KR200361336Y1 - Equipment for manufacturing highly functional, full fat-activated raw soybean flour that is stabilized by using nitrogen - Google Patents

Abstract

The present invention relates to an apparatus for preparing stabilized high functional battery-activated raw soybean fine powder using nitrogen.

Conventional high functional battery-activated raw soybean fine powder preparation device has a larger surface area in the coarse grinding process for grinding raw soybeans with a particle size of 80 mesh, the fine grinding process for grinding raw soybeans with a particle size of 300-600 mesh, and the classification process for separating particle sizes. Since normal air is supplied to the surface of battery-activated fresh soybean fine powder with air volume of 15㎥ / min, oxygen in this general air and lipid component of 18% soybean (18%) are not heated or absorbed at higher temperature than room temperature. The chemical reaction occurs by the automatic oxidation, which is a naturally occurring rancid, and the coagulation process of raw soybean, and the heating oxidation, which is an oxidation that occurs at a relatively high temperature of frictional heat during the grinding of the grinding process, and the carcinogens such as peroxides, aldehydes and ketones. By reducing the inherent effective ingredients and nutritional value of soybeans to produce a high functional battery-activated fresh soybean fine powder that maintains the stability of quality Difficulties and there is a problem such that the quality of the packaging is reduced when soy production highly functional cell activity did not fine powder in a nitrogen-filled packaging process. This design uses 99.9% of nitrogen through a dehumidifier, air filter, and nitrogen transfer doctor at a temperature of 2 ℃ ~ 5 ℃, 15㎥ / min wind speed, and 20 ~ 22m / sec wind speed, and low temperature shock milling process. By circulating and supplying soybeans to low temperature impact coarse grinding process, low temperature impact fine grinding process and particle size separation process, the chemical reaction of automatic oxidation and heat oxidation It does not occur, and the packaging with nitrogen filling at the time of packaging not only improves the quality of the high functional battery-activated soybean fine powder due to the low peroxide price, but also stabilizes the high functional battery-activated soybean fine powder with low homogeneous peroxide value. Would have to provide.

Description

Equipment for manufacturing highly functional, full fat-activated raw soybean flour that is stabilized by using nitrogen

The present invention relates to a device for the production of stabilized high functional battery-activated soybean fine powder using nitrogen, and in particular, the lipid component (18% to 20%) in the battery-activated soybean fine powder during the grinding of soybeans is supplied for transport. It causes automatic oxidation chemical reaction with oxygen in the air, and carcinogens such as aldehydes and ketones, which are peroxides, are produced by chemical oxidation of heat oxidation by frictional heat during grinding. The present invention relates to an apparatus for preparing a stabilized high functional battery active soybean fine powder, which is capable of producing a homogeneous and high-quality stabilized high functional battery-activated soybean fine powder. Conventional soybean powder production method comprises the steps of selecting raw soybeans; Hot-air drying to facilitate grinding of the soybeans; A stripping separation step of stripping soybean shell; Injecting the peeled soybean into a grinder to grind the grain into 100 mesh; Is made of. However, such a conventional soybean powder production method is the production of whole soybean and soybean milk, which does not generate sewage and waste water due to inactivation and loss of nutrients of soybean oil due to high temperature drying (80 ° C to 90 ° C) in the drying step described above. There was this impossible problem. Therefore, the present inventors have developed a high functional battery-activated raw soybean fine powder manufacturing apparatus (Utility Model Registration No. 263191). The high functional battery-activated green soybean fine powder production apparatus of the registration design and the sorting step of raw soybeans; First low temperature far infrared drying step and cooling step; Peel the shell of raw soybean, separate the cotyledon and soybean hull, and then dry the 2,4-half of the active bean in the far-infrared dryer, grind it to a particle size of 80 mesh in the low-temperature impact grinder, and then dry it with a moisture content of 3-5% in the far-infrared dryer. After crushing into particle size 300 ~ 600 mesh in low temperature impact grinding machine, it separates particle size from particle size separator to produce high functional battery-activated soybean fine powder. There is an advantage such as being able to produce.

