RU2161981C1 - Method of producing treatment-and-prophylactic preparation - Google Patents

Abstract

FIELD: complex processing apiculture products and seafoods. SUBSTANCE: treatment-and-prophylactic preparation VINIBIS-M contains beebread and powder of microcrystalline cellulose. Product desiccation is conducted in vacuum chamber at temperature not more 45 C and pressure not more 100 esiccation of product in vacuum chamber, preliminary desiccation of raw material is carried out by convection up to 15% humidity. Then raw material is decontaminated, cooled and beebread is recovered at temperature 0-5 C. After it, product is mixed with powder of microcrystalline cellulose and ground up to obtaining homogeneous powder. Method allows to obtain ecological clean treatment-and-prophylactic product with maximum conservation of biological properties. EFFECT: increased efficiency, productive capacity and safety of method. 1 dwg

Description

 The invention relates to the field of processing beekeeping products, in particular, to the production of the therapeutic and prophylactic drug “VINIBIS-M” from bee bread with the addition of various components.

A known method of obtaining a medicinal product from bee bread and a device for implementing the method, which are the closest analogue to the claimed invention (RF patent 2086245, IPC A 61 K 35/64, publ. 10.08.97,), in which the raw material is dried sushi placed in airtight the chamber is dried, creating a vacuum in the chamber, microwave heating is carried out, the temperature during processing is maintained at a level of not more than 45 ^o C, which allows to preserve the biological activity of the product, after which the bee bread is removed from the cells by shaking.

 The known method is not efficient enough to produce a high-quality product, and in addition, it is inefficient, energy-intensive, and represents an increased danger when using microwave heating both for the biological properties of the product and for service personnel, i.e. is not reliable enough.

The known method, which consists in obtaining environmentally friendly, with maximum preservation of the biological properties of the treatment and prophylactic product "VINIBIS", as well as increasing productivity, efficiency due to two-stage drying - pre-drying of raw materials and final drying of pergola, safety and reliability of the method and device receipt (patent of Russia 2128050, positive decision of 10.23.98, BI 9 1999)
The disadvantage of this method is the absence of microcrystalline cellulose in this preparation, which helps to increase the body's resistance to infections, remove toxins from the body, and decrease appetite in overweight people.

 The goal is solved by the fact that in the known method PR 2128050 at the stage of introduction of the components before final grinding, microcrystalline cellulose powder is introduced into the preparation.

Thus, the method of obtaining the therapeutic and prophylactic drug "VINIVIS-M" includes drying in a vacuum chamber with heating to a temperature of not more than 45 ^o C and extracting the bee bread from the cells. What is new is that before drying in a vacuum chamber, convective preliminary drying is carried out to a moisture content of not more than 15%, treating the raw materials with process air, the previously dried raw materials are decontaminated by treating with ozone and at the same time they are cooled before curing the honey in the honeycomb, the honey is extracted from the honeycombs in the form of granules and in the vacuum chamber carry out drying of the obtained pellet granules to a moisture content of 1% at a pressure of not more than 100 mm RT. Art., intensify the process of condensation of steam by cooling the outer surface of the chamber. After drying in a vacuum chamber, the product is mixed with the components and milled at the same time until a homogeneous powder is obtained. Heating in a vacuum chamber is carried out from an infrared source. They process it with ozone and extract the pellet beads at a temperature of 0 ...- 5 ^o C.

