RU2735625C1 - Protein feed production system - Google Patents

Abstract

FIELD: fodder production.

SUBSTANCE: invention relates to fodder production, in particular, to a system for production of protein fodder, comprising a secondary cleaning machine, an extruder, an air conditioner, a press cake grinder, a mixer, a container for storage and dispensing of the ready fodder, a container for enrichment of fodder with micronutrients, control unit, crushed cake analyzer, milling press cake dispenser, micronutrients metering device, multichannel unit for optimum dosage ratio of crushed cake and micronutrients, a compressor, an aeroionizer, a ground cake mixing analyzer and micronutrients and an ion counter. Inputs of secondary cleaning machine, extruder, air conditioner and aeroionizer are connected to control unit connected to input of cake grinder, and its output is connected to a cake grinding analyzer, under the cake grinder there is a milling press cake dispenser, the input of which is connected to the input of the mixer connected to the micronutrient feeder, the input of the fodder connected to the container for enrichment with nutrient microelements. Mixer is connected to inputs of analyzing mixing of crushed cake and micronutrients, as well as with container for storage and dispensing of finished fodder, which is connected to ion counter, the latter is connected to aeroionizer, which output is connected to compressor, and output of ion counter is connected to outlet of aeroionizer.

EFFECT: invention usage allows to produce high-quality protein fodder with improved assimilability for cattle fattening.

1 cl, 1 dwg

Description

The invention relates to the field of agriculture and is intended for use in feed production, namely the production of high quality protein feed, increased digestibility for fattening cattle as feed additives.

Known line for the production of animal feed under the patent 2524258 C1 class. А23N 17/00, 2014, including an intake pit, bucket elevators, auger conveyor with unloading windows, feed hoppers for non-crushed grain components with a vibrating batcher, hammer crusher, bucket elevators, hopper for crushed grain components, feed hopper for additives, slide gate, mixer with shutter, scales and storage hopper, cleaning device for separating mineral and metal impurities from the source material, vibration exciter.

The disadvantage of the line is the injury of feed grain by bucket elevators and auger conveyor; the complexity of its design; a plurality of control dampers resulting in labor-intensive regulation of the material flow into the hoppers for non-grinded grain components and additives, as well as difficulty in regulation of the material flow, and a large number of bucket elevators result in labor-intensive maintenance.

Known line for obtaining protein feed according to patent RU 2646092 class. A23N 17/00, 2017, taken as a prototype, including a hopper for storing oilseeds and a hopper with a container for enrichment of micronutrients, an extruder with a hopper, a mixer, a container for storing feed, an air sieve grain cleaner, a hopper for storing processed products oilseeds, conditioner, shredder.

The disadvantage of this line is the lack of the possibility of obtaining protein feed with a long shelf life.

The technical result of the invention is to increase the long shelf life of protein feed.

The technical result is achieved in that the system for obtaining protein feed, including a secondary cleaning machine, an extruder, an air conditioner, a cake chopper, a mixer, a container for storing and dispensing finished feed, a container for enriching feed micronutrients, according to the invention, it additionally contains a control unit, an analyzer crushed cake, dispenser of crushed oilcake, dispenser of micronutrients, multichannel unit for forming the optimal dosage rate of crushed cake and micronutrients, compressor, aeronizer, analyzer of mixing of crushed cake and micronutrients, ion counter, at the same time inputs of secondary cleaning machine, air conditioner, air conditioner connected to the control unit connected to the inlet of the oil cake grinder, and its output is connected to the analyzer of oil cake grinding, under the oil cake grinder there is a dispenser of crushed oil cake, the input of which is connected to the input of the mixer connected to a dispenser of micronutrients, an inlet connected to a container for enriching feed micronutrients, the mixer is connected to the inlets of an analyzer for mixing crushed cake and micronutrients, as well as a container for storing and dispensing finished feed, which is connected to an ion counter, the latter is connected to an air ionizer, the outlet of which connected to the compressor, and the output of the ion counter is connected to the output of the air ionizer.

Comparative analysis of the proposed technical solution with the prototype allows us to conclude that the claimed system for obtaining protein feed differs from the known line in that due to design features, an increase in the long shelf life of protein feed is achieved, which cannot be obtained by known technical solutions.

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

The claimed technical solution meets the criterion of patentability INDUSTRIAL APPLICABILITY, tk. it belongs to the field of agriculture and is intended for use in forage production, namely, obtaining high quality protein feed, increased digestibility for fattening cattle as feed additives.

The essence of the invention is illustrated by a drawing, where FIG. 1 shows a system for producing a protein feed.