However, the high functional battery-activated raw soybean fine powder manufacturing apparatus of the registered design has the following problems.

① Oxygen in the air and lipid components in the soybean during the feeding of feed air at low temperature impact coarse grinding, grinding and particle size separation process, and self-generated frictional heat of the mill during automatic oxidation and grinding Oxygen and lipids in the water cause a chemical reaction of heat oxidation to generate carcinogens such as aldehydes and ketones, which are peroxides, resulting in inferior active ingredients and nutritional value of soybeans and high peroxides. There was a problem.

② By packaging the high functional cell-active raw soybean fine powder in general, oxygen and lipid components in the soybean genera were generated by peroxidation by automatic oxidation or heat oxidation, which resulted in a problem of instability of the product.

Accordingly, an object of the present invention is to provide a device for producing a stabilized high functional battery active soybean fine powder using 99.9%, which enables to produce a homogeneous stabilized high functional battery active soybean fine powder at all times regardless of the skill of the operator. I will.

1 is a process diagram showing the configuration and process of the apparatus for producing a stabilized high functional battery-activated raw soybean fine powder using nitrogen according to the present invention

Explanation of symbols on main parts of drawing

1: bucket elevator 10: bucket elevator

2: primary fresh soybean storage tank 11: one-dimensional infrared drying device

3: Screw Conveyor 12: Strand Conveyor

4: rocket elevator 13: rocket elevator

5: Foreign material sorter 14: 3rd raw soybean storage tank

6: Screw Conveyor 15: Screw Conveyor

7: rocket elevator 16: rocket elevator

8: secondary fresh soybean storage tank 17: stripper

9: Screw Conveyor 18: Strand Conveyor

19: rocket elevator 39: 1-dimensional core separator

20: two-dimensional infrared dryer 40: rotary valve

21: screw conveyor 41: constant feed

22: rocket elevator 42: low temperature impact grinding machine

23: nitrogen generator 43: particle size separator

24: dehumidifier 44: rotary valve

25: air filter 45: back filter

26: valve 46: blower

27: valve 47: blower

28: 1st line filter 48: 2D core separator

29: 2nd line filter 49: auxiliary tank

30: primary cooler 50: rotary valve

31: 2nd cooler 51: Product tank

32: cooling storage tank 52: rotary valve

33: rotary valve 53: nitrogen filling packaging device

34: Shooter 54: Valve

35: constant feed 55: foreign matter removal magnetic device in the inlet

36: low temperature impact type pulverizer 56: magnetic device to remove foreign substances in the inlet

