SU977070A1 - Centrifugal classifier - Google Patents

Description

(54) CENTRIFUGAL CLASSIFIER

one

The invention relates to the field of pneumatic classification of various bulk materials in the field of centrifugal forces and is intended for the separation of solid bulk materials with a grain size of up to 1 mm into two products on the boundary grain in the range from 2 to 50 microns.

A centrifugal classifier is known, which includes a housing, a pipe for supplying a material to be divided, a multi-disk rotor and unloading devices 1.

A disadvantage of the device is the low particle size separation efficiency.

The closest in technical essence and the achieved result to the proposed is a centrifugal classifier, comprising a housing, a rotor consisting of discs that form a working space, with an annular slot, expanding to the rotor axis, an air inlet, a loading device, a discharge pipe for unloading large and fines and air intake system 2.

The disadvantage of the classifier is the poor quality of the classification.

The purpose of the invention is to improve the quality of classification.

The goal is achieved by the fact that a centrifugal classifier comprising a housing, a rotor consisting of disks that form a working space with an annular gap, expanding to the rotor axis, an air inlet nozzle, a loading device, nozzles for unloading large and small fractions and air inlet the system is equipped with radial partitions mounted on the inner surface of the disks, inclined in the direction of rotation of the rotor and partially overlapping the working space, and the angle of inclination is 10-80 And annular width of slit is determined from the formula

-Jl- o - fit t

where is the width of the annular gap; Z is the radius of the annular gap; K is a constant value; p-1,5-2,0

In addition, the nozzle for unloading a large ({) fraction is made in the form of a vertical shaft with pouring devices and

at the same time, the loading device is installed on the mine.

FIG. 1 shows a classifier, a general view; in fig. 2 - cut. A-A in FIG. one; in fig. 3 - rotor diagram; in fig. 4 shows a section BB in FIG. 2

The centrifugal classifier consists of a housing 1 with a rotor placed in it, mounted on a hollow shaft, consisting of two disks 2 and 3. The disks form a working space extending to the axis of the rotor. A branch pipe 4 is located in the lower part of the body for supplying additional air to the classifier and a shaft 5 with pouring elements. In the middle part of the paddle there is a loading device 6 for feeding the starting material. In the working space between the disks there are partitions 7 (four on each disk), half overlapping the working space. The baffles are offset by 45 ° relative to each other and inclined in the direction of rotation of the rotor, the angle of inclination being 10-80 °.

The rotor shaft is rotated by an electric motor, and the movement of the dust-gas mixture is provided by a suction device connected to the nozzle 8.

Centrifugal classifier works as follows.

The source material is fed through the loading device 6 into the shaft 5, where, under the action of the air flow, a preliminary separation into large and small fractions takes place, and the small fraction due to the specially increased airflow velocity is contaminated with a large product. The remaining part of the large product goes down, as a rule it does not contain small fractions. The previously isolated fine product is carried by the air flow into the housing 1, where it enters the space between the disks 2 and 3 of the rotor. Due to the centrifugal and aerodynamic resistance forces, the coarse material cannot pass through the space between the discs, and the finally cleaned fine product is removed from the classifier to the nozzle 8 through the hollow rotor shaft. The presence of partitions 7 in the working space of the classifier prevents it from falling into the fine product of particles that do not perform rotational motion, and the inclination of the barriers 7 during the rotation of the rotor does not allow the material to press against the barriers due to the action of forces, we create kornolisovym x acceleration. It should be noted that the preliminary and main classification in this device is carried out by the air flow created by one blower device.

To prevent accumulation of coarse material in the body of the classifier

additional air is supplied to the housing through the pipe 4. In order for the ratios of aerodynamic and centrifugal forces to be constant, the width of the annular gap formed by the rotor discs is determined from the formula above.

In order for the material not to accumulate on the partitions under the action of forces caused by the Cornolis acceleration, they are inclined in the direction of rotation of the rotor, the angle of inclination being 10-80 °. When the angle of inclination of the partitions is less than 10 °, the dust-gas flow does not receive an intense rotational movement, and the results of the separation practically do not differ from the results obtained on similar devices without partitions. When the angle of inclination of the partitions exceeds 80 °, material accumulates on the partitions, which degrades the quality of separation by 5-7%.

Application of the proposed device will improve the quality of separation by 10% and increase the installation capacity by 2-3 times.

Claims (2)

1. A centrifugal classifier, comprising a housing, a rotor consisting of discs that form a working space with an annular slot, expanding to the rotor axis, an air inlet, a loading device, nozzles for unloading coarse and fine fractions and an air supply system that differs in order to improve the quality of classification, the classifier is equipped with radial partitions mounted on the inner surface of the disks, tilted in the direction of rotation of the rotor and partially overlapping the working anstvo, wherein the inclination angle is 10-80 °, and the width of the annular gap is determined from the formula one 6-width annular gap; Where r-radius of the annular gap; K is a constant value; a-1.5-2.0. 2. A classifier according to claim 1, characterized in that the branch pipe for unloading the coarse fraction is made in the form of a vertical shaft with pouring devices and is connected to the air supply system, while the loading device is installed on the mine. Sources of information taken into account in the examination 1. USSR author's certificate number 542574, cl. B 07 B 7/083, 1975. 2. USSR author's certificate No. 540683, cl. B 07 B 7/083, 1973 (prototype). . Fig.1 Srag.g WB // agt agvute e sparct / ef / f / cpas four