KR20170005303A - By-product feed fermentation and storage integration system - Google Patents

Abstract

The present invention relates to a by-product feed fermentation storage system comprising a by-product feed section for feeding a by-product feed, a mixing section for mixing the by-product feed with an fermentation agent, and a fermentation storage section for fermenting the mixed feed mixed from the mixing section, And the fermentation storage unit is a first-in first-out method in which the mixed feed is sequentially fermented and discharged in the order of input.
According to the present invention as described above, the by-product feed is sequentially fermented and supplied, so that the by-product feed that is not fermented and discharged can be prevented from being generated.
In addition, the by-product feed is sequentially fermented and discharged in the order of input, thereby enabling a continuous process. Thus, the total mixed feed (Total Mixed Ration, TMR) Mixed Ration, TMR), it is possible to manufacture a fully mixed fermented feed (TMF).
In addition, by using a relatively inexpensive by-product feed, it can greatly contribute to the reduction of feed costs of the livestock farmers.
In addition, by precisely controlling the internal temperature of the fermentation storage tank in which the by-product feed is fermented, by providing an optimum temperature suitable for fermentation, the by-product feed is prevented from being deteriorated during fermentation, and the fermentation efficiency is further improved.

Description

[0001] By-product feed fermentation and storage integration system [0002]

The present invention relates to a by-product feed fermentation storage system, and more particularly, to a first-in-first-out by-product fermentation storage system in which by-product feeds generated in the process of producing agricultural products or foods are sequentially fermented and discharged .

Generally, livestock farms provide diets such as dairy cows, dairy cows, and other dairy cows for the purpose of feeding (forage, hay, silage, etc.) and concentrate feeds (compound feeds, cereals, (TMR), which is a mixed feed (TMR) mixed with an appropriate ratio, is used.

However, as grain prices have soared due to recent increases in biodiesel production, unusual weather conditions, and oil price hikes, the price of vegetable protein feedstuffs and forages has risen in addition to feed grains, which are the major feedstock for concentrated feeds.

As a result, domestic livestock farmers, who depend on imports of feed grains, vegetable protein feedstuffs, and roughage, which are main ingredients of concentrated feeds, are experiencing economic difficulties.

For this reason, recently, it is changing to produce a totally mixed feed (TMR) by mixing a relatively inexpensive by-product feed generated in the production of agricultural products or foods, a concentrated feed and a forage.

Korean Registration Practical Application No. 0273081 discloses a " silage bag for storage of raw materials for easy storage " in which agricultural byproducts can be stored and used as feedstuffs.

However, the above-mentioned simple storage silo bag as described above merely provides a function of storing agricultural by-products feed, and when agricultural by-products are stored for a long time in a humid summer season, agricultural by-products are corrupted and deteriorated or contaminated with fungi or pathogens, .

Therefore, there is a need for a method that can efficiently utilize the by-product feed without loss.

Korean Registration Practical Usage No. 0273081 "Silk storage bag for forage storage"

SUMMARY OF THE INVENTION The present invention has been made to overcome the above problems, and it is an object of the present invention to provide a first-in first-out method of fermenting by-products, which sequentially ferments and discharges by-product feeds generated in the process of producing agricultural products or foods, System.

It is another object of the present invention to provide a by-product feed fermentation storage system capable of precisely controlling the internal temperature of a fermentation storage unit for fermenting and storing a by-product feed to a temperature suitable for fermentation.

According to an aspect of the present invention, there is provided a fermentation storage device comprising a by-product feeder for feeding a by-product feed, a mixing part for mixing the by-product feed with an fermentation agent, and a fermentation storage part for fermenting the mixed feed mixed from the mixing part And the fermentation storage unit is a first-in first-out system in which the mixed feed is sequentially fermented and discharged in the order of input.

The fermentation storage unit may include a fermentation storage tank having a storage space formed therein, an inlet formed at an upper portion thereof, an outlet formed at a lower portion thereof, and a temperature control unit for controlling an internal temperature of the fermentation storage unit.

The temperature control means includes a temperature jacket provided to surround the outer surface of the fermentation storage tank and having a housing space therein, a cold / hot water supply unit for supplying cold water or hot water to the accommodation space, and a cold / hot water supply unit It is more preferable to include a control unit for adjusting the amount.

