RU71654U1 - FLOW LINE FOR PRODUCING LIQUID PHYSIOLOGICAL ACTIVE PRODUCTS - Google Patents

Abstract

The utility model relates to agriculture and can be used in the processing of organic waste to obtain liquid-phase biologically active agents with many applications: in agriculture, in crop production, in seed production, as well as in addressing the elimination of anthropogenic and technological disturbances in the land. The positive effect achieved by the utility model is to reduce the cost of the resulting product. The production line for the production of liquid-phase biologically active agents contains sequentially installed during the technological process and technologically interconnected bioreactor, extractor and filter. The bioreactor includes a housing 1 with a cover 2 and a bubble screen 3 placed therein, air ducts with transverse 5 and longitudinal 6 aeration and control devices 7. The bottom 8 of the bioreactor housing 1 is made in the form of a funnel with shutters 9, 10 at its inlet and outlet openings, and the shutter 9 at the inlet of the funnel is a bubble screen. The extractor is made in the form of a reservoir with inlet fittings 12, 13 for supplying the fermentation product and solvent and an outlet fitting 14 with a valve 15 for removing the extractable mass and a stirrer, which is a rod 17 mounted along the symmetry axis of the reservoir with the nth number of blades uniformly located on it 16. The filter is made in the form of a tank

19 with inlet fittings 20 and 21 for supplying a filtered suspension and compressed air and a bottom 22 with a fitting 23 for removing the filtrate, over which a false bottom 24 with a filter wall 25 is installed. f-ly; silt

Description

The utility model relates to agriculture and can be used in the processing of organic waste to obtain liquid-phase biologically active agents with many areas of application: in agriculture, in crop production, in seed production, as well as in addressing the elimination of anthropogenic and technological disturbances in the land.

A known production line for producing a concentrated biologically active agent enriched with microelements (Pat. At PM No. 57276, Cl. 7 C05F 3/00, C05F 11/00, 2006), containing a bioreactor, an extractor, a filter and a mixer, which are installed in series and technologically connected, .

A known production line for obtaining a biologically active agent in a concentrated form (Pat. PM No. 50530, Cl. 7 C05F 3/00, C05F 11/00, 2005, prototype), containing a bioreactor, an extractor and a filter, installed in series and technologically connected, .

A common disadvantage of the described production lines is the high cost of the resulting product. In the process of operation of the extractor, made in the form of the nth number of parallel vertically mounted and connected in series pipes, the solid fermentation product precipitates in the places where the pipes mate, which leads to constantly increasing losses of the active solid-phase product and, as a result, decrease the productivity of the extractor. In addition, the extractor requires cleaning from the accumulated sediment by

dismantling of pipes, which entails downtime and reduced productivity of the entire production line. In addition, the described design of the extractor assumes the mandatory presence of a storage tank as a connecting link between the extractor and the filter in the production line, which requires certain costs for the acquisition and maintenance. The above disadvantages of the design of the extractor entail an increase in the cost of the final product.

The problem solved by this utility model is to reduce the cost of the resulting product.

The problem is solved by developing a production line for the production of liquid-phase biologically active agents containing a bioreactor, an extractor and a filter, which are sequentially installed during the technological process and technologically interconnected, in which the extractor is made in the form of a reservoir with inlet fittings for supplying the fermentation product and solvent and an outlet a fitting with a valve to remove the extracted mass, and a stirrer, which is a rod with an nth installed along the symmetry axis of the tank the number of blades evenly spaced on it.

The claimed design of the extractor, combining both the extractor and the storage capacity, significantly reduces the cost of the entire production line, excluding the cost of purchasing additional structural units and their maintenance. The claimed design of the extractor is more convenient and easy to maintain, significantly reduces the time for its prevention and virtually eliminates the loss of active solid. Ultimately, the cost of the resulting product is significantly reduced.

The utility model is illustrated in the drawing.

In FIG. a production line for the production of liquid-phase biologically active agents is presented, a schematic diagram.

