RU2167719C1 - Hydraulic classifier - Google Patents

Abstract

FIELD: mineral concentration, particularly, apparatuses for hydraulic classification and fractionation of mineral raw materials in ascending flow of liquid. SUBSTANCE: hydraulic classifier includes cylindrical-conical body whose lower part accommodates branch pipe for discharge of sands and branch pipe for pulp admission. From inlet end hydraulic classifier has a vessel with receiving tray and pocket with overflow lip and chute coming to overflow launder. The vessel together with classifier body forms communicating vessels in which edge of overflow lip is located above overflow edge of cylindrical chamber. Pocket lower part has slotted outlet to internal space of the vessel. Located inside the vessel against slotted outlet is inclined partition whose lower edge is short of the vessel bottom and upper edge is conjugated with chute. The vessel upper part of side wall is above inclined partition and has horizontal slot whose lower edge is above level of overflow lip. Secured to external side of side wall with slot is receiver with outlet branch pipe. Receiving tray and pocket have casing above them with branch pipe for air withdrawal. EFFECT: higher efficiency of classification. 2 cl, 2 dwg

Description

 The invention relates to the field of mineral processing, and in particular to apparatus for hydraulic classification and fractionation of mineral raw materials in an upward flow of liquid, and can be used for gravitational mineral processing, as well as for de-slimming and thickening pulps, clarification of industrial waters and in the treatment of industrial waste water.

 Known hydraulic classifier, comprising a housing with a cylindrical chamber and a conical bottom, located in the lower part of the housing pipe for supplying pulp and pipe for unloading sand, pipe for water supply, a drain chute installed in the upper part of the body and a sealed casing with pipe for air exhaust / 1 /.

 The disadvantage of this hydraulic classifier is associated with the absence of structural elements in it, which allow regulating the quality of classification.

 The closest in technical essence and the achieved result is a hydraulic classifier, including a housing with a cylindrical chamber and a conical bottom, located in the lower part of the body pipe for supplying pulp and pipe for unloading sand, tangential pipes for supplying water to the middle part of the body, installed in the upper part housing drain chute and pipe for air exhaust located coaxially inside the housing with cylindrical rings installed inside decreasing from top to bottom diameters radial plate, a conical shell located in the lower part of the housing, a cylinder installed in the upper part of the housing coaxially with it with a sealed casing above the cylinder and with a clearance located inside the cylinder of the parabolic reflector, its open part facing the pipe for supplying pulp, pipe for the air outlet is located in the upper part of the sealed casing / 2 /.

 The disadvantage of this hydraulic classifier, as well as / 1 /, is the lack of structural elements in it, which allow regulating the quality of classification.

 The aim of the invention is to increase the classification efficiency by improving the process control conditions and hydrodynamic removal of fine-grained fractions into a drain product.

 This goal is achieved by the fact that in the hydraulic classifier, which includes a housing with a cylindrical chamber and a conical bottom, located in the lower part of the housing pipe for supplying pulp and pipe for unloading sand, tangential pipes for supplying water to the middle part of the housing installed in the upper part of the drain a chute and a pipe for air exhaust located coaxially inside the housing with diameters decreasing from top to bottom; cylindrical rings mounted inside the housing radially plate, located a conical shell mounted inside the housing, a cylinder installed in the upper part of the housing coaxially with it with a tight casing above the cylinder and with a parabolic reflector located coaxially with the clearance, open with its part facing the pulp inlet port, the air outlet port is located in the upper part a tight casing, a pipe for supplying pulp from the inlet end is equipped with a container with a receiving tray and a pocket and with an overflow threshold and estrus leaving the drain chute, the container together with the housing connecting vessels in which the edge of the overflow threshold of the tank is located above the overflow edge of the cylindrical chamber, the pocket in the lower part has a horizontally located slot exit to the internal cavity of the tank, opposite which an inclined partition is placed inside the tank, the lower edge not reaching its bottom, and the upper edge mated with estrus, the tank in the upper part of the side wall above the inclined partition has a horizontally located slot, the lower edge of which is located above the level of overflow of the threshold, from the outside of the side wall with a slot, a receiver is fixed with an outlet pipe, the receiving tray and pocket is equipped with a casing with a pipe for exhausting air from above.

 When creating the invention, the authors proceeded from the following.

