RU2020108656A - DRYING PLANT FOR HIGH-WATER MATERIALS - Google Patents

Claims (1)

A drying plant for high-moisture materials, containing a body in the form of two truncated cones connected by large bases, a gas distribution grid in its lower part, inert bodies inside the body and a spray of the material to be dried, located at the level of the middle of the height of the upper cone; impellers are attached to the threads. at least two blades, and the impellers can be attached through one wick, and along the height of the chamber they can be staggered, and the nozzle for spraying the product, the atomizer contains a hollow body, which consists of a cylindrical part with an external thread for connecting to the fitting a distribution pipeline supplying a liquid, a conical transition part and a cylindrical part with a large diametrical section, and with an internal threaded surface, and coaxially with the body, in its lower part there is a nozzle formed by a cylindrical surface with an external thread interacting with a cylindrical part the body, while the cylindrical surface of the nozzle passes into the conical surface and is closed by the end, perpendicular to the axis of the body, a blind partition, with a nozzle in its center made of an axisymmetric nozzle and consisting of cylindrical and conical throttling holes connected in series, and the larger diameter of the conical hole is located on the blind partition of the nozzle, while the body and the nozzle form three, coaxial with each other, internal cylindrical chambers, and on the nozzle, on the side opposite to the liquid supply, an additional row of nozzles is made, which are formed by at least three pairs of mutually perpendicular vertical channels for liquid passage and horizontal channels, which intersect on the conical lateral surface of the nozzle and form the outlet openings of each of the nozzles, while the paired channels are located at right angles to each other in the longitudinal planes of the body, and the conical lateral surface of the nozzle is made with an angle ohm at a vertex equal to 90 °, and the nozzle made in the center of the blind baffle and consisting of cylindrical and conical throttling holes has helical surfaces on the inner surfaces of both cylindrical and conical throttling holes, while on the inner surfaces of the nozzle nozzles channels, which intersect on its conical lateral surface, and which are formed by at least three pairs of mutually perpendicular vertical and horizontal channels for the passage of liquid, screw surfaces are made, while the direction of the screw surfaces in these channels is made oppositely directed, and formed by the body and the nozzle are three , coaxial with each other, internal cylindrical chambers, one of which serves to supply fluid, the other is an expansion chamber, and the third serves as an injection chamber of increased pressure, filled with an elastic mesh element, or chips from non-ferrous metal, or shavings from a layer mass, and a diffuser is attached to the end surface of the cylindrical part of the housing, covering the conical surface of the nozzle with a blind baffle and a nozzle, characterized in that a perforated baffle is installed in the outlet section of the diffuser of the atomizer attached to the end surface of the cylindrical part of the housing, to which, at one end, at the point of its intersection with the axis of the atomizer, at least two spokes are fixed, the second end of which is fixed on the inner surface of the diffuser in such a way that the spokes are perpendicular to the inner surface of the diffuser, and additional sprays are freely installed on the spokes, in their central part, made in the form of screw drums, which are fixed on the spokes with the help of stops, in the outlet section of the diffuser of the atomizer, between the perforated partition, and fixed on it, by means of the spokes, additional atomizers, made in the form of screw drums, fixed on the spokes with the help of stops, set on a perforated conical shell, the top of the conical surface of which is fixed on the perforated partition, at the point of its intersection with the axis of the atomizer, the cavity between the perforated conical shell of the atomizer, the top of the conical surface of which is fixed on the perforated partition, at the point of its intersection with the axis of the atomizer, and the surface of the perforated partition , filled with an elastic mesh element, or non-ferrous metal shavings, or plastic shavings, which increases the fine dispersion of the phase of the cut liquid.