CS219779B1 - Separator of fine particles from the carrying medium - Google Patents

Abstract

In essence, the subject matter of the invention belongs to in the field of air conditioning, for use in systems pneumatic conveyance of fine particles. The invention solves the separation of fine particles from carrier media (which is mostly air). Especially suitable for separation light particles to be further processed. The separator itself consists of a cylindrical vessel, in which a curved screen is placed. Carrier the medium enters the space tangentially the vessel is guided by a cylindrical wall a leaves the container tangentially. Particle entering the media into the separator on a curved screen at an angle, slipping over and fall into the drain hole. Settling particles on the sieve, except oblique the impact of particles and the carrier medium itself it performs a curved movement and entrains the deposited particles. The space, the cylindrical vessel is divided sieve into two parts, supplying one outlet the media and its levy.

Description

The invention relates to a separator of fine and light particles from a moving medium.

Currently, several types of separators are used to separate fine particles from the carrier medium, which is usually air.

First of all, they are so-called cyclones, which work on the principle of vortex. The particles enter tangentially into the separator space together with the carrier medium, are rotated by its cylindrical wall (creating a vortex) and particles that are heavier than the carrier medium are then ejected into the center of the vortex, losing velocity and thereby being separated from the medium. The disadvantages of the cyclones are their relatively large dimensions and the fact that only particles significantly heavier than the carrier medium are separated therein.

Another type of separators are filters, which is a wide range. Above all, they are textile filters (or paper or special materials), in which the particles are mechanically captured due to frictional forces, shapes or porosity of the material. The disadvantage of these separators is that the trapped particles are mechanically bound in the filter cartridge and must be released from the filter cartridges if they are to be further processed. Another disadvantage is the high resistance that the passage of the carrier medium imparts.

Another type of filters are so-called wet filters. The filter material in this case is a liquid. The particles are wetted as they pass through the liquid and are trapped in the filter due to the cohesive forces, the surface tension of the liquid, or the absorbency of the particles. The disadvantage of these filters is to liquid on the particles and thus their possible impairment for further processing, then once again the necessity of releasing particles from the filter material and ^one occasional replacement.

A large group are chemical filters that act chemically on the particles in the carrier medium. The disadvantage is a change in the properties of the particles and their binding in the filter.

The above-mentioned drawbacks and disadvantages are eliminated by the separator according to the invention, which consists in the fact that it consists of a self-wiping curved screen placed in a cylindrical vessel, after which the particles are forced to slide and fall into the lower part of the cylindrical vessel. The screen is rotated against the feed in such a way that the axis of the feed forms an obtuse angle tangent to this surface at the intersection with the screen surface and the screen divides the space into two parts, with one inlet and one outlet in one mouth.

The advantage of the particle separation solution according to the invention is the small size of the separator, simple construction, the possibility of separating even very light particles and their insensitivity to the separator. The separated particles do not need to be further released from the separator, thus allowing their further continuous processing.

The carrier medium enters tangentially into the separator space, passes through a sieve, is guided through the cylindrical wall of the vessel and again tangentially discharged from the separator. The particles entering the separator together with the carrier medium impinge on the eccentrically placed screen, lose their speed and slide into the lower part of the separator. In order to avoid clogging of the screen by the particles, the screen is curved and rotated against the inlet so that the particles fall obliquely on the screen surface, forcing them to slide down the screen. At the same time, the carrier medium, which performs a forced curved movement, entrains the deposited particles and cleans the screen.

Since the particles are separated by a self-wiping screen, it is not necessary to leave the carrier medium around the center (to form a vortex in the cyclones) and the separator can be constructed smaller in size.

The drawing shows a specific embodiment of the separator. FIG. 1 is a top view of the separator space; and FIG. 2 is a view of the separator in the direction of inlet and outlet of the medium.

The carrier medium enters the space of the separator cylindrical vessel 1 through the inlet 4 and exits the separator via the outlet 5. The particles entrained by the medium impinge on a sieve 6, which is mounted on the sieve frame 7, fall into the lower part of the separator and are discharged through an opening in the lower lid 3. From above, the cylindrical vessel 1 is covered by the upper lid 2. The screen 6 divides the space of the cylindrical vessel 1 into two parts, with one inlet 4 and one outlet 5 into the other.

One possible example of the use of a separator according to the invention is the use in separating a mixture of crushed polyurethane and foamed polystyrene from air.

Claims (1)

SUBJECT Fine particle / carrier separator characterized in that it consists of a curved screen (6) housed in a container (1) with a cylindrical wall and a tangential inlet (4) and an outlet (5) of the carrier medium, said screen (6J being opposite to the inlet ( 4) rotated so that BACKGROUND OF THE INVENTION The inlet axis (4J) forms an obtuse angle with respect to this surface at the intersection of the screen surface and the screen (6J) divides the container space into two parts, with one inlet (4) and another outlet (5j).