KR101865910B1

KR101865910B1 - Making device for raw food and making method for raw food using that

Info

Publication number: KR101865910B1
Application number: KR1020170092434A
Authority: KR
Inventors: 장진기
Original assignee: 장진기
Priority date: 2017-07-21
Filing date: 2017-07-21
Publication date: 2018-07-04

Abstract

The present invention relates to an apparatus for preparing uncooked powder, and a preparation method of uncooked powder using the same. The apparatus comprises: a washing unit which accommodates supplied materials for uncooked powder, and sprays washing water to remove foreign substances from the material for uncooked powder; a grinding unit which grinds the material for uncooked powder, discharged from the washing unit after the washing process has been finished, in a predetermined size or less, and then supplies the ground materials; a transfer conveyor on which the material for uncooked powder supplied by the grinding unit is seated to transfer the material for uncooked powder for a predetermined time; a sterilization unit which irradiates the material for uncooked powder supplied by the transfer conveyor with ultraviolet rays to achieve sterilization; a heating unit which jets high-temperature and high-pressure vapor to the material for uncooked powder passed through the sterilization unit and supplied to remove undesired odor or fishy smell from the material for uncooked powder; and a pressurization unit which confines the material for uncooked powder in order to prevent the material for uncooked powder from scattering due to jetting pressure when the heating unit jets vapor to the material for uncooked powder. The present invention is able to prevent an amount of a complete product of uncooked powder from being decreased due to a loss of material.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to a method for manufacturing a raw food,

The present invention relates to a reproductive manufacturing apparatus and a reproductive manufacturing method using the same. More particularly, the present invention relates to a reproductive manufacturing apparatus, Therefore, it is possible to prevent a smell from being produced when a user takes a meal, and it is possible to prevent loss of crushed germicidal materials when a heating operation is performed by spraying high-temperature and high-pressure steam, and a reproductive manufacturing method using the same .

As the income level of consumers increases and they are transformed into a rapid industrial society, they are becoming nuclear family, and their diet is rapidly changing.

In our diet, the utilization of processed foods and instant foods is remarkably increased, and the rate of consumption of meat, which is an animal food, is very high in cereal and vegetarian living. Such dietary habits are associated with overeating of nutritional and animal fat intake, causing obesity and adult illnesses, causing concern to the public health and fearing that the increase in the burden of medical expenses will have a negative impact on the national economy .

Of course, the intake of meat is not entirely bad. It is also a food that must be supplied to young children who are growing up and active youths.

However, excessive intake of meat is a problem. However, it can not be said that it is only good to eat food with only vegetable food. A proper balanced diet is the most recommendable.

The raw food is food derived from temples. It is as simple as the monks eat for the performance of the ginseng, and the burden on the stomach is small. The fiber is called the food of many kinds, Barley, soybean, chestnuts, walnuts, etc., are easily consumed in the form of powder, which is easy to store and easy to store.

In recent years, powdery foods, which can be called high-quality powdered flour, have been released in different names depending on the manufacturer. Fried foods such as brown rice, barley, beans, yulmu, glutinous rice, sesame and perilla are steamed and fried. It is used as a substitute for meals or diets for easy processing by processing and processing the nutrients so as not to destroy as much as possible.

Recently, the reproductive diet is divided into two categories depending on the function: infant formula, child nutrition reproduction, examinee nutrition reproduction, female beauty reproduction, general nutrition (dietary substitute, snack), healthy diet (diabetic, hypertensive, Diet, diet, etc. have been developed in various ways.

On the other hand, brown rice is a kind of vitamins not found in white rice, minerals and harmful substances in the body and decomposes the waste materials, so that constipation, gastrointestinal disease, skin disease is better, color and skin is better, according to the cure cure It is said that it makes it go through, makes five-odd, and makes the complexion good. And the brown rice embryo is the best nutrition-intensive food that stimulates skin cell activity, strengthens muscles and bones, and keeps youth always.

In addition, germinated brown rice is highly nutritious, and it can be efficiently digested and absorbed in brown rice, which has not been consumed in the body by unprocessed reproduction, and this malt is said to contain a large amount of SOD.

Yulmu is germanium because it contains anti-cancer effect is widely used in medicine from one to one, if you continue to eat stomach ulcers, neuralgia, diabetes, menstrual disorders, such as listening to the body to waste and waste the body, It is particularly good for pain, and it is passed on to Divine Materia Medica (ginseng 草經經) and 성 性性性本草草 한다고, which protects the lungs, strengthens the stomach, strengthens the spleen and treats allergies, warts and spots.

Various methods for producing reproductive foods have been proposed using raw materials of reproduction such as brown rice and yulmu.

When the light energy of the sun is transmitted to the earth, the plant stores the light energy of the sun through the photosynthesis. The herbivorous animal eats the plant and uses the energy stored in the plant. The predator eats the herbivorous animal, And when the carnivore dies, it decomposes and becomes the dung of the ground, and the plants use it again, and the energy circulates through the food chain.

