CN101268808B - Egg feedstuff rich in omega-3 fatty acid and preparation method thereof - Google Patents

Egg feedstuff rich in omega-3 fatty acid and preparation method thereof Download PDF

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CN101268808B
CN101268808B CN2008100979844A CN200810097984A CN101268808B CN 101268808 B CN101268808 B CN 101268808B CN 2008100979844 A CN2008100979844 A CN 2008100979844A CN 200810097984 A CN200810097984 A CN 200810097984A CN 101268808 B CN101268808 B CN 101268808B
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CN101268808A (en
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吴家泉
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Dandong Omega Biological Feed Co Ltd
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    • YGENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
    • Y02TECHNOLOGIES OR APPLICATIONS FOR MITIGATION OR ADAPTATION AGAINST CLIMATE CHANGE
    • Y02PCLIMATE CHANGE MITIGATION TECHNOLOGIES IN THE PRODUCTION OR PROCESSING OF GOODS
    • Y02P60/00Technologies relating to agriculture, livestock or agroalimentary industries
    • Y02P60/80Food processing, e.g. use of renewable energies or variable speed drives in handling, conveying or stacking
    • Y02P60/87Re-use of by-products of food processing for fodder production

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Abstract

The invention provides a layer chicken feed which is rich in Omega-3 fatty acid and a preparation method thereof. The layer chicken feed includes flax seed, corn flour, wheat powder, wheat bran powder, calcium powder, calcium phosphate secondary, edible salt, chlorocholine chloride, a plurality of vitamins, a plurality of microelements, a plurality of amino acids and a plurality of enzyme preparations.

Description

Be rich in egg feedstuff of omega-fatty acid and preparation method thereof
Technical field
The present invention relates to a kind of egg feedstuff and preparation method thereof, specifically, relate to a kind of egg feedstuff that mixes by raw material that is rich in omega-fatty acid and multiple additives component and preparation method thereof.
Background technology
Common egg feedstuff generally is made up of corn flour, bean cake powder, wheat bran, calcium powder, calcium monohydrogen phosphate, edible salt, Choline Chloride, multivitamin, various trace elements, several amino acids.The animal protein that focuses on providing needs of normal diet for the mankind, the material that provides needed by human body such as part fat, vitellin, lecithin, vitamin, iron, calcium, potassium to want in addition.Occurred having the egg that the human health care acted on and strengthened certain element now on the market, as iodine-enriched egg, selenium rich of egg, homovitamin egg, high ferro egg, high zinc egg.By in feed, adding certain specific material, also corresponding certain element of enrichment of egg that laying hen searches for food and produces behind this class feed.
Omega-fatty acid egg on the market adopts the method for adding the grease that contains omega-fatty acid in feed, the grease that these class methods are used needs to refine, thereby increased producing cost, and contain higher polyunsaturated fatty acid, easily oxidative rancidity causes the egg of the decline of laying hen egg laying performance, production to have peculiar smell, holding time to shorten.These phenomenons are all queried by layer breeding person and consumer.
Summary of the invention
The invention provides a kind of egg feedstuff and preparation method who is rich in omega-fatty acid, this egg feedstuff has improved the body immunity of laying hen, promotion is digested and assimilated nutriment, makes the laying rate of laying hen of producing omega-fatty acid stable, and the egg product shelf-life prolongs.
The invention provides a kind of egg feedstuff that is rich in omega-fatty acid, described egg feedstuff comprises linseed and plurality of enzymes preparation.
The egg feedstuff that is rich in omega-fatty acid according to the present invention comprises linseed, corn flour, bean cake powder, the wheat bran powder, calcium powder, calcium monohydrogen phosphate, edible salt, Choline Chloride, multivitamin, various trace elements, several amino acids, the plurality of enzymes preparation, wherein, the shared percentage by weight of each component is: linseed accounts for 10%-20%, corn flour accounts for 44%-58%, bean cake powder accounts for 19%-30%, the wheat bran powder accounts for 5%-10%, calcium powder accounts for 5%-10%, calcium monohydrogen phosphate accounts for 1%-3%, edible salt accounts for 0.2%-0.5%, Choline Chloride accounts for 0.02%-0.10%, multivitamin accounts for 0.02%-0.10%, various trace elements accounts for 0.10%-0.15%, several amino acids accounts for 0.10%-0.20%, the plurality of enzymes preparation accounts for 0.10%-0.30%.
