RU111012U1 - SOLID BODY EXTRACTOR - LIQUID - Google Patents

Abstract

 The extractor for the system is a solid body - a liquid containing a vertical body with a steam jacket and technological nozzles, in the lower part of which there is a horizontal lattice partition, over which knives with side cutting edges are fixed on the shaft, an extract collector, characterized in that the shaft is hollow, on which is equipped with a mixing device made in the form of an upper and lower cross-shaped stirrers, between which there are knives at different heights, when viewed from above, each knife is located one another at an angle α = 45 °, while the lower cross-shaped mixer is hollow and equipped with hollow L-shaped combs with holes at the ends curved upwards.

Description

The proposed utility model relates to the food, agricultural and pharmaceutical industries and can be used to extract nutrients from plant and animal raw materials.

A device for producing extracts (SU No. 850108 A1, publ. 07/30/1981) is known, having a cylindrical body with a rotor divided by radial partitions into chambers equipped with hinged bottoms and an irrigation system with shut-off valves in the upper part, solvent collectors, loading and unloading devices solid matter. The extractor is equipped with rods mounted with the possibility of reciprocating movement, with agitators located on them, a guide and a lever connected to a shut-off valve.

However, in the known device during the extraction process, the solid mass is densified on the bottom surface, which increases the hydraulic resistance of the solid phase layer, reduces the speed and quality of the extraction process.

A known extractor for the solid-liquid system (RU No. 2308308, class B01D 11/00, published October 20, 2007), comprising a housing divided by a vertical partition that does not reach the bottom into two zones, pipes for extracting and extracting agent, inclined pipe, pulsator, compressor, fluid level sensor.

The disadvantages of this extractor are insufficiently fast dissolution of the solid phase in the liquid and a decrease in the quality of the product due to the significant investment of time in extracting the extract and maintaining the elevated temperature.

The closest in technical essence to the claimed utility model is the extractor selected as a prototype for the solid-liquid system (see RU No. 1706096 C class B01D 11/02, publ. 1995), containing a vertical cylindrical body with a steam jacket, an extractor box with fittings to remove the extract from the housing and supply steam to it. The housing is connected to the lid, in which a fitting is mounted for loading pre-ground solid phase into the housing, a fitting for introducing solvent (liquid phase) into the housing through an annular atomizer, a fitting for removing gas and vapor substances from the housing. A horizontal lattice partition is installed inside the housing in its lower part and work elements in the form of knives with side cutting edges mounted on a vertical shaft with the possibility of rotation around its axis and reciprocating movement are mounted above it.

The disadvantages of the described extractor are insufficient quality mixing and loosening of the raw materials, a large loss of electricity on the reciprocating motion of the knife, the slow dissolution of the extractant in the feedstock, the low rate of the process of dissolution of the solid phase in the liquid, low productivity of the apparatus, high metal consumption.

The technical result of the utility model is to intensify the extraction process, increase the productivity of the apparatus by accelerating the process of dissolution of the extractant in the feedstock and reducing the metal consumption and overall dimensions of the extractor.

The technical result of the utility model is achieved by the fact that in the extractor for the solid-liquid system containing a vertical housing with a steam jacket and technological nozzles, in the lower part of which there is a horizontal lattice partition, over which knives with lateral cutting edges are fixed on the shaft, an extract collector, according to a utility model, the shaft is made hollow, on which a mixing device is installed, made in the form of an upper and lower cross-shaped stirrers, between which at different heights there are knives, when viewed from above, each knife is located relative to each other at an angle α = 45 °, while the lower cross-shaped mixer is hollow and equipped with hollow L-shaped combs with openings at the ends curved upwards.

Distinctive features of the claimed utility model are the installation on the hollow shaft of a mixing device in the form of knives with cutting edges, upper and lower cruciform mixers, as well as supplying the lower mixer with L-shaped combs having openings curved upwards, which reduces metal consumption and overall dimensions equipment. The installation of the proposed mixing device increases the quality of mixing and loosening of raw materials due to the installation instead of a working element that requires a large amount of electricity to move the knife not only around the circumference, but also on the reciprocating motion (in the prototype), several knives located at different heights and when viewed from above, each knife is located relative to each other at an angle α = 45 °. Installation of L-shaped combs provides loosening of the mixture and continuous removal of the extracted raw material through a side pipe connected to a discharge device for simultaneous extraction of meal. The intensification of the extraction process of plant and animal raw materials occurs due to the destruction of its structure under the action of jets of extractant created in the extraction mixture emerging from the holes at the ends of the L-shaped combs. This helps to accelerate the process of dissolution of the extractant in the feedstock and increases the yield of high-quality finished product.