37: rotary valve 57: 99.9% nitrogen transfer doctor

38: Primary Bag Filter

In order to achieve the object of the present invention, a bucket elevator is connected to the outdoor stored soybeans, the first raw soybean storage tank is stored soybeans; A foreign matter sorter connected to a screw conveyor and a bucket elevator under the primary fresh soybean storage tank, and the foreign matter separating means of raw soybeans is built in; A secondary raw soybean storage tank connected to a screw conveyor and a bucket elevator under the foreign matter sorter; A primary far-infrared drying apparatus connected to a screw conveyor and a bucket elevator under the secondary fresh soybean storage tank and provided with a far-infrared drying means; A third raw soybean storage tank connected to a screw conveyor and a bucket elevator under the one-dimensional infrared drying device; A stripper machine connected to the third raw soybean storage tank with a lower screw conveyor and a bucket elevator and compressing the raw soybeans so that the raw soybean hulls and the cotyled soybeans and the separating means are built; A secondary far-infrared drying device connected to the stripper lower screw conveyor and a bucket elevator and provided with a far-infrared drying means; A cold storage tank connected to a screw conveyor and a bucket elevator to the lower portion of the 2D infrared drying apparatus and storing raw soybean to which a 99.9% nitrogen transfer doctor is connected; The cooling storage tank is connected to a valve, chute, and constant feed at the bottom, and has a supply of 99.9% nitrogen with 15㎥ / min air volume and a 20m ~ 22m / sec wind speed supply pipe, and a magnet device for removing foreign substances at the upper inlet and a fixed rotor inside. And a low temperature impact pulverizer in which coarse pulverization means of a rotary rotor and a pin mill rotate at 2500 rpm to 3000 rpm; A primary centrifuge having a rotary valve connected to the low temperature shock tank crusher and having a means for separating a battery active soybean fine powder and nitrogen; The 1D core separator upper discharge port, the dust collector blower, the primary cooler and the primary line filter are connected to the lower portion of the primary centrifuge by a rotary valve and constant feed, and 99.9% nitrogen is 15㎥ / min air volume and 20 A low temperature shock pulverizer having a supply pipe with a wind speed of ˜22 m / sec, a magnet device for removing foreign substances in the inlet, a fixed rotor, a rotating rotor rotating at 1500 rpm to 2000 rpm, and a fine grinding means of a pin mill; A particle size separator having a means for separating the particle size of the battery active green soybean fine powder connected to the upper discharge port of the low temperature shock mill; A secondary centrifuge connected to the particle size separator lower rotary valve and a primary centrifuge, connected to the particle size separator upper discharge port, and equipped with means for separating the battery active soybean fine powder and nitrogen; The secondary centrifuge top discharge port, dust collector, blower, secondary cooler and secondary line filter, and connected to the secondary tank and rotary valve in the lower secondary centrifuge, high functional battery active soybean fine powder finished product Product tank to store; Stabilized high functionality using nitrogen consisting of; comprising a nitrogen packing device connected to the rotary valve under the product tank and a means for filling nitrogen into the unit packaging required for high functional battery active fresh soybean fine powder; In the apparatus for producing battery-activated fresh soybean fine powder, a nitrogen generator, a dehumidifier, an air filter, and 99.9 for supplying 99.9% of cold-dried nitrogen to the low temperature impact coarse grinder, the low temperature impact fine grinder, and the particle size separator. Provided is a device for producing a stabilized high functional cell-active soybean fine powder using nitrogen, which comprises a% nitrogen transfer doctor.

