CZ309313B6 - Raw material extraction method and filter bag - Google Patents

Abstract

A method of extracting raw materials, in particular drugs, herbs, plants and their parts, including fruits, mushrooms, algae - individually or as a mixture of them, whether fresh, dried, fermented, roasted or otherwise processed or modified to obtain a concentrated liquid extract consists of that the raw material (8) is extracted in at least one extractor (1) filled with liquid (2). At least one filter bag (3) filled with this raw material (8) is suspended in the extractor. The filter bag (3) is immersed in the liquid (2), while the bottom (33) of the filter bag is not in contact with the bottom (11) of the extractor, the jacket of the filter bag (32) is not in contact with the walls of the extractor (1), and the liquid (2 ) goes by at least one circulation pump (5) in controlled circulation from the bottom (11) of the extractor through the pipe (51) to the lid (12) of the extractor. The lid (12) of the extractor has at least one opening (13) for the pipe (51). The driven fluid (2) falls on this raw material (8), causing the fluid (2) to pass through the filter bag (3). The filter bag (3) has at least one shell (32), at least one bottom (33), and also at least one eye (34) for hanging and/or pulling out the filter bag (3).

Description

Raw material extraction method and filter bag

Field of technology

The invention relates to a method of extracting raw materials and a filter bag for carrying out this method, in particular drugs, herbs, plants and their parts, including fruits, mushrooms, algae - individually or in a mixture thereof, i.e. fresh, dried, fermented, roasted or otherwise processed or modified to obtain a concentrated liquid extract.

Current state of the art

Methods and methods of obtaining active substances from raw materials, especially from plant materials, are known from the prior art, which are generally based on the fact that the plant is placed in a liquid or covered with a liquid and is left to infuse in the liquid for a certain period of time. This is how substances are obtained, especially from tea or herbal mixtures. There is also a well-known herb infusion, where after cooling the liquid is enriched with active ingredients.

There is a known solution from patent CZ 239933 B6 entitled "Method of extraction of natural substances", where carbon dioxide is used, in which the natural substances intended for extraction are used in the form of pellets. The disadvantage is both the use of gas and the need to form natural substances into pellet form.

There is also a known solution from patent CZ 254346 B6 entitled "Method of obtaining durable chamomile extracts rich in active substances", where fresh or frozen chamomile flowers are extracted at a temperature of 10 to 60 °C with aqueous alkanols. Chamomile flowers are extracted in alcohol using a blender and then the extracted mass is pressed. The disadvantage of the present invention is, on the one hand, mechanical damage to the raw material and then the necessary additional process, pressing, by which the active substances are obtained.

A solution is known according to the published invention application CZ PV 1994-1098 entitled "Method of extraction of natural substances and equipment for its implementation", which relates to the extraction of labile natural substances, whereby biological material, e.g. plant sprouts of various origins or yeast are extracted in a countercurrent, in a batch manner in two to six closed, interconnected containers that are filled with a solvent, i.e. n-hexane. After extraction, the solvent is evaporated and an oil extract is obtained with the help of nitrogen. The disadvantage of this invention is the necessity of the used chemical multi-stage method of extraction using the transport of the raw material into several containers and the further use of a solvent, which is related to other processes necessary for its removal.

Furthermore, a solution is known from the document ES 2727589 T3 entitled "Tea extract", which describes obtaining tea extract using vacuum steam distillation at atmospheric pressure and fractionation of green tea leaves, the purpose of which is to obtain an excellent taste of green tea.

A solution is known according to the published application EP 1595458 Al entitled "Method of continuous extraction of solid and liquid parts and/or pressing of food and beverages", which mainly describes the method of extraction of coffee beans, which are ground by two screws and then, with the help of a solvent, substances are extracted from components.

The essence of the invention

The mentioned disadvantages are eliminated by this invention, the essence of which is that at least one filter bag, which is filled with raw material, is suspended in at least one extractor, which is filled with liquid. The filter bag is immersed in the liquid from 1/20 to 19/20 of its volume, while the bottom

- 1 CZ 309313 B6 of the filter bag is not in contact with the bottom of the extractor and the jacket of the filter bag is not in contact with the walls of the extractor. Using at least one circulation pump, the liquid is introduced into controlled circulation from the bottom of the extractor through a pipe to the lid of the extractor, which is equipped with at least one hole for placing the pipe. The liquid driven by the circulation pump hits the raw material, with the help of the dynamic effect of the fluid flow, the liquid passes through the filter bag, and the required substances are extracted into the liquid, and at the same time, the impassability of the raw material outside the filter bag is ensured.

