RU2018382C1 - Centrifugal separator - Google Patents

Abstract

FIELD: agriculture. SUBSTANCE: centrifugal separator has housing 1 with collectors of fractions 2 and 3. Drive 4 of rotor rotation, rotor 5 and charging branch pipe 6 are placed in housing 1. Hollow cylindrical and conical member 7 is mounted on the lower end of branch pipe 6. It is freely rotated on the branch pipe and is shifted along its vertical line. The cylindrical surface of member 7 conjugated with branch pipe 6, is fettled with antifriction material. Blades are mounted on the lower base of rotor 5 under conical member 7. EFFECT: simpler design. 2 cl, 1 dwg

Description

 The invention relates to agriculture, and in particular to devices for the separation of bulk materials by size.

 Known separator for screening bulk materials, including a housing, vibration exciter, apex cone sieve element facing upward, loading device coaxially mounted above it, made in the form of a hollow conical element facing downward with a large base, loading and unloading nozzles [1].

 The disadvantage of this separator is its low efficiency and the negative effects of vibration.

 The closest to the proposed technical essence and the achieved result is a centrifugal separator, comprising a housing with fraction collectors, which houses the rotor rotation drive, rotor and loading device, made in the form of a vertical pipe [2].

 The disadvantage of this separator is that as a result of the entrainment of passage particles with a similar fraction, the separation efficiency is reduced.

 The purpose of the invention is to increase the efficiency of separation by reducing the loss of passage particles with a similar fraction.

 This goal is achieved in that the centrifugal separator, comprising a housing with fraction collectors in which the rotor rotation drive, rotor and loading vertical pipe are placed, is equipped with a hollow cylindrical element installed by a large housing base down on the lower end of the vertical pipe with the possibility of free rotation and vertical movement.

 The hollow cylindrical-conical element is lined with antifriction material along a cylindrical surface mating with the nozzle. In addition, under the hollow conical element on the rotor blades are installed.

 Comparative analysis with the prototype shows that the claimed technical solution is characterized in that the centrifugal separator is equipped with a hollow cylindrical element installed with a large base of the cone down on the lower cone of the loading nozzle. In this case, the cylindrical surface of the hollow cylindrical-conical element, conjugated with the pipe, is lined with antifriction material. Blades are mounted under the conical element on the rotor.

 These features ensure compliance of the claimed technical solution to the criterion of "Novelty."

 Comparison of the claimed technical solution not only with the prototype, but also with other technical solutions in this technical field did not allow us to identify signs that distinguish the claimed technical solution from the prototype. This allows us to conclude that the claimed technical solution meets the criterion of "Significant differences".

 The drawing shows a General view of a centrifugal separator, a section.

 The centrifugal separator consists of a housing 1 with collectors of 2 and 3 fractions for feed-through and gathering products. In the housing 1, the rotor rotation drive 4, the rotor 5 and the loading nozzle 6 are located. At the lower end of the loading nozzle 6, a hollow cylindrical element 7 is mounted with free rotation thereon and vertical movement. The surface of the cylindrical part of the element 7, conjugated with the loading nozzle 6, is lined anti-friction material. Under the conical element 7 on the rotor 5 mounted blades 8.

 Centrifugal separator operates as follows.

 The initial product is supplied by a pipe 6 to the lower part of the rotating rotor 5, limited by the base of the rotor and the hollow cylinder-conical element. Under the action of friction forces, centrifugal and Coriolis forces of inertia, an excess pressure of the separated product is created under the hollow cylindrical element. As a result of this, the hollow element, rotating due to the forces of friction, is lifted together with the separated product and forms an annular gap with the lower base of the rotor 5, through which the separated product is distributed by a uniform seal onto the screening surface of the rotor 5. Passing product particles, standing out on the screening surface, 2 fractions enter the collection. Large particles of the product immediately from the screening surface enter the fraction collector.

 To experimentally confirm the improvement of separation efficiency by reducing the loss of passage particles with a similar fraction, an experimental sample of the proposed separator was made and tested. Based on experimental studies, it was found that the use of the proposed separator allows more than 2 times in comparison with the prototype to increase the efficiency of separation of bulk materials.

Claims (3)

 1. CENTRIFUGAL SEPARATOR, comprising a housing, a rotor with a drive located therein, a vertical loading nozzle and collectors of separated fractions, characterized in that, in order to increase the separation efficiency by reducing the loss of small particles with a large fraction, it is equipped with a located at the lower end of the loading the pipe with the possibility of free rotation and vertical movement of the hollow cylindrical element, while its cylindrical part is located on top, and the conical one is facing with a large base of.  2. The separator according to claim 1, characterized in that the cylindrical part of the hollow element on the surface associated with the loading pipe is lined with antifriction material.  3. The separator according to claim 1, characterized in that it is provided with blades located on the rotor under the cylinder-conical element.