KR102061738B1 - Manufacturing method of formula feed using the sesame dregs. - Google Patents

Abstract

The present invention relates to a method for producing livestock feed using an agricultural by-product, which is produced after squeezing oil from a seed of a plant, and more specifically, to a good protein source even after squeezing oil. The present invention relates to a method of preparing a compound feed using ink which provides a compound feed prepared by mixing the other ingredients with other nutrients, thereby reducing the price of the compound feed and improving flavor and palatability while supplying and supplementing various nutrients. .
To this end, 5 to 15% by weight, 20 to 30% by weight of corn, 5 to 15% by weight of rice bran, 5 to 15% by weight of oats, 4 to 12% by weight of ocher, 1 to 9% by weight of peanut skin, 1 to 9 of activated carbon Mix the raw materials at a blending ratio of 1% by weight to 1% by weight of limestone, 15% to 25% by weight of fertilizer, and 0.5% to 3.5% by weight of other additives to form a blend, pulverize the blend, and sonicate the pulverized blend. It provides a method for producing a compound feed using the ink characterized in that it comprises a step of sterilizing the bacteria in the form of feed and processing.

Description

Manufacturing method of formula feed using the sesame dregs.

The present invention relates to a method for producing a blended feed using the by-products of the oil produced by squeezing oil from the seed of the plant, specifically, by using the ink as a protein source of the compound feed, by combining with other materials It shows a method of producing a compound feed using the ink that can promote the development of the feed target, such as livestock.

In general, in order to produce flavor oils such as sesame oil and perilla oil having a deep taste and good taste, roasting sesame seeds at a high temperature is performed by pressing and milking them. On the other hand, as a by-product of this process, the oil has proved its nutritional value after milking, and has been used as an additive in livestock feed or as a fertilizer for plants.

In general, farms raising livestock are more expensive than general feed but prefer nutritionally superior formulated feed to meet the organic or inorganic nutrients required for livestock growth.

Soybean meal is the most widely used vegetable protein in formulated feed, and soybean meal is used for livestock feed because it has the advantage of excellent protein content and amino acid content. However, due to inhibitors contained in soybean meal, There is a problem that can not be efficiently broken down in the intestines of livestock short digestion time.

In particular, soybean meal contains 6% of non-digestible oligosaccharides, sucrose, 1% raffinose, 5% starchose, and the like, and thus, there is a problem of low total energy utilization efficiency in the diet of livestock.

Inhibitors of soybean meal include trypsin inhibitors, chymotrypsin inhibitors, urease, saponins, isoflavones, goitrzen and hemagglutinin. Most of them are destroyed by heat treatment, but saponins and isoflavones are stable to heat. The problem has been raised that the inhibitory factor is not completely removed.

Accordingly, various processing methods have been developed to remove inhibitors contained in soybean meal and to use soybean meal as a feed more efficiently. In this regard, concentrated soy protein is prepared by ethanol extraction, or protein components are prepared under alkaline conditions. It is known to extract soy oligosaccharides by extracting and precipitating proteins under acidic conditions and drying by spray drying to prepare a purified soy protein.

However, in the above-described method of removing the inhibitor from soybean meal, the separated soy protein shows a high protein concentration but is not suitable for economic and utilization of formulated feed because of its high complexity and high production cost. Due to the protein denaturation due to the heat treatment, chemical treatment and hot air drying process, the solubility of the actual protein has been raised.

Meanwhile, Korean Patent No. 2003-0075730 discloses soybeans soaked in water for 2 hours to make the water content 40% to 50%, and then it is heated in a large pressure cooker and heated for about 30 minutes to be 35 ° C at room temperature. It discloses a method of fermenting with microorganisms after performing a pretreatment process to cool until 48 hours, Korean Patent No. 2003-0095473 adjusts the water content of soybean meal to 40% to 50% and 60 ℃ to 80 ℃ After the heat treatment for 1 hour at a temperature, and then cooled and pretreated, the inoculation of the fungus is incubated for 48 hours.

