CN114009606A - Ruminant feed energy additive and preparation method thereof - Google Patents

Abstract

The invention discloses a ruminant feed energy additive, which comprises the following raw materials in parts by weight: 100 parts of corn, 120 parts of wheat bran, 120 parts of bean pulp, 10 parts of yeast selenium, 20 parts of organic copper, 20 parts of ferrous sulfate, 20 parts of zinc sulfate, 10 parts of manganese sulfate, 50 parts of expanded urea, 5 parts of ammonium chloride and a preparation method of the ruminant feed energy additive, wherein the preparation method comprises the following steps: s1, weighing the corn, the wheat bran and the bean pulp with specified weight, and then pouring the corn, the wheat bran and the bean pulp into a grinder in sequence to grind, stir and mix the corn, the wheat bran and the bean pulp to obtain a mixture A. S2, then weighing the yeast selenium, the organic copper, the ferrous sulfate, the zinc sulfate and the manganese sulfate according to the specified weight. The invention provides enough energy, trace elements and other substances for the ruminants in livestock breeding, so that the ruminants can normally and rapidly grow, and the implementation of livestock breeding work is greatly facilitated.

Description

Ruminant feed energy additive and preparation method thereof

Technical Field

The invention relates to the technical field of livestock breeding, in particular to a ruminant feed energy additive and a preparation method thereof.

Background

In modern society, livestock breeding has become a mature industry, and it is a common situation to breed ruminants such as cattle in livestock breeding activities, and in the process of breeding such ruminants, simple grazing cannot meet the requirements of the farmed animals and the farmer, so that feed addition work is required.

The existing feed addition is simple to feed high-energy articles to animals, but because ruminants have rumination capacity, the simple feeding mode cannot effectively help the animals to grow, and meanwhile, the simple high-energy feed addition cannot well help the animals to grow.

Therefore, we propose a ruminant feed energy additive and a preparation method thereof to solve the above problems.

Disclosure of Invention

The invention aims to solve the problems in the prior art and provides a ruminant feed energy additive and a preparation method thereof.

In order to achieve the purpose, the invention adopts the following technical scheme:

a ruminant feed energy additive comprises the following raw materials in parts by weight: 100-200 parts of corn-.

Preferably, the raw materials comprise 170 parts of 130-corn-.

Preferably, 150 parts of corn, 140 parts of wheat bran, 140 parts of soybean meal, 20 parts of yeast selenium, 25 parts of organic copper, 30 parts of ferrous sulfate, 25 parts of zinc sulfate, 20 parts of manganese sulfate, 75 parts of expanded urea and 10 parts of ammonium chloride.

Preferably, the weight ratio of the corn, the wheat bran and the soybean meal is 100-200: 120-160: 120-160.

Preferably, the weight ratio of the selenium yeast to the organic copper to the ferrous sulfate to the zinc sulfate to the manganese sulfate is 15-25: 23-27: 25-35: 23-27: 15-25.

Preferably, the weight ratio of the expanded urea to the ammonium chloride is 75: 10.

a preparation method of ruminant feed energy additive comprises the following steps:

s1, weighing the corn, the wheat bran and the bean pulp with specified weight, and then pouring the corn, the wheat bran and the bean pulp into a grinder in sequence to grind, stir and mix the corn, the wheat bran and the bean pulp to obtain a mixture A.

S2, weighing the yeast selenium, the organic copper, the ferrous sulfate, the zinc sulfate and the manganese sulfate according to the specified weight, and then pouring the yeast selenium, the organic copper, the ferrous sulfate, the zinc sulfate and the manganese sulfate into a stirrer in sequence to be stirred and mixed to obtain a mixture B.

And S3, weighing the expanded urea and the ammonium chloride with specified weight, pouring the mixture A and the mixture B, the expanded urea and the ammonium chloride into another large stirring device, and fully stirring and mixing the materials to obtain a mixture C.

S4, pouring the mixture C into a corresponding forming packaging machine, extruding the mixture C into a cake shape which is easy to handle, and packaging the cake-shaped product, thereby obtaining the finished product energy additive.

Compared with the prior art, the invention has the beneficial effects that:

according to the invention, a user can provide enough capacity for animals by means of corn, wheat bran and soybean meal in the energy additive, and can provide various trace elements for the animals by using the yeast selenium, the organic copper, the ferrous sulfate, the zinc sulfate and the manganese sulfate, so that various elements in the growth process of the animals can not be lost, and meanwhile, enough protein is provided for the animals by using the expanded urea, so that the animals can grow better, and the animals can grow healthily and quickly grow meat by using ammonium chloride, thereby being greatly beneficial to the implementation of livestock breeding work.