The essence of the proposed method for producing the therapeutic and prophylactic product “VINIBBIS-M” from bee bread and kelp thalli is that they carry out two-stage drying, first convectively drying all the raw materials to a predetermined humidity value, for example, 15% at a temperature not exceeding 45 ^o C to prevent denaturation of amino acids, and then the final drying of the finished drug substance - pergi granules to a moisture content of not more than 1% at a temperature of also not more than 45 ^o C. Convective drying is more efficient, allows you to process b large volumes of raw materials to a given moisture content and prepares the product for further processing. Drying to a moisture content of not more than 15% is sufficient to carry out further ozone disinfection operations and extract pellet granules. The pre-dried product is simultaneously cooled to cure and disinfected by treatment with ozone. In addition, a pre-dried product (pepper sushi) does not lose its biological properties upon cooling. The disinfection process at a moisture content of not more than 15% and at a temperature of 0 ...- 5 ^o C is more efficient, because ozone shows its disinfection properties at low temperatures and at a certain moisture content of the product. Disinfection and simultaneous cooling of the product reduce the formation of bacteria, which helps to preserve the biological properties of the product during long-term storage. In addition, the chilled product before curing and not completely drained (with a moisture content of not more than 15%) is better divided into components (wax, bee bread), while the bee bread is separated in the form of granules. The second stage of drying involves drying the finished product of pepper beads to a moisture content of not more than 1% and at a temperature of not more than 45 ^o C. The drying of the beads is carried out under vacuum, at a pressure of not more than 100 mm Hg This is because at a pressure of 100 mm RT. Art. for bee bread, an effective process of moisture evaporation begins, with a successive decrease in pressure, this process continues actively at a pressure of 1 mm Hg. Art. evaporation of moisture from the product to a moisture content of 1% is achieved. In this case, the heating inside the vacuum chamber is carried out from an infrared source, for example, an electric spiral, to maintain the temperature of not more than 45 ^o C. The infrared heating source is environmentally friendly and does not have a destructive effect on the biological properties of the product. The cooling of the housing surface is carried out for the most effective removal of moisture inside the chamber, which significantly intensifies the process of vapor condensation inside the vacuum chamber.

 The resulting product with a moisture content of not more than 1% is mixed with other components, including microcrystalline cellulose powder and milled together to obtain a homogeneous powder. It also allows you to preserve the biological properties, the properties of the obtained substance, perga and microcrystalline cellulose, since this substance has increased hygroscopicity, and quick grinding simultaneously with additional components does not allow at this stage to absorb additional moisture from the environment, which ultimately allows you to get ready a product with desired biological properties, which is subjected to further vacuum packaging and retains its properties for a long time.

 The proposed technological process for obtaining the therapeutic and prophylactic drug "VINIBIS-M" allows you to get an environmentally friendly product with maximum preservation of biological properties. In addition, two-stage drying increases the efficiency of the process, since raw materials, including by-products, do not require complete drying, but are dried only to a certain degree of humidity, the final product, VINIBIS-M, is completely dried, which reduces energy costs.

 The scheme of the proposed method for the production of therapeutic and prophylactic drug "VINIBIS-M" is presented in the drawing.

The installation for the preparation of a therapeutic and prophylactic preparation contains a sealed thermally insulated chamber 1 for convective drying of raw materials with an air duct 2 for supplying process air and an air duct 3 for exhausting air saturated with moisture vapor, high pressure fans 4, electric heaters 5 type EC equipped with switches for heating the air coming in into the chamber 1, to a temperature of not more than 45 ^o C.

 The installation is made of heat-insulating blocks; air ducts 2 and 3 with exit windows are laid on the hearth along the side walls. The ceiling of the chamber 1, made in the form of a cone, is insulated and serves as a guide for the evacuated air from the entire surface of the chamber. Through two doors located on one side (not shown), mobile racks are loaded and unloaded with the dried raw materials on them. The unit is equipped with a refrigerating chamber 6 with air ozonizer 7. The refrigerating chamber 6 is a freezing unit - standard imported equipment designed for low or deep freezing of products in a closed volume. Air ozonizer 7 is an electric-discharge ozone generator, a device based on the occurrence of ozone in air passing through a high-frequency electric discharge zone. The air ozonizer 7 is equipped with an ozone utilizer 8, which is a device for pumping ozone saturated air through a catalyst unit, i.e. a container filled with a catalyst. The installation is equipped with a separator-emelcher 9, which is non-standard equipment used to grind a product of an inhomogeneous composition of brittle consistency and separate it into compositions, as well as a vacuum chamber 10 for additional drying of pergola granules, which is a sealed vacuum barrel equipped with an infrared heating device inside 11, for example, with an electric spiral. On the outer surface of the chamber 10 there are pipelines 12 through which a pre-chilled liquid, for example, glycerin, is supplied to cool the outer walls of the vacuum chamber 10 in order to intensify the process of steam condensation inside the vacuum chamber 10. The internal volume of the chamber 10 is connected to vacuum pumps. Preliminary pumping of the vacuum is carried out by a water ring pump 13 according to the type of VVN, and further pumping is carried out by a vacuum-spool pump 14 according to the type of AVE. The chamber 10 is equipped with devices for measuring the magnitude of the vacuum and temperature. Pergh pellets are placed on racks and placed in the inner volume of chamber 10. A pellet mixer 15 of the screw or anchor type MV-35M is installed sequentially behind the vacuum chamber 10, in which the pellet granules, microcrystalline cellulose powder and additional components are dosed and pre-mixed, and micro-mill, where they are pre-mixed. The final mixing with simultaneous grinding of the mixture occurs in a micro mill 16 according to type A2-PWM for fine grinding of the mixture.