The claimed production line for the production of liquid-phase biologically active agents includes sequentially installed during the process and technologically interconnected bioreactor, extractor and filter.

The bioreactor contains a housing 1 with a cover 2 and a bubbler mesh 3 placed in it with a device 4 for drawing it, air ducts with transverse 5 and longitudinal 6 aeration and control devices 7. The bottom 8 of the bioreactor housing 1 is made in the form of a funnel with shutters 9 and 10 on it inlet and outlet, respectively. The damper 9 is also a bubble screen for the implementation of the longitudinal aeration operation in the process of obtaining a biologically active agent in the bioreactor.

The extractor is made in the form of a reservoir 11 with inlet fittings 12, 13 for supplying a fermentation product and a solvent and an outlet fitting 14 with a valve 15 for removing the extracted mass from the reservoir 11. The valve 15 on the outlet fitting 14 is a kind of regulator for the release of the finished product, allowing you to connect the extractor and the filter in terms of productivity. In addition, the extractor is equipped with a stirrer with an nth number of blades 16 located uniformly along the entire length of the shaft 17, installed along the axis of symmetry of the reservoir 11. This design of the mixer allows you to more evenly mix the extracted mass to obtain a high-quality product. At the inlet of the extractor, a feed conveyor 18 is installed.

The filter is made in the form of a reservoir 19 with inlet fittings 20 and 21 for supplying a filtered suspension and compressed air, respectively, and a bottom 22 with a fitting 23 for removing the filtrate, over which a false bottom 24 with a filter baffle 25 is installed.

The claimed production line operates as follows.

The initial mixture of manure and peat, enriched with a biostimulator, is loaded into a bioreactor on a bubble screen 9. From above, a bubble screen 3 is installed by means of a device 4, as well as a cover 2 with air ducts 5 and 6 and control devices 7. Air ducts 5 and 6 are connected to the pipe, by which blows air.

The process of preparing a biologically active agent is carried out in a bioreactor according to a specific technology. The finished product, a biologically active agent, is a solid granular material that allows it to be unloaded from the bioreactor through the bottom 8 of the bioreactor body 1, which is made in the form of a funnel with shutters 9 and 10. The shutter 9, which is also a bubble screen, is pulled out of the body 1, and the finished the product completely fills the funnel (bottom 8). Through the shutter 10, he gets the opportunity to exit the housing 1 of the bioreactor. Gate 10 is a kind of regulator for the release of the finished product, which allows the bioreactor and extractor to be interconnected in terms of productivity.

A biologically active agent in the form of solid granular material from the bioreactor through the feed conveyor 18 enters through the nozzle 12 into the reservoir 11 of the extractor. At the same time, a solvent is fed into the tank 11 through the nozzle 13. Every 12 hours, the mixer automatically turns on for 5-10 minutes, depending on the volume of the extracted mass.

The finished extractable mass from the tank 11 through the nozzle 14 with the valve 15 enters through the nozzle 20 into the filter tank 19. At the same time, compressed air is supplied to the reservoir 19 through the nozzle 21. Under pressure of compressed air, the suspension is separated by precipitation of a solid residue on the filter baffle 25. The finished liquid-phase biologically active agent is removed from the filter tank 19 through the fitting 23.

Thus, the claimed design of the extractor, combining the extractor and the storage capacity, allows, without affecting the quality of the resulting product, to 1.4 times reduce the cost of the obtained liquid-phase biologically active agents, while the energy consumption at the stage of extraction in the claimed production line does not exceed energy consumption in the prototype production line.

Claims (1)

A production line for the production of liquid-phase biologically active agents, containing a bioreactor, an extractor and a filter installed in series during the technological process and technologically interconnected, characterized in that the extractor is made in the form of a tank with inlet fittings for supplying a fermentation product and a solvent and an outlet fitting with a valve to remove the extractable mass and a stirrer, which is a rod with an nth amount evenly spaced along the symmetry axis of the tank GOVERNMENTAL blades on it.