PL115658B2 - Hydraulic classification apparatus - Google Patents

Description

The subject of the invention is a device for hydraulic classification, intended mainly for use in plants of the mineral aggregates industry. Known devices for hydraulic classification consist of several or a dozen chambers-thickeners with a conical shape with an upper overflow arranged in a vertical, horizontal or cascade line. Classification chambers are supplied with water supplied from the top or horizontally from the side of the classifier. In these classifiers, sand grains are divided into fine-grained and coarse-grained fractions. The coarse-grained fraction flows down the bottom of the classifier, while the fine-grained fraction is carried from the water to the overflow. Other hydraulic grading devices consist of a horizontal-current section, where the coarse classification takes place, and a vertical-current section, where the initially obtained products are additionally cleaned of undesirable grains. The disadvantage of known devices is the need to provide grains with a grain size similar to the grain. time to reach stabilization of the speed, which requires a sufficiently long path, especially with larger grains, and the inability to obtain laminate flows with a significant expenditure of the device. A further disadvantage of the known devices is that a large amount of fine-grained fraction flows along with the coarse fraction. According to the invention, the device has a two-arm rectangular clay-binding device in the upper part and a cone in the lower part, inside which is attached a pipe ending with a nozzle and connected to the pipe. . A guide tube with stabilizing screens is mounted on the pipe conduit, and the guide tube cross-section is tapering in the direction of water outflow. The lower part of the clay binder is completed with a replaceable nozzle. The clay slipper is fed with a sand-water mixture from a vortex mixer, consisting of a thick-walled plate with a pipe stub end with a cone, and a through connector. A stream of water is fed to the through connector, which, by an arc, carries the grains and causes them to swirl over plate. The clay dictionary works with a classification column, which is a system of six members placed one above the other and connected with each other. The individual part consists of a cylindrical housing with flanges, inside which is mounted an elliptical flow flange with a through-going element, and a cylindrical connector with a larger diameter and a connector with a smaller diameter connected to each other. There are stabilizing nets inside the cylindrical connector with a smaller diameter. The upper member of the 115 658 column is equipped with a spill chute soaker, while the lower member has a conical end and a pipe stub, to which the nozzle is screwed together with the pipeline. The main advantage of the solution according to the invention is its versatility, especially when classifying the finest fractions. For example, fine sands, for molding and glass sands, and the obtained product is of high quality. The subject of the invention is explained in more detail in the embodiment example in the schematic drawing. The device according to the invention consists of a vortex mixer 1 consisting of a thick-walled plate 2 with a tubular connector 3 ended with a cone 4 and a straight connector 5, to which water is supplied through a line 6, from a two-armed claybinder 7, the upper part 8 of which is rectangular in shape and the cone-shaped lower part 9 has a tubular conduit 10 inside and a steel nozzle 11 terminated with a flange. The upper part of the conduit 10 is connected to the pump 12. On the conduit 10 there is a generator 13 with stabilizing nets 14 with a cross-section tapering in the direction of the water outflow. The lower part 9 ends with a replaceable nozzle 15, which in turn is connected to the water pipeline 16. The clay binder 7 cooperates with the hydroclassification column 17, which is a system of six parts arranged one above the other and connected to each other. The individual part consists of a cylindrical housing 18 with flanges 19; an elliptical, flowing flange 20 with a through-hole element and a cylindrical stub 21 with a larger diameter and a stub 22 with a smaller diameter are welded inside, connected to each other by a conical element 23. Inside the stub 22, stabilizing mesh with round meshes is installed. The lower member of the column ends with a cone 24, to which the stub 25, nozzle 26 and pipeline 27 are welded together with the flange. Each member has an outlet 28 with a rubber nozzle 29 in the form of an arched elbow. The upper member is armed with a splitter 30 together with a net 31 and a vortex loosener 32. Inside the loosener 32 a net with tightened circular meshes is mounted. The tubular conduit 33 is connected to the pump 12 and the centrifugal loosener 32. A tubular receiver 34 is attached under the nozzle 29 of the individual members. The sand flue from the bed is previously mechanically crushed and is transferred to the swirl mixer 1 by means of a plate conveyor and a conveyor belt. on the sieve and is partially loosened by a whirl of water. The whirl of water with sand breaks down on the thick plate 2 and breaks the mass against the walls of the casing. In this way, the loosened water-sand mixture flows down by gravity onto the sieve, where coarse impurities over 7 mm are separated. After the separation of pollutants, the water-sand mixture flows into the clay slurry 7, and here the dirty water is separated from the content of the dust fraction, fine fraction and coloring oxides by means of a nozzle 13, with a fixed lifting velocity for the fractions mentioned, which flow over the overflow 35. of overflow 35 is directed to the thickener and to the treatment plant. In turn, the clean water is supplied through the pipeline 16, which flows through the nozzles 15, forcing pure sand in the form of a semi-product through a tubular line 10 and 33, with the participation of a pump 12 to the vortex loosener 32. From the tubular loosener 32, the semi-product flows into a splatter gutter 36 to give the mixture a mixture water-sand character of a calm and better enrichment of the intermediate in the further technological cycle. The pure sand blank from the gutter 36 flows down to the classifying column 17, to which pure water of constant pressure is supplied via a pipeline 27. The speed of water flow is regulated by a steel nozzle 25. In this way, the grains of the semi-product are divided into six fractions, a coarse coarse is formed in the lower part, in the middle parts of the reels, a large-grained, fine-grained and medium-grained fraction is formed in the upper part fine-grained. Said fractions flow down through individual rubber nozzles 29 to a tubular receiver 34. From the individual receptacles, the water-sand mixture is directed to individual drains for dewatering the mass, and the recovered water is directed to the collection point as clean water to feed the device. Patent claims 1. A device for hydraulic classification, characterized by the fact that it consists of a vortex mixer (1), a hydroclassification column (17), which is a system of six units placed one above the other and connected to each other, and a two-armed clay slipper (7) in the shape of a rectangle in the upper part (8) and a cone in the lower part (9), inside which a tubular conduit (10) is attached, finished with a steel nozzle (11) and connected to the pump (12), on which the guide (13) with stabilizing nets is mounted ¬ tions, with a narrowing cross section in the direction of the water outflow. 2. Device according to claim The method of claim 1, characterized in that the vortex mixer (1) consists of a thick-walled plate (2) with a tubular connector (3) with a conical end (4), on which is mounted a straight-through connector (5) to which is supplied water with the pipe (6). 3. Device according to claim The method of claim 1, characterized by the fact that in the upper part (8) the claybinder (7) has an overflow frame (35), while the lower part (9) ends with a replaceable nozzle (15) and is connected to a pipe (16) supplying water to the claybinder. (7). 4. Device according to claim 3. The method of claim 1, characterized in that each of the members of the classification column (17) consists of a cylindrical housing (18) with flanges (19) and an elliptical flange (20), inside which there is a cylindrical connector (21) of larger diameter and a connector ( 22) of smaller diameter, connected to each other by a conical element (23), the cylindrical stub (22) having stabilizing nets. 5. Device according to claim 1 and 4, characterized in that the lower member of the classifying column (17) ends with a cone (24), a pipe (25), a nozzle (26) and a pipeline (27) supplying water to the column, while the upper member is armed with a soother ( thirty). 6. Device according to claim A method as claimed in any of claims 1, 4 and 5, characterized in that each member of the classification column (17) has an outlet (28) from a rubber nozzle (29) in the form of an arched elbow. PL