Detailed Description

The following will clearly and completely describe the technical solutions in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all embodiments.

Example one

A ruminant feed energy additive comprises the following raw materials in parts by weight: 100 parts of corn, 120 parts of wheat bran, 120 parts of bean pulp, 10 parts of yeast selenium, 20 parts of organic copper, 20 parts of ferrous sulfate, 20 parts of zinc sulfate, 10 parts of manganese sulfate, 50 parts of expanded urea and 5 parts of ammonium chloride.

A preparation method of ruminant feed energy additive comprises the following steps:

s1, weighing the corn, the wheat bran and the bean pulp with specified weight, and then pouring the corn, the wheat bran and the bean pulp into a grinder in sequence to grind, stir and mix the corn, the wheat bran and the bean pulp to obtain a mixture A.

S2, weighing the yeast selenium, the organic copper, the ferrous sulfate, the zinc sulfate and the manganese sulfate according to the specified weight, and then pouring the yeast selenium, the organic copper, the ferrous sulfate, the zinc sulfate and the manganese sulfate into a stirrer in sequence to be stirred and mixed to obtain a mixture B.

And S3, weighing the expanded urea and the ammonium chloride with specified weight, pouring the mixture A and the mixture B, the expanded urea and the ammonium chloride into another large stirring device, and fully stirring and mixing the materials to obtain a mixture C.

S4, pouring the mixture C into a corresponding forming packaging machine, extruding the mixture C into a cake shape which is easy to handle, and packaging the cake-shaped product, thereby obtaining the finished product energy additive.

Example two

A ruminant feed energy additive comprises the following raw materials in parts by weight: 200 parts of corn, 160 parts of wheat bran, 160 parts of soybean meal, 30 parts of yeast selenium, 30 parts of organic copper, 40 parts of ferrous sulfate, 30 parts of zinc sulfate, 30 parts of manganese sulfate, 100 parts of expanded urea and 15 parts of ammonium chloride.

A preparation method of ruminant feed energy additive comprises the following steps:

s1, weighing the corn, the wheat bran and the bean pulp with specified weight, and then pouring the corn, the wheat bran and the bean pulp into a grinder in sequence to grind, stir and mix the corn, the wheat bran and the bean pulp to obtain a mixture A.

S2, weighing the yeast selenium, the organic copper, the ferrous sulfate, the zinc sulfate and the manganese sulfate according to the specified weight, and then pouring the yeast selenium, the organic copper, the ferrous sulfate, the zinc sulfate and the manganese sulfate into a stirrer in sequence to be stirred and mixed to obtain a mixture B.

And S3, weighing the expanded urea and the ammonium chloride with specified weight, pouring the mixture A and the mixture B, the expanded urea and the ammonium chloride into another large stirring device, and fully stirring and mixing the materials to obtain a mixture C.

S4, pouring the mixture C into a corresponding forming packaging machine, extruding the mixture C into a cake shape which is easy to handle, and packaging the cake-shaped product, thereby obtaining the finished product energy additive.

EXAMPLE III

A ruminant feed energy additive comprises the following raw materials in parts by weight: 130 parts of corn, 130 parts of wheat bran, 130 parts of soybean meal, 15 parts of yeast selenium, 23 parts of organic copper, 25 parts of ferrous sulfate, 23 parts of zinc sulfate, 15 parts of manganese sulfate, 70 parts of expanded urea and 8 parts of ammonium chloride.

A preparation method of ruminant feed energy additive comprises the following steps:

s1, weighing the corn, the wheat bran and the bean pulp with specified weight, and then pouring the corn, the wheat bran and the bean pulp into a grinder in sequence to grind, stir and mix the corn, the wheat bran and the bean pulp to obtain a mixture A.

S2, weighing the yeast selenium, the organic copper, the ferrous sulfate, the zinc sulfate and the manganese sulfate according to the specified weight, and then pouring the yeast selenium, the organic copper, the ferrous sulfate, the zinc sulfate and the manganese sulfate into a stirrer in sequence to be stirred and mixed to obtain a mixture B.

And S3, weighing the expanded urea and the ammonium chloride with specified weight, pouring the mixture A and the mixture B, the expanded urea and the ammonium chloride into another large stirring device, and fully stirring and mixing the materials to obtain a mixture C.

S4, pouring the mixture C into a corresponding forming packaging machine, extruding the mixture C into a cake shape which is easy to handle, and packaging the cake-shaped product, thereby obtaining the finished product energy additive.

