SU929232A1 - Thickener-turbocyclone - Google Patents

Description

(54) TURBOCYCLON-COUPLER

Claims (1)

The invention relates to devices for separating suspensions and slurries with different solids content and can be used in the chemical and other industries. A hydrocyclone is known, including a tire-shaped conical body, a tangential supply nozzle, a sand and drain nozzle, a shaft with blades mounted in a sand nozzle, driven by a mechanical drive. A disadvantage of the known hydrocyclone is the relatively low separation efficiency due to low rotational speeds of the suspension flow in the body apparatus. A turbo-cyclone is also known, including a tire-shaped conical body, a distribution chamber, a power supply nozzle, a drain and sand outlet, an impeller t2. The disadvantage of this turboshjlon is the impossibility of achieving a high K1 of the degree of thickening of the material of the solid phase while ensuring the required purity of the clarified stream. The closest in technical drying and the achieved result to the invention is a turbo slope containing a cylindrical housing with a supply nozzle, a drain and a sand nozzle, a receiving hopper coupled to the sand nozzle and fitted with a discharge nozzle, mounted on a common shaft inside the body of the turbine and a cheek located in the sand pipe, drive. The disadvantage of this turbo-cyclone is a low degree of condensation, due to the fact that the clarified stream is subjected to additional purification, and a liquid phase is obtained with a minimum content of solid particles. The purpose of the invention is to increase at IKtivnosti divisions by providing a high degree of condensation. The delivered chain is achieved by the fact that a turbo-cyclone containing a cylindrical conical case with a supply stitch and a sand branch pipe, a receiving bin connected to the sand pipe and equipped with a discharge pipe, mounted on a common shaft inside the hull of the turbine and a screw located in the sand branch pipe, the actuator according to the invention is provided with a set of conical plates with spaced perforated rings mounted on the same shaft with the impeller and the screw, while the shaft is hollow in the upper part and in the zone with many of the hopper. It is advisable to carry out the shaft with the bodies, and the discharge nozzle to be installed in the receiving bunker tangentially. The drawing shows a turboshaft thickener, a general view. The turbo-cyclone consists of a housing 1 with a supply nozzle 2 and a distribution chamber 3. The housing 1 is connected to a cone 4 and a sand nozzle 5. A receiving hopper 6 with a tangential discharge nozzle is adjacent to the sand nozzle 5. 7. Along the axis of the apparatus, a shaft 8 is installed with slit slots 9-11, respectively located in the interface area of the housing 1 and the cone 4, in the area of the receiving bin 6 and in the zone of the outlet chamber 12 equipped with a socket 13 for outputting the liquid pressed from the condensed product. On the shaft 8 is placed: in the zone of the chrpus 1 churbink 14, accelerating the flow of the suspension introduced into the apparatus; in the zone of the sand pipe 5 - auger 15; in the area of the receiving hopper 6 - conic ta-. 16 tracks with perforated distance rings 17. i The device operates as follows. The divided suspension through the feeding nozzle 2 through the distribution chamber 3 noqTynaeT into the body 1 of the apparatus and unwound by the impeller 14. Under the centrifugal inertia forces, the solid particles move to the device walls and flow further down the spiral trajectory to the sand nozzle 5. The clarified flow moves to the axis of the apparatus and out from it through the slit slots 9 of the shaft 8. Solid suspensions, together with a part of the liquid in the lower zone of the cone 4, are picked up by the screw 15 and are fed through a sand coupling, 5 to the receiving bin 6. In the bunker 6, the condensed flow moves along the walls in a helical spiral from top to bottom, and the solid phase containing the minimum amount of liquid is removed from the receiving bin 6 through the tangential nozzle 7, which can be equipped with a control device such as a gate valve or a damper to obtain the required degree of condensation ( moisture squeeze sediment). The liquid entering the solid phase into the receiving bin 6 passes through annular channels between conical plates 16, on which additional separation of fine particles of solid material takes place, and through the perforations of spacer rings 17 and slot 1O, and then slot 11 of shaft B, the diversion chamber 12 and nozzle 13 is removed from the apparatus. The proposed device can significantly increase the degree of thickening of a solid material while providing high-quality clarification. The presence of a screw prevents the formation of an upstream drift in the lower part of the cone. particles of the solid phase in the clarified flow through the upper cracks of the shaft. With the number of shaft revolutions, it is possible to adjust the separation indicators in a wide range. Placing the shaft along the entire height of the apparatus and making it hollow in the upper part and in the area of the receiving bin of the if-bleeder chamber eliminates the negative impact of the air column occurring in the structures of conventional hydro and turbo slopes, thereby increasing the efficiency of the separation processes carried in about this type of apparatus. Claim 1. Turbo-cyclone thickener, comprising a cylindrical housing with a supply nozzle, drain and Peskov nozzles, a receiving hopper, coupled with a Peskovy nozzle and equipped with a discharge nozzle, mounted on a common shaft inside the hull of the impeller and auger located in the sand nozzle, drive, characterized in that, in order to improve the separation efficiency by providing a high degree of condensation, it is equipped with a set of conical plates with remote