RU2846995C1 - Cyclone - Google Patents

Abstract

FIELD: dust collection technique.

SUBSTANCE: invention relates to dust separation and can be used in food, feed and other industries for cleaning dusty air. Cyclone comprises housing with conical 1 and cylindrical 2 parts, cover 3, inlet branch pipe, air discharge branch pipe 9, airlock 16. Inside cylindrical part 2 of the housing there is divider 6 made in the form of a vertically arranged hollow cylinder with its upper edge installed with gap 15 relative to cover 3 of the housing. In divider 6 there is guide cylinder 7 with cover 8 with spiral ascending channel 5 covering its surface, the lower end of which is connected to inlet branch pipe 4, and the upper end is installed tangentially to the inner surface of cylindrical divider 6. Above guide cylinder 7 with gap 10 and coaxially to it there is air discharge pipe 9, inside which on annular support 11 there installed is axis 12 with blades of fan 13 and sieve 14 made with possibility of rotation around it.

EFFECT: cyclone device is characterized by reduction of metal consumption.

1 cl, 2 dwg

Description

The invention relates to dust collection technology and can be used in the food, feed and other industries for cleaning dusty air.

A cyclone is known that contains a housing with a peripheral gas flow inlet and an outlet pipe with a filter element [RU 2256510, 20.07.2005].

The disadvantages of the installation include low efficiency in cleaning dusty gases inside the housing, as well as the complexity of maintenance due to the use of a filter element.

The closest to the proposed invention in terms of technical essence and the achieved result is a cyclone containing a body consisting of a conical and cylindrical part, a cover, an inlet pipe, an air outlet pipe, and a rotary valve [RU 2397824, 08/27/2010].

The disadvantages of this dust collection unit are the complexity of the design due to the installation of filter elements inside the chamber and their maintenance, as well as the increased material consumption of the design.

The problem solved by the present invention is to simplify the design and reduce its metal consumption.

The technical result achieved by the invention consists in simplifying the design by extending the inlet pipe into the body of the screw channel, directed upwards to separate mechanical particles from air by centrifugal force, and further movement of particles along the cylindrical divider into the cyclone body, and removal of air through the central outlet pipe.

The present problem is solved in that a cyclone comprising a housing consisting of a conical and cylindrical part, a cover, an inlet pipe, an air outlet pipe, a lock valve, additionally comprises a divider placed inside the cylindrical part of the housing, made in the form of a vertically placed hollow cylinder, installed with its upper edge with a gap relative to the cover of the housing, a guide cylinder with a cover with a helical ascending channel enclosing its surface is placed in the divider, wherein the lower end of the helical ascending channel is connected to the inlet pipe, and the upper one is installed tangentially to the inner surface of the cylindrical divider, an air outlet pipe is installed above the guide cylinder with a gap and coaxially with it, inside which an axis with fan blades placed on it and a sieve made with the possibility of rotation around it is installed on an annular support.

The essence of the claimed invention consists in achieving the said technical result due to the fact that the cyclone contains a housing with an inlet pipe, having a continuation inside the cyclone in the form of a screw channel directed upward inside a cylindrical divider, and an outlet pipe in the form of a cylinder corresponding to the internal diameter of the screw channel, having a rotating grate combined with a fan.

Fig. 1 shows a general view of the cyclone (in section).

Fig. 2 shows the attachment point for the fan blades and the sieve in the air outlet pipe.

The cyclone comprises a housing having a conical shape in the lower part 1, a cylindrical shape 2 in the upper part, a cover 3 smoothly transitioning to the vertical cylindrical part of the housing, an air outlet pipe 9 and a lock valve 16. Inside the cylindrical part 2 of the housing there is a divider 6, made in the form of a vertically placed hollow cylinder, installed with its upper edge with a gap 15 relative to the cover 3 of the housing. A guide cylinder 7 with a cover 8 is placed in the divider. The surface of the guide cylinder covers a helical ascending channel 5, the lower end of which is connected to the inlet pipe 4, and the upper end is installed tangentially to the inner surface of the cylindrical divider 6. An air exhaust pipe 9 is installed above the guide cylinder with a gap 10 and coaxially with it. Inside the air exhaust pipe 9, an axis 12 is installed on an annular support 11 with fan blades 13 and a sieve 14 placed on it. The sieve 14 is designed with the possibility of rotation around the axis 12.

The arrows in the figure indicate:

The cyclone works as follows.

When an air mixture with mechanical particles or processed products is fed into inlet pipe 4, the mixture begins to move along helical channel 5, which causes the particles to be pressed against the channel periphery due to centrifugal force. As they move along helical ascending channel 5, the particles, after exiting it, move tangentially along cylindrical divider 6. Upon exiting it, they strike cover 3 with a smooth transition, reducing particle velocity and directing them along the cylindrical section of housing 2, and subsequently the conical section of housing 1, into the lower portion of the cyclone. In this case, air, which has a significantly lower density than mechanical particles, after exiting the screw channel 5 is located in the central part of the cyclone and is removed through a gap 10 between the guide cylinder 7 and the air outlet pipe 9. The guide cylinder 7 is closed from above by a cover 8. As the air flow passes, the blades of the fan 13 begin to rotate on an axis 12 mounted in a support 11, setting in motion a sieve 14, which facilitates better air removal from the cyclone and prevents clogging of the sieve by particles that accidentally enter. From the cylindrical divider 6, the particles are discharged into the conical part of the cyclone 1, from where they are removed when the airlock 16 is opened.

Claims (1)

A cyclone comprising a housing consisting of conical and cylindrical parts, a cover, an inlet pipe, an air outlet pipe, a rotary valve, characterized in that the cyclone further comprises a divider arranged inside the cylindrical part of the housing, made in the form of a vertically arranged hollow cylinder, installed with its upper edge with a gap relative to the cover of the housing, a guide cylinder with a cover is placed in the divider, with a helical ascending channel enclosing its surface, wherein the lower end of the helical ascending channel is connected to the inlet pipe, and the upper one is installed tangentially to the inner surface of the cylindrical divider, an air outlet pipe is installed above the guide cylinder with a gap and coaxially with it, inside which an axis with fan blades placed on it and a sieve made with the possibility of rotation around it is installed on an annular support.