RU2442662C1 - Aerohelical centrifugal separator - Google Patents

Abstract

FIELD: separating devices.

SUBSTANCE: invention relates to the field of separation of the aerodispersed products into fractions pursuant to the composition of their mechanical and physical properties with simultaneous air purification; aerohelical centrifugal separator comprises the inlet tangential junction pipe (1), the cone-shaped housing (2), the helical element (3) coaxially positioned in the housing, the circumventing exhaust pipe (4) and the airproof educting device (5); the helical element (3) is made with the adjustable diameter, controllable pitch and a number of helical entries forming inside of the housing (2) the decreasing volume helical channel (7) reaching the bottom butt end of the exhaust pipe (4) with regulated conical vortex (8); the upper butt end of the exhaust pipe (4) being the top point of the blunted cone (22) and the pin (23) located in the blunted cone (22) with the helical surface (24) are regulated regarding the diameter and length and along with the junction pipe (25) installed over the butt end of the exhaust pipe (4) at the pitched distance are enclosed into the air-proof chamber (26); the sidewall surface of the housing is performed with the adjusted perforation (9) and equipped with the air-proof containers (11) with the channels (10) lapping the perforation (9) and designated for collecting and educting of fractions to the discharge unit (5).

EFFECT: invention secures the high efficiency of air purification upon separating the airflow fractions.

5 cl, 2 dwg

Description

The invention relates to the field of separation of aerodispersed products, for example, grinding products, into fractions based on the combination of physical and mechanical properties with simultaneous air purification and can be used in the mining and processing industry and grain processing enterprises.

Known battery cyclones containing a common housing, in which a large number of cyclone elements of small diameter with a single supply and exhaust gas and a common hopper. The cyclone elements are equipped with guiding devices of the “screw” or “socket” type (Shtokman E.A. Air purification / E.A. Shtokman. - M .: ASV, 1999. - P.135).

The cleaning efficiency when using battery cyclones is low due to the uneven distribution of the cleaned air between the elements at a high specific metal flow rate.

Closest to the proposed invention in technical essence, adopted as a prototype, is a dust collector designed for cleaning gas flows, comprising a housing, an inlet tangential nozzle connected to the housing, a screw insert coaxially located in the central part of the housing, enclosing the exhaust pipe, and a sealed output device, associated with the body. The housing is formed by mating cylindrical and conical surfaces. The screw insert is made in the form of a strip with the lower end bent inward with the formation of a spiral groove attached with mounting elements to the cylindrical part of the housing. The flow of dusty air enters through the tangential pipe and enters the central part of the housing, where, under the action of centrifugal forces, dust particles are pressed against the walls and, falling with the flow, enter the outlet device through the dust outlet. Finely dispersed dust particles, having reached the wall of the screw insert, are lowered into the gutter to the dust outlet (patent RU 12260476, IPC ⁷ B04C 5/103).

The main disadvantage of the dust collector is the low cleaning efficiency due to the need to select the radius of the screw insert for various particles, which is impossible when working on a polydisperse mixture.

The present invention solves the problem of increasing the efficiency of air purification with differentiated selection of fractions.

The problem is solved in that in an aeroprop cyclone-separator containing a conical body, an inlet tangential nozzle connected to the body, a screw insert coaxially located in the body covering the exhaust pipe, a sealed output device connected to the body, according to the invention, the screw insert is made of variable diameter , adjustable pitch and number of approaches with the formation of the inside of the housing by its inner surface, turns of the screw insert and the outer surface of the exhaust pipe ayuschegosya screw volume reaching the lower end of the exhaust pipe with an adjustable screw funnel spaced from the top wall of the output device and introduced into the rolling element unit with variable conical surface at adjustable distances. The upper end of the exhaust pipe, which is the top of the truncated cone, with a rod coaxially located in it with a screw surface with adjustable diameters and length and a pipe spaced apart from it by an adjustable distance, are enclosed in a sealed chamber connected to a sealed container. The side surface of the housing is made with adjustable perforation and is equipped with airtight containers having channels that overlap the aforementioned perforation and are intended for collecting and outputting fractions to the output device.