Preparation method according to egg feedstuff of the present invention comprises the steps: step a, following substances in percentage by weight mixed prepare multivitamin, wherein, the shared percentage by weight of each component is: vitamin A accounts for 5%-15%, vitamin D accounts for 0.5%-2%, vitamin E accounts for 10%-40%, vitamin K accounts for 1%-3%, vitamin B1 accounts for 1%-3%, vitamin B2 accounts for 2%-4%, vitamin B6 accounts for 1%-3%, cobalamin accounts for 1%-3%, nicotinic acid accounts for 5%-10%, pantothenic acid accounts for 5%-10%, folic acid accounts for 1%-3%, biotin 2%-5%, residue component are the corn protein powder as carrier; Step b, following substances in percentage by weight mixed prepare various trace elements, wherein, the shared percentage by weight of each component is: ferrous sulfate accounts for 10%-20%, zinc sulfate and accounts for 11%-30%, copper sulphate and account for 1%-3%, manganese sulfate and account for 10%-20%, calcium iodate and account for that 0.1%-0.3%, sodium selenite account for 0.15%-0.5%, cobalt chloride accounts for 0.1%-0.3%, and the residue component is the stone flour as carrier; Step c, following substances in percentage by weight mixed prepare several amino acids, wherein, the shared percentage by weight of each component is: methionine accounts for that 30%-60%, lysine account for 10%-30%, tryptophan accounts for 10%-30%, and the residue component is the corn protein powder as carrier; Steps d, following substances in percentage by weight mixed prepare the plurality of enzymes preparation, wherein, the shared percentage by weight of each component is: phytase accounts for 20%-30%, zytase and accounts for that 20%-40%, dextranase account for 10%-20%, lysozyme accounts for 20%-40%, and the residue component is the corn protein powder as carrier; Step e is the ratio of 0.02%-0.10% with the multivitamin of the preparation among the step a by weight percentage, the various trace elements of the preparation among the step b is the ratio of 0.10%-0.15% by weight percentage, the several amino acids of the preparation among the step c is the ratio of 0.10%-0.20% by weight percentage, the plurality of enzymes preparation of the preparation in the steps d is the ratio of 0.10%-0.30% by weight percentage, linseed is the ratio of 10%-20% by weight percentage, the corn flour grinding particle size is the ratio of 44%-58% by weight percentage after greater than 60 orders, the bean cake powder grinding particle size is the ratio of 19%-30% by weight percentage after greater than 60 orders, the wheat bran powder is the ratio of 5%-10% by weight percentage, calcium powder is the ratio of 5%-10% by weight percentage, calcium monohydrogen phosphate is the ratio of 1%-3% by weight percentage, edible salt is the ratio of 0.2%-0.5% by weight percentage, Choline Chloride mixes for the ratio of 0.02%-0.10% by weight percentage.
The specific embodiment
Below, will specifically describe according to embodiments of the invention.
The egg feedstuff that is rich in omega-fatty acid according to the embodiment of the invention comprises linseed, corn flour, bean cake powder, wheat bran powder, calcium powder, calcium monohydrogen phosphate, edible salt, Choline Chloride, multivitamin, various trace elements, several amino acids and plurality of enzymes preparation, wherein, the shared percentage by weight of each component is as shown in table 1:
Table 1
Component Percentage by weight
Linseed 10%-20%
Corn flour 44%-58%
Bean cake powder 19%-30%
The wheat bran powder 5%-10%
Calcium powder 5%-10%
Calcium monohydrogen phosphate 1%-3%
Edible salt 0.2%-0.5%
Choline Chloride 0.02%-0.10%
Multivitamin 0.02%-0.10%
Various trace elements 0.10%-0.15%
Several amino acids 0.10%-0.20%
The plurality of enzymes preparation 0.10%-0.30%
Wherein, above-mentioned each component sum is 100%.