It is preferable that the lid of the extractor is equipped with a sprinkler, which is placed in the opening of the lid of the extractor, and the driven fluid, which thereby reaches a higher speed and therefore a higher kinetic energy, hits the raw material placed in the filter bag. It is also preferable that the sprinkling area corresponds to the diameter filter bag.

It is expedient for the filter bag to be provided with a lid to prevent the leakage of raw material outside the filter bag and the driven fluid to be conveyed to this filter bag lid.

It is further advantageous for the driven liquid to be delivered to the lid of the filter bag via the sprinkler, where the area for sprinkling corresponds to the area of the lid of the filter bag.

It is expedient for the fluid to be preheated in the heating boiler to a temperature of 10°C to 99°C, and it is further advantageous for the fluid to be maintained at the preheated temperature during its circulation, for example by means of a heating device.

It is advantageous for the liquid to be presented as water, especially potable, in the most advantageous embodiment as treated water, preferably by means of reverse osmosis.

The raw material extraction method using controlled fluid circulation is implemented in minutes and hours, depending on the extracted raw material.

Furthermore, it is advantageous that the liquid, which is enriched with the required substances after the extraction, is pumped into the pasteurization boiler with the help of a pump for the purpose of its pasteurization.

Other disadvantages are eliminated by this invention, a filter bag made of a permeable material, in particular a textile, ensuring the impermeability of the raw material and at the same time ensuring the permeability of the liquid, the essence of which is that it contains at least one shell, which is provided with at least one bottom and at least one eye for hanging and /or for pulling out the filter bag, in a preferred embodiment it contains three ears for hanging and/or for pulling out the filter bag.

It is expedient for the filter bag to contain at least one filter bag lid, the lid being removable and/or hinged to ensure filling and emptying of the filter bag, in the most advantageous embodiment, the filter bag lid is connected to the casing via a zipper.

It is advantageous for the bottom and the shell of the filter bag to be provided with reinforcement.

The presented invention, the raw material extraction method, offers a very intensive and very gentle method of obtaining the required substances from any raw material without the need for its further filtration, and all this while maintaining the ecological standard of production. The presented filter bag represents a unique invention, enabling the effective and economically advantageous application of the presented extraction method.

Clarification of drawings

Fig. 1 schematically shows the method of raw material extraction using a filter bag.

Fig. 2 shows additional processes following the presented raw material extraction method.

-2CZ 309313 B6

Fig. 3 schematically shows a filter bag.

An example of the implementation of the invention

Raw material extraction method 8, according to the present invention, the essence of which is that at least one filter bag 3 is suspended in at least one extractor 1, which is filled with liquid 2. In the most advantageous embodiment, the extractor 1 is presented as a glass or stainless steel container, in which in the bottom 11, there is an opening for the placement of the pipe 51, which is represented as a hose, most preferably as a pressure hose or, for example, as a fixed pipe or its combination with a flexible hose. Furthermore, the extractor 1 is equipped with a lid 12, in which there is an opening 13. In the most advantageous embodiment, the opening 13 is provided with a sprinkler 4, and a pipe 51 is led into the sprinkler 4.

A filter bag 3 made of a permeable material, in particular a textile, ensuring the impassability of the raw material and at the same time ensuring the permeability of the liquid, according to the present invention, the essence of which is that it contains at least one shell 32, which is equipped with at least one bottom 33 and at least three handles 34, 34\ 34 for hanging and/or pulling out the filter bag 3. In an advantageous embodiment, the filter bag 3 is equipped with at least one lid 31. The lid 31 is removable and/or hinged, ensuring repeated filling and emptying of the filter bag 3. The filter bag 3 is designed for disposable , so for repeated use. In the most advantageous embodiment, the filter bag 3 is made of carbon fiber mesh ensuring the impassability of the raw material 8 to the liquid 2.