 The installation works as follows.

In the sealed chamber 1 through the doors located on one side, load mobile racks (not shown), with the raw materials on them. The drying process is carried out by supplying warm air to the chamber 1 through the duct 2 from the fan 4, heated by electric heaters 5. During the drying process, the process air is saturated with moisture vapor and pumped out of the chamber 1 by fans through the duct 3. In the chamber 1, the process of preliminary convective drying of the raw material to moisture not more than 15% at a temperature of not more than 45 ^o C. This process takes about 7-8 hours. Convective drying of raw materials allows you to dry large volumes of raw materials to the required humidity, about 15%, to maintain a drying temperature of not more than 45 ^o C, at which the biological properties of the product are preserved. After preliminary drying of the raw material to a moisture content of not more than 15% in chamber 1, the product is fed into the refrigerating chamber 6 with air ozonizer 7. A process of simultaneous cooling of the product and its disinfection with ozone takes place. The product is cooled to cure. At the same time, the effectiveness of disinfection increases, since ozone exhibits to a greater extent the properties of disinfection at low temperatures and in the absence of surface moisture, which is achieved by preliminary drying. In addition, ozone decomposes more slowly at low temperatures. The product is cooled to a temperature of 0 ...- 5 ^o C. At the same time, the product acquires a hardness sufficient to better separate the product into waste and feather pellets. In addition, at this temperature the biological properties of the product are not lost. The ozone disinfection process is carried out for two hours, followed by the disposal of ozone in the disposal device 8. The cooled and disinfected product enters the separator-grinder 9, in which the product is separated, i.e. separation by air according to specific gravity for pergola granules and wax. The temperature of the product during the separation process is also maintained from O to -5 ^o C. At this temperature, pergola granules are completely separated from the honeycombs, retain their shape, and most importantly, the quality of the product and its biological properties are preserved. For the final drying of the obtained bee bread, it is sent to the additional drying chamber - to the vacuum chamber 10, where the beaded granules are dried to a moisture content of not more than 1%. The drying process occurs at a pressure of not more than 100 mm Hg. First, a vacuum is pumped out by a liquid ring pump 13 according to the BBH type, and then further pumping is carried out up to 1 mm Hg. carry out a vacuum-spool pump 14 type AKZ. In this range of rarefaction, an active process of separation of moisture from the pellet beads takes place, while the biological properties of the product are preserved, and the humidity reaches 1%. The temperature in the vacuum chamber is also maintained no more than 45 ^o C by heating with an infrared heat emitter, for example, an electric coil 11. At the same time, to intensify the process of condensation of steam in the chamber 10, cool its outer surface. To this end, the outer surface of the vacuum chamber 10 is provided with pipelines 12 through which pre-cooling liquid, for example, glycerin, is supplied, which makes it possible to intensify the drying process, save energy and reduce processing time. After drying of the pepper granules in the vacuum chamber 10, the product is fed to the mixer 15, i.e. a container in which the obtained product is mixed with microcrystalline cellulose powder and other components in a certain proportion and fed to a micro mill 16, where the mixture is ground to a homogeneous powder - the VINIBIS-M therapeutic and prophylactic drug, which includes a physiologically balanced complex of vitamins , trace elements, amino acids of natural origin. The amount and range of added components are determined according to the purpose of the drug. Further, the resulting powder is sent to a hermetic packaging.

 Thus, the proposed method for obtaining the therapeutic and prophylactic drug "VINIBIS-M" allows you to get ready-to-use therapeutic product with predetermined biological properties, suitable for long-term storage.

Claims (1)

A method of obtaining a therapeutic and prophylactic preparation from bee bread, including pre-drying the raw material convectively to a moisture content of not more than 15% by treating the raw material with process air, disinfecting and cooling the bee bread in cells, removing the bean bread from cells in the form of granules, drying the product in a vacuum chamber with heating to humidity not more than 1% at a temperature of not more than 45 ^o C, at a pressure of not more than 100 mm Hg, grinding to obtain a homogeneous powder, characterized in that prior to the grinding stage, the obtained granules are mixed with powder microcrystalline cellulose.