RU2091121C1 - Extractor - Google Patents

Abstract

FIELD: extractors. SUBSTANCE: extractor includes vertical cylindrical housing with technological branch pipes and thermostating jacket, agitator mounted coaxially in housing and provided with inclined blades and baffle plates mounted over periphery of housing on bearing members forming clearance; provision is made for axial motion of these baffle plates which are secured on two spring rings. EFFECT: enhanced reliability. 2 dwg

Description

 The invention relates to extraction equipment and can be used in the processing of solid raw materials with liquid extractants.

 A known extractor containing a vertically arranged cylindrical body with process pipes and a thermostatic jacket, a drive blade mixer coaxially mounted in it, and chippers placed around the periphery of the body are fixedly fixed along its forming bumps (ed. St. USSR N 1741851, class B 01 D 11/02 , 1992).

 The disadvantages of this extractor are the inability to adjust the components of the vertical and horizontal mixing and the presence of stagnant zones in the places where the bumpers are attached to the wall of the body.

 The objective of the invention is the expansion of technological capabilities by regulating the components of horizontal and vertical mixing and the elimination of stagnant zones.

 The problem is solved in that in an extractor containing a vertically arranged cylindrical body with process pipes and a thermostatic jacket, a drive blade mixer coaxially mounted in it and chippers placed around the periphery of the housing, according to the invention, the mixer blades are mounted obliquely to the plane of rotation, and the chippers are fixed on two spring rings with a slope opposite to the agitator blades, equipped with supporting elements facing the housing surface and installed with the possibility of axial movement and fixation in the housing.

 This allows you to eliminate stagnant zones near the surface of the housing at the installation site of the chippers and to regulate the mixing conditions by changing the angle of attack of the flow of the extraction mixture from the mixer to the chippers during axial movement of the latter in the extractor housing.

 In FIG. 1 shows a longitudinal section through an extractor; in FIG. 2 cross section of the extractor.

 The extractor contains a vertically arranged cylindrical body 1 with a thermostatic jacket 2 and nozzles 3 6 for supplying and discharging liquid and solid phases, a drive stirrer 7 coaxially mounted in the housing 1 with blades 8 inclined in the plane of rotation, and axially displaced along the periphery of the housing 1 and fixation inclined towards the blades 8 and fixed on two spring rings 9 chippers 10, equipped with supporting elements 11 for the formation of a gap 12 relative to the inner surface of the wall of the body sa 1.

 The extractor works as follows.

 Raw materials and extractant are fed into the housing 1 through nozzles 3 and 4, passing the coolant or refrigerant through the thermostat jacket 2 creates the necessary temperature conditions for the extraction process. The driving mixer 7 creates a directed movement of the extraction mixture in the housing 1. Depending on the direction of inclination of its blades 8, in addition to the circumferential movement, upward or downward flows occur in the extraction mixture. To prevent the formation of a central funnel during the operation of the mixer 7, chippers 10 are located on the periphery of the housing 1. They create local disturbances in the flow of the extraction mixture, contributing to its more active mixing and accelerating the process of updating the contact surface of the phases. The presence of a gap 12 between the chippers 10 and the wall of the housing 1, provided by the presence of supporting elements 11, eliminates the formation of local stagnant zones at the locations of the chippers 10. Their inclination in the opposite direction relative to the blades 8 of the mixer 7 ensures the formation of counter vertical flows in the extraction mixture, which increase the quality of mixing and accelerating the updating of the contact surface of the phases. The possibility of axial movement and fixation of the chippers 10 in the housing 1 is provided by compression of the spring rings 9 to displace the group of chippers 10 and to ensure the elasticity of the spring rings 9 to self-center the chippers 10 and the contact of the supporting elements 11 with the housing 1, eliminating their displacement in the housing 1 during operation of the extractor. The movement of the chippers 10 relative to the housing 1 and the blades 8 of the mixer 7 provides a change in the angle of attack of the flow of the extraction mixture to the chippers 10, which allows you to change the quantitatively occurring vertical flows in the extraction mixture, which allows you to strengthen or limit the vertical mixing of the extraction mixture depending on the specified technological purpose of the process . So, for example, when carrying out the extraction cycle, it is advisable to maximize the vertical mixing to increase the uniformity of distribution of the extracted solid phase and extractive substances in the liquid phase of the extractant. When carrying out extraction in a continuous stream, the effect of vertical mixing should be limited to increase the content of extractive substances at the outlet of the liquid phase, but sufficient to prevent delamination of the suspension of the extraction mixture.

 After completion of the extraction cycle or during extraction in a continuous stream, the phases are constantly separated, for example, by passing through a filter (not shown), and separately removed from the housing 1 through pipes 5 and 6.

 Thus, the proposed extractor does not have stagnant zones and allows you to adjust the phase contact conditions, which expands the technological capabilities of its use when carrying out the extraction both cyclically and in a continuous stream of phases.

Claims (1)

 An extractor comprising a vertically arranged cylindrical body with process pipes and a thermostatic jacket, a drive blade mixer coaxially mounted in it and chippers placed on the periphery of the body, characterized in that the mixer blades are mounted obliquely to the plane of rotation, and the chippers are mounted on two spring rings coaxial with the housing counter slope with respect to the agitator blades, provided with supporting elements facing the surface of the housing and installed with the possibility of axial in the case of moving and fixing.

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