A feed line for feeding the mixed feed from the mixing unit to the inlet of the fermentation storage tank and a discharge line for discharging the fermented mixed feed discharged from the outlet of the fermentation storage tank to the rear, And a connection portion between the discharge line and the discharge port are formed in a sealed structure.

The by-product feeder further includes a dry by-product feeder and a wet by-product feeder, and a sterilizer installed between the wet by-product feeder and the mixer to sterilize the wet by-product feed, A feed pipe for feeding the wet by-product feed and a feed screw therein, a feed pipe for feeding the wet by-product feed discharged from the hopper in one direction, and a feed pipe for feeding the wet by- And a steam supplier for supplying steam heated by the plurality of nozzles and the plurality of nozzles.

In addition, it is preferable to further include a packing unit for packing the fermented feed supplied from the fermentation storage unit.

It is further preferable that the method further comprises a mixing unit for mixing a roughage feeder for feeding the roughage and a fermented feed supplied from the fermentation storage unit supplied from the roughage feeder.

It is further preferable that the method further comprises a blending feeder for feeding the blended feed and a blending part for blending the blended feed fed from the blended feed feeding part and the fermented feed supplied from the fermentation storage part.

It is further preferable that the fermented feeder further comprises a packing unit for packing the fermented feed supplied from the fermentation storage unit and the fermented feed supplied from the mixing unit.

According to another aspect of the present invention, there is provided a method of controlling an animal feed, comprising: a forage feeder for feeding a forage, a compounded feeder for feeding the compounded feed, a by-product feeder for feeding the feed, And a fermentation storage unit for mixing and fermenting the mixed feed from the mixing unit, wherein the fermentation storage unit is a first-in first-out system for sequentially fermenting and discharging the mixed feed in the order of input A feed-through fermentation storage system is provided.

Further, it is preferable to further include a packing unit for packing the fermented feed supplied from the fermentation storage unit.

According to the present invention, the by-product feed can be prevented from being fermented and discharged due to the first-in first-out method in which the by-product feed is sequentially fermented and discharged in the order of input.

In addition, by-first-in-first-out method in which the by-product feed is sequentially fermented and discharged in the order of input, it is possible to carry out a continuous process. Thus, the total mixed feed It is possible to manufacture a fully mixed fermented feed (TMF) by simple application to the total mixed ration (TMR) manufacturing process.

In addition, by using a relatively inexpensive by-product feed, it can greatly contribute to the reduction of feed costs of the livestock farmers.

In addition, by precisely controlling the internal temperature of the fermentation storage tank in which the by-product feed is fermented, by providing an optimum temperature suitable for fermentation, the by-product feed is prevented from being deteriorated in the fermentation process, and the fermentation efficiency is further improved.

FIG. 1 schematically illustrates a by-product feed fermentation storage system according to an embodiment of the present invention.
2 is a schematic view showing a sterilizing unit according to an embodiment of the present invention.
3 is a schematic view showing a fermentation storage tank of a fermentation storage unit according to an embodiment of the present invention.
FIG. 4 schematically illustrates a by-product feed fermentation storage system according to another embodiment of the present invention.
5 is a schematic view of a by-product feed fermentation storage system according to another embodiment of the present invention.

Hereinafter, the present invention will be described in detail with reference to the drawings. It is to be noted that like elements in the drawings are represented by the same reference numerals as possible. Further, detailed description of known functions and configurations that may unnecessarily obscure the gist of the invention will be omitted.

FIG. 1 is a schematic view of a by-product feed fermentation storage system according to an embodiment of the present invention. FIG. 2 is a schematic view showing a sterilizing unit according to an embodiment of the present invention, FIG. 2 is a schematic view showing a fermentation storage tank of a fermentation storage unit according to an embodiment of the present invention.

1 to 3, a by-product feed fermentation storage system 1 according to an embodiment of the present invention includes a by-product feed feeding unit 10, a sterilizing unit 20, a mixing unit 30, a fermentation storage unit 40 And a packaging unit 50. [0033]

Prior to the description of the present invention, the by-product feed refers to a secondary product that can be used as a feed for livestock such as nuts and pulses from the production process of agricultural products or foods, and includes a fermented microorganism such as beer, malt, Non-fermented starch, citrus, apple, tofu, mushroom, maize, and manganese.