However, in the fermentation process using microorganisms as described above, a three-step process of dipping, moist heat sterilization and cooling is required as a pretreatment process, and a work time of 1 to 2 days or more is required. As it accounts for 50%, the issue of time and economic efficiency of removing inhibitors and using soybean meal as a blended feed has been raised.

Accordingly, the present invention is a method of manufacturing a compound feed for solving the above-mentioned problems of the prior art, as a substitute material of the soybean meal soybean meal, which is an agricultural by-product generated after squeezing oil from the seeds of plants instead of soybean meal as a source of livestock protein By using the above, an object of the present invention is to produce an economically formulated feed in which the inhibitor is not expressed while supplying the protein.

In order to achieve the object of the present invention, 5 to 15% by weight, 20 to 30% by weight of corn, 5 to 15% by weight of rice bran, 5 to 15% by weight of oats, 4 to 12% by weight of ocher, 1 to 9 weight of peanut skin A blending step of blending the raw materials at a blending ratio of 1% to 9% by weight of activated carbon, 1% to 9% by weight of limestone, 15 to 25% by weight of a feed material, and 0.5 to 3.5% by weight of other additives; Grinding of the blend formed in the blending step; A sterilization step of sterilizing harmful bacteria by sonicating the pulverized blend; Processing the sterilized blend in the form of a feed; And a drying step of drying the feed formed in the processing step.

The present invention relates to a method for producing a compound feed using the ink, by using the oil produced by squeezing oil from the seed of the plant as a protein source of the material of the compound feed, while suppressing the expression of inhibitory factors There is an advantage in that it is possible to produce an economical feed compound.

In addition, it is possible to supply and supplement various nutrients to the livestock through the method of manufacturing the feed compound of the present invention, and to provide a feed with improved palatability and digestibility, as well as excellent freshness and color and texture of the meat as well as juicy rich quality There is an advantage in providing high quality meat.

1 is a flow chart related to a method for producing a compounded feed using the ink of the present invention.
Figure 2 is an embodiment showing a method of manufacturing a blended feed using the ink of the present invention.
Figure 3 is an embodiment showing the blending ratio of the raw material added to the blended feed using the ink of the present invention.
Figure 4 in one embodiment of the present invention, showing the nutritional ingredients of wild jelly.
5 is a view showing the nutritional component of sesame jelly in one embodiment of the present invention.

In the following, various embodiments and / or aspects are now disclosed with reference to the drawings. In the following description, for purposes of explanation, numerous specific details are set forth in order to provide a thorough understanding of one or more aspects. However, it will also be appreciated by one of ordinary skill in the art that this aspect (s) may be practiced without these specific details. The following description and the annexed drawings set forth in detail certain illustrative aspects of the one or more aspects. However, these aspects are exemplary and some of the various methods in the principles of the various aspects may be used and the descriptions described are intended to include all such aspects and their equivalents.

As used herein, “an embodiment”, “an example”, “aspect”, “an example”, etc., may not be construed as having any aspect or design described being better or advantageous than other aspects or designs. .

In addition, the terms "comprises" and / or "comprising" mean that such features and / or components are present, but exclude the presence or addition of one or more other features, components, and / or groups thereof. It should be understood that it does not.

In addition, terms including ordinal numbers such as first and second may be used to describe various components, but the components are not limited by the terms. The terms are used only for the purpose of distinguishing one component from another. For example, without departing from the scope of the present invention, the first component may be referred to as the second component, and similarly, the second component may also be referred to as the first component. The term and / or includes a combination of a plurality of related items or any item of a plurality of related items.

In addition, in the embodiments of the present invention, unless otherwise defined, all terms used herein including technical or scientific terms are generally understood by those skilled in the art to which the present invention belongs. Has the same meaning as Terms such as those defined in the commonly used dictionaries should be interpreted as having meanings consistent with the meanings in the context of the related art, and ideally or excessively formal meanings, unless explicitly defined in the embodiments of the present invention. Not interpreted as

1 is a flowchart of a method for producing a compounded feed using the ink of the present invention.

