JP2006180832A - Silage method for green bamboo powder, green bamboo powder silage body, fermented food containing green bamboo powder silage body and bean-curd refuse, and method for producing the fermented food - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a silage method for green bamboo powder using as the main raw material green bamboo and capable of opening a way to bring green bamboo to food and feed. <P>SOLUTION: This silage method for the green bamboo powder comprises a process of chopping raw bamboo to process to powder of a grain size about of 500 μm, a process of holding the raw bamboo powder in a packaging bag having shading properties and sealing properties within a week after processing followed by vacuum packaging in an anaerobic or half anaerobic condition, and a process of leaving the vacuum packaged raw bamboo powder to stand for about a month, and silaging the raw bamboo powder to bring to a silage body 301. <P>COPYRIGHT: (C)2006,JPO&NCIPI

Description

  The present invention relates to a silage method of raw bamboo powder, a silage body of raw bamboo powder, a fresh bamboo powder silage body, a fermented food containing okara, and a method for producing the same.

  For example, Bamboo bamboo such as Miso bamboo grows quickly, and the stem portion grows 20m per month, and the underground stem grows 5m a year, and has a strong fertility. For this reason, if no care is taken, it will spread to the surrounding miscellaneous timber and farmland, causing serious adverse effects on the ecosystem. If it is dense, undergrowth will not grow in the bamboo grove, leading to sediment disasters. Therefore, this bamboo pollution is now a big problem for society. Therefore, recently, various studies have been conducted on whether such bamboos, especially raw bamboos, contain abundant plant fibers and the like, so that they can be used as food or livestock feed.

  The problem here is the emergence of an apparatus for finely pulverizing this raw bamboo, especially for food additives and feeds. Attempts have been made.

  Conventionally, inventions of foods such as various processed foods using bamboo and feeds have been proposed.

  For example, a method for producing a health food by mixing a mixture of dandelion and mugwort powder and carbonized black ware using animals and plants used for food such as bamboo as raw materials is disclosed. (Patent Document 1)

  Moreover, the feed manufactured by mixing quicklime with the bamboo formed in the shape of a shred and carrying out microbial fermentation of this is disclosed. (Patent Document 2)

  Furthermore, a method for producing a bamboo-based food is disclosed in which a food and bamboo are brought into contact with each other, and a taste and a nutrient component exuded from the bamboo tissue are contained in the food. (Patent Document 3)

Furthermore, a health supplement for pets containing fine bamboo charcoal powder, bamboo vinegar, bittern, and dried mulberry bamboo powder is disclosed. (Patent Document 4)
JP-A-60-160856 JP 60-160850 A Japanese Patent Laid-Open No. 63-28376 Utility Model Registration 3099628

  However, with regard to the conventional apparatus for easily producing powder by pulverizing raw bamboo into a powder at room temperature, the raw bamboo itself, in particular, its skin is hard and the cutting blades are steep, and the raw bamboo is slippery. It is cylindrical and not straight.Therefore, there are problems such as insufficient chuck means for the grinding operation, and as a result, the ground powder does not become a fixed particle, and a defective product may be produced. Is included.

  In addition, in the case of bamboo-based foods and feeds disclosed in Patent Documents 1 to 4, all of them are obtained by obtaining raw bamboo powder and silageing the powder itself, or by using fermented food based on the silaged bamboo powder. It is not something that can be obtained, and bamboo plant fibers and the like cannot be used effectively.

  Therefore, the inventor of the present application has been devoted to research on whether such bamboo can be used as food or feed since it contains abundant plant fibers.

  It has been found that when bamboo is used as a powder, it can be used as a food ingredient and is of high nutritional value, that is, tyrosine contained in bamboo has the effect of relieving stress, and theanine reduces blood pressure. This is because it has been proved that it helps to reduce high cholesterol.

  Thus, the general object of the present invention is to propose a method for making a raw silage from raw bamboo, and further including a raw bamboo powder silage body and a nutrient rich okara. Advocating fermented foods, this will open the way to the conversion of raw bamboo into food and feed, thereby contributing to the elimination of the “left bamboo forest” that causes the devastation of satoyama.

