RU122915U1 - HYDROCYCLONE THICKENER - Google Patents

Abstract

A hydrocyclone-thickener, including a cylindrical-conical body with a tangential inlet, drain and discharge nozzles, a chamber in which a drum with grooves made on its outer surface is installed, loosely mounted on an axis with the possibility of rotation in the chamber, characterized in that the chamber in the lower part has a perforated filtering element with a cylindrical surface connected to a collection box and a branch pipe for withdrawing the filtrate of the condensed fraction, while behind the filtering element along the rotation of the drum in the chamber there is an unloading window connected to the branch pipe for unloading the condensed fraction.

Description

The utility model relates to devices for separating suspensions followed by dehydration of their condensed fraction and can be used in food, chemical industry and other industries, in particular in livestock farming to obtain a solid phase from liquid manure.

The closest to the claimed device in technical essence and the achieved result is a hydrocyclone thickener (1), which includes a cylindrical housing with a tangential inlet pipe, a drain nozzle and a sand pipe, a sand chamber in which a rotating drum with grooves on its outer surface, and a camera is installed mounted coaxially to the sand nozzle with the possibility of rotation, in which an inclined hole is made, tapering in the direction of the sand chamber.

A disadvantage of the known thickening hydrocyclone is the complexity of its design and the high energy intensity of the process of dewatering the condensed fraction, due to the presence of an active drive of the device for dewatering the condensed fraction.

The objective of the utility model is to increase the degree of dehydration of the thickened fraction, while reducing the energy intensity of the dehydration process of the thickened fraction.

The problem is solved by the following set of features of the claimed device.

The claimed hydrocyclone thickener, as well as the known one, includes a cylinder-conical body with a tangential inlet pipe, a drain and discharge pipe, a chamber in which a drum is installed with grooves made on its outer surface, freely mounted on the axis with the possibility of rotation in the chamber.

In contrast to the known one, the chamber at the bottom has a perforated filter element with a cylindrical surface connected to a collecting box and a nozzle for outputting the filtrate of the condensed fraction, and behind the filter element, in the direction of rotation of the drum, an unloading window is made in the chamber connected to the nozzle for unloading of the condensed fraction.

The proposed utility model is illustrated by the drawing, which shows in section a general view of the proposed hydrocyclone thickener. The hydrocyclone thickener is arranged as follows. Cylindrical housing 1 with tangential inlet 2, drain 3 and discharge 4 nozzles. Coaxial to the hydrocyclone in the upper part of the cylinder-conical housing 1, a drain nozzle 5 is fixed. At the bottom of the hydrocyclone is a device 6 for dewatering the condensed fraction, made in the form of a drum 7 with grooves 8 made on its outer surface, freely mounted on the axis 9 with the possibility of rotation in the chamber 10. The chamber 10 in the lower part has a perforated filter element 11 with a cylindrical surface connected to the duct for collecting 12 and a pipe for outputting the filtrate of the condensed fraction 13. Behind the filter element ohm 11, in the direction of rotation of the drum 7, a discharge window 14 is made in the chamber 10, connected to a pipe for unloading the condensed fraction 15. The hydrocyclone thickener operates as follows. Through the tangential inlet pipe 2, the initial mass of the suspension is supplied under pressure to the contact zone tangentially with the wall of the cylinder-conical body 1. Under the influence of its own weight, the suspension forms a vortex stream of a layer of condensed fraction on the surface of the cylinder-conical body 1, and in the center of the latter a vortex clarified stream of liquid fraction, which out through discharge 4 and drain 3 nozzles, respectively.

The mass of suspension thickened in the hydrocyclone through the discharge pipe 4 enters the device 6 for its dehydration. Possessing kinetic energy, the condensed mass causes the moment of rotation of the drum 7, freely set on the axis 9. When the groove 8 coincides with the channel of the discharge pipe 4, the condensed fraction fills the space of the groove 8 and with further rotation of the drum 7 is additionally dehydrated on the perforated surface of the filter element 11, and then, when the groove 8 coincides with the discharge window 14, the pipe 15 is removed from the apparatus. Meanwhile, the filtrate obtained by filtering the thickened fraction on the filter element 11, enters the box 12 and is removed through the pipe 13.

Information sources

1. USSR author's certificate No. 760566, Hydrocyclone thickener, MPC ⁽⁶⁾ B04C 5/13, publ. 02/20/1995.

Claims (1)

Hydrocyclone-thickener, including a cylindrical-conical housing with a tangential inlet pipe, drain and discharge pipes, a chamber in which a drum is installed with grooves made on its outer surface, freely mounted on the axis with the possibility of rotation in the chamber, characterized in that the chamber is in the lower part has a perforated filter element with a cylindrical surface, connected to a collecting box and a pipe for outputting the filtrate of the condensed fraction, while behind the filter element in the direction of rotation of the drum an unloading window is made in the chamber, connected to a pipe for unloading the condensed fraction.