In order to prepare a blended feed using the ink of the present invention, 5 to 15% by weight, 20 to 30% by weight of corn, 5 to 15% by weight of rice bran, 5 to 15% by weight of oats, 4 to 12% by weight of ocher, peanut skin 1 to 9% by weight, activated carbon 1 to 9% by weight, limestone 1 to 9% by weight, 15 to 25% by weight of the fertilizer, 0.5 to 3.5% by weight of other additives in the blending step (S10) is carried out to mix the raw materials.

A blender may be used for blending the raw materials of step S10 described above, wherein the blender may be understood as a machine used to evenly mix and blend feed for raising livestock such as barns, poultry farms, and fish farms.

Various raw materials are added to the blender by performing the step S10 to be uniformly mixed and blended, wherein the raw materials added to the blender are composed of wax, corn, rice bran, oats, loess, peanut skin, activated carbon, limestone, fertilizer and other additives. Can be.

It is a by-product that occurs after milking oil. It is high in vegetable protein, low in price, high in organic matter and nitrogen, and contains phosphoric acid and potassium, making it a good raw material for livestock feed.

In the present invention, for example, at least any one of candle and sesame ink may be used, and 5 to 15% by weight may be used.

On the other hand, as a by-product of dark brown extracted oil from the seeds of perilla perilla, the protein content of perilla oil is 40% melanoma, 37% white species, melanoma is generally higher in protein content than white species.

In addition, high soybean fiber content is 17 to 19% to help the production and digestion of livestock, and do not contain anti-nutritive factors, it can be used as a safe, high-quality protein feed.

In addition, sesame jelly is a by-product extracted from the seeds of sesame seeds, has emollient properties, has a protein content of 44 to 48%, and sesame jelly does not contain anti-nutritive factors that adversely affect each animal. It can be a good source of protein.

Corn is used as an energy source due to high crude fat content and high plasticization rate, and the palatability of livestock can be used in combination feed together with ink so that the efficiency of the feed can be improved and thus 20 to 30% by weight can be used in the present invention.

Rice bran is a pulverized mixture such as skin, seedling, arc layer, etc., produced when the rice is milled to make white rice, and may be used in the present invention at 5 to 15% by weight.

Oats have 90% of the energy value of barley and have a higher percentage of fiber compared to barley. Favorable for livestock, 5 to 15% by weight can be used in the present invention.

Ocher provides various minerals, supplies trace minerals, and has an antimicrobial activity peculiar to ocher, which, when added to feed, has the effect of inhibiting the growth of harmful microorganisms, and can be used in the present invention from 4 to 12% by weight. have.

Peanut blood refers to pods generated during processing after harvesting peanuts, and about 33% of the weight of peanuts is produced with peanut blood. The digestibility is very high as the crude fiber content is about 57%, and the addition of peanut blood prevents the indigestion of livestock and improves feed efficiency. Peanut blood may be used in the present invention 1 to 9% by weight.

Activated carbon is forested thermal decomposition the remaining substances principal component is an amorphous carbon, generally showed an excellent effect on the disease, especially in the prevention of digestive diseases in livestock sterilizing effect of the strong suction force, the surface area of 1g up to 400m ^2, various informative By providing a living space for microorganisms, it helps to absorb the nutrition of the livestock and makes the cells of the livestock densely to improve the meat quality. In the present invention, activated carbon is used by 1 to 9% by weight to increase the efficiency of the feed.

Limestone is based on calcium carbonate and has a calcium content of 36 to 41%, and may be used as a raw material added to replenish calcium which may be insufficient in the present invention.

Forages may include, for example, crests, wild grasses, grasses, silage and hay, and are high in fiber, but coarse to help promote digestion of livestock. In the present invention, the forage may be used 15 to 25% by weight.

Other additives may include minerals, including at least salt, vitamins A, D, E, and calcium phosphate, and in the present invention, other additives may be used in an amount of 0.5 to 3.5 weight percent.

The blending of other additives into the raw materials is for the purpose of supplementing nutrients deficient in the raw materials.

For example, in the case of Korean cattle, vitamin A deficiency may cause blind cows when vitamin supplements are not supplied, and urine stones may occur when phosphorus is excessively supplied. Therefore, in order to prevent the above-mentioned deficiency and disease, it is necessary to mix a certain ratio of other additives when preparing the blended feed.