In the process of this natural energy circulation, we must pay attention to the fact that all animals including insects, as well as all herbivorous and carnivals in nature, eat cattle or goats in the process of eating, and lions and tigers eat raw meats But it is part of nature like other animals, and it belongs to animals, but unlike other animals.

Reproduction means that the enzymes and nutrients contained in the food are eaten without destroying them, and the use of a cow means that the enzymes and nutrients contained in the food are destroyed and are eaten in a deteriorated state. It can be seen that enzymes and nutrients are more susceptible to disease because they are more susceptible to degeneration and deprivation than to reproduction.

BACKGROUND ART [0002] The background art of the present invention is disclosed in Korean Patent Laid-Open Publication No. 10-2012-0088123 (published on Aug. 18, 2012, entitled "Well-being Reproductive Composition and Method for Producing the Same").

Since the conventional method of manufacturing the reproductive composition is performed by lyophilizing and pulverizing various materials, when the user heats the food for eating, a specific odor and fishy smell unique to the materials are generated, There is a problem that the preference is lowered.

Therefore, there is a need for improvement.

The present invention can protect the health of the user by including various materials that help maintain health and eliminates the odor of the user by heating various materials, so that it is possible to prevent the user from smelling when eating, The present invention is directed to a reproductive manufacturing apparatus capable of preventing the loss of pulverized reproductive material when a heating operation is performed by spraying steam of a seed crystal.

The present invention relates to a washing machine comprising: a washing unit which is supplied with a reproductive material and accommodated therein, the washing water being sprayed to remove foreign matter from the reproductive material; A grinding unit for grinding the reproductive material discharged after the washing operation is finished in the washing unit to a predetermined size or less; A conveying conveyor on which the reproductive material supplied from the crushing unit is seated and which moves the reproductive material during the set time; A sterilizing unit for irradiating ultraviolet rays to the germ-line material supplied by the conveying conveyor to perform a sterilizing operation; A heating unit for spraying high-temperature and high-pressure steam to the germable material supplied through the sterilizing unit to remove odor or fishy smell from the germ-line material; And a pressurizing portion for restricting the reproductive material to prevent the reproductive material from being scattered by the ejecting pressure when the steam is injected from the heating portion onto the reproductive material.

Further, the washing section of the present invention may further comprise: a supply tank in which the reproductive material is desalinated; A cleaning nozzle for spraying wash water onto the supply tank; A drain pipe for guiding the wash water discharged from the supply tank to the outside of the supply tank; And a feed conveyor that extends from the feed tank to the outside of the feed tank and moves the reproductive material that has been cleaned to the crusher.

(A) 307 parts by weight of brown rice, 90 parts by weight of alpha-cone, 54 parts by weight of xylitol, 45 parts by weight of white rice, 45 parts by weight of wheat, 45 parts by weight of onion brown rice, 45 parts by weight of rice bran, 5 parts by weight of germinated brown rice, 5 parts by weight of germinated brown rice, 5 parts by weight of germinated brown rice, 5 parts by weight of germinated mung bean, 5 parts by weight of germinated brown rice, 5 parts by weight of germinated brown rice, 27 parts by weight of glutinous rice, 13 parts by weight of kale, 9 parts by weight of malt, 2 parts by weight of potatoes, 2 parts by weight of potatoes, 2 parts by weight of sweet potatoes, 2 parts by weight of carrot, 2 parts by weight of carrot, 2 parts by weight of pumpkin, 0.9 parts by weight of yeast, 0.9 weight part of sesame seeds, 0.9 weight part of black sesame seeds, 0.9 weight part of rottillard seeds, 0.9 weight part of crushed seeds, 0.9 weight part of uncooked rice, 0.9 weight part of burdock, 0.9 weight part of apple, 0.9 weight part of plum, 0.9 weight part of citron, 0.9 parts by weight of mackerel, 0.9 parts by weight of sea mustard, 0.9 parts by weight of sea mustard, 0.9 parts by weight of chlorella, 0.4 parts by weight of sea tangle, 0.4 parts by weight of ginger, 0.4 parts by weight of sea tangle 0.4 parts by weight of brambles, 0.4 parts by weight of brambles, 0.4 parts by weight of safflower seeds, 0.4 parts by weight of safflower seeds, 0.4 parts by weight of gum arabic, 0.4 parts by weight of gingerol, 0.4 parts by weight of gingerol, 0.4 parts by weight of mint, 0.4 parts by weight of gardenia, 0.4 parts by weight of Sukjiro, 0.4 parts by weight of Angelica keiskei, and 0.4 parts by weight of Wujian (hereinafter referred to as first material) into a washing tank and spraying wash water; (b) injecting the reproductive material discharged from the washing tank into a hopper constituting a crushing section, driving a cutting blade provided in the hopper to crush the reproductive material to a predetermined size or less; (c) irradiating ultraviolet rays while transferring the reproductive material discharged from the crushing unit to the sterilizing unit to eradicate the bacteria remaining in the reproductive material; And (d) feeding the reproductive material discharged from the sterilizing unit to the inside of the chamber, spraying the high-temperature and high-pressure steam in the chamber for a predetermined time to scrub the reproductive material to remove the odor .

