RU2706188C1 - Device for production of protein feed - Google Patents

Abstract

FIELD: agriculture.

SUBSTANCE: invention relates to agriculture, in particular to a device for production of protein fodder. Device includes a bin for storage of a product of oilseeds processing and a hopper with a container for its enrichment with nutrient microelements, an extruder with a hopper, mixer, container for storage of ready fodder, air-screen grain cleaning machine, under which bin is installed for storage of oil product processing product. Oil product processing product storage bunker is made in the form of two compartments, under which there is a storage container with an outlet hole installed above the bunker of the extruder. Device also has an ozonizer with an ozone-air mixture flow sensor and a fodder processing quality monitoring device. Outlet hole of extruder is connected to grinder, outlet of which is interconnected with air conditioner. Conditioner is connected to the mixer. Inlet hole of mixer is communicated with outlet hole of ozonizer. Outlet of mixer – with hopper for storage of ready fodder. Fodder processing quality control device is arranged between the hopper for storage of the ready forage and the mixer. This device consists of dielectric cups with cylindrical electrodes inside. In the center of the cups there are coils of oscillatory circuits, which together with tuning vessels are connected to measuring instrument on one side through power supply source, and on other side through high-frequency generators with voltage regulator.

EFFECT: invention usage will allow to enhance the ready fodder quality.

1 cl, 2 dwg

Description

The invention relates to agriculture, in particular to the storage of protein feed, namely sunflower meal.

Known seed treatment with ozone (O ₃ ), which prevents the growth of molds.

The consequence of the growth and reproduction of molds is a decrease in the energy and nutritional value of feed, a decrease in taste, a change in the physical characteristics of raw materials, etc.

The consumption of such feed leads to a decrease in the productivity and preservation of the livestock, worsens the conversion of feed and reduces the body's resistance. As disinfectants, mainly mixtures of organic acids are used: propionic, formic, sorbic, etc., which are environmentally unsafe, often carcinogens, which is important and quite expensive.

The cost of treating with ozone is 3-4 times lower than the cost of treating with chemicals, pollution with pesticides that are toxic to animals is prevented, and special etching techniques are not required [www.kaufmanntec.ru].

A device for treating seeds with ozone is known according to patent No. 2341924, IPC А01С 1/00, including a seed hopper, a fan and an air ozonizer, a working chamber.

A device for processing ozone bulk materials according to patent No. 2533432, IPC А01С 1/00, including a hopper, a dispenser, a vertical cylindrical tank, an ozonizer with a flow inducer is known.

The disadvantage of these devices is the inability to use them for processing sunflower meal in bulk form.

The known line for the production of protein feed according to the patent of the Russian Federation No. 2646092 IPC A23N 17/00, 2018 (prototype), including a hopper for storing an oilseed processing product and a hopper with a tank for enriching it with micronutrients, an extruder with a hopper, a mixer, a feed storage tank has an air-sieve grain cleaning machine, under which a hopper for storing the oilseed processing product, an air conditioner, a chopper is installed, while the hopper for storing the oilseed processing product is made in the form of two o sec, under which there is a storage tank with an outlet installed above the hopper, an extruder, the outlet of which is connected to the hopper of the tank for enrichment of micronutrient products with oilseeds, an agitator is installed inside it, while the outlet of the tank for enrichment with micronutrients with oilseeds is installed above the inlet of the air conditioner and communicated with the chopper, at the outlet of which a feed storage tank is installed.

The disadvantage of the prototype is the lack of the possibility of long-term storage of the obtained protein feed, leading to its damage, the allocation of unpleasant odors and deterioration in quality.

The technical result of the invention is to increase the shelf life of protein feed while maintaining its original quality.

