RU2477054C1 - Fodder production method - Google Patents

Abstract

FIELD: food industry.

SUBSTANCE: invention relates to farm industry and is intended for enhancement of efficiency of introduction of sprouted grains, used as additional green feeding for weaned piglets, into the feedstuff. The sprouted grains fodder production method envisages grains soaking in 1% potassium permanganate solution during 12 hours, grains sprouting and their subsequent drying. Sprouted grains are dried by the convective method. The drying medium temperature is equal to 150-160°C while sprouted grains are heated up to the temperature equal to no more than 58-60°C. Sprouted grains final moisture content is equal to no more than 14%. Then, dried sprouted grains are crushed. Dried sprouted and milled grains are dosaged in an amount of 10-15% of dry feedstuff weight, into the batch mixing machine; dried sprouted crushed grains are mixed with the dried feedstuff till homogeneity is equal to 88-90%. The produced mixture is transported into the measuring hopper of a stationary fodder distributor. In the process of the produced mixture outlet from the measuring hopper the mixture is moistened with water while the produced fodder with moisture content equal to 70-75% is supplied into the stock feeder.

EFFECT: proposed invention will allow to increase content of natural vitamins in the feedstuff, enhance uniformity of sprouted grains particles distribution in the feedstuff without the produced fodder storage life reduction.

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Description

The invention relates to agriculture and is intended to improve the efficiency of introducing into the feed germinated grain used as a green dressing for weaned pigs.

A known method of preparing feed from feed grain by germination under artificial lighting, including mixing it with a substrate, laying on trays for germination, in which the grain is mixed with sapropel and sphagnum moss, the proportion of which is 0.7% of the dry matter of each component by weight of dry grain [RU 2230461 C2, 7 A23K1 / 14, A23K1 / 00, 06/20/2004].

The disadvantage of this method is its inefficiency due to the large cost of electricity for lighting and from the point of view of nutritional value due to the low nutrient content in the substrate, which does not provide root dressing of seedlings and the nutritional value of the feed biomass due to the small amount of sapropel in the mixture.

A known method of germination of grain [RU 2348170 C1, A23K1 / 00, (2006.01), 03/10/2009]. Grain (barley, wheat) is washed with cold running water several times, stirring mechanically, until the pollution particles disappear in the water. The washed grain is soaked in enameled, plastic or glass containers for 12 hours. The temperature of the water should be + 14 ... + 25 ⁰ C. Moreover, the ratio of grain to water should be 1: 5. After 12 hours, the water is drained, the grain is washed 1 ... 2 times for additional oxygen saturation of the grain, removal of toxic substances and mold spores, which were extracted in water by soaking.

The washed grain is placed in wet cotton, and then in plastic bags, the thickness of the grain layer should not exceed 5 cm. Packing of grain in cotton and plastic bags is necessary to create favorable conditions for accelerated germination of grain (humidity, temperature). At a room temperature of 18 ... 20 ⁰ C and a relative humidity of 60 ... 80%, sprouts (2 mm) appear after 12 hours.

The disadvantage of this method is the use of manual labor, the inability to long-term storage of germinated grain.

A known method of obtaining feed [SU 1836911 A1, 5 A23K1 / 16, 08/30/1993]. The peat-grain mixture is poured onto the trays with a layer of 10 cm (60 ... 70 kg per 1 m ² ), leveled and irrigated with water until the entire layer of the mixture is completely soaked. After which the mixture is left for germination for four days at a temperature in the range of 10 ... 16 ⁰ C. The mixture is additionally moistened by irrigation 1 or 2 times a day, maintaining a humidity of 60 ... 65%. After this, the finished feed with sprouts 1.5 ... 2 cm long is removed from the pallets and fed to the animals 1.5 ... 2 kg per day.

The disadvantages of the method are the impossibility of long-term storage of feed, the use of manual labor when laying grain and removing it from pallets.

A known method of producing sprouted grain (malt) from cereal and leguminous crops. For this purpose, in the summer, barley or wheat grain must be soaked in a bath or other container for 1 day, and pea or soybean grain - 1.5 ... 2 days, then placed on a current with hard surface in ridges 30 ... 40 cm high the first 2 days and 15 ... 30 cm in the following days. Water consumption for soaking 0.9 tons per 1 ton of grain. The temperature in the ridges is maintained within 14 ... 20 ⁰ С by tedding the grain every 2 ... 3 hours. The duration of obtaining germinated grain is about 5 days. [Ponomarev A.F. Theory and practice of industrial feed production and pig farming. Monograph. // Under the general editorship of D. s. professors G.S. Be like - Belgorod: Publishing House BelSHA, 2003. - 103-104 p.].