  The silage method of the raw bamboo powder of the present invention is a process of cutting raw bamboo into a powder with a particle size of μm, and storing the raw bamboo powder in a packaging bag having a light-shielding property and a sealing property in a short time after processing, The main feature is that it includes a process of vacuum packaging under anaerobic or semi-anaerobic conditions and a process of leaving the vacuum-packed raw bamboo powder and silaging the raw bamboo powder.

  The present invention has the following effects. According to the first and second aspects of the present invention, the raw bamboo is cut into a powder having a particle size of μm unit, for example, a bamboo needle-like fiber having a particle size of about 500 μm, and a bamboo vascular bundle in a circular shape. In a short time after processing, for example, within 1 hour, it is stored in a light-shielding and sealing bag and vacuum-packed under anaerobic or semi-anaerobic conditions. Through a simple process, the bamboo has good silage, easy to adjust the water content such as water and dry, and can be used as food or feed. A method can be provided.

  According to the third and fourth aspects of the present invention, it is possible to provide a silage body of raw bamboo powder that has good attack of microorganisms, can be easily adjusted for moisture such as addition and drying, and can be used as food or feed.

  According to the fifth and sixth aspects of the invention, it is possible to provide a fermented food in the form of yogurt that contains components such as lactic acid bacteria of raw bamboo and components from okara and has high nutritional value.

  According to invention of Claim 7, 8, the manufacturing method of the fermented food which can manufacture yogurt-like fermented food with high nutritional value including components, such as lactic acid bacteria of raw bamboo, and okara, in a simple process Can be provided.

  The process of cutting raw bamboo into a powder with a particle size of about 500μm, and processing the raw bamboo powder for the purpose of opening raw bamboo as the main raw material and making the raw bamboo into food and feed. Store in a light-shielding and sealing package within a week, vacuum-packing under anaerobic or semi-anaerobic conditions, and leave the raw bamboo powder vacuum-packed for about a month, And a silage process.

  In describing an example of the present invention, first, a preferred embodiment of a bamboo powder manufacturing apparatus for obtaining raw bamboo powder according to the present invention will be given and described in detail below with reference to the accompanying drawings.

  FIG. 1 shows a bamboo powder manufacturing apparatus 10 according to an embodiment of the present invention. The bamboo powder manufacturing apparatus 10 includes an apparatus frame (A), a table body (B) extended in one direction of the apparatus frame (A), and a powder accumulation apparatus (C).

  Next, in FIG. 3 to FIG. 11, there is a bamboo powder manufacturing apparatus 10 in the apparatus frame (A), and a base part 14 having a work table 12 supported by a plurality of columns connected along a three-dimensional direction. And a rotational drive source 18 supported by the base portion 14 via a connecting member 16 connected to the lower surface of the work table 12.

  Furthermore, the bamboo powder manufacturing apparatus 10 is provided with a rotary cutting mechanism 22 provided with a substantially disc-shaped tip saw 20 that rotates in a predetermined direction when the rotational driving force of the rotational driving source 18 is transmitted, A positioning guide mechanism 26 is provided for positioning one end of the raw bamboo 24 as a work with respect to the tip saw 20 and guiding the axis of the raw bamboo 24 so as to be substantially orthogonal to the tooth surface of the tip saw 20.

  Note that a cover member 28 that surrounds the rotary cutting mechanism 22 and the positioning guide mechanism 26 is detachably provided on the work table 12 in the base portion 14. The cover member 28 is formed with a rectangular opening 30 facing the rotary cutting mechanism 22.

  As shown in FIG. 6, the rotary cutting mechanism 22 has a shaft 32 that is coaxially connected to the drive shaft of the rotary drive source 18 and rotates integrally with the drive shaft. The shaft 32 is a keyway (not shown). It is prevented from rotating through a key that engages with.

  The shaft 32 is provided so as to penetrate a substantially circular hole 34 formed in the work table 12 and protrude upward by a predetermined length. A substantially disc-shaped lower holding member 36a is mounted on the lower side of the shaft 32 along the axial direction via a center hole, and a predetermined gap is provided between the lower holding member 36a and the work table 12. Clearance is provided. Further, a substantially disc-shaped upper holding member 36b is mounted on the upper side of the shaft 32 along the axial direction via a center hole, and the upper holding member 36b is detachably attached to the shaft 32. Provided.