Considerations in the preparation of livestock feed include the importance of nutrient supply capacity, harmlessness to livestock, production of feedstock and digestibility of nutrients when producing feeds to livestock. Works.

In accordance with the present invention, there is provided a mixture of salt, corn, rice bran, oats, loess, peanut skin, activated carbon, limestone, feed and other additives (other additives including minerals including at least salt, vitamins A, D, E and calcium phosphate). It is made of raw materials, and it is excellent for livestock using the above-mentioned raw materials by using ink, corn, oats, peanut blood and rice bran as calorie sources, ocher, activated carbon and limestone as mineral sources, and forage and rice bran for smooth digestion. It is possible to produce a compound feed that can supply nutrients.

In addition, the above-mentioned raw materials are harmless to livestock, and by using agricultural by-products or fast-growing crops that have been disposed of, resources can be utilized and effects such as price reduction of blended feed can be expected.

That is, the step S10 may be understood as a step of evenly blending the raw materials containing the above-described various nutrients into the blender, and after the step S10, the grinding step (S20) of grinding the blend formed in the step S10 may be performed. .

By performing the step S20, the particle size of the above-described raw materials is uniformly refined, and the feed prepared using the same increases the surface area of each raw material when fed to the livestock, thereby increasing the interaction of the digestive enzymes in the intestine of the animal. As it improves the digestibility of nutrients and prevents the separation phenomenon when mixing the feed, it is possible to increase the utilization efficiency of the feed.

On the other hand, as a grinding means used in step S20 may be performed to homogeneously grind the raw material using a milling machine (milling machine) having one or more mill (mill).

On the other hand, the milling machine may be understood to make the particles of the blended raw material smaller by using a mechanical shear force, wherein the size of the raw material to be crushed using the milling machine may be preferably crushed to 2 to 5mm.

On the other hand, as a result of experiments on the size of the raw material particles, the feed of less than 2mm particles are too fine to lose the feed, and if the feed exceeds 5mm, it is difficult to mix between the raw materials during the compounding process, so that the separation between the raw materials may occur after blending. It would be desirable to grind to have a size in the above-described range.

In other words, as the various raw materials blended by performing the step S10 are transferred to the mill equipped with the milling machine through the transfer pipe and are crushed to a uniform size in the step S20, the raw materials having various sizes are reduced to small and uniform particles at the powder level. It can be formed.

According to the present invention, the feed produced by miniaturizing the particles to a uniform size increases the surface area of each raw material when fed to the livestock, thereby increasing the interaction of digestive enzymes in the intestine of the animal, and consequently enhancing the digestibility of the nutrients and the feed. There is an advantage in preventing the separation phenomenon in the formulation.

After step S20, the sterilized step (S30) for sterilizing harmful bacteria by performing the ultrasonic treatment of the pulverized formulation is performed.

Step S30 is immersed in the water blended compound in step S20, characterized in that the ultrasonic treatment at 10 to 60KHz for 5 to 30 minutes.

On the other hand, the immersion water may be sonicated using 5 to 20 times the immersion water of the formulation, the immersion water may be used water or a food washing liquid commonly used.

The sterilization step of step S30 described above may be performed using an ultrasonic generator, in which case it may be understood as a technique of applying the cavitation effect and the particle acceleration effect of the ultrasonic wave formed from the ultrasonic generator to the cleaning technique.

Cavitation intensity becomes stronger as the frequency is lower, and cavitation may not occur above 100KHz. However, the higher the frequency, the finer the fine cleaning, and the lower the noise level, so in the present invention, an ultrasonic wave having a frequency of preferably 10 to 60KHz can be used within a range capable of precise cleaning.

The cavitation effect can conduct high ultrasonic energy through the liquid, and the vibrations and flows accelerate the effect of cleaning the object.

In addition, by breaking the cavities due to the collapse of Cavity due to the change of + and-pressure when ultrasonic waves are propagated in the solution, it breaks down normal bacteria and Escherichia coli by breaking the bond between atoms of macromolecules. It can be understood to sterilize harmful bacteria, such as to remove them.

That is, in step S30, 99.9% of the harmful bacteria that can cause diseases in livestock such as staphylococcus and Salmonella bacteria can be inhibited the growth of harmful bacteria in the formulation.