Example four

A ruminant feed energy additive comprises the following raw materials in parts by weight: 170 parts of corn, 150 parts of wheat bran, 150 parts of soybean meal, 25 parts of yeast selenium, 27 parts of organic copper, 35 parts of ferrous sulfate, 27 parts of zinc sulfate, 25 parts of manganese sulfate, 80 parts of expanded urea and 12 parts of ammonium chloride.

A preparation method of ruminant feed energy additive comprises the following steps:

s1, weighing the corn, the wheat bran and the bean pulp with specified weight, and then pouring the corn, the wheat bran and the bean pulp into a grinder in sequence to grind, stir and mix the corn, the wheat bran and the bean pulp to obtain a mixture A.

S2, weighing the yeast selenium, the organic copper, the ferrous sulfate, the zinc sulfate and the manganese sulfate according to the specified weight, and then pouring the yeast selenium, the organic copper, the ferrous sulfate, the zinc sulfate and the manganese sulfate into a stirrer in sequence to be stirred and mixed to obtain a mixture B.

And S3, weighing the expanded urea and the ammonium chloride with specified weight, pouring the mixture A and the mixture B, the expanded urea and the ammonium chloride into another large stirring device, and fully stirring and mixing the materials to obtain a mixture C.

S4, pouring the mixture C into a corresponding forming packaging machine, extruding the mixture C into a cake shape which is easy to handle, and packaging the cake-shaped product, thereby obtaining the finished product energy additive.

EXAMPLE five

A ruminant feed energy additive comprises the following raw materials in parts by weight: 150 parts of corn, 140 parts of wheat bran, 140 parts of soybean meal, 20 parts of yeast selenium, 25 parts of organic copper, 30 parts of ferrous sulfate, 25 parts of zinc sulfate, 20 parts of manganese sulfate, 75 parts of expanded urea and 10 parts of ammonium chloride.

A preparation method of ruminant feed energy additive comprises the following steps:

s1, weighing the corn, the wheat bran and the bean pulp with specified weight, and then pouring the corn, the wheat bran and the bean pulp into a grinder in sequence to grind, stir and mix the corn, the wheat bran and the bean pulp to obtain a mixture A.

S2, weighing the yeast selenium, the organic copper, the ferrous sulfate, the zinc sulfate and the manganese sulfate according to the specified weight, and then pouring the yeast selenium, the organic copper, the ferrous sulfate, the zinc sulfate and the manganese sulfate into a stirrer in sequence to be stirred and mixed to obtain a mixture B.

And S3, weighing the expanded urea and the ammonium chloride with specified weight, pouring the mixture A and the mixture B, the expanded urea and the ammonium chloride into another large stirring device, and fully stirring and mixing the materials to obtain a mixture C.

S4, pouring the mixture C into a corresponding forming packaging machine, extruding the mixture C into a cake shape which is easy to handle, and packaging the cake-shaped product, thereby obtaining the finished product energy additive.

EXAMPLE six

A ruminant feed energy additive comprises the following raw materials in parts by weight: 100 parts of corn, 120 parts of wheat bran, 120 parts of bean pulp, 30 parts of yeast selenium, 30 parts of organic copper, 40 parts of ferrous sulfate, 30 parts of zinc sulfate, 30 parts of manganese sulfate, 100 parts of expanded urea and 15 parts of ammonium chloride.

A preparation method of ruminant feed energy additive comprises the following steps:

s1, weighing the corn, the wheat bran and the bean pulp with specified weight, and then pouring the corn, the wheat bran and the bean pulp into a grinder in sequence to grind, stir and mix the corn, the wheat bran and the bean pulp to obtain a mixture A.

S2, weighing the yeast selenium, the organic copper, the ferrous sulfate, the zinc sulfate and the manganese sulfate according to the specified weight, and then pouring the yeast selenium, the organic copper, the ferrous sulfate, the zinc sulfate and the manganese sulfate into a stirrer in sequence to be stirred and mixed to obtain a mixture B.

And S3, weighing the expanded urea and the ammonium chloride with specified weight, pouring the mixture A and the mixture B, the expanded urea and the ammonium chloride into another large stirring device, and fully stirring and mixing the materials to obtain a mixture C.

S4, pouring the mixture C into a corresponding forming packaging machine, extruding the mixture C into a cake shape which is easy to handle, and packaging the cake-shaped product, thereby obtaining the finished product energy additive.

EXAMPLE seven

A ruminant feed energy additive comprises the following raw materials in parts by weight: 200 parts of corn, 160 parts of wheat bran, 160 parts of soybean meal, 10 parts of yeast selenium, 20 parts of organic copper, 20 parts of ferrous sulfate, 20 parts of zinc sulfate, 10 parts of manganese sulfate, 50 parts of expanded urea and 5 parts of ammonium chloride.