Contain percentage by weight greater than 18% omega-fatty acid according to the linseed in the egg feedstuff of the embodiment of the invention, other index meets " State Standard of the People's Republic of China---linseed GB/T 15681-1995 " requirement.
Meet " State Standard of the People's Republic of China---feed corn GB/T 17890-1999 " requirement according to the corn flour in the egg feedstuff of the embodiment of the invention.
Meet " State Standard of the People's Republic of China---feed dregs of beans NY/T 131-89 " requirement according to the bean cake powder in the egg feedstuff of the embodiment of the invention.
Meet " State Standard of the People's Republic of China---feed wheat bran GB/T 10368-89 " requirement according to the wheat bran powder in the egg feedstuff of the embodiment of the invention.
Percentage by weight according to the calcium content of the calcium powder in the egg feedstuff of the embodiment of the invention is 36%-38%.
Meet " State Standard of the People's Republic of China---calcium hydrophosphate fodder HG/T 2636-2000 " requirement according to the calcium monohydrogen phosphate in the egg feedstuff of the embodiment of the invention.
Meet " State Standard of the People's Republic of China---salt hygienic standard GB 2721-1996 " requirement according to the edible salt in the egg feedstuff of the embodiment of the invention.
Meet " State Standard of the People's Republic of China---feed grade Choline Chloride HG/T 2941-2004 " requirement according to the Choline Chloride in the egg feedstuff of the embodiment of the invention.
Comprise vitamin A, vitamin D, vitamin E, vitamin K, vitamin B1, vitamin B2, vitamin B6, cobalamin, nicotinic acid, pantothenic acid, folic acid, biotin and as the corn protein powder of carrier according to the multivitamin in the egg feedstuff of the embodiment of the invention, wherein, the percentage by weight of each component is as shown in table 2.
Table 2
Component Percentage by weight
Vitamin A 5%-15%
Vitamin D 0.5%-2%
Vitamin E 10%-40%
Vitamin K 1%-3%
Vitamin B1 1%-3%
Vitamin B2 2%-4%
Vitamin B6 1%-3%
Cobalamin 1%-3%
Nicotinic acid 5%-10%
Pantothenic acid 5%-10%
Folic acid 1%-3%
Biotin 2%-5%
Corn protein powder 10%-65%
Wherein, above-mentioned each component sum is 100%.
Comprise ferrous sulfate, zinc sulfate, copper sulphate, manganese sulfate, calcium iodate, sodium selenite, cobalt chloride and as the stone flour of carrier according to the various trace elements in the egg feedstuff of the embodiment of the invention, wherein, the shared percentage by weight of each component is as shown in table 3:
Table 3
Component Percentage by weight
Ferrous sulfate 10%-20%
Zinc sulfate 11%-30%
Copper sulphate 1%-3%
Manganese sulfate 10%-20%
Calcium iodate 0.1%-0.3%
Sodium selenite 0.15%-0.5%
Cobalt chloride 0.1%-0.3%
Stone flour 10%-65%
Wherein, above-mentioned each component sum is 100%.
Comprise methionine, lysine, tryptophan and as the corn protein powder of carrier according to the several amino acids in the egg feedstuff of the embodiment of the invention, wherein, the shared percentage by weight of each component is as shown in table 4:
Table 4
Component Percentage by weight
Methionine 30%-60%
Lysine 10%-30%
Tryptophan 10%-30%
Corn protein powder 10%-50%
Wherein, above-mentioned each component sum is 100%.
Comprise phytase, zytase, dextranase, lysozyme and as the corn protein powder of carrier according to the plurality of enzymes preparation in the egg feedstuff of the embodiment of the invention, wherein, the shared percentage by weight of each component is as shown in table 5.
Table 5
Component Percentage by weight
Phytase 20%-30%
Zytase 20%-40%
Dextranase 10%-20%
Lysozyme 20%-40%
Corn protein powder 2%-30%
Wherein, above-mentioned each component sum is 100%.