The disadvantage of this method is the seasonality of the process of germination of grain, the need for manual labor with periodic tedding.

There is a method of producing green fodder, in which the grain is soaked in water, germinated during the day, placed on the vegetation surface (without using a substrate or on a substrate) with a layer of 3 ... 5 cm, as the grain dries, it is moistened by irrigation, seedlings are grown for 4 ... 6 days without light, the next 4 ... 6 days with artificial lighting [Obraztsov A.S. Hydroponic feed from barley on a substrate of straw. Feed production. / A.S. Obraztsov, S.N. Piutkin, 1980, No. 10].

The disadvantage of this method is the lack of mechanization of the irrigation and sparging process and automation of processes.

The objective of the invention is to increase the content of natural vitamins in animal feed, increase the shelf life of germinated grain, the distribution of germinated grain in animal feed with a mixture uniformity of at least 88 ... 90%.

To implement this task, a method for obtaining feed is proposed, which will be clear from the following description.

It is most effective to produce germinated grain mixed in the composition of compound feeds (mixture uniformity 88 ... 90%).

A method of obtaining feed from germinated grain involves soaking the grain in a 1% solution of potassium permanganate for 12 hours, germinating the grain, then drying it, while the grain is heated to a temperature of not more than 58 ... 60 ⁰ C, crushing the dried germinated grain, dosing the dried germinated and crushed grain in a batch mixer in an amount of 10 ... 15% by weight of dry feed, then mix the sprouted, crushed, dried grain with dry feed to a uniformity of 88 ... 90%, the irradiated mixture is transported to a stationary feed dispenser hopper.

The method of obtaining feed is as follows. The grain is germinated within 5 days to the size of the sprouts and roots 2 ... 2.5 cm. Grain is grown by periodic irrigation and lighting with lamps. The water consumption for irrigation is 82 liters per 100 kg of grain, the specific light power is 210 ... 220 W / m ² ; air temperature - 21 ... 22 ⁰ С; grain layer height 35 ... 40 mm.

The next process step is drying. The germinated grain is dried in a convective way, while the temperature of the drying agent is 150 ... 160 ⁰ C, to prevent the loss of nutrients, the germinated grain is heated to a temperature of not more than 58 ... 60 ⁰ C. The drying agent is blown through a layer of germinated grain with a thickness of 10 ... 12 cm. The uniformity of drying the germinated grain is 97 ... 98%. This is achieved through periodic tedding of the mass. The final moisture content of the germinated grain is not more than 14%.

The next technological operation is the crushing of dried germinated grain. The grinding thickness for pigs is not more than 0.9 ... 1.1 mm [I. Sheiko Pig production / I.P. Sheiko, V.S. Smirnov. - Mn .: New knowledge, 2005 - 292].

Then produce a mass dosing of dried sprouted and crushed grain in a batch mixer. Dosed sprouted, crushed, dried grain in an amount of 10 ... 15% by weight of dry feed [Pokhodnya GS Pig production and pork production technology. Collection of scientific papers of the scientific school of Professor G.S. Likewise (Special Issue No. 2) / Edited by G.S. Be like - Belgorod: Publishing House of BelSA, p. 64-65]. In the mixer, sprouted, crushed, dried grain is mixed with dry compound feed to a uniformity of 88 ... 90%. To increase the shelf life, the moisture content of the mixture is not more than 13 ... 14%.

The resulting mixture is transported to a stationary feed dispenser hopper, which is installed in each box. 10 ... 12 weaned piglets were placed in the box.

A mixture of dry feed with dried and crushed sprouted grain with a moisture content of 14% is fed into the hopper of the dispenser. When the resulting mixture leaves the hopper, it is moistened with water. The resulting feed with a moisture content of 70 ... 75% is fed to the feeder.

The proposed invention will increase the content of natural vitamins in the feed, increase the uniformity of the distribution of particles of germinated grain in the feed up to 88 ... 90%. The shelf life of the resulting feed is not less than conventional feed.

The experience of studying the effect of feed on reproduction, herd productivity, fattening in the agricultural holding Miratorg pig farm "Kurasovsky" Ivnyansky district of the Belgorod region showed the promise of feed.

The fact of increasing the biological value of the proposed feed is confirmed by comparative results of its quality with the quality of the starting products (Table 1). Tables 2 and 3 show the results of feeding the germinated grain as part of the feed to sows, weaned piglets and fattening pigs.