The technical result is achieved in that in a device for producing protein feed, including a hopper for storing an oilseed processing product and a hopper with a container for enriching it with micronutrients, an extruder with a hopper, a mixer, a container for storing finished feed, an air-sieve grain cleaning machine, under which has a hopper for storing a product of processing oilseeds, while the hopper for storing a product of processing oilseeds is made in the form of two compartments, under which a storage tank with an outlet installed above the hopper of the extruder according to the invention is laid, has an ozonizer with an ozone-air mixture flow sensor and a device for monitoring the quality of feed processing, while the outlet of the extruder is connected to a chopper, the outlet of which is connected to the air conditioner, the latter is connected to the mixer, moreover, the inlet of the mixer is communicated with the outlet of the ozonizer, and the outlet of the mixer with a hopper for storing the finished feed, between the last and the mixer is located device for monitoring the quality of feed processing, consisting of dielectric cups with cylindrical electrodes inside, in the center of which coils of oscillating circuits are installed, which together with the tuning capacitors are connected to the measuring device on the one hand through a power source, and on the other hand through high-frequency generators with voltage regulator .

A comparative analysis of the proposed technical solution with the prototype allows us to conclude that the claimed device for producing protein feed differs from the known device in that it has an ozonizer with an ozone-air mixture flow sensor and a device for monitoring the quality of feed processing, while the outlet of the extruder is connected to the grinder the outlet of which is connected with the air conditioner, the latter is connected to the mixer, the inlet of the mixer in communication with the outlet of the ozonizer, and the output of the mixer - with a hopper for storing the finished feed, between the last and the mixer there is a device for controlling the quality of feed processing, consisting of dielectric cups with cylindrical electrodes inside, in the center of which coils of oscillating circuits are installed, which together with trim tanks are connected to the measuring device on one side through power source, and on the other hand through high-frequency generators with a voltage regulator.

Thus, the claimed technical solution meets the criteria of patentability NOVELTY.

The features that distinguish the claimed technical solution from the prototype are aimed at achieving a technical result and have not been identified in the study of this and related fields of science and technology and, therefore, meet the criterion of INVENTION.

The claimed technical solution meets the patentability criterion INDUSTRIAL APPLICABILITY, because it relates to agriculture, in particular to the storage of protein feed, namely sunflower meal.

The invention is illustrated by drawings, where in FIG. 1 shows a device for producing protein feed; FIG. 2 shows a device for monitoring the quality of feed processing.

A device for producing protein feed contains sequentially installed air-sieve grain cleaning machine 1, under which there is a hopper 2 for storing the oilseed processing product, made in the form of two compartments, under which there is a storage tank 3 with an outlet installed above the hopper of the extruder 4. The device has an ozonizer 8 with a sensor 9 for the flow of ozone-air mixture and a device 10 for monitoring the quality of feed processing. The outlet of the extruder 4 is connected to the chopper 5, the output of which is connected to the air conditioner 6, the latter is connected to the mixer 7. Moreover, the inlet of the mixer 7 is in communication with the outlet of the ozonizer 8, and the outlet of the mixer 7 is connected to the hopper 11 for storing the finished feed. Between the latter and the mixer 7 there is a device 10 for controlling the quality of feed processing, consisting of dielectric cups 12 with cylindrical electrodes 13 inside, in the center of which coils 14 of oscillatory circuits are installed, which together with trim tanks 15 are connected to the measuring device 16 from one side through a source power 17, and on the other hand through high-frequency generators 18 with a voltage regulator 19.

A device for producing protein feed is as follows.