Embodiments of the invention also provide a kind of preparation method who is rich in the egg feedstuff of omega-fatty acid, and described preparation method comprises the steps:
Step a, following substances in percentage by weight mixed prepare multivitamin, wherein, the shared percentage by weight of each component is as shown in table 6:
Table 6
Component Percentage by weight
Vitamin A 5%-15%
Vitamin D 0.5%-2%
Vitamin E 10%-40%
Vitamin K 1%-3%
Vitamin B1 1%-3%
Vitamin B2 2%-4%
Vitamin B6 1%-3%
Cobalamin 1%-3%
Nicotinic acid 5%-10%
Pantothenic acid 5%-10%
Folic acid 1%-3%
Biotin 2%-5%
Corn protein powder 10%-65%
Wherein, above-mentioned each component sum is 100%;
Step b, following substances in percentage by weight mixed prepare various trace elements, wherein, the shared percentage by weight of each component is as shown in table 7:
Table 7
Component Percentage by weight
Ferrous sulfate 10%-20%
Zinc sulfate 11%-30%
Copper sulphate 1%-3%
Manganese sulfate 10%-20%
Calcium iodate 0.1%-0.3%
Sodium selenite 0.15%-0.5%
Cobalt chloride 0.1%-0.3%
Stone flour 10%-65%
Wherein, above-mentioned each component sum is 100%;
Step c, following substances in percentage by weight mixed prepare several amino acids, wherein, the shared percentage by weight of each component is as shown in table 8:
Table 8
Component Percentage by weight
Methionine 30%-60%
Lysine 10%-30%
Tryptophan 10%-30%
Corn protein powder 10%-50%
Wherein, above-mentioned each component sum is 100%;
Steps d, following substances in percentage by weight mixed prepare the plurality of enzymes preparation, wherein, the shared percentage by weight of each component is as shown in table 9:
Table 9
Component Percentage by weight
Phytase 20%-30%
Zytase 20%-40%
Dextranase 10%-20%
Lysozyme 20%-40%
Corn protein powder 2%-30%
Wherein, above-mentioned each component sum is 100%;
Step e, with the multivitamin of the preparation among the step a is the ratio of 0.02%-0.10% by weight percentage, the various trace elements of the preparation among the step b is the ratio of 0.10%-0.15% by weight percentage, the several amino acids of the preparation among the step c is the ratio of 0.10%-0.20% by weight percentage, the plurality of enzymes preparation of the preparation in the steps d is the ratio of 0.10%-0.30% by weight percentage, linseed is the ratio of 10%-20% by weight percentage, the corn flour grinding particle size is the ratio of 44%-58% by weight percentage after greater than 60 orders, the bean cake powder grinding particle size is the ratio of 19%-30% by weight percentage after greater than 60 orders, the wheat bran powder is the ratio of 5%-10% by weight percentage, calcium powder is the ratio of 5%-10% by weight percentage, calcium monohydrogen phosphate is the ratio of 1%-3% by weight percentage, edible salt is the ratio of 0.2%-0.5% by weight percentage, Choline Chloride mixes for the ratio of 0.02%-0.10% by weight percentage, wherein, above-mentioned component sum is 100%; Mix the back packing, finished product is stored in cool place, ventilation, dry place.
Provided concrete example hereinafter according to the preparation method of the egg feedstuff of the embodiment of the invention.