The by-product feeder 10 includes a dry by-product feeder 11 and a wet by-product feeder 12.

The dry by-product feed unit 11 measures the dry by-product feed that does not contain moisture in the by-product feed, particularly the powdered by-product feed, and supplies the feed to the mixing unit 30 described later.

The wet by-product feed unit 12 measures the by-product feed having a high water content in the by-product feed and supplies the by-product feed to a mixing unit 30 to be described later.

Such a by-product feeder 10 may include a dry by-product feeder (not shown) to produce a mixed feed having a moisture content of 30% to 40%, which is a moisture content suitable for fermentation, 11 and the wet by-product feed section 12 and the by-product feed having a high moisture content are suitably metered and supplied to the mixing section 30. [

Thus, a separate work process and apparatus for removing the moisture of the wet by-product feed supplied to the wet by-product feed unit 12 are not required, thereby improving the productivity and reducing the production cost.

Since the wet by-product feed having a high moisture content may be deteriorated or contaminated with pathogens during transportation and storage, the sterilization unit 20 is further provided between the wet by-product feed unit 12 and the mixing unit 30 desirable.

The sterilizing section 20 is for sterilizing the wet by-product feed supplied from the wet by-product feed section 12 to the mixing section 30 to be described later and includes a hopper 21, a feed pipe 22 ), A nozzle (23) and a steam supply (24).

The hopper 21 serves to store and discharge the wet by-product feed supplied from the wet by-product feed section 12.

The transfer pipe 22 is provided with a transfer screw 22a therein and serves to transfer the wet by-product discharged from the hopper 21 in one direction.

A plurality of nozzles 23 are provided along the feeding path of the wet by-product feed on one side of the inner surface of the feed pipe 22 and spray the high-temperature high-pressure steam to the wet by-product feed conveyed through the feed pipe.

The steam supply 24 serves to supply the high-temperature, high-pressure steam to the plurality of nozzles 23.

As described above, the present invention can sterilize wet by-products more reliably by spraying high-temperature and high-pressure steam to the wet by-products conveyed in one direction and continuously sterilizing them.

The mixing part 30 mixes the dry by-product feed supplied from the dry by-product feed part 11 and the wet by-product feed supplied from the wet by-product feed part 12 with the fermentation agent to produce a mixed feed.

This mixing unit 30 is provided with an fermentation agent feeding means 31 for feeding an fermentation agent for mixing with the dry by-product feed and the wet by-product feed. The fermentation agent feeding means 31 includes a liquid molasses feeder 31a, And a feed tank 31b.

The molasses molasses feed tank 31a serves to supply molasses molten to the mixing section 30. [

Herein, the liquid molasses is used as an energy source in the process of fermenting the mixed feedstuff by using the sugar component as a carbon source, and the liquid yeast supplied from the liquid yeast feed tank 31b to the mixing unit 30 to be described later.

The liquid yeast feed tank 31b serves to supply the liquid yeast for fermenting the dry by-product feed and the wet by-product feed to the mixing unit 30. [

The fermentation storage unit 40 receives the mixed feed from the mixing unit 30, stores the mixed feed, and fermentes the mixed feed.

The fermentation storage section (40) includes a fermentation storage tank (41) and a temperature control means (42).

As shown in FIG. 3, the fermentation storage tank 41 is provided with a storage space therein, an inlet 41a through which the mixed feed mixed through the mixing unit 30 is introduced, And an outlet 41b through which the fermented feedstuff fermented is discharged.

Due to the above structure, the fermentation storage tank 41 can ferment and discharge the mixed feeds sequentially in the order of input.

Thus, the mixed feed introduced into the fermentation storage tank 41 is prevented from being fermented and discharged, and the continuous feed process can be performed by the first-in first-out method in which the mixed feed is sequentially fermented and discharged in the order of input.

In addition, the fermentation storage tank 41 provides a space for anaerobic fermentation of the mixed feed by the yeast supplied through the fermentation medium feeding means 31, and it is preferable that the fermentation storage tank 41 has a closed structure.

The temperature control means 42 is for maintaining the internal temperature of the fermentation storage tank 41 at a temperature suitable for fermentation in the winter when the temperature is low and includes the temperature jacket 42a, the cold / hot water supply unit 42b and the control unit 42c .