Hereinafter, the apparatus for producing a stabilized high functional battery-activated soybean fine powder using nitrogen according to the present invention will be described in detail according to the embodiment shown in the accompanying drawings. 1 is a process chart showing the components and processes of the manufacturing apparatus of the stabilized high functional battery-activated fresh soybean fine powder using nitrogen according to the present invention. As shown in FIG. 1, the apparatus for producing a stabilized high functional battery-activated green soybean fine powder using nitrogen according to the present invention includes a bucket elevator (1) connected to the amount of stored soybean, and the bucket elevator (1) and The first raw soybean storage tank (2) connected to, the foreign matter sorter (5) connected to the screw conveyor (3) and the bucket elevator (4) under the primary fresh soybean storage tank (1), and the foreign matter sorter (5) ) The screw conveyor (6), the bucket elevator (7) and the secondary fresh soybean storage tank (8) are connected to the lower part and connected to the screw conveyor (9) and the bucket elevator (10) at the lower part for far-infrared drying. The third raw soybean storage tank 14 and the third raw soybean storage tank 14 installed in connection with the screw conveyor 12 and the bucket elevator 13 under the one-dimensional infrared ray drying apparatus 11 and the one-dimensional infrared drying apparatus 11 Screw Conveyor (15) and Barquetelle under Storage Tank (14) A stripper 17 connected to the baiter 16, a lower screw conveyor 18 connected to the stripper 17, and a 2D infrared dryer 20 connected to the bucket elevator 19 and a lower screw of the 2D infrared dryer 20. Conveyor 21 and the bucket elevator 22 is connected to the cooling storage tank 32 and the lower rotary valve 33 and the shooter 34 and the constant feed 35 installed in the cooling storage tank 32 The low-temperature shock coarse crusher 36 having a magnet device 55 for removing foreign substances in the upper inlet, a fixed rotor, a rotary rotor rotating at 2500 rpm to 3000 rpm, and a grinding means of a pin mill, and the low temperature shock coarse crusher ( The rotary filter 37 and the primary centrifuge 39 and the bag filter 38 and the blower 46 and the primary cooler 30 and the primary connected to the upper end of the primary centrifuge 39 are connected to the primary valve 36. Connection between rotary valve 40 and constant feed 41 at the bottom of line filter 28 and primary centrifuge 39 Low-temperature impact fine crusher 42 with a magnetic rotor device 56 for removing foreign matters in the upper inlet and a rotary rotor rotating at 1500 rpm to 2000 rpm and a grinding means of a pin mill, and the low temperature shock pulverizing machine ( 42) a two-dimensional particle size separator 43 installed at an upper portion thereof, a two-dimensional core separator 39 connected to a lower rotary valve 44 of the particle size separator 43, and a two-dimensional portion installed at a side surface of the particle size separator 43; It is connected to the bag filter 45, the blower 47, the secondary cooler 31 and the secondary line filter 29 installed in the upper portion of the core separator 48, the auxiliary installed in the lower two-dimensional core separator 48 The tank 49 and the rotary valve 50 and the product tank 51 are installed, and are connected to the rotary valve 52 at the lower part of the product tank 51 to form the nitrogen filling packaging device 53. Nitrogen generator 23, dehumidifier 24 and air filter 25 for supplying 99.9% of the dried nitrogen to the low temperature impact coarse crusher 36, the low temperature impact fine crusher 42 and the particle size separator 42. And 99.9% nitrogen transfer doctor (57).