Example 1
The concrete preparation process of egg feedstuff comprises the steps:
Step a, following substances in percentage by weight mixed prepare multivitamin, wherein, the shared percentage by weight of each component is as shown in table 10:
Table 10
Component Percentage by weight
Vitamin A 10%
Vitamin D 1%
Vitamin E 20%
Vitamin K 1%
Vitamin B1 1%
Vitamin B2 2%
Vitamin B6 1%
Cobalamin 1%
Nicotinic acid 5%
Pantothenic acid 7%
Folic acid 2%
Biotin 2%
Corn protein powder 47%
Step b, following substances in percentage by weight mixed prepare various trace elements, wherein, the shared percentage by weight of each component is as shown in table 11:
Table 11
Component Percentage by weight
Ferrous sulfate 14%
Zinc sulfate 16%
Copper sulphate 1%
Manganese sulfate 13%
Calcium iodate 0.15%
Sodium selenite 0.15%
Cobalt chloride 0.15%
Stone flour 55.55%
Step c, following substances in percentage by weight mixed prepare several amino acids, wherein, the shared percentage by weight of each component is as shown in table 12:
Table 12
Component Percentage by weight
Methionine 50%
Lysine 15%
Tryptophan 20%
Corn protein powder 15%
Steps d, following substances in percentage by weight mixed prepare the plurality of enzymes preparation, wherein, the shared percentage by weight of each component is as shown in table 13:
Table 13
Component Percentage by weight
Phytase 25%
Zytase 20%
Dextranase 10%
Lysozyme 25%
Corn protein powder 20%
Step e, be 0.02% ratio by weight percentage with the multivitamin of the preparation among the step a, the various trace elements of the preparation among the step b is 0.12% ratio by weight percentage, the several amino acids of the preparation among the step c is 0.15% ratio by weight percentage, the plurality of enzymes preparation of the preparation in the steps d is 0.10% ratio by weight percentage, linseed is 15% ratio by weight percentage, the corn flour grinding particle size is 48% ratio by weight percentage after greater than 60 orders, the bean cake powder grinding particle size is 20% ratio by weight percentage after greater than 60 orders, the wheat bran powder is 6.4% ratio by weight percentage, calcium powder is 8.2% ratio by weight percentage, calcium monohydrogen phosphate is 1.6% ratio by weight percentage, edible salt is 0.35% ratio by weight percentage, Choline Chloride is that 0.06% ratio is mixed by weight percentage, mix the back packing, finished product is stored in the cool place, ventilate, dry place.
Example 2
Concrete preparation process according to the egg feedstuff of the embodiment of the invention comprises the steps:
Step a, following substances in percentage by weight mixed prepare multivitamin, wherein, the shared percentage by weight of each component is as shown in table 14:
Table 14
Component Percentage by weight
Vitamin A 9%
Vitamin D 1%
Vitamin E 30%
Vitamin K 1%
Vitamin B1 1.5%
Vitamin B2 3%
Vitamin B6 1.5%
Cobalamin 1%
Nicotinic acid 7%
Pantothenic acid 7%
Folic acid 2%
Biotin 3%
Corn protein powder 33%
Step b, following substances in percentage by weight mixed prepare various trace elements, wherein, the shared percentage by weight of each component is as shown in Table 15:
Table 15
Component Percentage by weight
Ferrous sulfate 12%
Zinc sulfate 12%
Copper sulphate 1%
Manganese sulfate 12%
Calcium iodate 0.1%
Sodium selenite 0.2%
Cobalt chloride 0.1%
Stone flour 62.6%
Step c, following substances in percentage by weight mixed prepare several amino acids, wherein, the shared percentage by weight of each component is shown in table 16:
Table 16
Component Percentage by weight
Methionine 40%
Lysine 12%
Tryptophan 20%
Corn protein powder 28%
Steps d, following substances in percentage by weight mixed prepare the plurality of enzymes preparation, wherein, the shared percentage by weight of each component is shown in table 17:
Table 17
Component Percentage by weight
Phytase 30%
Zytase 20%
Dextranase 12%
Lysozyme 30%
Corn protein powder 8%
Step e, be 0.02% ratio by weight percentage with the multivitamin of the preparation among the step a, the various trace elements of the preparation among the step b is 0.12% ratio by weight percentage, the several amino acids of the preparation among the step c is 0.15% ratio by weight percentage, the plurality of enzymes preparation of the preparation in the steps d is 0.10% ratio by weight percentage, linseed is 20% ratio by weight percentage, the corn flour grinding particle size is 44% ratio by weight percentage after greater than 60 orders, the bean cake powder grinding particle size is 19% ratio by weight percentage after greater than 60 orders, the wheat bran powder is 6.4% ratio by weight percentage, calcium powder is 8.2% ratio by weight percentage, calcium monohydrogen phosphate is 1.6% ratio by weight percentage, edible salt is 0.35% ratio by weight percentage, Choline Chloride is that 0.06% ratio is mixed by weight percentage, mix the back packing, finished product is stored in the cool place, ventilate, dry place.
