materials, as they increase the frequency of their contacts against each other and against the walls of the drum 2, heat from which is intensively taken by streams of water. The heat transfer process is also intensified by the water flows generated during the rotation of the drum 2 and the passage of its curved surfaces (concave or convex) through the water layer of the bath 1. These curved surfaces created along the perimeter of the drum 2 capture and lift up portions of water from the bath 1 and provide additional watering the drum with water 2. Cooled particles of bulk materials enter the unloading device and with its help are discharged outside the device for cooling bulk materials.

The proposed shape and design of the drum allows you to expand technological capabilities, not only to increase the perimeter of the drum, which will increase the heat transfer rate, but also to expand the bore of the drum, as well as increase the speed of movement of particles of bulk materials from loading to unloading, increase the rate of heat transfer between particles of bulk materials and cooling water, as well as cooling efficiency by increasing the range of changes in the displacement vector and reorientation of particles of bulk materials , increase their mixing.

Technical and economic advantages arise due to the expansion of technological capabilities, by increasing the perimeter of the drum and its bore, increasing the cooling efficiency due to increased heat transfer between particles of bulk materials and cooling water, increasing the mixing capacity and intensifying the movement of particles of bulk materials inside the drum.

Claims (1)

Installation for cooling bulk materials, including a water bath, a rotating drum made of strips mounted therein, means for loading and unloading bulk materials, characterized in that the drum is made of multi-helical spiral strips of rectangular shape, twisted in a vertical plane in the longitudinal direction and curved along helical lines in the transverse direction on a cylindrical mandrel with the formation along the perimeter of the drum of helical lines and helical curved surfaces of one direction vog shaped relative to the axis of symmetry of the drum with centers of curvature located outside the cross section of the drum.

Images