The movable element with a variable conical surface can be made in the form of a truncated cone tapering downwards, in which a rod with a conical or cylindrical helical surface is coaxially mounted with the possibility of controlling their diameters and length.

In addition, the adjustable helical funnel contains a cylinder movable in the exhaust pipe, an expanding or contracting truncated cone and a coaxial rod with a helical surface mounted in them.

A cylinder with a cone and a rod with a helical surface can be made adjustable in diameter and length.

The outer surface of the cylinder and cone can be made screw.

The increase in air cleaning efficiency is due to the differentiated selection of fractions through perforation in the side surface of the housing, the organization of the helical movement of the air mixture in a decreasing screw volume and in a truncated cone with a rod with a helical surface at the upper end of the exhaust pipe, during which fractions are separated from the air stream.

The proposed aeroprop cyclone separator is shown in the drawing, where Fig. 1 shows its general view, and Fig. 2 shows a movable element in the form of a truncated cone tapering downward, in which a rod with a conical helical surface is coaxially mounted.

The drawing further indicates the following:

- a horizontal line with an arrow pointing from right to left shows the input of the original aerodispersed product;

- lines with arrows crossed out by slashes show the movement of impurities isolated from the air stream;

- the lines with arrows crossed out by crosses show the movement of purified air.

The aero-rotor cyclone separator comprises an inlet tangential branch pipe 1 connected to a cone-shaped body 2, a screw insert 3 coaxially located in the body 2, covering the exhaust pipe 4, and a sealed output device 5 connected to the cone-shaped body 2.

The screw insert 3 is installed inside the housing 2 covering the exhaust pipe 4 and is made of variable diameter, adjustable pitch and number of entries with the formation of the inside of the conical housing 2 by its inner surface 6, turns of the screw insert 3 and the outer surface of the exhaust pipe 4 decreasing downwardly of the screw volume 7, reaching the lower the end of the exhaust pipe 4 with an adjustable helical funnel 8. On the side surface of the conical body 2 there is a perforation 9, adjustable due to the shape and location of the hole th. The lateral surface of the cone-shaped body 2 is equipped with airtight containers 11 having channels 10, overlapping the perforation 9, intended for collecting and outputting fractions into the airtight output device 5. The output device 5 is equipped with flashing valves 12. Depending on the technological tasks to be solved, the channels 10 can be combined and enter the sealed output device 5 (Figure 1) or may separately enter the sealed output device 5 (not shown).

The cone-shaped body 2 rests on the upper wall 13 of the output device 5. In this case, the lower end of the exhaust pipe 4 is spaced relative to the upper wall 13 of the output device 5 and from the movable element 14 with a variable conical surface at a distance controlled by a screw funnel 8.

The movable element 14 with a variable conical surface can be made in the form of a truncated cone 15 tapering downwards, in which a rod 16 with a conical 17 screw surface (Figure 2) or a cylindrical screw surface (not shown) is coaxially mounted with the possibility of controlling their diameters and length.

The screw funnel 8 contains a cylinder 18, which is moved in the exhaust pipe 4, connected to an expanding (not shown) or tapering (not shown) truncated cone 19. Inside the cylinder 18 and cone 19, a rod 20 with a helical surface 21 is coaxially mounted.

The cylinder 18 with a cone 19 and a rod 20 with a helical surface 21 can be made adjustable in diameter and length.

The outer surface of the cylinder 18 and the cone 19 can be made screw.

The upper end of the exhaust pipe 4 is the top of the truncated cone 22, in which the rod 23 is coaxially mounted with a helical surface 24, adjustable in diameter and length. Above the end of the exhaust pipe 4 is installed a pipe 25, which is moved relative to it by an adjustable distance. In this case, the end face of the exhaust pipe 4 and the pipe 25 are enclosed in an airtight chamber 26 connected to an airtight container 11.