In the reproductive manufacturing apparatus and the reproductive manufacturing method using the same according to the present invention, various materials are pulverized to a predetermined size, and a process of pulverizing the material by spraying high-temperature and high-pressure steam onto the material proceeds, Therefore, it is possible to prevent the user from feeling naturally when eating the food, and to increase the preference of the food.

In addition, the reproductive manufacturing apparatus and the reproductive manufacturing method using the reproductive manufacturing apparatus according to the present invention include a pressurizing unit that can prevent the pulverized materials having a predetermined size or less from being lost due to the jetting pressure when the steam is sprayed on the pulverized materials So that it is possible to prevent the amount of the finishing product from being reduced due to material loss.

1 is a block diagram showing a reproduction apparatus according to an embodiment of the present invention.
2 is an exploded perspective view showing a pressurizing portion and a steam supplying portion of the reproduction producing apparatus according to one embodiment of the present invention.
3 is a perspective view illustrating a steam supply unit of the reproductive manufacturing apparatus according to an embodiment of the present invention.
4 is a cross-sectional view illustrating a steam supply unit of the reproductive manufacturing apparatus according to an embodiment of the present invention.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, an embodiment of a reproductive manufacturing apparatus and a reproductive manufacturing method using the same according to the present invention will be described with reference to the accompanying drawings.

In this process, the thicknesses of the lines and the sizes of the components shown in the drawings may be exaggerated for clarity and convenience of explanation.

In addition, the terms described below are terms defined in consideration of the functions of the present invention, which may vary depending on the intention or custom of the user, the operator.

Therefore, definitions of these terms should be made based on the contents throughout this specification.

2 is an exploded perspective view of a pressurizing unit and a steam supply unit of a reproductive manufacturing apparatus according to an embodiment of the present invention, and FIG. 3 is an exploded perspective view of the reproductive- FIG. 4 is a cross-sectional view illustrating a steam supply unit of a reproductive-manufacturing apparatus according to an embodiment of the present invention. Referring to FIG.

Referring to FIGS. 1 to 4, a reproductive manufacturing apparatus according to an embodiment of the present invention includes a washing unit 10 that receives and stores a reproductive material and discharges washing water to remove foreign substances from the reproductive material, A crushing unit 30 for crushing and supplying the reproductive material discharged after completion of the washing operation in the crushing unit 10 to a preset size or less; A sterilizing unit 70 for sterilizing the germable material supplied by the transfer conveyor 50 by irradiating ultraviolet rays to the sterilizing unit, and a high-temperature high-pressure steam is supplied to the germable material supplied through the sterilizing unit A heating unit 80 for injecting the reproductive material into the reproductive material so as to remove odor or fishy smell from the reproductive material, and a reproductive material restraining unit 50 for preventing the reproductive material from being scattered by the ejecting pressure when the steam is sprayed from the heating unit 80 Includes a pressing portion (90).

In the reproductive manufacturing apparatus according to the present embodiment, since the reproductive material discharged from the crushing section 30 is seated on the conveying conveyor 50 and moved, the sterilization operation and the heating operation are performed, A separate operation for inputting or discharging the workpiece is not required, and continuous operation can be performed.

After the operator completes the work of injecting the reproductive material into the washing unit 10, the washing unit 10, the crushing unit 30, the sterilizing unit 70, the heating unit 80, and the pressing unit 90 The drying operation is continuously performed by the operation of the washing machine, so that it is possible to reduce the time and cost required for the washing operation, the crushing operation and the heating operation.

The sterilizing unit 70 of the present embodiment can be sterilized at low cost because the sterilizing operation and the drying operation are performed by the ultra violet ray low temperature dehumidifying dryer (UVLTDD) After processing, odor or fishy smell that may be generated in the reproductive material can be removed.

The cleaning unit 10 includes a supply tank 12 for discharging reproductive material, a cleaning nozzle 18 for spraying the cleaning water to the supply tank 12, and cleaning water discharged from the supply tank 12 into the supply tank 12 And a feed conveyor 19 that extends outside the feed tank 12 from the inside of the feed tank 12 and moves the reproductive material after the washing operation to the crushing unit 30 do.

The bottom surface of the supply tank 12 is provided with an inclined surface 14 inclined toward the supply conveyor 19. The inclined surface 14 is provided with a plurality of drain holes 14a through which the washing water is discharged, The washing water sprayed from the washing nozzle 18 installed on the upper part is drained to the inside of the inclined surface 14 through the drain hole part 14a after the foreign matter is removed by contact with the raw material, 16 to the outside of the supply tank 12.

The reproductive material sliding along the inclined plane 14 is transferred to the upper part of the crushing section 30 by the basket mounted on the feed conveyor 19 and the reproductive material is dropped from the feed conveyor 19 to be transported to the crushing section 30 .

