RU2809952C1 - Real-time feed expansion method - Google Patents

Abstract

FIELD: feed production.

SUBSTANCE: equipment for production of expanded feed in granular form for cattle. The method of expanding feed includes feeding, mixing, expanding grain with liquid additives and moistening with water and steam, grinding, granulating, and cooling. Fat and molasses taken at 1:2 ratio are used as liquid additives and analysed. Water analysis and filtration are carried out. If fat and molasses have low mixing quality, they are submitted for additional mixing. Then grain, fat with molasses, and water are mixed at the following ratio: 4:1:2:3. The resulting mixture is delivered for expansion, grinding, and granulation. To control these processes, multimedia devices are used to obtain the images of the resulting feed, which are transmitted for computer processing with Mathcad software to determine the quality of the resulting feed for compliance with the zootechnical requirements. If these requirements are not meet, the feed is sent for additional mixing.

EFFECT: improved fodder quality.

1 cl, 1 dwg

Description

The invention relates to equipment for the production of expanded feed in granular form at feed mills and feed mills of farms engaged in keeping and raising cattle.

There is a known method for preparing expanded feed according to patent 2262243 cl. A23K 1/14, 2005, including dosed introduction of bulk components, liquid additives, water / or steam into the mixer-conditioner, mixing and expansion.

The disadvantage of this method is the inability to check the quality of the resulting expanded feed.

There is a known method for the production of expanded feed according to patent 2372789 class. A23K 1/00, A23N 17/00, 2009, including dosing, normalization, expansion, heat treatment, structuring and cooling.

The disadvantage of this method is the inability to check the quality of fat, molasses and water during the production of expanded feed.

There is a known technical solution for a feed expansion technological line, including feeding, mixing, expanding grain with liquid additives and moistening with water and steam, grinding, granulating, cooling (Mishurov N.P. Recommended technologies for the production of mixed feed on farms // Bulletin of the All-Russian Scientific Research Institute mechanization of livestock farming. 2015. No. 4 (20), p. 10, Fig. 2 - prototype).

The disadvantage of the known technical solution is the inability to analyze liquid additives in real time, as well as control technological processes of feed preparation, which leads to low quality of the resulting feed.

The technical result of the invention is to improve the quality of feed in real time.

The technical result is achieved by the fact that in the method of expanding feed, including grain feeding, mixing, expansion with liquid additives, humidification with water and steam, grinding, granulation, cooling, according to the invention, in the process of preparing for expansion, fat and molasses taken from in a ratio of 1:2, an analysis is carried out for the quality of their mixing, and if the fat and molasses have a low quality of mixing, they are sent for additional mixing, while the water is also analyzed for the content of impurities in it, followed by filtration, then the grain is mixed , fat with molasses and water in the following ratio 4:1:2:3, the resulting mixture is fed for expansion, grinding and granulation, and to control these processes, multimedia devices are used to obtain an image of the resulting feed, which are submitted for computer processing with Mathcad software to determine the quality of the resulting feed for compliance with zootechnical requirements, and if these requirements do not meet, the feed is sent for additional mixing.

A comparative analysis of the proposed technical solution with the prototype allows us to conclude that the proposed method of expanding feed in real time differs from the known technical solution in that due to technological features, an increase in the quality of feed is achieved in real time, which cannot be achieved with known technical solutions.

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

The claimed technical solution meets the patentability criterion of INDUSTRIAL APPLICABILITY, because it refers to equipment for the production of expanded feed in the form of grits from granules at feed mills and feed mills of farms involved in keeping and raising cattle.

The essence of the invention is illustrated by the drawing, where in FIG. Figure 1 shows a device for implementing a method for expanding feed in real time - a general view.

To implement the method of expanding feed in real time, use a line that contains a screw feeder 1, a mixer 2, an expander 3, a grinder 4, a granulator press 5, a cooler 6. The line also has containers for water 7 and grain 8. In a two-section distribution In device 9, one of the sections is intended for fat with molasses, the other for water, under them there is a fat and molasses analyzer 10, a water analyzer 11, which is connected to a water filter 12 and a container 13 with purified water, an electronic control unit 14, and a personal computer. 15, multimedia devices 16, 17, 18, container 19 for a mixture of fat-enriched grain with molasses, controller 20. The water section of the two-section distribution device 9 is connected to the water container 7. The outputs of two sections of the distributor 9 are connected to the analyzers 10 of fat with molasses and water 11. In turn, the output of the analyzer 10 of fat and molasses is connected to the input of the mixer 2, which is connected to the container 8 for grain. The output of the water analyzer 11 is connected to the input of the water filter 12 connected to the input of the container 19 for a mixture of grain enriched with fat and molasses, located above the expander 3. The personal computer 15 is connected to multimedia devices 16, 17, 18. The controller 20 is connected to the inputs of the chopper 4, press granulator 5 and cooler 6.

In this case, the line contains 2-way valves 21, 22, 23, 24, 25, 26 connected to the electronic control unit 14. Valve 21 is installed between the screw feeder 1 and the mixer. Valve 22 is installed between the water analyzer 11 and the water filter 12. Valve 23 is installed between the water filter 12 and the container 13 with purified water. Valve 24 is installed between mixer 2 and container 19 for a mixture of grain enriched with fat and molasses. Valve 25 is installed between container 19 for a mixture of fat-enriched grain with molasses and expander 3. Valve 26 is installed between expander 3 and chopper 4.

The method for expanding feed in real time is carried out as follows.