However, the sterilizer used in the sterilization step (S30) of the present invention is limited to a sterilizer (for example, a steam sterilizer, an ultraviolet sterilizer, an infrared sterilizer, a radiation sterilizer, etc.) capable of performing sterilization of a pulverized compound in addition to the ultrasonic generator described above. It is natural to be used without.

After the step S30, prior to performing the step S40, the processing pretreatment process may be performed to add 1 to 10% by weight of molasses having a water content of 20% to 30% to the above-described formulation.

Molasses are by-products from the sugar process and can be, for example, those derived from sugar cane, sugar beet, and by-products produced during further processing.

The above-mentioned pre-processing process, by adding molasses to give the blend in the processing step to be described later to smoothly aggregate the raw materials, improve the usability of the feed compound and improve the palatability of the livestock has the effect of increasing the feed intake have. In addition, molasses has an effect of preventing the spread of dust and reduce the wear of the machine when manufacturing the feed.

On the other hand, as a result of experiments on the amount of molasses added, molasses generally causes diarrhea when livestock is fed with a feed prepared by using more than 10% of the above-mentioned as a mutated feed, so use a dose within the above-mentioned range. It would be desirable to.

After the above-mentioned pretreatment process, the processing step (S40) for processing the sterilized blend in the form of feed is performed.

Step S40 will be understood as the step of extruding the raw material mixed in a certain ratio through steps S10 to 30 as one of the feed form of pellets, crumbles, granules and flakes.

(First embodiment)

In one embodiment, the compound may be extruded using a pellet molding machine in step S40, wherein the extrusion conditions of the above-mentioned compound is extruded at a temperature of 50 ℃ to 90 ℃, pressurized to 2 to 6 kgf / cm ² It can be molded and preferably produced with a diameter of 1 to 5 mm and a length of 5 to 20 mm.

On the other hand, the above-described pressure of 2 to 6kgf / cm ² may be understood as a pressure so that the nutrients contained in the raw material is not destroyed.

(Second embodiment)

As an example, by reprocessing the pellet feed of the first embodiment described above, it can be passed through a crumbler machine to produce a crumble feed. At this time, in order to manufacture the crumble-type feed described above, the crumbler machine performs a process of crushing the once-molded feed again, which results in a finer particle size, so that a relatively young livestock or small livestock It can be used as a suitable formula feed.

(Third Embodiment)

In one embodiment, in step S40 using the granulator can be prepared granule-shaped granules (granule) feed. On the other hand, a granulator is a machine for forming a material into a grain, and means a machine capable of granulating all the raw materials of the fixed or amorphous shape to the desired size and shape.

The molding conditions of the granules described above may be extruded by pressing the above-mentioned pulverized product at a temperature of 50 ° C. to 90 ° C. at 2 to 6 kgf / cm ² . The compounded feed thus prepared has an effect of improving digestibility and improving meat palatability and meat quality.

(Example 4)

In one embodiment, using the flake roll in step S40 can be prepared a feed having a flake shape. At this time, the molding conditions of the flakes described above, may be extruded by pressing at a pressure of 2 to 6kgf / cm ² at a temperature of 50 to 90 ℃.

This molding method has the advantage of helping digestion in the intestine of the livestock by thermal processing, there is an advantage that the efficiency of the feed is increased.

On the other hand, the above-described embodiments may be performed independently of each other, one or more embodiments may be carried out in combination with each other sequentially or simultaneously, and those skilled in the art to various modifications and variations from the above description You will understand that it is possible.

After performing step S40, the drying step (S50) for drying the feed formed in the processing step may be performed.

S50 step may be understood as a step of drying using a dryer until the moisture content of the blended feed formed in step S40 is 5% to 15%.

At this time, if the moisture content is less than 5%, the content of the moisture contained in the blended feed is too low to act as a limiting factor of the feed intake can reduce the value of the feed, while if the moisture content exceeds 15%, blended feed Too much water content can cause the risk of feed deterioration and increased feed prices per kg due to excess water.

