RU2035955C1 - Crystallizer - Google Patents

Abstract

FIELD: crystalizing engineering. SUBSTANCE: crystallizer is provided with a chamber which is in communication with the system for supplying coolant. One end of a hose is secured over the periphery of the top part of the chamber. The other end of the hose is wound on a drum positioned at the top part of the crystallizer. The system for supplying solution is connected with the hose space. EFFECT: improved design. 1 dwg

Description

 The invention relates to chemical technology, namely, apparatus for saturating salt solutions, removing impurities from solutions, crystalline metal melts.

 A known mold containing a housing, a refrigerator, a mixing device, fittings for supplying an initial solution of a coolant and a refrigerant and removal of the crystallized suspension product and refrigerant.

 The disadvantages of the device are large metal consumption, energy consumption, the possibility of clogging by the crystallizing mass of mixing elements.

 A known mold containing a housing serving as a container for the source of coolant, an agitator with scrapers (brushes) installed in the housing, a refrigerator located outside the housing in the form of a shirt, a system for supplying and outputting working agents.

 Disadvantages: constant heat exchange surface, the possibility of clogging by the crystalline mass of the mixing elements and its deposition on the walls, deterioration of heat transfer, crystallization, the need for a stirrer and cleaning elements, which complicates the device.

 The purpose of the invention is the increase in heat transfer surface, the improvement of crystallization conditions.

 The drawing shows the proposed mold.

 The mold includes a housing 1, a chamber 2 mounted in a housing with an annular gap, a reversible drive shaft 3 with a drum 4 in the upper part of the housing, a sleeve 5 mounted on the drum 4, the free end 6 is mounted on the chamber 2, a system 7 for supplying refrigerant to the chamber cavity 2, a system 8 for supplying the initial coolant through the head 9 to the sleeve cavity, a system 10 for removing the coolant from the annular gap, a limit switch 11 of the program mechanism 12 installed in the lower part of the cutting chamber.

 The mold works as follows.

 In the initial position, the sleeve 5 occupies the position shown in the drawing (the drum 4 is on the stop, not indicated). Pre-fill the chamber 2 with the refrigerant from the system 7. Then, through the head 9, the system 8 serves a solution that is poured into the cavity formed by the bent end 6 of the sleeve 5, and the drum 4 is removed from the stopper. The head 9 is a pipe in the form of a ring, on the lower part of which holes are made, through which the solution is fed under pressure into the sleeve 5 by vertical jets, but is not sprayed. System 7, the agent is removed from the chamber 2, and the sleeve 5 is lowered under the weight of the solution and its own weight. The sleeve is in contact with the cooled walls of the chamber 2, with the refrigerant and cools the solution. Displacing the refrigerant from the chamber 2, the sleeve 5 is lowered to its lowest position and the limit switch 11 turns on the drive of the drum 4. The drum 4 winds the sleeve 5, raises it. The suspension flows into the annular space of the housing 1, from which it is removed by the system 10. The sleeve 5 clamps the extreme upper position, the drum 4 is placed on the stator, the system 7 is turned on and the cycle repeats.

Claims (1)

 A CRYSTALIZER containing a vertical cylindrical body with a solution and refrigerant supply systems, suspension removal, characterized in that, in order to increase the heat exchange surface, it is equipped with a camera mounted in the lower part of the housing with the formation of an annular gap between them, and a drive drum in the upper part of the housing with a flexible sleeve attached to it, the free end of which is bent and fixed along the perimeter of the upper end of the chamber, while the solution supply system is connected to the sleeve cavity, the supply system is ode refrigerant to the lower chamber, and the slurry removal system to the annular gap.

Images