RU2091120C1 - Extractor for "solid-liquid" system - Google Patents

Abstract

FIELD: food-processing and chemical industries; metallurgy, medicine and perfumery. SUBSTANCE: extractor includes vertical cylindrical housing with technological branch pipes and thermostating jacket; extractor is also provided with agitator mounted coaxially in housing with elliptic filter element secured on it coaxially; filter element separates extractant collecting chamber in its lower portion. Extractor is also provided with baffle plates mounted over periphery of housing. EFFECT: enhanced efficiency. 1 dwg

Description

 The invention relates to extraction equipment for the solid-liquid system and can be used in the food and chemical industries, metallurgy, medicine and perfumery.

 A known extractor for a solid-liquid system containing a vertically arranged cylindrical body with process pipes and a thermostatic jacket, a drive mixer coaxially mounted in the body, chippers located on the periphery of the body, fenders fixed to the bottom of the body coaxially with an elliptical filter element separating it for collecting the extract and a scraper brush fixed to the mixer for cleaning the surface of the filter element (ed. St. USSR N 1741851, class B 01 D 11/02, 1992).

 The disadvantage of this extractor is the low reliability associated with clogging the pores of the filter element with a fine fraction of the solid phase.

 The objective of the invention is to increase the reliability of the extractor.

 The problem is solved in that in the extractor for the solid-liquid system, containing a vertically arranged cylindrical body with technological nozzles and a thermostatic jacket, a drive mixer coaxially mounted in the body, chippers located on the periphery of the body and an elliptical filter element coaxial to it located at the bottom of the body, The elliptical filter element separating the extract collection chamber according to the invention is rigidly fixed to the mixer.

 This allows you to increase the reliability of the extractor by eliminating the possibility of clogging the pores of the filter element with a fine fraction of the solid phase when it is removed from the filter surface in the field of centrifugal forces.

 The drawing shows the proposed extractor, a longitudinal section.

 The extractor for the solid-liquid system, containing a vertically arranged cylindrical body 1 with a temperature control jacket 2 and nozzles 3 6 for supplying and discharging solid and liquid phases, a drive mixer 7 coaxially mounted in the housing, on which an elliptical filter element 8 is coaxially mounted to the housing 1, separating in the lower part of the housing 1 the chamber 9 for collecting the extract, and placed on the periphery of the housing 1 chippers 10.

 During operation of the extractor, the solid phase of the feedstock and the liquid phase of the extractant are fed into the housing 1 through nozzles 3 and 4, the mixer 7 and the filter element 8 are rotated, and the necessary temperature is created in the housing 1 by passing the refrigerant or coolant through thermostat jacket 2. The mixer 7 creates a circumferentially directed movement of the extraction mixture in the housing 1. The bumpers 10 installed around its periphery, which impede the circumferential movement of the extraction mixture, create vortices in it that intensify mass transfer processes by equalizing the concentration of the extractives in the volume of the liquid phase and accelerating the renewal of the phase contact surface . The obtained liquid phase of the extract enters through the filter element 8 into the chamber 9, from which it is discharged through a nozzle 6. The solid phase filtered on the outer surface of the elliptical filter element 8 is discharged from it into the centrifugal force field during rotation of the element 8 together with the mixer 7. Elliptical the shape of the element 8 and its location on the mixer 7 contribute to the tangential movement of the solid phase along the filter surface, which completely eliminates clogging of the pores of the filter element 8 and increases adezhnost working extractor. The solid phase in the form of a meal is discharged from the filter element 8 to the periphery of the housing 1 and is removed from it through the pipe 5.

 Thus, the proposed extractor has increased reliability by eliminating the possibility of clogging the pores of the filter element with a fine fraction of the solid phase.

Claims (1)

 The extractor for the system is a solid body liquid, containing a vertically arranged cylindrical body with process pipes and a thermostatic jacket, a drive mixer coaxially mounted in the body, chippers located on the periphery of the body and placed in the lower part of the body, an elliptical filter element coaxial to it, separating the chamber for collecting the extract, characterized in that the elliptical filter element is rigidly fixed to the mixer.