Example 3
The concrete preparation process of egg feedstuff comprises the steps:
Step a, following substances in percentage by weight mixed prepare multivitamin, wherein, the shared percentage by weight of each component is shown in table 18:
Table 18
Component Percentage by weight
Vitamin A 12%
Vitamin D 1.5%
Vitamin E 30%
Vitamin K 1%
Vitamin B1 1%
Vitamin B2 3%
Vitamin B6 2%
Cobalamin 1%
Nicotinic acid 10%
Pantothenic acid 10%
Folic acid 2%
Biotin 3%
Corn protein powder 23.5%
Step b, following substances in percentage by weight mixed prepare various trace elements, wherein, the shared percentage by weight of each component is shown in table 19:
Table 19
Component Percentage by weight
Ferrous sulfate 18%
Zinc sulfate 17%
Copper sulphate 1%
Manganese sulfate 18%
Calcium iodate 0.2%
Sodium selenite 0.4%
Cobalt chloride 0.2%
Stone flour 45.2%
Step c, following substances in percentage by weight mixed prepare several amino acids, wherein, the shared percentage by weight of each component is shown in table 20:
Table 20
Component Percentage by weight
Methionine 50%
Lysine 20%
Tryptophan 15%
Corn protein powder 15%
Steps d, following substances in percentage by weight mixed prepare the plurality of enzymes preparation, wherein, the shared percentage by weight of each component is shown in table 21:
Table 21
Component Percentage by weight
Phytase 28%
Zytase 25%
Dextranase 15%
Lysozyme 30%
Corn protein powder 2%
Step e, be 0.02% ratio by weight percentage with the multivitamin of the preparation among the step a, the various trace elements of the preparation among the step b is 0.12% ratio by weight percentage, the several amino acids of the preparation among the step c is 0.15% ratio by weight percentage, the plurality of enzymes preparation of the preparation in the steps d is 0.10% ratio by weight percentage, linseed is 12% ratio by weight percentage, the corn flour grinding particle size is 50% ratio by weight percentage after greater than 60 orders, the bean cake powder grinding particle size is 22% ratio by weight percentage after greater than 60 orders, the wheat bran powder is 5.4% ratio by weight percentage, calcium powder is 8.2% ratio by weight percentage, calcium monohydrogen phosphate is 1.6% ratio by weight percentage, edible salt is 0.35% ratio by weight percentage, Choline Chloride is that 0.06% ratio is mixed by weight percentage, mix the back packing, finished product is stored in the cool place, ventilate, dry place.
Example 4
The concrete preparation process of egg feedstuff comprises the steps:
Step a, following substances in percentage by weight mixed prepare multivitamin, wherein, the shared percentage by weight of each component is shown in table 22:
Table 22
Component Percentage by weight
Vitamin A 10%
Vitamin D 1%
Vitamin E 20%
Vitamin K 1%
Vitamin B1 2%
Vitamin B2 3%
Vitamin B6 2%
Cobalamin 2%
Nicotinic acid 6%
Pantothenic acid 6%
Folic acid 1%
Biotin 3%
Corn protein powder 43%
Step b, following substances in percentage by weight mixed prepare various trace elements, wherein, the shared percentage by weight of each component is shown in table 23:
Table 23
Component Percentage by weight
Ferrous sulfate 12%
Zinc sulfate 11%
Copper sulphate 1.5%
Manganese sulfate 15%
Calcium iodate 0.2%
Sodium selenite 0.4%
Cobalt chloride 0.1%
Stone flour 59.8%
Step c, following substances in percentage by weight mixed prepare several amino acids, wherein, the shared percentage by weight of each component is shown in table 24:
Table 24
Component Percentage by weight
Methionine 35%
Lysine 15%
Tryptophan 15%
Corn protein powder 35%
Steps d, following substances in percentage by weight mixed prepare the plurality of enzymes preparation, wherein, the shared percentage by weight of each component is as shown in Table 25:
Table 25
Component Percentage by weight
Phytase 25%
Zytase 30%
Dextranase 10%
Lysozyme 20%
Corn protein powder 15%
Step e, be 0.02% ratio by weight percentage with the multivitamin of the preparation among the step a, the various trace elements of the preparation among the step b is 0.12% ratio by weight percentage, the several amino acids of the preparation among the step c is 0.15% ratio by weight percentage, the plurality of enzymes preparation of the preparation in the steps d is 0.10% ratio by weight percentage, linseed is 10% ratio by weight percentage, the corn flour grinding particle size is 50% ratio by weight percentage after greater than 60 orders, the bean cake powder grinding particle size is 23% ratio by weight percentage after greater than 60 orders, the wheat bran powder is 6.4% ratio by weight percentage, calcium powder is 8.2% ratio by weight percentage, calcium monohydrogen phosphate is 1.6% ratio by weight percentage, edible salt is 0.35% ratio by weight percentage, Choline Chloride is that 0.06% ratio is mixed by weight percentage, mix the back packing, finished product is stored in the cool place, ventilate, dry place.