On the other hand, the dryer used in the present invention is used to evaporate moisture of the blended feed, for example, a hot air dryer may be used, for example, in a state in which the temperature of the dryer is adjusted to 50 ℃ to 200 ℃ 10 It may take from minutes to 400 minutes. However, the present invention will be understood that any means capable of performing the function of lowering the moisture content of the blended feed containing water in addition to the above-described dryer may be used.

Figure 2 is an embodiment showing a method of manufacturing a blended feed using the ink of the present invention in a picture. In the following description, a description of unnecessary portions of the contents mentioned in the description of FIG. 1 will be omitted.

Referring to FIG. 2, a blender 11, a grinder 21, an ultrasonic generator 31, a molding machine 41, a dryer 51, and a storage 60 may be prepared to implement the present invention.

The blender 11 contains salt, corn, rice bran, oats, loess, peanut skin, activated carbon, limestone, feed and other additives (other additives including minerals including at least salt, vitamins A, D, E and calcium phosphate). As a raw material, a blended mixture is formed evenly.

More specifically, 5 to 15% by weight, 20 to 30% by weight of corn, 5 to 15% by weight of rice bran, 5 to 15% by weight of oats, 4 to 12% by weight of ocher, 1 to 9% by weight of peanut skin, activated carbon 1 The blend is formed by blending the raw materials in a blending ratio of from 9% to 9% by weight, from 1 to 9% by weight limestone, from 15 to 25% by weight of the forage and other additives from 0.5 to 3.5% by weight.

Then, the compound conveyed to the grinder 21 through the conveying means uses the mechanical shearing force of the mill 21 equipped with the milling machine having one or more mills to form smaller particles of the blended raw materials.

That is, the blend of raw materials having various sizes through the grinder 21 can form small uniform particles at the powder level, and the blended feed prepared in this way increases the surface area of each raw material when fed to animals, The interaction of digestive enzymes in the intestine increases, which in turn improves the digestibility of nutrients and prevents separation in feed formulations.

The pulverized blend is sent to the ultrasonic generator 31, and is sonicated and sterilized, and then to the molding machine 41 for molding the blend in the form of feed.

In the above sterilization step, the pulverized blend is immersed in water and sterilized by ultrasonication at 10 to 60 KHz for 5 to 30 minutes, thereby killing 99.9% of harmful bacteria such as Staphylococcus and Salmonella, which cause food poisoning to livestock. Therefore, it is possible to suppress the growth of harmful bacteria such as staphylococci and salmonella due to the condensation of moisture in the feed.

However, in the sterilization process of the present invention, the above-described ultrasonic generator 31 may be used, but in addition to sterilization using the ultrasonic generator 31, a sterilizer (eg, steam sterilizer, ultraviolet sterilizer, etc.) that can perform sterilization of a pulverized compound. Infrared sterilizers and radiation sterilizers) may be used without limitation.

The sterilized compound is transferred to the molding machine 41 and processed in the form of feed.

On the other hand, before processing in the form of feed, as a pre-treatment step, a pre-processing step of adding 1 to 10% by weight of molasses having a water content of 20 to 30% to the blend may be performed.

The above-mentioned pre-treatment step, by adding molasses in the processing step to be described later to give the adhesive to the blended feed material to agglomerate, improve the usability of the blended feed and improve the palatability of the livestock has the effect of increasing the feed intake For example, molasses can prevent the spread of dust and reduce the wear of the machine during feed production.

On the other hand, as a result of experiments on the amount of molasses added, molasses generally causes diarrhea when livestock is fed with a feed prepared by using more than 10% of the above-mentioned as a mutated feed, so use a dose within the above range It would be desirable to.

After performing the pre-processing process, the step of extruding the mixed and pulverized blend in a feed ratio of pellets, crumbles, granules and flakes through a molding machine 41 may be performed.

The finished feed in the molding machine 41 is dried until the moisture content of the blended feed produced through the dryer 51 is 5 to 15%, and then the step of storing and packing in the storage 60 may be performed. It is.

Figure 3 is an embodiment (100) showing the blending ratio of the raw materials added to the blended feed using the ink of the present invention.