A preparation method of ruminant feed energy additive comprises the following steps:

s1, weighing the corn, the wheat bran and the bean pulp with specified weight, and then pouring the corn, the wheat bran and the bean pulp into a grinder in sequence to grind, stir and mix the corn, the wheat bran and the bean pulp to obtain a mixture A.

S2, weighing the yeast selenium, the organic copper, the ferrous sulfate, the zinc sulfate and the manganese sulfate according to the specified weight, and then pouring the yeast selenium, the organic copper, the ferrous sulfate, the zinc sulfate and the manganese sulfate into a stirrer in sequence to be stirred and mixed to obtain a mixture B.

And S3, weighing the expanded urea and the ammonium chloride with specified weight, pouring the mixture A and the mixture B, the expanded urea and the ammonium chloride into another large stirring device, and fully stirring and mixing the materials to obtain a mixture C.

S4, pouring the mixture C into a corresponding forming packaging machine, extruding the mixture C into a cake shape which is easy to handle, and packaging the cake-shaped product, thereby obtaining the finished product energy additive.

Example eight

A ruminant feed energy additive comprises the following raw materials in parts by weight: 130 parts of corn, 130 parts of wheat bran, 130 parts of soybean meal, 25 parts of yeast selenium, 27 parts of organic copper, 35 parts of ferrous sulfate, 27 parts of zinc sulfate, 25 parts of manganese sulfate, 80 parts of expanded urea and 12 parts of ammonium chloride.

A preparation method of ruminant feed energy additive comprises the following steps:

s1, weighing the corn, the wheat bran and the bean pulp with specified weight, and then pouring the corn, the wheat bran and the bean pulp into a grinder in sequence to grind, stir and mix the corn, the wheat bran and the bean pulp to obtain a mixture A.

S2, weighing the yeast selenium, the organic copper, the ferrous sulfate, the zinc sulfate and the manganese sulfate according to the specified weight, and then pouring the yeast selenium, the organic copper, the ferrous sulfate, the zinc sulfate and the manganese sulfate into a stirrer in sequence to be stirred and mixed to obtain a mixture B.

And S3, weighing the expanded urea and the ammonium chloride with specified weight, pouring the mixture A and the mixture B, the expanded urea and the ammonium chloride into another large stirring device, and fully stirring and mixing the materials to obtain a mixture C.

S4, pouring the mixture C into a corresponding forming packaging machine, extruding the mixture C into a cake shape which is easy to handle, and packaging the cake-shaped product, thereby obtaining the finished product energy additive.

Example nine

A ruminant feed energy additive comprises the following raw materials in parts by weight: 170 parts of corn, 150 parts of wheat bran, 150 parts of soybean meal, 15 parts of yeast selenium, 23 parts of organic copper, 25 parts of ferrous sulfate, 23 parts of zinc sulfate, 15 parts of manganese sulfate, 70 parts of expanded urea and 8 parts of ammonium chloride.

A preparation method of ruminant feed energy additive comprises the following steps:

s1, weighing the corn, the wheat bran and the bean pulp with specified weight, and then pouring the corn, the wheat bran and the bean pulp into a grinder in sequence to grind, stir and mix the corn, the wheat bran and the bean pulp to obtain a mixture A.

S2, weighing the yeast selenium, the organic copper, the ferrous sulfate, the zinc sulfate and the manganese sulfate according to the specified weight, and then pouring the yeast selenium, the organic copper, the ferrous sulfate, the zinc sulfate and the manganese sulfate into a stirrer in sequence to be stirred and mixed to obtain a mixture B.

And S3, weighing the expanded urea and the ammonium chloride with specified weight, pouring the mixture A and the mixture B, the expanded urea and the ammonium chloride into another large stirring device, and fully stirring and mixing the materials to obtain a mixture C.

S4, pouring the mixture C into a corresponding forming packaging machine, extruding the mixture C into a cake shape which is easy to handle, and packaging the cake-shaped product, thereby obtaining the finished product energy additive.

Example ten

A ruminant feed energy additive comprises the following raw materials in parts by weight: 200 parts of corn, 160 parts of wheat bran, 160 parts of soybean meal, 10 parts of yeast selenium, 20 parts of organic copper, 20 parts of ferrous sulfate, 20 parts of zinc sulfate, 10 parts of manganese sulfate, 100 parts of expanded urea and 15 parts of ammonium chloride.

A preparation method of ruminant feed energy additive comprises the following steps:

s1, weighing the corn, the wheat bran and the bean pulp with specified weight, and then pouring the corn, the wheat bran and the bean pulp into a grinder in sequence to grind, stir and mix the corn, the wheat bran and the bean pulp to obtain a mixture A.