The method for preparing egg feedstuff according to the embodiment of the invention is added the whole grain of the linseed that is rich in omega-fatty acid in the feed to, thereby has simplified production technology, has reduced production cost.In addition, because egg feedstuff according to the present invention is rich in omega-fatty acid, so this feed can improve the body immunity of laying hen, the promotion laying hen digests and assimilates nutriment, makes that the laying rate of laying hen is more stable, and the long shelf-life of being laid eggs.
Laying hen searches for food behind the egg feedstuff of the present invention, every piece of egg (about 60 grams/piece) omega-fatty acid contained greater than 450 milligrams.

Claims (8)

1. egg feedstuff that is rich in omega-fatty acid, it is characterized in that described egg feedstuff comprises linseed, the plurality of enzymes preparation, corn flour, bean cake powder, the wheat bran powder, calcium powder, calcium monohydrogen phosphate, edible salt, Choline Chloride, multivitamin, various trace elements and several amino acids, wherein, the shared percentage by weight of each component is: linseed accounts for 10%-20%, corn flour accounts for 44%-58%, bean cake powder accounts for 19%-30%, the wheat bran powder accounts for 5%-10%, calcium powder accounts for 5%-10%, calcium monohydrogen phosphate accounts for 1%-3%, edible salt accounts for 0.2%-0.5%, Choline Chloride accounts for 0.02%-0.10%, multivitamin accounts for 0.02%-0.10%, various trace elements accounts for 0.10%-0.15%, several amino acids accounts for 0.10%-0.20%, the plurality of enzymes preparation accounts for 0.10%-0.30%.
2. the egg feedstuff that is rich in omega-fatty acid according to claim 1 is characterized in that described linseed comprises percentage by weight greater than 18% omega-fatty acid.
3. the egg feedstuff that is rich in omega-fatty acid according to claim 1, the percentage by weight that it is characterized in that the calcium content of described calcium powder is 36%-38%.
4. the egg feedstuff that is rich in omega-fatty acid according to claim 1, it is characterized in that described multivitamin comprises vitamin A, vitamin D, vitamin E, vitamin K, vitamin B1, vitamin B2, vitamin B6, cobalamin, nicotinic acid, pantothenic acid, folic acid, biotin and as the corn protein powder of carrier, wherein, the shared percentage by weight of each component is: vitamin A accounts for 5%-15%, vitamin D accounts for 0.5%-2%, vitamin E accounts for 10%-40%, vitamin K accounts for 1%-3%, vitamin B1 accounts for 1%-3%, vitamin B2 accounts for 2%-4%, vitamin B6 accounts for 1%-3%, cobalamin accounts for 1%-3%, nicotinic acid accounts for 5%-10%, pantothenic acid accounts for 5%-10%, folic acid accounts for 1%-3%, biotin accounts for 2%-5%, and the residue component is the corn protein powder as carrier.
5. the egg feedstuff that is rich in omega-fatty acid according to claim 1, it is characterized in that described various trace elements comprises ferrous sulfate, zinc sulfate, copper sulphate, manganese sulfate, calcium iodate, sodium selenite, cobalt chloride and as the stone flour of carrier, wherein, the shared percentage by weight of each component is: ferrous sulfate accounts for 10%-20%, zinc sulfate accounts for 11%-30%, copper sulphate accounts for 1%-3%, manganese sulfate accounts for 10%-20%, calcium iodate accounts for 0.1%-0.3%, sodium selenite accounts for 0.15%-0.5%, cobalt chloride accounts for 0.1%-0.3%, and the residue component is the stone flour as carrier.