The crushing section 30 includes a hopper 32 for guiding the reproductive material dropped from the feed conveyor 19 to the conveying conveyor 50 and a hopper 32 provided in the hopper 32, A hopper 32 for guiding the reproductive material dropped from the feed conveyor 19 to the cutting blade 34 side and a plurality of hoppers 32 arranged at a predetermined interval, A guiding panel 38 for guiding the reproductive material passing through the guide panel 38 and the cutting blade 34 to guide the reproductive material falling in one direction And a feeding roller 36 for pressing the feeding conveyor 50 to spread over the upper surface thereof.

A plurality of guide panels 38 are formed on one side of the inner wall of the hopper 32 opposite to the supply conveyor 19 with a predetermined interval being formed to reduce the cross sectional area of the passages formed in the hopper 32, 38), so that only the small-sized reproductive material is allowed to pass through.

A pair of cutting blades 34 are vertically provided on the other side of the inner wall of the hopper 32 and the pair of cutting blades 34 are disposed adjacent to the guide panel 38, The reproductive material to be dropped is guided to the cutting edge 34 side by the guide panel 38 and only the reproductive material cut smaller than the interval between the guide panels 38 is guided to the guide panel 38 38 and the cutting edge 34 and falls downward.

The conveying conveyor 50 includes guide rollers 52 arranged continuously from a lower side of the crushing section 30 to pass through the sterilizing section 70, the heating section 80 and the pressing section 90, A belt member 54 that is wound around a plurality of guide rollers 52 and circulates to transfer the reproductive material, a tension roller 56 that is arranged so as to be spaced away from the belt member 54 so as to pull out a part of the belt member 54, And a washing tub 58 through which a part of the belt member 54 pulled outward by the tension roller 56 is passed and the washing water is drained.

A plurality of guide rollers 52 are continuously provided at a lower side of the crushing unit 30 with a predetermined interval therebetween and the guide rollers 52 are connected to the sterilizing unit 70, the heating unit 80, (90).

A belt member 54 is provided to enclose a plurality of guide rollers 52 and a washing tub 58 is provided below the crushing unit 30 and the sterilizing unit 70 so that the belt member 54, (54) is installed so as to pass through the inside of the washing tub (58).

A tension roller 56 is provided in the washing tank 58 so as to be spaced apart from the guide roller 52 in the downward direction and a part of the belt member 54 wound on the guide roller 52 is wound around the tension roller 56 And a belt member 54 circulating around the circumferential surfaces of the guide roller 52 and the tension roller 56 contacts the washing water while passing through the inside of the washing tub 58, Can be removed.

Since the belt member 54 of the present embodiment includes the burr material, when the reproductive material that is seated on the belt member 54 is seated on the belt member 54 and the steam is supplied, And the lower part of the reproductive material is heated while being in contact with the steam supplied through the belt member 54 made of the hemp material so that the reproductive material can be heated more effectively.

When the belt member 54 is moved to the outside of the heating section 80 and circulated to the side of the crushing section 30, the belt member 54 made of the hemp material has good air permeability, It is possible to remove the reproductive material or the foreign matter contained in the belt member 54 from the belt member 54 while being moved downward by the roller 56 and passing through the washing tub 58. [

Since the light emitting portion 58a and the light receiving portion 58b are provided inside the washing tank 58, the degree of the light emitted from the light emitting portion 58a is detected by the light receiving portion 58b, When the reproductive material or foreign matter becomes larger than the set value, the washing performance of the washing water is considered to be in a deteriorated state, and a replacement signal is transmitted so that the washing water is replaced.

Therefore, it is possible to prevent the reproductive material and the foreign matter from remaining in the belt member 54 which is circulated to the crushing unit 30 side through the washing tub 58. [

The heating unit 80 of the present embodiment includes a chamber 82 formed with a charging port 82a and a discharging port 82b through which the belt member 54 passes and providing a space portion capable of providing hot air to the reproductive material, And a steam supply unit 100 for spraying steam from the upper and lower surfaces of the belt member 54 passing through the inside of the chamber 82 to provide a steam effect.

Therefore, when the belt member 54 passes through the chamber 82, steam is sprayed from the upper and lower portions of the chamber 82 toward the belt member 54 to heat the reproductive material seated on the belt member 54, .

As described above, when the heating process is performed on the reproductive material, the unburned raw material is allowed to be steamed for a short time, so that the odor and fishy smell can be removed from the reproductive material.

At this time, in order to prevent the reproductive material from scattering from the belt member 54 due to the steam sprayed toward the belt member 54, a pressing portion 90 for pressing the upper surface of the belt member 54 and restricting the reproductive material, It is possible to prevent the reproductive material from being lost from the belt member 54 even if steam is sprayed from the steam supply unit 100. [

The pressing portion 90 of this embodiment includes a plurality of pressing rollers 92 provided inside the chamber 82 so as to be disposed on the upper portion of the belt member 54, A pressure belt 94 that is in close contact with the upper surface of the belt member 54 and circulates while being moved in the advancing direction of the belt member 54 and a pressure belt 94 (Not shown).