Aeroprop cyclone separator operates as follows. An aerodispersed product with a given speed enters the inlet tangential branch pipe 1 and then is transported downward through the screw volume 7. In this case, due to the rotation of the air mixture, its separation occurs. Particles of aerosol mixtures under the action of a system of forces are squeezed to the surface of a cone-shaped body 2 and, making a complex movement along it, are lowered down. As they move along the surface of the conical body 2, certain particles pass through the perforation 9 on the side surface of the conical body 2 and enter the channels 10 and then into the sealed containers 11. Given that the perforation 9 is adjustable due to the shape of the holes and their location location, as well as adjustable is the force factor determined by the air flow, acting on different particles in different ways, the formation of various fractions in the screw volume 7 is provided.

Through sealed containers 11 and channels 10, fractions can be formed in them with their separate output or combined for transportation to the output device 5 and further with the output through the movable element 14. Lighter particles pressed to the surface of the conical body 2 are displayed on the last perforation. The air stream with the particles remaining in it enters the space between the screw insert 19 and the movable element 14 with a variable conical surface, which can be adjusted in height relative to the upper wall 13 of the output device 5. When the air stream enters the screw insert 19, an air funnel is created that rejects the particles from the cone of the movable element 14 to a sealed output device 5. When the movable element is in the form of a tapering truncated cone 15 with a rod 16 and a conical screw surface Tew 17 creates an air funnel that captures a certain amount of impurities and discharges them to the output device 5. The air stream with fine impurities passing through a screw funnel gets an extra twist when it enters the exhaust pipe 4 and when it moves to the end of the exhaust pipe it gets additional rotation due to passing through a truncated cone 22 with a rod 23 and a screw surface 24. Under the action of centrifugal force, impurities break out into an adjustable gap between the end of the exhaust pipe and the pipe 2 5, enter the sealed chamber 26 and are discharged into the sealed container 11. The cleaned air enters the pneumatic pipe.

The proposed aeroprop cyclone separator provides increased technological efficiency of the air flow up to 99.9% with the possibility of differentiated withdrawal of fractions according to a set of physical and mechanical properties.

Claims (5)

1. Aero-rotor cyclone separator comprising a cone-shaped body, an inlet tangential nozzle connected to the body, a screw insert coaxially located in the body covering the exhaust pipe, a sealed output device connected to the body, characterized in that the screw insert is made of a variable diameter, adjustable pitch and the number of approaches with the formation inside the case of its inner surface, turns of the screw insert and the outer surface of the exhaust pipe of a decreasing screw volume, reaching the lower end of the exhaust pipe with an adjustable helical funnel spaced from the upper wall of the output device and from the movable element inserted into the device with a variable conical surface for adjustable distances, and the upper end of the exhaust pipe, which is the top of the truncated cone, with a rod with a screw surface coaxially located in it with adjustable diameters and length and a branch pipe spaced from it for an adjustable distance are enclosed in an airtight chamber connected to an airtight container, while kovaya surface of the housing is provided with perforations and equipped with an adjustable sealed containers having channels overlapping called perforations and designed to collect and output in output device fractions. 2. Aero-screw cyclone separator according to claim 1, characterized in that the movable element with a variable conical surface is made in the form of a truncated cone tapering downward, in which a rod with a conical or cylindrical helical surface is coaxially mounted with the possibility of controlling their diameters and length. 3. Aero-rotor cyclone separator according to claim 1, characterized in that the adjustable helical funnel comprises a cylinder movable in the exhaust pipe, an expanding or tapering truncated cone and a coaxially mounted rod with a helical surface. 4. Aero rotor cyclone separator according to claim 3, characterized in that the cylinder with a cone and a rod with a helical surface is made adjustable in diameter and length. 5. Aero-screw cyclone separator according to claim 4, characterized in that the outer surface of the cylinder and cone is made screw.