In the most advantageous embodiment, the shell 32 and the bottom 33 of the filter bag 3 are provided with reinforcements 36, 37 for shape stability and increasing the strength of the filter bag 3, for example, the shell 32 is provided with a longitudinally stitched textile strip, preferably repeating around the perimeter of the filter bag 3, and the bottom 33 is equipped with sewn textile strips arranged in the shape of a cross. The lid 31 is connected to the shell 32 by means of a zipper 35. It is also advantageous that the ear 34, most preferably all the ears, is repeatedly cross-stitched along its length, which creates elements that allow the filter bag 3 to be suspended and inserted according to the height requirements of the extractor 1.

The filter bag 3 is loosely filled with raw material 8, for example weighing 5 kg, it is inserted into the bark extractor with the help of three hanging eyes 34, 34', 34 and hung, for example, on the positioning clamps 14, 14', 14, which are placed on the extract 1. The extractor 1 contains, for example, 100 1 of liquid, while the filter bag 3 is, for example, immersed in /2 of its volume. Raw material 8 is exemplarily presented as a dried herb. Other examples of raw material 8 are drugs, herbs, plants and their parts, including fruits, mushrooms, algae, whether fresh, dried, fermented, roasted or otherwise processed or modified, either individually or in their mixtures in various combinations.

In the most preferred embodiment, liquid 2 is like water that is treated by reverse osmosis.

In an exemplary embodiment, the treated water is preheated in the liquid heater 6 to a temperature of 50°C in the tea extraction method, for example the temperature is preheated to 45°C for extracting sage, for algae extraction the preheating temperature is, for example, 20°C. The preheating temperature and the subsequently maintained temperature depend on the raw material 8 used and also on the substances we want to extract.

After hanging the filter bag 3 in the extract 1 and closing the lid 12 with the extract, the circulating pump 5 is started, which leads the treated water with the help of the nozzle 51 to the opening 13, in a preferred embodiment a sprinkler 4 is placed in the opening. The sprinkler 4 distributes the treated water evenly, depending on the number holes, directs the raw material 8 to the filter bag 3, preferably to the surface of the lid 31 of the filter bag. The use of the lid 31 of the filter bag 3 is essential for keeping the raw material 8 in the filter bag 3 and preventing its infiltration into the surrounding liquid 2 in the event of foaming or volume increase after the impact of the liquid 2 on the raw material 8, when the filter bag 3 is completely filled with the raw material 8.

The speed of the treated water is increased depending on the change in the diameter of the pipe 51 and the diameter of the holes in the sprinkler 4, there is a dynamic effect when the treated water hits the cover 31 of the filter bag 3 and at the same time the water, gradually enriched with extracted substances, is pumped from the bottom 11 of the extractor towards to the droplet 4. The liquid 2 is thus in constant motion in the desired direction, it dynamically passes through the entire volume of the filter bag 3 and intensive extraction of substances from the raw material 8 occurs.

When the liquid hits the lid 31 of the filter bag 3, foaming, swelling and/or sputtering of the raw material 8 in the filter bag 3 occurs, while the lid 31 of the filter bag prevents the penetration or leakage of the raw material 8 into the liquid 2 and at the same time allows the constant impact of the liquid_2 on the lid 31 of the filter bag 3 and thereby ensuring a dynamic effect.

For example, the liquid 8 can be represented as oil or alcohol, where preheating is adapted for oil from 10 to 99 °C and no preheating is used for alcohol.

The present invention, the filter bag 3 is arranged for the efficient extraction of the raw material 8 and at the same time ensures perfect filtration by preventing the leakage of the raw material 8 into the liquid 2.

During its flow in the pipe 51, the liquid 2 is preferably reheated by means of the heating device 52 and thereby maintained at the desired temperature, for example the temperature at the beginning of the process.

The duration of this controlled dynamic extraction process depends on the type and type of raw material 8 as well as the required amount of extracted components, for example, the duration of the process for the extraction of dried true chamomile is 4 hours, for example, the duration of the process for a mixture of dried fruits is 8 hours.