Hereinafter, a process for producing a stabilized high functional battery active green soybean fine powder by using a device for producing a stabilized high functional battery active green soybean fine powder using nitrogen of the present invention will be described. First, to summarize the manufacturing process of the stabilized high functional battery-activated soybean micropowder using nitrogen of the present invention, the raw soybeans to the primary fresh soybean storage tank (2) to store and feed the soybeans, The raw soybeans storage tank (2) is supplied to the foreign matter sorter (5) by the screw conveyor (3) and the bucket elevator (4) and the secondary soybean storage tank (2) is picked up by the screw conveyor (6) and the bucket elevator (7). 8) After supplying and storing, the raw soybeans are transferred to the screw conveyor (9) and the bucket elevator (10) by a one-dimensional infrared drying apparatus (11), so that the soybeans having a water content of 20% to 18% and a soybean with a water content of 9% to 11% are stored. After drying by the deep-caloric energy of far-infrared radiator energy, transfer to the tertiary fresh soybean storage tank (14) with screw conveyor (12) and the bucket elevator (13), and then stripper (17) with the screw conveyor (15) and the bucket elevator (16). After compressing the raw soybeans by 2,4 equal parts, the shell and soy cotyledon of soybean After separation by centrifugation principle, soybeans dried with a deep-core deep-season condensed soybean with a screw conveyor (18) and a bucket elevator (19) with a moisture content of about 6% to 3% in the two-dimensional infrared dryer (20). ) And a bucket elevator 22 to the cold storage tank 32 to the valve 33 and the shooter 34 constant feed 35 to the upper inlet foreign material removal magnetic device 55 of the low-temperature impact type mill crusher 36. The soybeans stripped into 2 or 4 equal parts by the low temperature impact tank grinding method are pulverized into a particle size of 80 mesh, and 99.9% of nitrogen in the nitrogen generator 23 is 99.9% of nitrogen transfer doctor 57 through a dehumidifier ( 24) and the battery active raw material supplied to the low-temperature impact type mill crusher 36 at a flow rate of 15 m 3 / min at a temperature of 2 ° C. to 5 ° C. and a wind speed of 20 to 22 m / sec through the air filter 25. Soybean fine powder is conveyed to the one-dimensional core separator 39 through the rotary valve 37, the battery bow coarsely crushed into 80 mesh Separation of the adult soybean powder and 99.9% nitrogen, nitrogen is 99,9 through the bag filter 38, the blower 46 and the primary cooler 30 and the primary line filter 28 above the one-dimensional core separator 39. Nitrogen in% is circulated to the low temperature shock pulverizer 36. Meanwhile, the stabilized high functional battery-activated green soybean powder with low peroxide value pulverized to 80 mesh is rotated at 1500 rpm to 2000 rpm with the lower rotary valve 40 and the constant feed 41 of the one-dimensional core separator 42. After removing the foreign matter through the foreign material removal magnetic device 56 in the upper inlet and then transferred to the low temperature impact grinding machine 42, it is pulverized into a stabilized high functional battery-activated soybean fine powder having a low peroxide value of 300 to 600 mesh. On the other hand, in the nitrogen generator 23, a temperature of 2 ° C. that passes through the dehumidifier 24 and the air filter 25 through a 99.9% nitrogen transfer doctor 57 at a wind volume of 15 m 3 / min and a wind speed of 20 to 22 m / sec. 99.9% nitrogen at ˜5 ° C. was supplied to the low-temperature impact fine crusher 42 and pulverized to 300 to 600 mesh. The stabilized high functional battery-activated green soybean fine powder was passed through a particle size separator through a 99.9% nitrogen transfer doctor 57. Unnecessary particle size is transferred to the 43 to separate the particle size is transferred to the one-dimensional core separator 39 through the rotary valve 44 is transferred to the low-temperature impact grinding mill 42 and milled. Meanwhile, the required particle size is separated and transferred to the two-dimensional centrifuge 48 to separate the stabilized high functional battery-activated fresh soybean fine powder and 99.9% of nitrogen, so that nitrogen is separated from the upper bag filter 45, the blower 47 and the two. Circulated in the primary cooler 31 and the secondary line filter 23, the dried 99.9% nitrogen of 15 m 3 / min wind speed, 20-22 m / sec and the temperature 2 ℃ to 5 ℃ circulated to the low temperature impact grinding mill 42 The stabilized high functional battery-activated green soybean fine powder of 300-600 mesh, which is supplied and has a low peroxide value, is transferred to the auxiliary tank 49, the rotary valve 50, and the product tank 51 under the two-dimensional core separator 48. The high functional battery-activated soybean fine powder stabilized by transporting from the nitrogen filling packaging device 53 in the rotary valve 52 (water content of 3% to 5%) was packaged with nitrogen in EVOH film for hygienic and low peroxide The production of the high functional battery-activated fresh soybean fine powder is completed. Hereinafter, a process for preparing a stabilized high functional battery active green soybean fine powder by a device for preparing a stabilized high functional battery active green soybean fine powder using nitrogen of the present invention will be described.

[Selection process]

Raw soybean with moisture content of 21% -18% of primary storage tank (2) is transferred to foreign matter sorter (5) by screw conveyor (3) and bucket elevator (4) to sort foreign matter in fresh soybean.

[1st low temperature far infrared ray drying process]

Raw soybeans with 21% to 18% moisture content selected from the so-called thermal power of 50-60 ℃ far-infrared electromagnetic wave generated from the far-infrared radiator plate built in the primary infrared drying machine 11 without heat degeneration It is a process to dry with soybean with moisture content of 11% ~ 9%.

[Scrubbing process]

Soybeans having a water content of 11% to 9% are pressed to the peeling machine 17, so that the shells and cotyledon parts of the soybeans are separated by slicing into two or four equal parts.