 The efficiency of material classification in a hydraulic classifier can be improved if conditions are provided to reduce the turbulence of the pulp flow in the zone of hydraulic separation of material particles. This can be achieved if structural elements are introduced into the hydraulic classifier that will provide such conditions. In particular, when the coarsely dispersed air present in it is maximally removed from the pulp stream, its turbulence decreases and the flow becomes more laminar, which is very significant for the separation process. Such structural elements mounted on the pipe for supplying pulp in the known hydraulic classifier may be a container with a receiving tray and a pocket and with an overflow threshold and estrus leaving the drain chute. The container together with the body form interconnected vessels in which the edge of the overflow threshold of the container is located above the overflow edge of the cylindrical chamber. In this case, when the apparatus is operated in the hydroclassifier chamber, the necessary constant and unchanging pulp support is provided, which improves the quality of separation. The supply of pulp to the receiving tank through the receiving tray and pocket also reduces the flow turbulence, and its degassing is carried out by the fact that an inclined partition is installed in the tank on the way of this flow, on the surface of which coarse air bubbles move upward, taking away hydrophobic impurities, and down coarse-grained material moves along an inclined surface. The degassing of the pulp is facilitated by the fact that the receiving tray and pocket are equipped with a casing with a pipe for venting the air, which is connected to exhaust ventilation, which creates a vacuum above the surface of the incoming pulp receiving tank. The stream of degassed pulp bends around the inclined partition from the bottom in the receiving tank and then enters the hydraulic separation into the cylindrical chamber of the apparatus through the pipe for supplying pulp. This arrangement of structural elements ensures the implementation of the main technological task, namely the removal of coarse dispersed air from the power supply of the apparatus and high-quality hydraulic separation of the material. The regulation of the classification process and better removal of fine-grained fractions into the drain product is provided by a change in the level of pulp in the receiving tank and its quantity, as well as the degree of removal of coarse air from the pulp.

 The invention is illustrated in the drawing, where Fig.1 shows a General view of the hydraulic classifier, Fig.2 is a top view of the hydraulic classifier.

 The hydraulic classifier includes a housing 1 with a cylindrical chamber 2 and a conical bottom 3. The housing 1 is mounted vertically on the frame 4 by means of elements 5. At the bottom of the housing 1 there is a pipe 6 for supplying pulp and a pipe 7 for unloading sand. On the classifier are installed tangentially to the housing 1 nozzles 8 for supplying water to the middle part of the housing. In the upper part of the housing 1 there is a drain trough 9 with a drain pipe 10 and a pipe 11 for venting air. Coaxially inside the housing 1 are cylindrical rings 12 with diameters decreasing from top to bottom. The rings 12 are installed with a gap 13 to each other and form a separation device 14. Inside the housing 1 there are radially plates 15. In the lower part of the housing 1 with a gap to the bottom 3 there is a conical shell 16 with wear-resistant lining 17 on its inner surface. A cylindrical shell 18 is attached to the lower edge of the conical shell 16, which is installed with a gap to the bottom 3 and a pipe 6 for supplying pulp. In the upper part of the housing 1, a cylinder 19 is installed coaxially with a wear-resistant lining 20 on its inner side. An airtight casing 21 is installed above the cylinder 19, in the upper part of which there is a pipe 11 for venting air. The plates 15 are located on the outer side of the rings 12. Inside the cylinder 19, a parabolic reflector 22 is installed coaxially with the gap, open with its part facing the pipe 6 for supplying pulp. The parabolic reflector 22 is made of a wear-resistant material, for example polyurethane, and is fixed to the base 23 by means of a collapsible joint 24. The base 23 is welded to the sealed casing 21 with radial ribs 25.

 A container 26 is also connected to the pipe 6 for supplying pulp from the inlet end, also vertically mounted on the frame 4 and secured by means of the elements 5. The container 26 has a receiving tray 27 and a pocket 28 on one side and an overflow threshold 29 and estrus 30 leaving the other into the drain chute 9. Capacity 26 together with the housing 1 form interconnected vessels in which the edge of the overflow threshold 29 is located above the overflow edge of the cylindrical chamber 2, which provides the necessary constant and unchanged pulp support in the hydroclassification chamber 2. The pocket 28 in the lower part has a horizontally located slot exit 31 into the internal cavity of the container 26, opposite which an inclined partition 32 is placed inside the container 26, dividing the container into two halves - the upper 33 and the lower 34. The lower edge of the partition 32 does not reach the bottom of the container 26, forming a slit passage 35 from the upper half 33 of the container 26 into the lower half 34 under the partition 32. The upper edge of the inclined partition 32 is connected with the estrus 30, isolating the upper and lower halves 33 and 34 from each other. The capacity 26 in the upper part of the side wall The penis 36 above the inclined partition 32 has a horizontally located slot 37, the lower edge of which has an adjustable threshold 38 located above the level of the overflow threshold 29, which is necessary to ensure the continuous removal of foam with hydrophobic contaminants from the power supply of the apparatus. On the outside of the side wall 36 with a slot 37, a receiver 38 is fixed with an outlet pipe 39 for outputting the foam product. In the upper half 33 of the tank 26 there are inclined soothing plates 40. The receiving tray 27 has wedge-shaped elements 41 fixed to its bottom, designed to calm the flow of pulp. The pocket 28 is provided with a lining 42. Its lower part is curved, designed to create a directed movement of the pulp inside the container 26. On top of the tray 27 and the pocket 28 are closed by a casing 43 with a pipe 44 for venting, designed to remove coarse air from the power supply of the device. In the lower part, the hydraulic classifier is equipped with a pipe 44 for removing blockages and foreign objects from the treated pulp.