The unit of the blending ratio of Figure 3 is the weight percent, when the blended feed prepared by the formulation as shown in Figure 3 can supply and supplement various nutrients to the livestock, it is possible to provide a feed with improved palatability and digestibility.

In addition, the blended feed prepared at the above-described compounding ratio is not only excellent in freshness and meat color and texture of the meat, but also rich in gravy, which provides an advantage of providing high quality meat.

On the other hand, although the mixing ratio of the raw material described in Figure 3 has been described by the limited embodiment, those skilled in the art will understand that various modifications and variations are possible from the above description.

4 and 5 is a view showing the nutritional components of wild jelly and sesame jelly in one embodiment of the present invention

Referring to FIG. 4, the nutritional ingredient table 200 has a protein content of 39.01%, which is the main ingredient of the jelly, utilized in the blended feed using the jelly according to the present invention. The sesame oil of 5 also refers to the nutritional ingredient table 300, the main ingredient is a protein, the protein content has a value of up to 45.78%, and has an excellent protein supply rate for the price.

As confirmed in the above embodiment, the blended feed using the ink according to the present invention contains crude protein, crude fat, crude fiber, soluble nitrogen and crude ash appropriately, and is particularly excellent in protein content. It can be suitably used as a protein source of feed.

In addition, there is an advantage that can be recycled as a resource used in the fall of the use value, thereby reducing the cost of the compound feed.

In addition, the combination of the ink and other materials according to the present invention is not only excellent for the health of the livestock, but also has the effect of maximizing the efficiency of the feed by improving the palatability, thereby increasing the income of the livestock raising farmers as well as increasing palatability to the consumer. This can be an advantage in providing quality meat.

Although the embodiments have been described by the embodiments and drawings as described above, those skilled in the art will understand that various modifications and variations are possible from the above description.

For example, the described techniques may be performed in a different order than the described method, and / or components of the described systems, structures, devices, circuits, etc. may be combined or combined in a different form than the described method, or other components. Or even if replaced or substituted by equivalents, an appropriate result can be achieved. Therefore, other implementations, other embodiments, and equivalents to the claims are within the scope of the claims that follow.

Claims (8)

In the method of manufacturing a compound feed using the ink,
5 to 15 weight percent ink, 20 to 30 weight percent corn, 5 to 15 weight percent rice bran, 5 to 15 weight percent oats, 4 to 12 weight percent ocher, 1 to 9 weight percent peanut skin, 1 to 9 weight percent activated carbon, A blending step of blending the raw materials at a blending ratio of 1 to 9% by weight of limestone, 15 to 25% by weight of a forage, and 0.5 to 3.5% by weight of other additives;
A grinding step of grinding the blend formed in the blending step;
A sterilization step of sterilizing harmful bacteria by sonicating the ground blend;
Processing the sterilized blend in the form of a feed; And
Method for producing a compound feed using the ink comprising a; drying step of drying the feed formed in the processing step.
The method of claim 1,
Stained in the mixing step,
A method for producing a compound feed using the ink, characterized in that it comprises at least one of at least wild jelly, sesame jelly.
The method of claim 1,
The other additive is at least a salt, vitamins A, D, E and a method for producing a compound feed using the ink, characterized in that consisting of minerals containing calcium phosphate.
The method of claim 1,
The grinding step,
Method for producing a blended feed using the ink, characterized in that the raw material is homogeneously ground using a milling machine having one or more wheat.
The method of claim 1,
The sterilization step,
The pulverized blend is immersed in water, and the method of producing a blended feed using the ink, characterized in that the ultrasonic treatment at 10 to 60KHz for 5 to 30 minutes.
The method of claim 1,
Before performing the processing step,
A method for producing a compound feed using the ink, characterized by adding 1 to 10% by weight of molasses having a water content of 20 to 30%.
The method of claim 1,
The processing step,
Pressing the blend at a temperature of 50 ° C to 90 ° C at least in the form of pellets, crumbles, granules and flakes by extrusion molding process for producing a compound feed using the ink, characterized in that.
The method of claim 1,
The drying step,
Method for producing a compound feed using the ink, characterized in that until the moisture content of the feed to 5 to 15% by using a dryer.

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