6. the egg feedstuff that is rich in omega-fatty acid according to claim 1, it is characterized in that described several amino acids comprises methionine, lysine, tryptophan and as the corn protein powder of carrier, wherein, the shared percentage by weight of each component is: methionine accounts for that 30%-60%, lysine account for 10%-30%, tryptophan accounts for 10%-30%, and the residue component is the corn protein powder as carrier.
7. the egg feedstuff that is rich in omega-fatty acid according to claim 1, it is characterized in that described plurality of enzymes preparation comprises phytase, zytase, dextranase, lysozyme and as the corn protein powder of carrier, wherein, the shared percentage by weight of each component is: phytase accounts for 20%-30%, zytase and accounts for that 20%-40%, dextranase account for 10%-20%, lysozyme accounts for 20%-40%, and the residue component is the corn protein powder as carrier.
8. a preparation method who is rich in the egg feedstuff of omega-fatty acid is characterized in that comprising the steps:
Step a, following substances in percentage by weight mixed prepare multivitamin, wherein, the shared percentage by weight of each component is: vitamin A accounts for 5%-15%, vitamin D and accounts for 0.5%-2%, vitamin E and account for 10%-40%, vitamin K and account for 1%-3%, vitamin B1 and account for 1%-3%, vitamin B2 and account for 2%-4%, vitamin B6 and account for 1%-3%, cobalamin and account for 1%-3%, nicotinic acid and account for that 5%-10%, pantothenic acid account for 5%-10%, folic acid accounts for 1%-3%, biotin 2%-5%, and the residue component is the corn protein powder as carrier;
Step b, following substances in percentage by weight mixed prepare various trace elements, wherein, the shared percentage by weight of each component is: ferrous sulfate accounts for 10%-20%, zinc sulfate and accounts for 11%-30%, copper sulphate and account for 1%-3%, manganese sulfate and account for 10%-20%, calcium iodate and account for that 0.1%-0.3%, sodium selenite account for 0.15%-0.5%, cobalt chloride accounts for 0.1%-0.3%, and the residue component is the stone flour as carrier;
Step c, following substances in percentage by weight mixed prepare several amino acids, wherein, the shared percentage by weight of each component is: methionine accounts for that 30%-60%, lysine account for 10%-30%, tryptophan accounts for 10%-30%, and the residue component is the corn protein powder as carrier;
Steps d, following substances in percentage by weight mixed prepare the plurality of enzymes preparation, wherein, the shared percentage by weight of each component is: phytase accounts for 20%-30%, zytase and accounts for that 20%-40%, dextranase account for 10%-20%, lysozyme accounts for 20%-40%, and the residue component is the corn protein powder as carrier;
Step e is the ratio of 0.02%-0.10% with the multivitamin of the preparation among the step a by weight percentage, the various trace elements of the preparation among the step b is the ratio of 0.10%-0.15% by weight percentage, the several amino acids of the preparation among the step c is the ratio of 0.10%-0.20% by weight percentage, the plurality of enzymes preparation of the preparation in the steps d is the ratio of 0.10%-0.30% by weight percentage, linseed is the ratio of 10%-20% by weight percentage, the corn flour grinding particle size is the ratio of 44%-58% by weight percentage after greater than 60 orders, the bean cake powder grinding particle size is the ratio of 19%-30% by weight percentage after greater than 60 orders, the wheat bran powder is the ratio of 5%-10% by weight percentage, calcium powder is the ratio of 5%-10% by weight percentage, calcium monohydrogen phosphate is the ratio of 1%-3% by weight percentage, edible salt is the ratio of 0.2%-0.5% by weight percentage, Choline Chloride mixes for the ratio of 0.02%-0.10% by weight percentage.
CN2008100979844A 2008-05-21 2008-05-21 Egg feedstuff rich in omega-3 fatty acid and preparation method thereof Expired - Fee Related CN101268808B (en)

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