[2nd low temperature far infrared ray drying process]

The soybean cotyledons (water content of 11% ~ 9%) divided into 2,4 parts are used as the cardiac calendar of far-infrared electromagnetic wave energy (60 ℃ ~ 40 ℃) generated from far infrared radiator plate without thermal denaturation in the second low temperature far infrared dryer (20). It is a process of drying at water content of 6% ~ 3%.

Nitrogen circulation supply process

Nitrogen generator 23 produces 99.9% of nitrogen, dehumidifier 24, air filter 25, 99.9% nitrogen transfer doctor 57, dried to 2 ℃ ~ 5 ℃ and 15 ㎥ / min air volume and 20 It is a process of circulating and supplying the low temperature impact type pulverizer 36, the low temperature impact type pulverizer 42, and the particle size separator 43 at ˜22 m / sec wind speed.

[Low Temperature Shock Milling Process]

Soybeans dried at a moisture content of 6% to 3% in the secondary far-infrared dryer (20) and divided into 2 and 4 equal parts are transferred to the cooling storage tank (32) through the screw conveyor (21) and the bucket elevator (22) to allow foreign substances to enter the upper inlet. When the low-temperature shock mill (36) is introduced into the low-temperature shock mill (36), the soybeans are ground to a mesh size of 80 mesh at a rotational speed of 2500 rpm to 3000 rpm, while the nitrogen generator (23) The produced 99.9% nitrogen is dried at 2 ° C.-5 ° C. in the dehumidifier 24, the air filter 25, the primary cooler 30, and the primary line filter 28 through the 99.9% nitrogen transfer doctor 57. By supplying the low temperature impact type grinder (36) with 15㎥ / min air volume and 20 ~ 22m / sec wind speed through 99.9% of nitrogen, the lipid component of soybean does not occur the chemical reaction of automatic oxidation and heat oxidation, and its particle size is low. 80 mesh stabilized high functional battery-activated soybean powder is prepared. Nitrogen lost while circulating 99.9% nitrogen transfer doctor 57 at a rate of 20 to 22 m / sec wind speed is supplied to the nitrogen generator 23 through the valve 27. Cold air of the cold storage tank 32 is supplied through the valve (54).

[Low Temperature Shock Grinding Process]

Stabilized high functional battery-activated green soybean powder with a low peroxide value of 80 mesh was transferred to the one-dimensional core separator 39 through a rotary valve 37 in a low-temperature shock-crude grinder 36 with 99.9% nitrogen and then particle size 80 Separating from the stabilized battery active soybean powder and 99.9% nitrogen of the mesh, 99.9% nitrogen is transferred to the bag filter 38, and the stabilized battery active soybean powder having a particle size of 80 mesh is a rotary valve 40 and constant feed. (41) is transferred to the low-temperature impact fine crusher 42 through the upper inlet debris removal magnetic device 56 and pulverized into a stabilized high functional battery-activated soybean flour fine powder of particle size 300-600 mesh at 1500rpm-2000rpm speed. The 99.9% nitrogen generated in the nitrogen generator 23 is dried 15 m 3/2 ° C ~ 5 ° C through the dehumidifier 24, the air filter 25, the 99.9% nitrogen transfer doctor 57 and the valve 26 min air volume and the wind speed of 20 ~ 22m / sec into the low-temperature impact grinding machine (42) The lipid component in the soybean is prepared by a high functional battery active raw soybean micropowder stabilization of a low particle size 300-600 mesh gwasanhwamulga does not cause a chemical reaction of the thermal oxidation and autoxidation.

[Particle size separation process]

The stabilized high functional battery-activated green soybean fine powder having a particle size of 300-600 mesh manufactured in the low temperature impact grinding machine (42) is transferred to the particle size separator (42) through the upper discharge port of the low temperature impact grinding machine (42) and separated into the required particle size. And the required particle size is less than the rotary valve 44 is transferred to the one-dimensional core separator 39 is a process of regrinding in the low-temperature impact grinding machine (42).