The temperature jacket 42a is installed to surround the outer surface of the fermentation storage tank 41, and a receiving space S is formed therein.

The cold / hot water supply unit 42b serves to supply cold water or hot water to the accommodation space S of the temperature jacket 42a.

The control unit 42c adjusts the relative supply amount of the cold water or the hot water supplied to the accommodation space S of the temperature jacket 42a through the cold / hot water supply unit 42b and supplies it to the accommodation space S of the temperature jacket 42a Thereby controlling the temperature inside the fermentation storage tank 41 to be maintained at a temperature suitable for fermentation of 20 ° C to 40 ° C by controlling the temperature of the cold water or the hot water.

As described above, the present invention provides an optimum temperature suitable for fermentation by precisely controlling the internal temperature of the fermentation storage tank through the temperature control means 42, thereby preventing deterioration of the by-product feed during the fermentation process, .

Meanwhile, the by-product feed fermentation storage system 1 according to an embodiment of the present invention includes a feed line (not shown) for feeding a mixed feed from the mixing unit 30 to the inlet 41a of the fermentation storage tank 41, And a discharge line (not shown) for discharging the fermented mixed feed discharged from the discharge port 41b of the storage tank 41 to the rear and connected to the inlet 41a of the fermentation storage tank 41 (Not shown) and the outlet 41b of the fermentation storage tank 41 are formed in a closed structure.

Thus, the mixed feed supplied to the fermentation storage tank 41 and the fermented mixed feed discharged from the fermentation storage tank 41 are prevented from coming into contact with air, thereby improving the fermentation quality of the by-product feed contained in the mixed feed, For a long time.

The packaging unit 50 serves to pack the fermented feed supplied from the fermentation storage unit 40 so that the fermented feed can be supplied to the livestock farmhouse.

As described above, the fermented feed prepared by using the relatively inexpensive by-product feed through the present invention is supplied to the livestock farm and mixed with the forage or compound feed, thereby contributing to the reduction of the feed cost of the livestock farm.

In addition, in the case of fermented feed, digestion and absorption rate is better than that of non-fermented feed, so that the increase in the amount of livestock and the amount of milk produced in the livestock farm, and the quality of milk and meat are improved.

FIG. 4 schematically illustrates a by-product feed fermentation storage system according to another embodiment of the present invention.

Referring to FIG. 4, the by-product feed fermentation storage system according to another embodiment of the present invention further includes a forage feed supplier 60, a feed feeder 70, and a blender 80, Since the configurations are the same as those of the embodiment of the present invention, a detailed description thereof will be omitted.

The roughage feeder 60 serves to meter the roughage and supply it to a mixing portion to be described later.

Here, forage refers to feeds with high fiber content such as grasses, hay, silage, rice straw, and low plasticizing component content.

The compounded feeder 70 serves to meter the compounded feed and feed it to the compounding portion described later.

Mixed feed refers to a feed containing the nutrients necessary for livestock as a bone mixture by mixing additives with concentrated feed.

Concentrated feed means feeds such as cereals, bean curd, shrimp and the like, which have a low fiber content and a high plasticizing component, and the additives include minerals, vitamins, amino acids, antibiotics, probiotics and buffering agents.

The compounding portion 80 appropriately mixes the compounding feed supplied from the roughage feeder 60 or the compound feed supplied from the compound feed feeder 70 and the fermented feed supplied from the fermentation storage 40 to form a complete mixed fermented feed Total Mixed Fermentation (TMF).

As described above, the by-product feed fermentation storage system 1 according to another embodiment of the present invention includes a first-in-first-out fermentation storage unit 40 for successively fermenting and discharging mixed feeds in the order of input, (TMF), which can be easily applied to the production process of total mixed ration (TMR), which can produce the total mixed feed (TMR) Is possible.

5 is a schematic view of a by-product feed fermentation storage system according to another embodiment of the present invention.

5, the by-product feed fermentation storage system 1 according to another embodiment of the present invention is the same as that of the other embodiments of the present invention, but includes a roughage feeder 60, a compound feeder 70, The fermentation agent is mixed with the fermentation agent through the mixing section and the fermentation storage section 40 is used to mix the feedstuffs fed from the feed section 10 through the fermentation storage section 40, .