The pressurizing belt 94 may be made of a flaky material like the belt member 54 and may include a pressurizing belt 94 interposed between the pressurizing cylinder 96 and the steam supply unit 100 when the rod protrudes from the pressurizing cylinder 96, And may be made of an elastic material so as to prevent the elastic member 94 from being broken while being expanded.

When the pressure belt 94 is made of an elastic material, it is formed in the form of a mesh net so that the steam can pass therethrough and the pressure roller 92 is lowered so that the pressure belt 94 and the first distribution block 102 interfere The pressure belt 94 may be expanded and circled along the upper surface of the first distribution block 102. [

When the rod protrudes from the pressurizing cylinder 96 when the reproductive material is mounted on the upper surface of the belt member 54 as described above and the pressure roller 92 is lowered, the pressure belt 94 is pressed against the belt member 54 And when the belt member 54 is moved from the charging port to the discharging port side, the pressure belt 94 is also moved in the same direction to confine the germable material.

Therefore, it is possible to prevent the reproductive material from being lost from the belt member 54 even if the reproductive material sandwiched between the belt member 54 and the pressing belt 94 is sprayed with steam of high temperature and high pressure.

The steam supply unit 100 includes a first distribution block 102 which is inserted at intervals between the pressure belts 94 and is provided with a first nozzle 102a for spraying the steam and a second distribution block 102 which is spaced from the first distribution block A second distribution block 104 which is inserted at an interval between the belt members 54 and is provided with a second nozzle 104a for spraying the vapor and a second distribution block 104 which is connected to the first distribution block 102 and the second distribution block 104 A first distribution block 102 and a second distribution block 104 are connected to each other and a steam supplied through the supply pipe 106 is supplied to a first distribution block 102 and a second distribution block 102. [ And a vertical block 108 having a distribution projection 108a and a distribution ramp 108b for distributing and supplying the block 104. [

Since the first distribution block 102 and the second distribution block 104 are arranged with a constant spacing and the vertical block 108 connects the first distribution block 102 and the second distribution block 104, The distribution block 102, the vertical block 108 and the second distribution block 104 are formed in the shape of a 'c' in side view, and a plurality of supply pipes 106 are connected to the back surface of the vertical block 108, do.

Since the triangular distribution projection 108a is formed on the inner wall facing the supply pipe 106, the vapor sprayed to the inner wall of the vertical block 108 along the supply pipe 106 is discharged to the upper side And supplied to the first distribution block 102 and the second distribution block 104 while being branched and supplied in the downward direction.

A distribution inclined surface 108b is formed between the vertical block 108 and the first distribution block 102 so that the distribution inclined surface 108b is formed when the advancing direction is changed from the vertical block 108 to the first distribution block 102 side. So that the steam is easily converted in the proceeding direction and supplied.

A distribution inclined surface 108b is formed between the vertical block 108 and the second distribution block 104 so that the distribution inclined surface 108b is formed when the advancing direction is changed from the vertical block 108 to the second distribution block 104 side. So that the steam is easily converted in the proceeding direction and supplied.

Thereafter, the vapors injected through the first nozzle 102a and the second nozzle 104a are sprayed for 5 to 15 minutes while maintaining the temperature of 90 to 110 ° C, .

The sterilizing section 70 of the present embodiment further includes a sterilizing case 72 for providing a separate space through which the belt member 54 passes outside the charging opening 82a, 54 for sterilizing the reproductive material to be transported by irradiating the reproductive material with ultraviolet rays.

Therefore, the reproductive material placed on the belt member 54 and moved toward the chamber 82 is irradiated with ultraviolet rays while passing through the sterilization case 72 before being put into the chamber 82 to eradicate the germs in the reproductive material .

As described above, ultraviolet rays are irradiated to the germicidal material while passing through the sterilizing case 72, and hot air is supplied to the germicidal material while passing through the chamber 82. Therefore, ultraviolet ray low temperature dehumidification drying (UVLTDD) .

The reproductive manufacturing method using the reproductive manufacturing apparatus according to one embodiment of the present invention will be described as follows.