  Between the upper holding member 36b and the lower holding member 36a, a plurality of cutting blades 38 shown in FIG. 4 manufactured in the above-described manufacturing method formed in a disk shape are stacked, and the stacked layers are stacked. The plurality of cutting blades 38 are integrally held by the upper side holding member and the lower side holding members 36b and 36a. In this case, the upper holding member 36b is removed from the shaft 32, and another cutting blade 38 is inserted along the shaft 32 through the center hole, or some of the stacked cutting blades 38 are inserted into the shaft 32. It is possible to increase or decrease the number of cutting blades 38 as desired.

  As shown in FIG. 8, the cutting blade 38 is fixed to a disc-shaped base metal 40 and a peripheral portion of the base metal 40 at a predetermined angle along the circumferential direction to form incisors. A plurality of chips 42.

  In this case, a substantially cylindrical body is constructed by laminating a plurality of cutting blades 38 around the shaft 32 as a central axis, and the plurality of tips 42 exposed on the outer peripheral surface of the substantially cylindrical body each function as the tip saw 20. Run. The tip saw 20 is not limited to the cutting blade 38, and may be a stack of a plurality of disk-shaped rotary cutting tools such as a circular saw (not shown).

  Thereby, the rotational driving force of the rotational driving source 18 is transmitted to the shaft 32, and further, a plurality of cylindrical bodies are configured through the upper side holding member and the lower side holding members 36b, 36a attached to the shaft 32. The cutting blade 38 rotates integrally with the drive shaft.

  A fixing member 44 having a U-shaped cross section is fixed to the work table 12, and the shaft 32 is rotatably supported by a bearing 47 provided at a substantially central portion of the fixing member 44.

  In addition, a duct member 46 is provided on the work table 12 to surround the plurality of stacked cutting blades 38 and prevent the bamboo cut into a powder form from diffusing to the outside. The duct member 46 is formed with a substantially cylindrical outlet port 48, and the duct member 46 is supported by the fixing member 44 so as to be rotatable by a predetermined angle along the arrow A1 or A2 direction.

  The bamboo powder fed through the outlet port 48 is collected in the storage container (a) as shown in FIG. At that time, a dust collector (b) is disposed in the storage container (a) to provide a dust collecting function.

  The positioning guide mechanism 26 is fixed substantially on the side wall 50 for fixing on the work table 12 close to the chip saw 20, facing the fixing side wall 50, and corresponding to the diameter of the raw bamboo 24 that is a workpiece. A movable side wall 52 that is displaceable along a direction, and a contact side wall 54 that is disposed in a direction substantially orthogonal to the displacement direction of the movable side wall 52 and contacts one end of the raw bamboo 24 that is a workpiece. Displacement means 56 for displacing the movable side wall 52 along a substantially horizontal direction.

  One end portion of the abutting side wall 54 faces the tip saw 20 through a predetermined clearance, and a notched portion 60 having an acute cross section is formed by an inclined surface 58 having a predetermined angle (about 25 degrees).

  The displacing means 56 is provided between the fixing side wall 50 and the movable side wall 52, and is a pair of arm members 64a and 64b that refracts so as to approach and separate via a link pin 62, and the arm member 64a, An adjustment screw member 66 that bends the pair of arm members 64a and 64b by penetrating the link portion 64b and increasing or decreasing the screwing amount.

  A handle 68 is connected to the lower end portion of the adjustment screw member 66. By rotating the handle 68, the screwing amount of the adjustment screw member 66 can be increased or decreased. In FIG. 9, reference numeral 70 denotes a defense side wall fixed on the work table 12 close to the tip saw 20.

  Subsequently, an embodiment of the table body (B) used for carrying out the present invention will be described. In FIG. 1, reference numeral 71 denotes a pair of rails whose one end is fixed on the same plane as the upper surface of the work table 12, and the tip saw 20 of the work table 12 is positioned at the center of each rail.

  In FIG. 1, 72 is an upright disk-shaped chuck mechanism disposed between the rails 71 and 71 on the same axis as the tip saw 20, and is slidably supported on the rail 71 by arm bodies 73 provided on both sides.

  Various means can be considered for this support means, but it may be a means for fixing the arm body 73 to the bearing 75 of the roller 74 that slides on the rail 71 as shown in FIG.

  Although the detailed structure of the chuck mechanism 72 is not shown in detail, for example, a split metal bearing (not shown) is provided at the center of the chuck mechanism 72, and the inserted raw bamboo can be fixed by shrinking the split metal bearing in the centripetal direction. A means such as making it possible is considered.