Claims (6)

Claims 1. A device for hydraulic classification, characterized by the fact that it consists of a vortex mixer (1), a hydroclassification column (17), which is a system of six units placed one above the other and connected to each other, and a two-arm claybinder ( 7) rectangular in the upper part (8) and a cone in the lower part (9), inside which there is a tubular conduit (10), ending with a steel nozzle (11) and connected to the pump (12) on which the nozzle (13) is mounted ) with stabilizing nets, tapering in cross-section in the direction of water outflow. 2. Device according to claim The method of claim 1, characterized in that the vortex mixer (1) consists of a thick-walled plate (2) with a tubular connector (3) with a conical end (4), on which is mounted a straight-through connector (5) to which is supplied water with the pipe (6). 3. Device according to claim The method of claim 1, characterized by the fact that in the upper part (8) the claybinder (7) has an overflow frame (35), while the lower part (9) ends with a replaceable nozzle (15) and is connected to a pipe (16) supplying water to the claybinder. (7). 4. Device according to claim 3. The method of claim 1, characterized in that each of the members of the classification column (17) consists of a cylindrical housing (18) with flanges (19) and an elliptical flange (20), inside which there is a cylindrical connector (21) of larger diameter and a connector ( 22) of smaller diameter, connected to each other by a conical element (23), the cylindrical stub (22) having stabilizing nets. 5. Device according to claim 1 and 4, characterized in that the lower member of the classifying column (17) ends with a cone (24), a pipe (25), a nozzle (26) and a pipeline (27) supplying water to the column, while the upper member is armed with a soother ( thirty). 6. Device according to claim A method as claimed in any of claims 1, 4 and 5, characterized in that each member of the classification column (17) has an outlet (28) from a rubber nozzle (29) in the form of an arched elbow. PL