S2, weighing the yeast selenium, the organic copper, the ferrous sulfate, the zinc sulfate and the manganese sulfate according to the specified weight, and then pouring the yeast selenium, the organic copper, the ferrous sulfate, the zinc sulfate and the manganese sulfate into a stirrer in sequence to be stirred and mixed to obtain a mixture B.

And S3, weighing the expanded urea and the ammonium chloride with specified weight, pouring the mixture A and the mixture B, the expanded urea and the ammonium chloride into another large stirring device, and fully stirring and mixing the materials to obtain a mixture C.

S4, pouring the mixture C into a corresponding forming packaging machine, extruding the mixture C into a cake shape which is easy to handle, and packaging the cake-shaped product, thereby obtaining the finished product energy additive.

The finished ruminant feed energy additive is made into a cake shape, which is greatly convenient for a user to carry the product and also convenient for the user to take the ruminant feed energy additive to feed animals, the product contains a large amount of corns, wheat bran and bean pulp, and can provide enough energy for the growth of the animals, so that the animals cannot suffer from hunger problem and normal growth is not influenced, and simultaneously, the yeast selenium, organic copper, ferrous sulfate, zinc sulfate and manganese sulfate are added into the product, so that the animals can obtain trace elements selenium, copper, iron, zinc and manganese after eating the product, the situation that the animals are lack of the trace elements can not occur in the growth process, the healthy growth of the animals is further ensured, the expanded urea in the product provides enough protein for the animals, so that the animals can grow better, and the ammonium chloride can help the animals to grow meat fast, these all greatly help the smooth going on of livestock breeding work.

The above description is only for the preferred embodiment of the present invention, but the scope of the present invention is not limited thereto, and any person skilled in the art should be considered to be within the technical scope of the present invention, and the technical solutions and the inventive concepts thereof according to the present invention should be equivalent or changed within the scope of the present invention.

Claims (7)

1. The ruminant feed energy additive is characterized by comprising the following raw materials in parts by weight: 100-200 parts of corn-.

2. The ruminant feed energy additive as claimed in claim 1, wherein the ruminant feed energy additive comprises, by weight, 130-170 parts of corn, 130-150 parts of wheat bran, 130-150 parts of bean pulp, 15-25 parts of selenium yeast, 23-27 parts of organic copper, 25-35 parts of ferrous sulfate, 23-27 parts of zinc sulfate, 15-25 parts of manganese sulfate, 70-80 parts of expanded urea and 8-12 parts of ammonium chloride.

3. The ruminant feed energy additive as claimed in claim 1, wherein the ruminant feed energy additive is prepared from 150 parts of corn, 140 parts of wheat bran, 140 parts of soybean meal, 20 parts of yeast selenium, 25 parts of organic copper, 30 parts of ferrous sulfate, 25 parts of zinc sulfate, 20 parts of manganese sulfate, 75 parts of expanded urea and 10 parts of ammonium chloride.

4. The ruminant feed energy additive as claimed in claim 1, wherein the weight ratio of the corn, the wheat bran and the bean pulp is 100-: 120-160: 120-160.

5. The ruminant feed energy additive of claim 2, wherein the yeast selenium, the organic copper, the ferrous sulfate, the zinc sulfate and the manganese sulfate are in a weight ratio of 15-25: 23-27: 25-35: 23-27: 15-25.

6. The ruminant feed energy additive of claim 3, wherein the expanded urea and ammonium chloride are present in a weight ratio of 75: 10.

7. a preparation method of a ruminant feed energy additive is characterized by comprising the following steps:

s1, weighing the corn, the wheat bran and the bean pulp with specified weight, and then pouring the corn, the wheat bran and the bean pulp into a grinder in sequence to grind, stir and mix the corn, the wheat bran and the bean pulp to obtain a mixture A.

S2, weighing the yeast selenium, the organic copper, the ferrous sulfate, the zinc sulfate and the manganese sulfate according to the specified weight, and then pouring the yeast selenium, the organic copper, the ferrous sulfate, the zinc sulfate and the manganese sulfate into a stirrer in sequence to be stirred and mixed to obtain a mixture B.

And S3, weighing the expanded urea and the ammonium chloride with specified weight, pouring the mixture A and the mixture B, the expanded urea and the ammonium chloride into another large stirring device, and fully stirring and mixing the materials to obtain a mixture C.

S4, pouring the mixture C into a corresponding forming packaging machine, extruding the mixture C into a cake shape which is easy to handle, and packaging the cake-shaped product, thereby obtaining the finished product energy additive.