Screw feeder 1 supplies fat and molasses, and water also flows from container 7 into a two-section distribution device 9 and then each of the components enters its analyzers 10 and 11. The water in analyzer 11 is checked for the content of impurities in it. If there are no impurities in the water, the electronic control unit 14 sends a signal to open the valve 22 and the water enters the container 13 for purified water; if there are impurities in the water, then the electronic control unit 14 sends a signal to close the valve 22 and the water is subjected to additional purification in the filter 12 . After cleaning, the water enters container 13 with valve 23 open and then into mixer 2; fat and molasses, taken in a 1:2 ratio, are supplied there from analyzer 10 with valve 21 open, which opens when a signal is sent from the electronic control unit 14. If fat and molasses are of low quality, then they enter screw feeder 1 and the process is repeated until they meet the required quality. Grain also enters mixer 2 from container 8 and all components are mixed: grain, fat, molasses and water in a ratio of 4:1:2:3. This ratio is due to the following:

the grain is taken in 4 parts, because with a smaller quantity there is no saturation of it with the remaining components, with a larger quantity the resulting feed will be heterogeneous without saturation with other components;

fat, molasses and water in a ratio of 1:2:3, since fat and molasses are taken in a liquid state, and molasses is like plasticine, with less of one of the components the feed will be heterogeneous in composition, and if more, the feed will be oversaturated with one of components.

According to feeding animals with the basics of feed production (compiled by: Korobov A.P., Sivokhina L.A. // Federal State Budgetary Educational Institution of Higher Education "Saratov State Agrarian University". - Saratov, 2015. - 126 p.) a lack of fat in the diet reduces the absorption of fat-soluble vitamins. Essential fatty acids - linoleic, arachidonic and linolenic directly control the absorption of vitamins A, D, E and K. Excess fat leads to animal obesity and poor quality products. The fat requirement of adult ruminants is 3-5% of the dry matter of the diet.

Molasses is a carbohydrate feed that contains about 50% sugar and 105 nitrogenous substances, mainly of non-protein origin. Due to its high sugar content, it is easily digestible by animals. Molasses is introduced into the diet for cows in an amount of 7-10% in terms of nutritional value according to the practical guide to the preparation of feed on farms, developed by the State Budgetary Institution NO “IKTs APK”.

The more water in the feed, the lower its nutritional value. Feed with high humidity does not store well. According to the water content in feed - 12-15% (Feeding animals with the basics of feed production / compiler: Korobov A.P., Sivokhina L.A. // Federal State Budgetary Educational Institution of Higher Education "Saratov State Agrarian University". - Saratov, 2015. - 126 p.).

Next, the mixed components through the open valve 24 enter the container 19 for a mixture of grain enriched with fat and molasses.

In this case, using a multimedia device 16, an image of the mixed mixture (grain enriched with fat and molasses) is obtained, which is submitted for computer processing on a personal computer 15 with Mathcad software to determine the quality of mixing grain with fat and molasses that meets the zootechnical requirements for mixing. If the quality of mixing does not meet zootechnical requirements, then it is sent for additional mixing.

Next, the enriched grain from container 19, when a signal is sent to valve 25 by the electronic control unit 14 to open, is fed into expander 3.

Expansion includes the following operations:

- preparing grain for expansion;

- grain expansion;

- structuring the expandable;

- granulation of expandate;

- cooling of the granulated expandate (to a temperature not exceeding the ambient temperature by more than 10°C);

- grinding of granular expandate.

Preparing grain for expansion includes mixing with liquid additives, moistening with water and steam.

Using a multimedia device 17, an image of the ex-padate is obtained, which is submitted for computer processing with Mathcad software to determine the quality of the expanded grain that meets zootechnical requirements. If its quality does not meet zootechnical requirements, then it is sent for additional mixing.

Next, the feed is fed to the chopper 4 with the valve 26 open and enters the press granulator 5.

In this case, using a multimedia device 18, an image of the crushed food is obtained, which is submitted for computer processing with Mathcad software to determine the quality of its grinding, which meets the zootechnical requirements for grinding. If the quality of grinding does not meet zootechnical requirements, then it is sent for additional grinding.

Press granulator 5 supplies the resulting feed to cooler 6.

In practice, feed production technologies are used, according to which the expander can be used both in combination with a press granulator and without it. In both cases, preliminary mixing of the feed raw materials with liquid additives is carried out in a special mixer installed in front of the expander. This makes it possible to increase the uniformity of feed before processing, and therefore the quality of the finished product (Mishurov N.P. Recommended technologies for the production of feed on farms // Bulletin of the All-Russian Scientific Research Institute of Livestock Mechanization. 2015. No. 4 (20). P. 9) .

Next, the resulting feed is sent for storage and distribution.

Performing technological operations in the feed expansion method in real time allows you to improve the quality of feed in real time.

Claims (1)

A method of expanding feed, including feeding grain, mixing, expanding with liquid additives, moistening with water and steam, grinding, granulating, cooling, characterized in that in the process of preparing for expansion, fat and molasses are used as liquid additives, taken in a ratio of 1:2 , analyze the quality of their mixing and if the fat and molasses have a low quality of mixing, then they are sent for additional mixing, while the water is also analyzed for the content of impurities in it, followed by filtration, then the grain, fat with molasses and water at the following ratio: 4:1:2:3, the resulting mixture is fed for expansion, grinding and granulation, and to control these processes, multimedia devices are used to obtain images of the resulting feed, which are submitted for computer processing with Mathcad software to determine the quality of the resulting feed for compliance with zootechnical requirements, and if these requirements do not meet, the feed is sent for additional mixing.

Images