The by-product feed fermentation storage system 1 according to another embodiment of the present invention as described above simply adds the fermentation storage unit 40 to the total mixed feed (TMR) production process using the by-product feed, It is possible to easily produce a total mixed fermentation (TMF).

Although the present invention has been described in connection with the preferred embodiments, it is possible to make various modifications and variations without departing from the spirit and scope of the invention. It is, therefore, to be understood that the appended claims will include all such modifications and changes as fall within the true spirit of the invention.

1: By-product feed fermentation storage system
10: by-product feed section 11: dry by-product feed section
12: wet by-product feed section 20: sterilizing section
21: hopper 22: transfer pipe
22a: Feed screw 23: Nozzle
24: steam feeder 30: mixing part
31: fermenting agent feeding means 31a: liquid molasses feeding tank
31b: Liquid yeast supply tank 40: Fermentation storage unit
41: fermentation storage tank 41a: inlet
41b: outlet 42: temperature control means
42a: a temperature jacket 42b: a cold / hot water supply unit
42c: control unit 50:
60: Forage feeder 70: Mixed feeder
80: compounding part S: accommodation space

Claims (11)

A by-product feeder for feeding a by-product feed;
A mixing part for mixing the by-product feed with an fermentation agent;
And a fermentation storage unit for receiving and mixing fermented mixed feed from the mixing unit,
Wherein the fermentation storage unit is a first-in first-out system for sequentially fermenting and discharging the mixed feed in the order of input. The method according to claim 1,
The fermentation storage unit
A fermentation storage vessel having a storage space formed therein, an inlet port formed at an upper portion thereof, and a discharge port formed at a lower portion thereof;
And a temperature control means for controlling an internal temperature of the fermentation storage tank. 3. The method of claim 2,
The temperature control means
A temperature jacket installed to surround the outer surface of the fermentation storage tank and having a receiving space therein;
A cold / hot water supply unit for supplying cold water or hot water to the accommodation space;
And a control unit for controlling the amount of cold water or hot water supplied from the cold / hot water supply unit. 3. The method of claim 2,
A feed line for feeding the mixed feed from the mixing unit to the inlet of the fermentation storage tank;
And a discharge line for discharging the fermented mixed feed discharged from the outlet of the fermentation storage tank to the rear,
Wherein the connection portion between the feed line and the inlet and the connection portion between the discharge line and the outlet are formed in a closed structure. The method according to claim 1,
And an injecting means for injecting the fermentation agent into the mixing portion,
The fermenting agent injecting means
A liquid molasses feeder for feeding liquid molasses to the mixing portion;
And a liquid yeast supply tank for supplying liquid yeast to the mixing portion. The method according to claim 1,
Wherein the by-product feed section comprises a dry by-product feed section and a wet by-product feed section,
Further comprising a sterilizing section installed between the wet by-product feed section and the mixing section for sterilizing the wet by-product feed,
The sterilizing portion
A hopper into which the wet by-product feed is introduced;
A feed pipe having a feed screw therein and feeding the wet by-product feed discharged from the hopper in one direction;
A plurality of nozzles installed at one side of the inner surface of the transfer tube along a transfer path of the wet byproduct;
And a steam supplier for supplying steam heated by the plurality of nozzles. The method according to claim 1,
A roughage supply unit for supplying the roughage;
Further comprising a mixing unit for mixing the forage supplied from the roughage feeder with the fermented feed supplied from the fermentation storage unit. The method according to claim 1,
A compounded feeder for feeding the compounded feed;
Further comprising a blending unit for blending the blended feed fed from the blended feed feeding unit with a fermented feed fed from the fermentation storing unit. 9. The method according to any one of claims 1 to 7,
And a packing unit for packing the fermented feed supplied from the fermentation storage unit and the fermented feed supplied from the mixing unit. A roughage supply unit for supplying the roughage;
A compounded feeder for feeding the compounded feed;
A by-product feeder for feeding a by-product feed;
A mixing part for mixing the above forage, the compounded feed, and the by-product feed with an fermentation agent;
And a fermentation storage unit for receiving and mixing fermented mixed feed from the mixing unit,
Wherein the fermentation storage unit is a first-in first-out system for sequentially fermenting and discharging the mixed feed in the order of input. 11. The method of claim 10,
And a packing unit for packing the fermented feed supplied from the fermentation storage unit.

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