The system for obtaining protein feed includes a secondary cleaning machine 1, an extruder 2, an air conditioner 3, a cake chopper 4, a mixer 5, a container 6 for storing and dispensing ready-made feed, a container 7 for enriching feed with micronutrients. The system has a control unit 8, an analyzer 9 of crushed cake, a dispenser 10 of crushed cake, a dispenser of 11 micronutrients, a multichannel unit 12 for the formation of the optimal dosage rate of crushed cake and micronutrients, a compressor 13, an aeronizer 14, an analyzer 15 of mixing crushed oilcake and micronutrients, a counter 16 ions. The inputs of the secondary cleaning machine 1, extruder 2, air conditioner 3 and air ionizer 14 are connected to the control unit 8. The control unit 8 is connected to the inlet of the oil cake grinder 4, and its output is connected to the oil cake crushing analyzer 9. Under the crusher 4 of the cake there is a dispenser 10 of crushed cake, the inlet of which is connected to the inlet of the mixer 5, connected to the dispenser 11 of micronutrients, the inlet connected to the container 7 for enriching the feed with micronutrients. The mixer 5 is connected to the inputs of the analyzer 15 for mixing the crushed cake and micronutrients, as well as with the capacity 6 for storing and dispensing the finished feed, which is connected to the ion counter 16. The ion counter 16 is connected to the air ionizer 14, the outlet of which is connected to the compressor 13, and the outlet of the ion counter 16 is connected to the outlet of the air ionizer 14.

The technological process of the system for obtaining protein feed is carried out as follows.

The control unit 8 sends a signal to the secondary cleaning machine 1, the extruder 2, the air conditioner 3, the air ionizer 14, the cake chopper 4 and starts to work.

The bunker of the secondary 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, after secondary cleaning they are extruded in extruder 2. The mixture is extruded by heating the product to a temperature of 110-170 ° C and under pressure of 4-6 MPa during processing. After extrusion, the resulting product in the form of an endless rope enters the conditioner 3, where it is cooled to a temperature of 30-36 ° C, and then the feed is crushed to a loose form with granule sizes of 3-5 mm in the grinder 4. For grinding, any known design of the grinder 4 is used. capable of grinding feed to a grain size of 3-5 mm. At temperatures less than 30 ° C, the resulting mixture loses the property of hygroscopicity and ineffective grinding, and if it is higher than 36 ° C, then the property of hygroscopicity will increase and the feed will become lumps during grinding. Crushed cake and micronutrients (potassium iodide, manganese sulfate, copper sulfate, zinc sulfate, cobalt chloride) from dispenser 10 and dispenser 11 enters mixer 5, where they are mixed at a rate of 1:50. If we take a smaller ratio, then there will be an insufficient amount of micronutrients in the feed, and if more, then there will be oversaturation, which will lead to a deterioration in the quality of the feed. From the mixer 5, the finished feed enters the container 6, where it is aerated by supplying an ionized air stream with an aeroionizer 14 using a compressor 13 under a pressure of 2 MPa, which ensures turbulent movement of feed particles with a concentration of light negative ions of 3 × 10 ⁵ in 1 cm ³ for 30 minutes daily for 3-4 days and repeat a week later before using it.

The duration of feed processing 30 minutes daily for 3-4 days is due to the fact that with a decrease in processing time, the feed will not be sufficiently saturated with ions, which will lead to deterioration and deterioration of quality, and an increase in processing time will lead to oversaturation and loss of micronutrients.

A pressure of 2 MPa provides a turbulent movement of feed particles, and with a decrease in pressure, the movement of particles will be laminar and the feed particles will not be fully processed.

When the concentration is insufficient, the ion counter 16 sends a signal to the air ionizer 14 and supplies the required concentration. If the concentration of ions is less than the prescribed value, then the shelf life will decrease, which will lead to spoilage and the release of an unpleasant odor and farm animals will not eat it.

If the concentration of light negative ions is not sufficient, the nutritional value of the protein feed decreases, and oversaturation with light negative ions leads to a deterioration in the quality of the feed.

When crushing the cake, the analyzer controls this process using the control unit 8. If the crushed oil cake does not meet the zootechnical requirements, it is sent for additional grinding. The multichannel unit 12 for the formation of the optimal dosage rate of crushed cake and micronutrients sends a signal to the dispenser 10 of the crushed cake and, from where from the container 7 for its enrichment with micronutrients it enters the dispenser 11 of the micronutrients, controlled by the control unit 8 and then the signal goes to the dispenser 10 and further mixer 5.

In the tank 6 for storing the product of oilseeds processing, feed is supplied, which receives ions. When the concentration is insufficient, the ion counter 17 sends a signal to the air ionizer 15 and supplies the required concentration.

Carrying out technological operations in the protein feed production system will increase its long shelf life.

Claims (1)

A system for obtaining protein feed, including a secondary cleaning machine, an extruder, an air conditioner, a cake chopper, a mixer, a container for storing and dispensing ready-made feed, a container for enriching feed with micronutrients, characterized in that it additionally contains a control unit, an analyzer of crushed cake, a dispenser crushed cake, dispenser of micronutrients, multichannel unit for forming the optimal dosage rate of crushed cake and micronutrients, compressor, air ionizer, analyzer for mixing crushed cake and micronutrients and ion counter, while the inputs of the secondary cleaning machine, extruder, air conditioner and air ionizer are connected to the control unit connected to the inlet of the oil cake grinder, and its outlet is connected to the analyzer of oil cake grinding, under the oil cake grinder there is a dispenser of crushed oil cake, the input of which is connected to the inlet of the mixer connected to the dispenser of micronutrients, an inlet connected to a container for enriching feed micronutrients, the mixer is connected to the inlets of the analyzer for mixing crushed cake and micronutrients, as well as a container for storing and dispensing ready-made feed, which is connected to an ion counter, the latter is connected to an air ionizer, the outlet of which is connected to a compressor, and the outlet of the ion counter is connected to the outlet of the air ionizer.

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