RU2166996C2 - Plant for hydraulic classification of grainy materials - Google Patents

Abstract

FIELD: devices for concentration, separation and thickening of grainy materials; applicable in mining, construction, chemical and other industries engaged in processing of mineral raw materials and production wastes. SUBSTANCE: plant includes metal structure carrying feed bin and several sections located on below another and consisting of classifying cylindrical-conical vessels and draining chambers whose cross-section areas rise from top downward inversely to hydraulic size of particles of material, and branch pipes for discharge of thickened products of classification. Metal structure is made in the form of closed tubular system for possible supply of water into system from main pipeline. Secured to closed tubular system are supporting seats of cylindrical-conical vessels and branch pipes for supply of water to each cylindrical-conical vessel for their filling and washing. EFFECT: extended operation and engineering potentialities of claimed plant. 2 dwg

Description

 The invention relates to the field of devices for the enrichment, separation and thickening of granular materials and can be used in mining, construction, chemical and other industries for the processing of mineral raw materials and industrial waste.

 The closest in technical essence and the achieved result to the present invention is the installation of hydroclassification of granular materials, including metal construction with a hopper-feeder installed on it and placed one below the other several sections, consisting of classifying cylindrical-conical tanks and drain chambers, the cross-sectional areas of each of which increase top down inversely proportional to the hydraulic particle size of the material particles, outlet pipes for condensed products ification (Klebanov OB, Handbook of a technologist for the enrichment of non-ferrous metal ores .- M .: Nedra, 1974, p. 459-460).

 The disadvantages of this technical solution are the high metal consumption of the products, the complexity of installation and dismantling due to the need to disassemble the entire installation when replacing, for example, the lower section, high labor intensity and low maintainability, limiting its use in stationary conditions.

 The problem to which the present invention is directed, is the expansion of operational and technological capabilities by creating a portable mobile installation, characterized by the lowest possible metal consumption, ease of installation and high maintainability, able to be used in remote areas during mining and geological work.

 To solve this problem, in a hydroclassification installation of granular materials, which includes a metal structure with a hopper-feeder installed on it and several sections located one below the other, consisting of classification cylinder-conical tanks and drain chambers, the cross-sectional areas of each of which increase from top to bottom inversely with the hydraulic particle size material, outlet pipes of condensed products classification.

 According to the invention, the metal structure is made in the form of a closed tubular system with the possibility of supplying water from a main pipeline to it, to which the support saddles of cylinder-conical tanks are fixed, and is equipped with water supply pipes to each of the cylinder-conical tanks for filling and washing.

 The presence of the feature "metal construction is made in the form of a closed tubular system with the possibility of supplying water to each of the cylindrical containers for filling and washing" to simplify the design as a whole and reduce its metal consumption through the use of tubular elements that perform a dual function: they carry a load and perform the technological load of water supply at any point in the metal structure. The use of the lower tubular elements in the form of skis provides the ability to move the installation by sliding like a sled, which significantly reduces the complexity of delivery and movement to the place of work, that is, increases its mobility.

 The presence of the sign "supporting saddles of cylindrical-conical tanks are fixed to the tubular system" ensures the simplicity of installation and dismantling works and high maintainability of the installation. This is ensured by the fact that each of the sections can be mounted and dismounted on the support saddle separately, independently of the other sections. In addition, since the installation of the supply of process and flushing water, as well as the withdrawal of the finished classified product from each section, is supposed to be carried out via rubber hoses / hoses /, repair and installation and dismantling operations are greatly simplified.

 In FIG. 1 shows a General view of the installation of hydroclassification of granular materials, figure 2 is a section along aa in figure 1.

 The installation includes a hopper feeder 1 with a motor-vibrator 2. The bottom of the feeder has a window 3 with longitudinal slots, which ends with a funnel 4 for supplying the source material for classification. The hopper-feeder is supported by springs 5 on the metalwork 6, made of bent pipes, comprising the whole of the lower and upper frames, as well as vertical racks and transverse connections. A tap 7 is connected to the lower transverse connection from the main pipeline to supply water to the system. At the upper point of the tubular system, a valve 8 is provided for discharging air from the system. Supporting saddles 9, 10 and 11 are fixed to the elements of the tubular system using brackets, on which cylinder-conical tanks 12, 13 and 14 with drain chambers 15, 16 and 17 and outlet pipes of the classified condensed product 18, 19 and 20 with valves 21, 22 are installed and 23. Water for filling is supplied into cylinder-conical chambers through nozzles 24, 25 and 26 with taps 27, 28, and 29 installed tangentially to their internal surfaces. Flushing water is supplied to the same tanks through nozzles 30, 31 and 32 with taps 33, 34 and 35. Each fraction of the condensed product is accumulated in tanks 36, 37 and 38, and large particles of material along the feeder tray and hydroclassification waste from the drain chamber tray lower sections are dumped down.

 The operation of the hydroclassification of granular materials is as follows.

 When opening the valve 7, the tubular system 6 from the line is filled with water at the required pressure and with the help of valve 8, air is blown out of it. Then the taps 27, 28 and 29 open and water is supplied through the nozzles 24, 25 and 26 tangentially to the inner surfaces of the cylinder-conical containers 12, 13 and 14, forming a rotating field of water and filling these containers. Further, taps 33, 34 and 35 are opened and water for flushing through pipes 30, 31 and 32 enters the lower parts of the cylinder-conical tanks 12, 13 and 14, forming an upward flow of water that overflows through the edges of the tanks into the drain chambers 15, 16 and 17 , forming a cascade of iridescent water from the upper drain chamber in one section to the capacity of the underlying other section. And finally, at the final stage, the vibrator 2 is turned on, as a result of which the hopper-feeder 1 on the springs 5 comes into oscillatory motion, the granular material inside it moves along the bottom, particles with a given particle size fall through the slots of the screen 3 into a funnel 4 into classifying cylinder-conical tank 12. Large particles of material overcome the resistance of the upward flow, enter the outlet pipe of the large condensed product 18 and are accumulated into the tank 36 through the outlet valve 21. Medium particles coarse particles, small and smallest, are carried upstream into the drain chamber 15 and gravity flow into a cylindrical-conical tank 13. Here, medium-sized particles overcome the resistance of the upward flow of washing water, enter the outlet pipe of the average condensed product 19 and are accumulated in the tank 37 through the outlet valve 22. The fine and smallest particles are carried out by an upward flow of wash water into the drain chamber 16 and by gravity enter the cylindrical container 14. Here, the fine particles overcome the resistance e of the ascending wash water flow, they enter the outlet pipe for the fine condensed product 20 and are accumulated into the container 38 through the outlet valve 23. The smallest silty and clay particles are carried out by the ascending wash water into the drain chamber 17, are discharged by gravity from the system and sent to the water collector for clarification and subsequent use in recycled water supply.

 The use of a tubular closed system of the installation as a metal structure allows to reduce its metal consumption and expand the range of use during operation in mining and geological works.

Claims (1)

 Installation of hydroclassification of granular materials, including metal structures with a hopper-feeder installed on it and several sections located one below the other, consisting of classifying cylinder-conical tanks and drain chambers, the cross-sectional areas of each of which increase from top to bottom inversely proportional to the hydraulic particle size of the material, and the outlet pipes are condensed classification products, characterized in that the metal structure is made in the form of a closed tubular system with It can be supplied with water from the main pipeline, to which the supporting saddles of the cylinder-conical tanks are fixed, and is equipped with water supply pipes to each of the cylinder-conical tanks for their filling and washing.

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