SU61041A1 - Cyclone - Google Patents

Description

In agriculture, centrifugal cyclones (dust collectors) are used in various cases, in particular when crushing various feeds on hammer crushers to purify the air from partially crushed feed.

The principle of operation of a cyclone in a conventional design is that the air, the spirit to be dedusted, enters the cyclone through the supply duct, moving along the helix from top to bottom in the space between the inner and outer cindra. The solids of the milled feed, which are in the air flow, move with it within the cyclone from top to bottom. By centrifugal force, the solid particles of the ground feed move in the direction from the inner to the outer cylinder. The cyclones are calculated so that, not far from the point where the cylindrical part passes into the conical, the solid particles of the ground feed are centrifugal force pressed against the wall of the outer cylinder. Under the action of centrifugal force, the air pressure at the wall of the external cylinder will be somewhat higher than at the wall of the internal cylinder. Due to the fact that the proportion of the mixture (i.e., the ratio of the volume of milled feed moved by the moving solid / particles and the volume of air) is usually I: 2000, the solid particles of the ground feed cover the inner surface of the outer cylinder with a thin layer.

Thus, in the lower part of the space bounded by the inner and outer cylinders, the solid particles of the ground feed move along the very wall of the outer cylinder with a very thin layer. The rest of the space in the direction of the inner cylinder is occupied by clean air.

In the conical lower part of the cyclone, two air streams are produced, spiraling around each other. These flows rotate in the same direction, with the external flow directed downward toward the dust orifice, and the internal flow having a screw stroke going upward to the outfitted tube. Air outlet to conical part and change

.NC- 61041

movement of the air flow to the opposite direction of the law with the formation of turbulence in the cone. These windings in the cone of the cyclone partially move the air, dust-free in the cylindrical part, with solid particles of milled feed, which significantly increases the cleaning coefficient, since in this case, the fine solid particles of ground feed are carried away by air flow into the exhaust pipe.

Thus, it is advisable to take the basis mass of the air dedusted in the cylindrical part into the exhaust pipe at the junction of the cylindrical part of the rift into the conical part. In this case, the air entering the conical part of the cyclone in very small quantities loses its speed, due to which there is no mixing of dust with air, which increases the cleaning rate of the cyclone. In addition, the air velocity in the cyclone dust detection is significantly reduced, and consequently, the release of solid particles is quieter and is not salted with a raspyl (output of the ground product into the bins), which sometimes occurs.

In the proposed cyclone, for the purpose of making dust mixed with 1 dust and air, in its conical part a shield of an often shaped shape with a central hole is used, which is located at the mouth of the exhaust pipe, which is the last. Under the action of the shield, the bulk of the dust-free air does not enter the conical part of the clone, but is brought directly into the exhaust pipe.

The drawing shows the scheme of the proposed cyclone.

The dust-free air is brought into the exhaust pipe with a special shield / bowl-shaped platform with a central opening 2. The shield 1 is located under the outlet of the exhaust pipe 5 concentric.

The shield / directs the UN mass of dust-free air into the exhaust pipe 3 at the junction of the cylindrical part of the cyclone to the end. Only a small amount of air passes into the conical part together with solid particles, which greatly increases the cleaning coefficient.

The arrows indicate the directions of the air poppok.

Subject invention

A cyclone characterized by the use of a cup-shaped shield with a central hole located along the mouth of the exhaust pipe concentric with the latter and the foremost one to prevent dust from mixing with air in the coiicha part of the slope