The reproductive manufacturing method using the reproductive manufacturing apparatus according to an embodiment of the present invention comprises 307 parts by weight of brown rice, 90 parts by weight of alpha-cone, 54 parts by weight of xylitol, 45 parts by weight of white rice, 45 parts by weight of wheat, 45 parts by weight of onion brown rice, 45 parts by weight of rice bran, 45 parts by weight of black rice, 27 parts by weight of glutinous rice brown rice, 13 parts by weight of kale, 9 parts by weight of malt, 9 parts by weight of persimmon, 5 parts by weight of garlic, 5 parts by weight of germinated brown rice, 5 parts by weight of germinated starch, 5 parts by weight of yulmu, 5 parts by weight of sorghum, 4 parts by weight of callus leaf, 2 parts by weight of chungkukjang, 2 parts by weight of potatoes, 2 parts by weight of sweet potato, 2 parts by weight of carrot, 2 parts by weight of pumpkin, 0.9 part by weight of yeast, 0.9 part by weight of sesame seeds, 0.9 part by weight of black sesame seeds, 0.9 parts by weight of potatoes, 0.9 parts by weight of crushed tomatoes, 0.9 parts by weight of rice, 0.9 parts by weight of burdock, 0.9 parts by weight of citron, 0.9 part by weight of pine needle, 0.9 part by weight of mackerel, 0.4 part by weight of Doduck, 0.9 part by weight of sea mustard, 0.9 part by weight of sea tangle, 0.9 part by weight of chlorella 0.4 parts by weight of ginger, 0.4 parts by weight of ginger, 0.4 parts by weight of ginger, 0.4 parts by weight of ginger powder, 0.4 parts by weight of bramble powder, 0.4 parts by weight of starchy oil, 0.4 parts by weight of safflower seed, 0.4 parts by weight of safflower seed, 0.4 parts by weight of gardenia, 0.4 parts by weight of acidophilus, 0.4 parts by weight of flaxseed oil, 0.4 parts by weight of steamed ginger, 0.4 parts by weight of Angelicae gruel and 0.4 part by weight of ginger were contained in a feed tank 12 A washing step of spraying washing water and a reproductive material discharged from the feeding hopper 12 into a hopper 32 constituting a crushing section 30 to drive a cutting edge 34 provided in the hopper 32 A step of irradiating ultraviolet rays while transferring the reproductive material discharged from the crushing section 30 to the sterilizing section to eradicate the bacteria remaining in the reproductive material; Is supplied to the inside of the chamber 82, and a high-temperature, high-pressure Spraying the steam for a preset time to steer the reproductive material to remove the odor.

First, when the apparatus is driven after the reproductive material is introduced into the supply tank 12, the wash water sprayed from the nozzle 18 falls on the supply tank 12 to be contacted with the reproductive material to remove foreign substances, The feed conveyor 19 is driven to move the reproductive material from the feed tank 12 to the upper portion of the hopper 32 and drop the reproductive material into the hopper 32. [

The reproductive material introduced into the hopper 32 is guided to the front edge 34 side by the guide panel 38 and the reproductive material cut by the cutting edge 34 is cut smaller than the interval between the guide panels 38 And the feed roller 36 is rotated so that the reproductive material spreads evenly over the entire upper surface of the belt member 54.

The reproductive material spread on the upper surface of the belt member 54 passes through the sterilization case 72 together with the belt member 54 moved along the guide roller 52. At this time, The bacterial cells in the reproductive material are eradicated by the ultraviolet rays irradiated from the ultraviolet light irradiated from the ultraviolet rays, and the sterilization step of this embodiment is performed for 30 to 60 seconds.

After the sterilizing operation is completed, the reproductive material flows into the chamber 82 through the inlet by the movement of the belt member 54, and when the reproductive material is introduced into the chamber 82, The pressure roller 92 and the pressure belt 94 are lowered and the pressure belt 94 is brought into close contact with the upper surface of the belt member 54 to restrain the germable material.

The pressing roller 92 is installed at the rod end of the pressurizing cylinder 96 so as to idle so that when the belt member 54 is moved to the discharge port side, the pressing belt 94 closely attached to the belt member 54 is also moved toward the discharge port side, And is moved to the discharge port side while the reproductive material is sandwiched between the pressurizing belt 54 and the pressure belt 94.

At this time, the high-temperature, high-pressure steam supplied along the supply pipe 106 is evenly distributed upward and downward while colliding with the distribution projection 108a, and is distributed along the distribution slope 108b to the first distribution block 102 and the second distribution The ink is filled into the block 104 and heated by the first nozzle 102a and the second nozzle 104a from the top and bottom of the reproductive material to the belt member 54 and the pressure belt 94 side .

This can protect the user's health by including various materials that help maintain health and remove various odors by heating various materials, so that it is possible to prevent the user from smelling when eating, It is possible to provide a reproductive manufacturing apparatus capable of preventing the loss of pulverized reproductive material when a heating operation is performed by spraying steam, and a reproductive manufacturing method using the same.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is to be understood that the invention is not limited to the disclosed embodiments, but, on the contrary, is intended to cover various modifications and equivalent arrangements included within the spirit and scope of the appended claims. .

Although the present invention has been described by way of example only, it is to be understood that the present invention is not limited to the reproduction apparatus and the reproduction method using the same. .

Accordingly, the true scope of the present invention should be determined by the following claims.