Thus, the distinguishing features of the claimed utility model ensure the achievement of the above technical result, which consists in intensifying the extraction process, increasing the productivity of the apparatus by accelerating the process of dissolution of the extractant in the feedstock and reducing the metal consumption and overall dimensions of the extractor.

The inventive utility model is illustrated by drawings, where Fig. 1 schematically shows a longitudinal section of the inventive device, Fig. 2 is a L-shaped comb, a side view, and Fig. 3 is a section A-A of Fig. 1.

The extractor for plant and animal raw materials contains a vertical casing 1 with a steam jacket 2, with technological pipes 3, 4, 5, 6, 7, 8, the supply of extractant, supply and removal of coolant, removal of the extract, removal of meal and recycling of the extract, respectively, and a dispenser 9 (see figure 1). In the housing 1, on the hollow shaft 10, a mixing device is installed, which is made in the form of an upper 11 and lower 12 cross-shaped mixers. The lower 12 mixer stirrer is hollow and provided with hollow L-shaped combs 13 with holes 14 at the ends, curved upwards. The mixing device comprises knives 15 with lateral cutting edges 16 mounted on a hollow shaft 10 between the lower 12 and upper 11 mixers at different heights 16. Each knife 15, when viewed from above, is located relative to the other knife at an angle α = 45 ° (see FIG. 2). In the lower part of the housing 1 under the combs 13 there is a horizontal lattice partition 17. The housing 1 is connected to a filter 18, an extract collector 19 and a vacuum pump 20 connected to the extract recirculation pipe 8, the last of which is communicated through the shaft cavity 10 with the lower mixer 12. The pipe 7 is connected to a discharge device 21 for simultaneous extraction of the extracted material. The shaft 10 rotates from the actuator 22.

The extractor works as follows. When the drive 22 is turned on, the vegetable or animal raw materials are dispensed by the dispenser 9 into the housing 1, the extractant is poured along the pipe 3 there. The rotation is transmitted to the shaft 10 and the mixing device. In the field of centrifugal forces, the extraction mixture is mixed. The agitators 11 and 12 mounted on the hollow shaft 10, as well as knives 15 located at different heights, with their sharp edges 16 loosen the stagnant feed zones throughout the entire body 1, facilitating the access of the extractant to the entire surface of each solid particle. In this case, there is no displacement of the particles of the solid body, and their compaction is also excluded. L-shaped combs 13 loosen the raw materials and completely remove the extracted material from the housing 1. To maintain the required temperature, a steam jacket 2 is installed in the housing, where a coolant is supplied through the pipe 4. The waste heat carrier is removed through the nozzle 5. As it saturates, the extract passes through the lattice baffle 17, where coarse filtration is carried out and is discharged through the nozzle 6 into the filter 18 to separate impurities and sent to the collector 19, where it settles from the remaining elements after filtration. Depending on the degree of saturation of the extract, the latter is sent for recirculation through the pipe 8 using a vacuum pump 20 into the shaft cavity 10. Due to the vacuum created by the pump 20, the extract aimed at re-saturation enters the extraction mixture under pressure through the openings 14. The recirculation outlet extract from the bottom allows you to additionally, in addition to the knives 15, to loosen and degrade the mixture and with a greater degree to penetrate into the particles of a solid body. When you exit the holes 14 is "punching" through the layer of the mixture. This creates a large interfacial surface, which contributes to heat and mass transfer processes, as well as the chemical interaction of the extractant with the mixture, which leads to a multiple increase in the phase contact surface and a drop in the diffusion resistance of plant or animal raw materials. This intensifies the extraction process.

After the extraction process is completed with the drive 22 running, the extract is completely drained from the housing 1, and the extracted raw material is discharged through a pipe 7 connected to the unloading device 21, where the raw material is completely squeezed out. Next, the cycle of the extractor is repeated, and the selected extract is drained from the collection 19.

Thus, the proposed utility model has increased reliability due to the installation of a mixing device made in the form of an upper and lower cross-shaped mixers, between which there are knives at different heights, which significantly increases the productivity of the equipment, reduces the metal consumption and allows to intensify the process of extraction of plant and animal raw materials due to the destruction of its structure under the action of jets of extractant created in the extraction mixture.

Claims (1)

The extractor for the system is a solid body - a liquid containing a vertical body with a steam jacket and technological nozzles, in the lower part of which there is a horizontal lattice partition, over which knives with side cutting edges are fixed on the shaft, an extract collector, characterized in that the shaft is hollow, on which is equipped with a mixing device made in the form of an upper and lower cross-shaped stirrers, between which there are knives at different heights, when viewed from above, each knife is located one another at an angle α = 45 °, while the lower cross-shaped mixer is hollow and equipped with hollow L-shaped combs with holes at the ends curved upwards.