Nitrogen filling packaging process

The particle size separator 42 is transferred to the two-dimensional core separator 48 to separate 300 to 600 mesh stabilized high functional battery-activated green soybean fine powder and 99.9% of nitrogen, and nitrogen is transferred to the bag filter 45 to blower. (47) is circulated and conveyed from 300 to 600 mesh stabilized high functional battery active soybean fine powder to the product tank 51 through the rotary valve 50 and in the nitrogen filling packaging device through the rotary valve (52) In the EVOH film, a 99.9% nitrogen-filled particle size 300-600 mesh stabilized high functional battery-activated green soybean fine powder is packed in units to complete a highly stable and hygienic product.

As described above, the apparatus for producing stabilized high functional battery-activated fresh soybean fine powder using nitrogen according to the present invention is supplied with 99.9% of nitrogen at a flow rate of 15㎥ / min so that 18% of the lipid component in soybean is automatically oxidized or heated. Chemical oxidation of carcinogens such as aldehydes and kentons, such as peroxides, does not occur due to oxidation, and thus there is an effect that a stable, high functional battery-activated green soybean fine powder with low quality and hygienic peroxide value of uniform quality is always available. In addition, it produces 99.9% of nitrogen in the nitrogen generator, and separates and supplies the low-temperature shock mill and the low-temperature shock mill through a nitrogen transfer line with 15㎥ / min of wind volume and 20 ~ 22m / sec wind speed. In addition, the low temperature impact type pulverizer, low temperature impact type pulverizer, and particle size separator are circulated system and purified system to save 99.9% of nitrogen, which saves energy.

Claims (10)