After the end of the extraction, the filter bag 3 is with the help of the ears 34, 34'. 34 to be taken out outside the extractor 1. The cover 31 of the filter bag is removed, for example the zipper 35 is unzipped, which connects the cover 31 of the filter bag to the cover 31 of the filter bag, and the raw material 8 is removed from the filter bag 3, for example turned out and after cleaning and disinfection the filter bag 3 is ready for further use.

In a preferred embodiment, the obtained enriched liquid is pumped into the pasteurization boiler 7 and is pasteurized for the purpose of preservation. The enriched liquid 2 is then filled into packaging according to the customer's requirements, for example bottles, bags and other well-known packaging products.

The present invention enables very effective and efficient obtaining of the required substances from all possible raw materials, especially of vegetable nature, for the purpose of their further use, either in concentrated form or after their dilution, while filtration of the enriched liquid is not necessary and thus a very economical result of the process is achieved.

Industrial applicability

The raw material extraction method represents a very gentle and at the same time effective method of obtaining the required substances from all possible raw materials, especially of a vegetable nature, for the purpose of their further use, either in concentrated form or after their dilution.

Claims (14)

PATENT CLAIMS 1. A method of extracting raw material (8), characterized in that at least one filter bag (3) is suspended in at least one extractor (1) which is filled with liquid (2), which is filled with raw material (8), while the filter the bag (3) is immersed in the liquid (2) from 1/20 to 19/20 of its volume, while the bottom (33) of the filter bag is not in contact with the bottom (11) of the extractor, and then the liquid (2) using at least one circulating pumps (5) introduced into a controlled circulation from the bottom (11) of the extract through the pipeline (51) to the lid (12) of the extract, which is equipped with at least one hole (13) for the placement of the pod (51), while the driven fluid (2) falls on the raw material (8), when using the dynamic effect of the fluid flow (2), the fluid (2) passes through the filter bag (3) and the required substances are extracted from the raw material (8) into the fluid (2) and at the same time the impassability of the raw material (8) is ensured outside the filter bag (3). 2. A method of extracting the raw material (8) according to claim 1, characterized in that the extract lid (12) is equipped with at least one sprinkler (4) which is placed in the opening (13) and the driven liquid (2) is via the sprinkler (4 ) transported to the raw material (8). 3. The raw material extraction method (8) according to claim 1 or (2), characterized in that the driven fluid (2) is conveyed to the lid (31) of the filter bag. 4. The raw material extraction method (8) according to one of claims 1 to 3, characterized in that the driven liquid (2) is transported to the lid (31) of the filter bag via the sprinkler (4). 5. The raw material extraction method (8) according to one of claims 1 to 4, characterized in that the liquid (2) is preheated in the heating boiler (6) to a temperature of 10°C to 99°C. 6. The raw material extraction method (8) according to one of claims 1 to 5, characterized in that the fluid (2) is maintained at a preheated temperature during its circulation by means of a heating device (52). 7. The raw material extraction method (8) according to one of claims 1 to 6, characterized in that the liquid (2) is water, especially potable water. 8. The method of extracting the raw material (8) according to claim 7, characterized in that the water is treated by means of reverse osmosis. 9. The raw material extraction method (8) according to one of claims 1 to 8, characterized in that the liquid (2) enriched with desired substances is pumped into the pasteurization boiler (7) with the help of a pump (71) for the purpose of its pasteurization. 10. A filter bag (3), made of a permeable material, in particular a textile, ensuring the impassability of the raw material (8) and at the same time ensuring the permeability of the liquid (2), characterized by the fact that it contains at least one jacket (32), which is equipped with at least one bottom (33), and that it is further provided with at least one eye (34) for hanging and/or for pulling out the filter bag (3). 11. The filter bag (3) according to claim 10, characterized in that it contains at least one cover (31) of the filter bag, the cover (31) being removable and/or hinged and ensuring the filling and emptying of the filter bag (3). 12. Filter bag (3) according to claim 11, characterized in that the cover (31) of the filter bag is connected to the casing (33) by means of a zipper (35). 13. A filter bag (3) according to one of claims 10 to 12, characterized in that the bottom (33) of the filter bag is provided with reinforcement (36). -5 CZ 309313 B6 14. A filter bag (3) according to one of claims 10 to 13, characterized in that the shell (32) of the filter bag is provided with reinforcement (37).