10: Cleaning section 12: Supply tank
14: inclined surface 14a: drain hole portion
16: Drain pipe 18: Cleaning nozzle
19: feed conveyor 30: crushing section
32: hopper 34: cutting blade
36: feed roller 38: guide panel
50: conveying conveyor 52: guide roller
54: Belt member 56: Tension roller
58: Washing tank 58a:
58b: light receiving section 70: sterilizing section
72: Case 74: sterilization lamp
80: heating section 82: chamber
82a: Inlet port 82b: Outlet port
90: pressing portion 92: pressure roller
94: pressure belt 96: pressure cylinder
100: Stept supply part 102: First distribution block
102a: first nozzle 104: second distribution block
104a: second nozzle 106: supply pipe
108: vertical block 108a: distribution projection
108b: distribution inclined surface

Claims

A washing unit for supplying and storing the reproductive material and spraying wash water to remove foreign matter from the reproductive material; A grinding unit for grinding the reproductive material discharged after the washing operation is finished in the washing unit to a predetermined size or less; A conveying conveyor on which the reproductive material supplied from the crushing unit is seated and which moves the reproductive material during the set time; A sterilizing unit for irradiating ultraviolet rays to the germ-line material supplied by the conveying conveyor to perform a sterilizing operation; A heating unit for spraying high-temperature and high-pressure steam to the germable material supplied through the sterilizing unit to remove odor or fishy smell from the germ-line material; And a pressurizing portion for restricting the reproductive material to prevent the reproductive material from being scattered by the ejection pressure when the steam is sprayed from the heating portion onto the reproductive material, wherein the reprocessing portion comprises: a supply tank in which the reproductive material is desalinated; A cleaning nozzle for spraying wash water onto the supply tank; A drain pipe for guiding the wash water discharged from the supply tank to the outside of the supply tank; And a feed conveyor extending from the feed tank to the outside of the feed tank to move the reproductive material, which has been cleaned, to the crusher,
Wherein the crushing unit comprises:
A hopper for guiding reproductive material falling from the feed conveyor to the feed conveyor;
A cutting blade which is installed in the hopper and is provided so as to be opposed to each other so as to cut the reproductive material;
A reproductive material which is installed in the hopper and guides the reproductive material dropped from the feed conveyor to the cutting blade side, a plurality of reproductive material arranged at a constant interval, the reproductive material passing through the hopper is pulverized to a predetermined size or less, A guide panel for providing the guide panel; And
And a feeding roller for guiding the reproductive material falling through the guide panel and the cutting blade in one direction and pressing the reproductive material so as to spread over the upper surface of the conveying conveyor,
The conveying conveyor
A guide roller disposed continuously from a lower side of the crushing section to a plurality of positions spaced apart from the sterilizing section, the heating section, and the pressing section;
A belt member that is wound around the plurality of guide rollers to circulate the reproductive material;
A tension roller arranged to be spaced apart from the belt member so as to pull out a part of the belt member in an outward direction;
And a cleaning tank through which a part of the belt member pulled outward by the tension roller is passed and the wash water is drained,
Since the belt member includes the burr material, when the steam is supplied while the reproductive material seated on the belt member is seated on the belt member, the upper part of the reproductive material is heated while being in direct contact with the steam, Is heated while being in contact with the steam supplied through the belt member made of a flocked material,
Since the light emitting unit and the light receiving unit are installed in the washing tank, the degree of the light irradiated from the light emitting unit is incident on the light receiving unit. If the reproductive material or foreign matter collected in the belt member becomes larger than the set value, It is considered that the performance is deteriorated, and a replacement signal is transmitted so that the replacement work of the washing water proceeds,
The heating unit includes:
A chamber in which an inlet and an outlet through which the belt member is passed are formed and provide a space portion capable of providing hot air to the reproductive material;
And a steam supply unit for spraying steam from the upper and lower surfaces of the belt member passing through the inside of the chamber to provide a steam effect,
The pressing portion
A plurality of pressure rollers installed inside the chamber so as to be disposed on the belt member;
A pressure belt wound around the pressure roller and closely attached to the upper surface of the belt member and circulating while being moved in a traveling direction of the belt member; And
And a pressure cylinder which moves the pressure roller toward the belt member and brings the pressure belt into close contact with the belt member.