Table 1 - Composition of natural and germinated barley grain in absolutely dry matter, contained in 1 kg of grain

Indicators Natural grain (in absolutely dry matter) The length of the sprouts 2 ... 3 cm (in absolutely dry matter) The length of the sprouts is 5 ... 6 cm (in absolutely dry substance) The length of the sprouts is 8 ... 9 cm (in absolutely dry substance) Feed units 1.31 1.21 1,07 0.85 Crude fat,% 1.51 1.33 1.21 1.09 Crude protein,% 14.37 16.87 20.12 23.45 Crude fiber,% 3.08 4.16 5.02 6.57 Carotene, mg / kg dry. substance 1.88 4.69 7.28 10.58 BEV,% 78.72 75,23 69.78 64.15 Vitamin B ₁ mg 4,5 9,4 12,2 15.3 Vitamin C, mg 0.45 4.71 6.12 8.27

The fact of increasing the biological value of germinated grain is confirmed by comparison with natural grain (table 1). Germinated barley grain is of practical interest for use in feeding pigs.

Table 2 - The effect of feeding the germinated dried barley grain in the feed to sows 30 days before farrowing on the growth and development of offspring up to 7 months.

The data in Table 2 show that feeding sows of various amounts of germinated barley grain 30 days before farrowing affects the live weight of piglets at birth and their subsequent growth up to 7 months. When 5, 10, 15% sows were introduced into the diet, the live weight of piglets increased at birth by 3.31; 4.96; 4.13%, compared with the first control group. At two months, the weight of the piglets increased by 4.43; 8.86; 7.59% compared with the first control group. At seven months, the weight of piglets increased by 3.2; 5.97; 5.59% compared with the first control group.

Table 3 - The effect of feeding germinated barley grain to piglets for fattening on their growth

The average daily gains in piglets fed 5, 10 and 15% of germinated barley grains during the feeding period were respectively 4.88%, 8.13%, 8.94% higher compared with the first control group.

Information sources

1. RU 2230461 C2, 7 A23K1 / 14, A23K1 / 00. A method of obtaining feed from feed grain. / N.I. Kapustin, Schekutieva N.A. - 2002119239/13; Stated July 16, 2002; Publ. 06/20/2004.

2. RU 2348170 C1, A23K1 / 00 (2006.01). A method of germinating cereal grains. / N.V. Ulko, B.L. Dubovoi, O.N. Sochi, O.O. Ulko, E.V. Faleeva, L.G. Belokobylskaya. - 2007123918/13; Announced on June 25, 2007; Publ. 03/10/2009.

3. SU 1836911 A1, 5 A23K1 / 16. The method of obtaining feed. / N.I. Kapustin, N.M. Podgornov - 4924848/15; Stated 02/19/1991; Publ. 08/30/1993.

4. Ponomarev A.F. Theory and practice of industrial feed production and pig farming. Monograph. // Under the general editorship of D. s. professors G.S. Be like - Belgorod. - Publishing House of BelSHA, 2003. -103-104 p.

5. Trekking G.S. Pig production and pork production technology. / Collection of scientific papers of the scientific school of Professor G.S. Likewise (Special Issue No. 2) / Edited by G.S. Be like - Belgorod: Publishing House of BelSA, p. 64-65.

6. Sheiko I.P. Pig production / I.P. Sheiko, V.S. Smirnov. - Мn .: New knowledge, 2005 - 384.

Additional sources of information

7. Samples AS, Hydroponic feed from barley on a substrate from straw. - Feed production / A.S. Obraztsov, S.N. Piutkin, 1980, No. 10.

Claims (1)

The method of obtaining feed, which consists in germinating grain, its subsequent drying, characterized in that the soaking of the grain is carried out in a 1% solution of potassium permanganate for 12 hours, the germinated grain is dried by convective method, while the temperature of the drying agent is 150-160 ° C, the sprouted grain is heated to a temperature of not more than 58-60 ° C, the final moisture content of the sprouted grain is not more than 14%, the dried sprouted grain is crushed, the dried sprouted and crushed grain is dosed into the mixer periodically action in the amount of 10-15% by weight of dry feed, mix the sprouted, crushed, dried grain with dry feed to a uniformity of 88-90%, the resulting mixture is transported to a bunker-batch of a stationary feed dispenser, when the resulting mixture leaves the bunker-batch it is moistened with water, the resulting feed with a moisture content of 70-75% is fed to the feeder.