A primary soybean storage tank in which a bake-elevator is connected to the outdoor stored soybean and the soybean is stored; A foreign matter sorter connected to a screw conveyor and a bucket elevator under the primary fresh soybean storage tank and having foreign matter separating means of raw soybeans; A secondary raw soybean storage tank connected to a screw conveyor and a bucket elevator below the foreign matter sorter; A primary far infrared drying device connected to a screw conveyor and a bucket elevator under the secondary fresh soybean storage tank and having a far infrared drying means; A tertiary fresh soybean storage tank connected to a screw conveyor and a bucket elevator under the one-dimensional infrared drying device; A peeler connected to the third screw soybean storage tank with a lower screw conveyor and a bucket elevator and compressing the raw soybeans so that the shells of the soybeans and the cotyled soybeans and the separating means are built; A secondary far infrared drying device connected to the stripper lower screw conveyor and a bucket elevator and provided with a far infrared drying means; A cold storage tank storing fresh soybeans connected to a screw conveyor and a bucket elevator under the secondary far infrared drying device and connected to a cooling nitrogen supply pipe; Valve, chute under the cold storage tank. It is connected by constant feed and a magnet device for removing foreign matters at 15㎥ / min air flow rate and 20 ~ 22m / sec wind speed supply pipe and upper inlet, and a fixed rotor inside and a rotating rotor and pin rotating at 2500rpm ~ 3000rpm Low temperature impact type crusher having a mill grinding means; A one-dimensional core separator having a rotary valve connected to the low temperature impact co-crusher and having a means for separating a battery active soybean fine powder and nitrogen; The top discharge port, dust collector, blower, primary cooler, and primary line filter of the 1D core separator are connected to the rotary valve and constant feed under the primary centrifuge. A low temperature impact grinding machine comprising a magnet device for removing foreign substances in the supply pipe and the upper inlet of the wind speed of ˜22 m / sec, a fixed rotor therein, a rotating rotor rotating at 1500 to 2000 rpm, and a fine grinding means of a pin mill; A particle size separator in which a means for separating the particle size of the battery-activated raw soybean fine powder connected to the upper discharge port of the low temperature impact grinding machine is built according to the standard; A two-dimensional core separator connected to the particle size separator lower rotary valve and a one-dimensional core separator and connected to a particle size separator upper discharge port, and having a means for separating battery active soybean fine powder and nitrogen; It is connected to the upper discharge port, dust collector, blower, secondary cooler and secondary line filter of the two-dimensional core separator, connected to the auxiliary tank and the rotary valve at the bottom of the secondary centrifuge, and finished high functional battery activated soybean fine powder A product tank for storing water; Nitrogen filling packing device in the lower part of the product tank; 99.9% of nitrogen in the low temperature shock tank mill, low temperature shock mill, particle size separator in the stabilized high functional battery active soybean fine powder production apparatus using nitrogen comprising a; Nitrogen generating device for supplying a dehumidifier, an air filter, 99.9% nitrogen transfer doctor comprising a stabilized high functional battery activated soybean fine powder manufacturing apparatus characterized in that it comprises a According to claim 1, wherein the nitrogen generator is 99.9% of nitrogen is generated, consisting of a dehumidifier and an air filter, the nitrogen generator is divided into two 99.9% nitrogen transfer doctor in a temperature of 2 ℃ ~ 5 ℃ 15㎥ / 99.9% nitrogen is supplied to the low temperature impact type pulverizer with the air volume of min and the wind speed of 20 ~ 22m / sec, and the low temperature impact is provided through the one-dimensional core separator, bag filter, blower, primary cooler, primary line filter and valve. Nitrogen, characterized in that the system is supplied to a low temperature impact grinding mill and supplied to a low temperature impact grinding mill through a two-dimensional core separator, a bag filter, a blower, a secondary cooler, a secondary line filter and a valve. High Performance Battery-Activated Fresh Soybean Fine Powder Manufacturing Equipment The stabilized high-functional battery using nitrogen according to claim 1, characterized in that it is composed of a magnetic device for removing foreign substances in the upper opening of the low-temperature shock tank pulverizer, a fixed rotor, a rotating rotor rotating at 2500rpm to 3000rpm, and a grinding means of a pin mill. Apparatus for producing activated soybean fine powder. The stabilized high-functional battery using nitrogen according to claim 1, characterized in that it is composed of a magnetic device for removing foreign substances in the upper opening of the low-temperature impact grinding machine, a fixed rotor, a rotating rotor rotating at 1500rpm to 2000rpm, and grinding means of a pin mill. Activated fresh soybean fine powder manufacturing equipment The apparatus for producing stabilized high functional battery-activated fresh soybean fine powder using nitrogen, characterized in that it comprises a nitrogen generator for producing 99.9% nitrogen and a 99.9% nitrogen transfer doctor for nitrogen transfer. In claim 2, the primary cooler, the primary line filter, the secondary cooler, the secondary line filter is installed on the 99.9% nitrogen transfer doctor using nitrogen, characterized in that to transfer nitrogen of 2 ℃ ~ 5 ℃ Stabilized High Functional Battery-Activated Green Soybean Fine Powder Manufacturing Equipment In claim 2, a blower is installed in the 99.9% nitrogen transfer doctor to stabilize the high functional battery active soybean fine powder manufacturing apparatus using nitrogen, characterized in that the transfer of nitrogen at a wind volume of 15㎥ / min and 20 ~ 22m / sec wind speed The apparatus of claim 2, wherein the dehydrator and the air filter are connected to the 99.9% nitrogen transfer doctor to transfer the dried nitrogen. The method according to claim 2, wherein the 99.9% nitrogen, characterized in that the one-dimensional centrifuge, the two-dimensional centrifuge, the bag filter is connected to the transfer doctor is installed to separate the 99.9% nitrogen and stabilized high functional cell-activated green soybean fine powder High Functional Battery-Activated Fresh Soybean Fine Powder Manufacturing Equipment According to claim 1, The particle size separator is a high-functional cell activity using nitrogen, characterized in that the separated particle size is transferred to the two-dimensional core separator and the non-separated particle size is transferred to the low-temperature impact grinding mill through a rotary valve Manufacturing device of green soybean fine powder