RU94006641A - Disperser - Google Patents

Abstract

FIELD: mechanical engineering, rotor apparatus in particular used for production of fine dispersion suspensions, emulsions and solutions in liquid-liquid systems during preparation of fuel mediums, lubricating-cooling liquids, medicinal preparations, food products, fertilizers and also in industrial, transport, municipal power generation, in agriculture, food-processing and chemical-pharmaceutical industry. SUBSTANCE: disperser has boy and lid, that form operational cavity with liquid delivery and removing canals, mounted in operational cavity and linked with driving shaft rotor made in the form of disk with radially located open and closed canals of acceleration. Closed canals are located after canal of liquid delivery and are provided with cavitator made in the form of two conjugating with each other cavities of bigger, than canal cross-section. In the case each cavity has individual closed canal for liquid removal communicated with open canal of acceleration through stationary and fixed on lid additional cavitator made in the form of closed ring with radially located holes for liquid passage. EFFECT: improved design. 3 cl, 2 dwg

Claims (1)

The invention relates to the field of mechanical engineering, in particular to rotary devices intended for the preparation of fine suspensions, emulsions and solutions in liquid-liquid systems in the preparation of fuel media, cutting fluids, pharmaceuticals, food products, fertilizers, etc., and It can be used in industrial, transport, public utilities, agriculture, food and chemical-pharmaceutical industries. The dispersant contains a housing and a cover forming a working cavity with channels for supplying and discharging liquid, installed in the working cavity and connected to the drive shaft rotor, made in the form of a disk with radially located closed and open acceleration channels. Closed acceleration channels are located after the fluid supply channel, equipped with a cavitator made in the form of two cavities mating with each other, larger than the cross-section channel, and each cavity is equipped with an individual closed fluid drain channel, communicating with the open acceleration channel through a fixed and fixed on the lid additional cavitator, made in the form of a closed ring with radially located holes for the passage of fluid.