MD1182Z - Continuous countercurrent extractor - Google Patents

Abstract

The invention relates to the chemical, pharmaceutical and food industries, namely to equipment for extracting components from raw materials.The continuous countercurrent extractor comprises a cylindrical inclined body (1), connected at the lower end to a cylindrical vertical body (2), provided with a common heating jacket (4). In the cylindrical inclined body (1) is mounted a perforated screw (3), driven by an electric motor (5). The upper end of the cylindrical inclined body (1) is provided with an eluent supply pipe branch and a raw material outlet hole, and the upper end of the cylindrical vertical body (2) is provided with a raw material feeding hole and an eluent discharge pipe branch.

Description

The invention relates to the chemical, pharmaceutical and food industries, namely to equipment for extracting components from raw materials.

A continuously operating countercurrent extractor is known, which contains a raw material conveyor, equipped with a feed and a discharge mouth for the raw material, formed by an upper and a lower belt and separated into four zones. Each zone is equipped with a pump for the movement of the eluent in countercurrent with the raw material and with a container for the eluent enriched with the components extracted from the raw material [1].

The disadvantage of this solution lies in the complexity of the construction.

A continuously operating countercurrent extractor is also known, which contains two vertical cylindrical bodies, joined at the lower ends with a horizontal cylindrical body, in which a perforated screw is mounted, driven by an electric motor, the upper end of one of the vertical cylindrical bodies being equipped with an eluent discharge connection and a raw material discharge port, and the upper end of the other vertical cylindrical body is equipped with a feed port for the raw material and a discharge port for the eluent enriched with the components extracted from the raw material. The diameters of the cylindrical bodies are made equal [2].

The disadvantages of this extractor are that it is not possible to maintain a constant and uniform temperature in the cylindrical bodies throughout the entire process of extracting components from the raw material, and it is also difficult to synchronize all three motors, which leads to uneven movement of the raw material and eluent in the cylindrical bodies, as well as to a decrease in the reliability of the extractor.

The technical problem that the invention solves is to simplify the construction, maintain a constant and uniform temperature throughout the entire process of extracting components from the raw material, as well as increase the reliability of the extractor.

The continuous countercurrent extractor according to the invention overcomes the above-mentioned disadvantages by comprising an inclined cylindrical body, connected at the lower end to a vertical cylindrical body, equipped with a common heating jacket. A perforated screw is mounted in the inclined cylindrical body, driven by an electric motor, the upper end of the inclined cylindrical body being equipped with an eluent discharge connection and a raw material discharge port, and the upper end of the vertical cylindrical body is equipped with a feed port for the raw material and a discharge port for the eluent enriched with the components extracted from the raw material. The diameter of the inclined cylindrical body being equal to the diameter of the vertical cylindrical body.

The particularities of the invention allow maintaining a constant temperature, thanks to the heating jacket, and simplifying the process of extracting components from the raw material by using a single cylindrical body for maceration of the raw material.

The technical result of the invention consists in simplifying the construction, maintaining constant and uniform temperature throughout the entire process of extracting components from the raw material, as well as increasing the reliability of the extractor.

The invention is explained by the drawing in the figure, which shows the diagram of the countercurrent extractor with continuous operation.

The extractor (see figure) contains the inclined cylindrical body 1, joined at the lower end with the vertical cylindrical body 2, equipped with the common heating jacket 4. In the inclined cylindrical body 1 is mounted the perforated screw 3, driven by the electric motor 5. The upper end of the inclined cylindrical body 1 is equipped with an eluent discharge connection and a raw material discharge port, and the upper end of the vertical cylindrical body 2 is equipped with a feed port for the raw material and a discharge connection for the eluent enriched with the components extracted from the raw material. The diameter of the inclined cylindrical body 1 is equal to the diameter of the vertical cylindrical body 2. The eluent discharge connection is at the same level or above the discharge connection for the eluent enriched with the components extracted from the raw material. The jacket 4 comprises the bodies 1 and 2 between the eluant delivery and discharge connections.

The continuous countercurrent extractor operates in the following way.

The heating jacket 4 is filled with water or other liquid that provides the necessary temperature of the environment for extracting the useful components from the raw material. The eluent is brought to the same temperature as that in the heating jacket 4. Through the feed opening, the raw material fills the vertical cylindrical body 2, which, moving downwards towards the maceration chamber of the inclined cylindrical body 1, is taken over by the perforated screw 3, which moves the raw material towards the eluent discharged through the discharge connection, which moves countercurrently with the raw material, causing the components to be extracted from it, the eluent thus being enriched with them. This process of enriching the eluent with the components extracted from the raw material takes place in the maceration chamber along the entire inclined cylindrical body 1, where the eluent moistens and swells the raw material, extracting the components from it. The eluent enriched with the components extracted from the raw material is discharged through the discharge connection in the vertical cylindrical body 2. The exhausted raw material, being moved upwards by the perforated screw 3, is discharged through the discharge mouth. The extractor operates continuously at a constant temperature.

1. Разуваев Н. И. Complex processing of secondary wine products. Moscow: Food industry, 1975, p. 50-55

2. Extraction. Непрерывный противоточный экрастор, 2016, <url:http://www.xumuk.ru/bse/3230.html>(found on the Internet on 2017.06.12)

Claims (1)

Countercurrent extractor with continuous operation, which contains an inclined cylindrical body (1), joined at the lower end with a vertical cylindrical body (2), equipped with a common heating jacket (4), at the same time in the inclined cylindrical body (1) a perforated screw (3) is mounted, driven by an electric motor (5), the upper end of the inclined cylindrical body (1) being equipped with an eluent discharge connection and with an outlet for the raw material, and the upper end of the vertical cylindrical body (2) is equipped with an inlet for the raw material and with an outlet for the eluent enriched with the components extracted from the raw material; the diameter of the inclined cylindrical body (1) being equal to the diameter of the vertical cylindrical body (2).