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(a) 307 parts by weight of brown rice, 90 parts by weight of alpha-cone, 54 parts by weight of xylitol, 45 parts by weight of white rice, 45 parts by weight of wheat, 45 parts by weight of onion brown rice, 45 parts by weight of rice bran, 45 parts by weight of black rice, 13 parts by weight of kale, 9 parts by weight of malt, 9 parts by weight of persimmon, 5 parts by weight of garlic, 5 parts by weight of germinated brown rice, 5 parts by weight of germinated brown rice, 5 parts by weight of germinated mung bean, 5 parts by weight of germinated oats, 2 parts by weight of potato, 2 parts by weight of sweet potato, 2 parts by weight of boric acid, 2 parts by weight of carrot, 2 parts by weight of pumpkin, 0.9 part by weight of yeast, 0.9 part by weight of sesame, 0.9 weight part of black sesame seeds, 0.9 weight part of black sesame seeds, 0.9 weight part of crushed red bean, 0.9 weight part of uncooked rice, 0.9 weight part of burdock, 0.9 weight part of apple, 0.9 weight part of plum, 0.9 weight part of citron, 0.9 weight part of pine needles, 0.4 part by weight of sea mustard, 0.9 part by weight of seaweed, 0.9 part by weight of sea tangle, 0.9 part by weight of chlorella, 0.4 part by weight of terrestrial starch, 0.4 part by weight of Ganoderma lucidum, 0.4 part by weight of ginger, 0.4 parts by weight of safflower, 0.4 parts by weight of safflower seed, 0.4 parts by weight of gum arabic, 0.4 parts by weight of ginger, 0.4 parts by weight of ginger, 0.4 parts by weight of ginger, 0.4 parts by weight of peppermint, 0.4 parts by weight of Angelica gigas, 0.4 parts by weight of austenitic rice (hereinafter referred to as first material) in a feed tank and spraying wash water; (b) injecting the reproductive material discharged from the feeder into a hopper constituting a crushing section, driving a cutting blade provided in the hopper to crush the reproductive material to a predetermined size or less; (c) irradiating ultraviolet rays while transferring the reproductive material discharged from the crushing unit to the sterilizing unit to eradicate the bacteria remaining in the reproductive material; And (d) feeding the reproductive material discharged from the sterilizing unit to the inside of the chamber, and spraying the high-temperature high-pressure steam in the chamber for a set time to scrub the reproductive material to remove the odor. In the reproductive manufacturing method used,
The reproductive manufacturing method comprises:
A washing unit for supplying and storing the reproductive material and spraying wash water to remove foreign matter from the reproductive material; A grinding unit for grinding the reproductive material discharged after the washing operation is finished in the washing unit to a predetermined size or smaller; A conveying conveyor on which the reproductive material supplied from the crushing unit is seated and which moves the reproductive material during the set time; A sterilizing unit for sterilizing the germable material supplied by the transfer conveyor by irradiating ultraviolet rays; A heating unit for spraying high-temperature and high-pressure steam to the germable material supplied through the sterilizing unit to remove odor or fishy smell from the germ-line material; And a pressurizing portion for restricting the reproductive material to prevent the reproductive material from being scattered by the ejection pressure when the steam is sprayed from the heating portion onto the reproductive material, wherein the reprocessing portion comprises: a supply tank in which the reproductive material is desalinated; A cleaning nozzle for spraying wash water onto the supply tank; A drain pipe for guiding the wash water discharged from the supply tank to the outside of the supply tank; And a feed conveyor extending from the feed tank to the outside of the feed tank to move the reproductive material having been cleaned to the crusher,
Wherein the crushing unit comprises:
A hopper for guiding the reproductive material falling from the feed conveyor to the feed conveyor;
A cutting blade installed in the hopper and provided with a plurality of opposed faces for cutting the reproductive material;
A reproductive material which is installed in the hopper and guides the reproductive material dropped from the feed conveyor to the cutting blade side, a plurality of reproductive material arranged at a constant interval, the reproductive material passing through the hopper is pulverized to a predetermined size or less, A guide panel for providing the guide panel; And
And a feeding roller for guiding the reproductive material falling through the guide panel and the cutting blade in one direction and pressing the reproductive material so as to spread over the upper surface of the conveying conveyor,
The conveying conveyor
A guide roller disposed continuously from a lower side of the crushing section to a plurality of positions spaced apart from the sterilizing section, the heating section, and the pressing section;
A belt member that is wound around the plurality of guide rollers to circulate the reproductive material;
A tension roller arranged to be spaced apart from the belt member so as to pull out a part of the belt member in an outward direction;
And a cleaning tank through which a part of the belt member pulled outward by the tension roller is passed and the wash water is drained,
Since the belt member includes the burr material, when the steam is supplied while the reproductive material seated on the belt member is seated on the belt member, the upper part of the reproductive material is heated while being in direct contact with the steam, Is heated while being in contact with the steam supplied through the belt member made of a flocked material,
Since the light emitting unit and the light receiving unit are installed in the washing tank, the degree of the light irradiated from the light emitting unit is incident on the light receiving unit. If the reproductive material or foreign matter collected in the belt member becomes larger than the set value, It is considered that the performance is deteriorated, and a replacement signal is transmitted so that the replacement work of the washing water proceeds,
The heating unit includes:
Said chamber being provided with an inlet and an outlet through which said belt member is passed and providing a space portion capable of providing hot air to said reproductive material;
And a steam supply unit for spraying steam from the upper and lower surfaces of the belt member passing through the inside of the chamber to provide a steam effect,
The pressing portion
A plurality of pressure rollers installed inside the chamber so as to be disposed on the belt member;
A pressure belt wound around the pressure roller and closely attached to the upper surface of the belt member and circulating while being moved in a traveling direction of the belt member; And
And a pressure cylinder for moving the pressure roller toward the belt member while closely contacting the pressure belt to the belt member.