The hopper of the air-sieve grain cleaning machine 1 receives the components of a heap of sunflower seeds of the Lakomka variety, which include fragments of baskets and stems and sunflower seeds, they are extruded after secondary cleaning. From the air-sieve grain cleaning machine 1, waste in the form of fragments of baskets and stems and sunflower seeds after secondary cleaning are separately fed to a double hopper 2. Then they are mixed in a storage tank 3 and fed to an extruder 4. Using a double hopper 2 with a storage tank 3 allows to ensure uninterrupted production of feed by equalizing the performance of the air-sieve grain cleaning machine 1 and the extruder 4. The mixture is extruded by heating the product to temperature 110-170 ° C and under a pressure of 4-6 MPa during processing. After extrusion, the resulting product in the form of an endless tow enters the grinder 5, where it is crushed to a grain size of 3-5 mm. For grinding use any known design of the grinder capable of grinding feed to a loose appearance with a size of 3-5 mm Then it is cooled by air conditioning 6 to a temperature of 30-36 ° C. At a temperature of less than 30 ° C, the resulting mixture loses the hygroscopic property and grinding is not effective, and if it is higher than 36 ° C, the hygroscopic property will increase, and the feed will be knocked down during grinding. Then, the cooled ground feed enters mixer 7, where it is mixed with micronutrients (potassium iodide, manganese sulfate, copper sulfate, zinc sulfate, cobalt chloride) at a rate of 1:50. If you take a smaller ratio, then there will be an insufficient concentration of micronutrients in the feed, and if it is larger, then there will be oversaturation, which will lead to a deterioration in the quality of the feed.

After mixing the feed after mixing with micronutrients, an ozone-air mixture with a concentration of 20-30 mg / m ³ is applied for 120 s. Then they are treated with a high-frequency field and the dielectric constant of the processed feed is determined, which is compared with the reference one and the degree of quality of the feed processing is judged by their difference. If the feed is not saturated enough with the ozone-air mixture, then increase its concentration, if it is oversaturated with the ozone-air mixture, then reduce its concentration.

To control the performance of the ozonizer, the concentration of the ozone-air mixture is used as the product flow rate, and the concentration of the electric charge in the ozone-ionic air mixture is used as a signal, and it is measured over the time specified by the control unit. Next, a signal is supplied to a differentiating link (not shown), which determines the rate of change of charge in cycles, and forms it in the form of a numerical or analog signal in the form of an electrical voltage. In this case, cyclically incoming signals to the signal counter (not shown) are summed up and when the total signal reaches the set voltage value, the ozonizer is turned off (Patent No. 252492).

If the feed is not saturated enough with the ozone-air mixture, then increase its concentration, if it is oversaturated with the ozone-air mixture, then reduce its concentration.

If the concentration of the ozone-air mixture is not sufficient, the nutrition of the protein feed decreases, and the oversaturation of the ozone-air mixture leads to a deterioration in the quality of the feed.

Shelf life of sunflower meal is 3 months. according to GOST 80-96 Sunflower cake. Specifications https://znavtovar.ru/gost/2/gost_8096_zhmyx podsolnechnyj.htmll.

If the arrow of the device 16 deviates from zero to one, the sunflower meal is stored for 4 months, from zero to two - 6 months. If the arrow of the device deviates over 2 units, it indicates oversaturation of the feed with ozone.

Performing technological operations in a device for obtaining protein feed will increase its shelf life while maintaining its original quality.

Claims (1)

A device for producing protein feed, including a hopper for storing an oilseed processing product and a hopper with a container for enriching it with micronutrients, an extruder with a hopper, a mixer, a container for storing finished feed, an air-sieve grain cleaning machine, under which a hopper for storing the processed product is installed oilseeds, while the bunker for storing the oilseed processing product is made in the form of two compartments, under which there is a storage tank with an output from a hole installed above the hopper of the extruder, characterized in that it has an ozonizer with an ozone-air mixture flow sensor and a device for monitoring the quality of feed processing, while the outlet of the extruder is connected to a chopper, the outlet of which is connected to the air conditioner, the latter being connected to the mixer, the inlet of the mixer is communicated with the outlet of the ozonizer, and the outlet of the mixer with the hopper for storing the finished feed, in addition, between the hopper for storing the finished feed and the mixer is installed at a device for monitoring the quality of feed processing, consisting of dielectric cups with cylindrical electrodes inside, in the center of which coils of oscillating circuits are installed, which together with the tuning capacitors are connected to the measuring device on the one hand through a power source, and on the other hand through high-frequency generators with voltage regulator .

Images