 Hydraulic classifier works as follows.

 The pulp containing solid particles of various sizes and densities is fed through the receiving tray 27 into the loading pocket 28, from where it flows through the slotted outlet 31 through the slot exit 31 into the container 26, into its upper half 33. At the same time, it is degassed by lowering the pressure above the surface of the pulp created by exhaust ventilation connected to the pipe 44 of the closed casing 43. Having met in the tank 26 on its way an inclined partition 32, the remaining coarse air is released from the pulp stream, which, moving up of the inclined walls, carries with it a hydrophobic impurities on the surface of the bubbles. Then, the pulp stream goes around the bottom of the inclined partition 32 and enters the lower half 34 of the tank 26, from where the main part of the pulp through the pipe 6 for supplying the pulp enters the chamber 2, and the rest, a smaller part of the pulp is poured into the drain trough 9 through the overflow threshold 29 and estrus 30, while providing the necessary constant and unchanging support of the pulp in the chamber 2. This is due to the fact that the edge of the overflow threshold 29 is located in communicating vessels consisting of a vessel 26 and a housing 1 of a hydraulic classifier above the overflow edge of the cylindrical chamber 2. With the continuous flow of pulp, the chamber 2 is filled with pulp to the level of the upper edge, after which the pulp is poured into the drain trough 9. Rising up, the pulp stream meets the parabolic reflector 22, which changes its path to the reverse movement with an annular coverage pulp feed stream. As a result of friction of the boundary layers of the oncoming pulp flows, the initial quenching of the turbulence of its movement occurs. Air bubbles released from the pulp through the pipe 11 for exhaust air are removed from the classifier.

 After quenching the turbulence of the pulp inside the separator 14, the latter through the gaps 13 enters the lower part of the cylindrical chamber 2. This further reduces the turbulence of the pulp flow, which is facilitated by plates 15 located in radial planes on the outside of the cylindrical rings 12. As a result in the classification zone, located on the outer side of the rings 12, the pulp comes in a more relaxed form with an ordered flow movement. Between the cylinder 19 and the walls of the chamber 2, the movement of the pulp is finally laminated, which is facilitated by the presence of finely dispersed air in the pulp, and in it there is a hydraulic separation of solid particles in an upward fluid flow. Solid particles of the fine-grained fraction of the pulp are poured with its liquid phase through the edge of the chamber 2 into the drain chute 9 and from it through the drain pipe 10 are discharged from the classifier. The solid particles of the coarse pulp fraction are deposited on the conical shell 16, sliding on the surface of the shell under the action of gravity, fall into the gap between the cylindrical shell 18 and the pipe 6 for supplying pulp, where the separation of solid particles of the coarse fraction from the solid particles of the fine fraction due to the upward flow liquids from nozzles 8. Solid particles of the coarse-grained fraction are washed with water and discharged in the form of sands of the classifier through nozzle 7. This is facilitated by the tangential dvod water during unloading sands.

 Thus, the proposed technical solution in comparison with the prototype will allow to improve the classification efficiency by improving the process control conditions and hydrodynamic removal of fine-grained fractions into the drain product.

Sources of information
1. USSR author's certificate N 1351674, cl. B 03 B 5/62, 1986.

 2. Patent of the Russian Federation N 2029625, cl. B 03 B 5/62, 1989, bull. 1995, N 6 (prototype).

Claims (2)

 1. Hydraulic classifier, comprising a housing with a cylindrical chamber and a conical bottom, located in the lower part of the body pipe for supplying pulp and pipe for unloading sand, tangential pipes for supplying water to the middle part of the body, installed in the upper part of the body drain chute and pipe for removal air, located coaxially inside the case with cylinders decreasing from top to bottom diameters, mounted on the radial plate inside the case, located in the lower part of the case a shell mounted in the upper part of the housing coaxially with the cylinder with a sealed casing above the cylinder and with a parabolic reflector coaxially located with the clearance inside the cylinder, its open part facing the pipe for supplying pulp, the pipe for venting air is located in the upper part of the sealed casing, characterized in that the pipe for supplying pulp from the inlet end is equipped with a container with a receiving tray and a pocket with an overflow threshold and estrus leaving the drain chute, the container together with the housing form a message vessels in which the edge of the overflow threshold of the tank is located above the overflow edge of the cylindrical chamber, the pocket in the lower part has a horizontal slot exit to the internal cavity of the tank, opposite which an inclined partition is placed inside the tank, the lower edge not reaching its bottom, and conjugated by the upper edge with estrus, the tank in the upper part of the side wall above the inclined partition has a horizontally located slot, the lower edge of which is located above the level of the overflow threshold On the outer side of the side wall with a slot is fixed a receiver with an outlet.  2. The hydraulic classifier according to claim 1, characterized in that the receiving tray and pocket are provided on top with a casing with a pipe for venting air.

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