  At the same time, the rotation of the chuck body 76 of the chuck mechanism 72 is transmitted by a belt 78 wound around a drive source 77 provided on one side of the arm body 73.

  In FIG. 1, reference numeral 79 denotes a lattice-shaped support, which is planted on one side of the work table 12.

  Thus, a roller 80 is pivotally supported at the upper end portion of the column 79, and a wire 81 having one end fixed to the chuck mechanism 72 is pivotally supported on the work table 12 and the fixed portion of the column 79 and the upper end side of the column 79. It is wound through each of the idle rollers 82 and 83. A weight 84 is suspended from the other end of the wire 81.

  The bamboo powder manufacturing apparatus 10 according to the embodiment of the present invention is basically configured as described above. Next, its operation and effects will be described.

  First, the raw bamboo 24 to be cut is passed through the central portion of the chuck mechanism 72 at one end, and the tip is placed near the tip saw 20 on the work table 12. Here, the handle 68 is operated to adjust the screwing amount of the adjusting screw member 66, and the movable side wall 52 is set at a predetermined position corresponding to the diameter of the raw bamboo 24 as a workpiece.

  That is, the raw bamboo 24 passes through the center of the cutting blade 38 constituting the tip saw 20 as shown in FIG. 8, and is a straight line that is substantially orthogonal to the axis of the abutting side wall 54 in which the notch 60 is formed. The movable side wall 52 is set at a position where one side peripheral surfaces of various bamboos 24a to 24d having different diameters substantially coincide with each other.

  In other words, by making the straight line passing through the center of the cutting blade 38 substantially coincide with one side peripheral surface of the raw bamboo 24, the cutting parts of the raw bamboos 24a to 24d are substantially orthogonal to the peripheral surface of the chipsaw 20. Is set to the position to perform.

  In this case, the axial direction is positioned by abutting one end of the raw bamboo 24 against the abutting side wall 54, and the Y-axis direction is positioned when the other side peripheral surface of the raw bamboo abuts the movable side wall 52. The

  In this way, the raw bamboo 24 that is a workpiece is accurately positioned along the axial direction and the Y-axis direction by the abutment side wall 54 and the movable side wall 52.

  Next, the chuck of the chuck mechanism 72 is tightened, and the raw bamboo 24 is fixed to the chuck mechanism 72. As a result, the chuck mechanism 72 is always pulled toward the tip saw 20 by the weight 84. The surface is always pressed against the tip saw 20 with a constant force.

  For example, in the case of a large diameter raw bamboo 24, the movable side wall 52 is set at a position closest to the fixing side wall 50, as shown in the figure, and in the case of a small diameter raw bamboo 24, it is illustrated. As described above, the movable side wall 52 is set at a position farthest from the fixed side wall 50.

  Further, even when the diameter of each portion along the longitudinal direction of one raw bamboo 24 is different, the position of the movable side wall 52 may be changed as needed by the adjusting screw member 66.

  After the raw bamboo 24 as a workpiece is positioned in this manner, the rotational drive source 18 is biased through a power source (not shown), and the rotational drive force is transmitted to the tip saw 20 through the shaft 32. Here, the tip saw 20 constructed by stacking a plurality of cutting blades 38 into a substantially cylindrical body is rotated around the shaft 32 in the direction of arrow G (clockwise direction) in FIG. Cutting of the raw bamboo 24 is performed within the range of the front end of the notch portion 54 and the straight line H.

  At this time, by turning on the drive source 77 of the chuck mechanism 72, the rotational force is transmitted to the chuck mechanism 72 that chucks the raw bamboo 24 via the belt 78. It is rotated in the direction of arrow D (counterclockwise direction) along the circumferential direction around the axis.

  In this case, the bamboo manually gripped by the operator may be rotated in the direction of arrow D along the circumferential direction. This is because the inside of the raw bamboo 24 is hollow, and the cutting site is formed along the circumferential direction.

  Subsequently, bamboo powder generated by cutting one end of the raw bamboo 24 with the tip saw 20 rotating in the direction of arrow G is stored in the storage container from the blower b via the lead-out port 48 of the duct member 46.

  A preferred embodiment of the cutting saw 20 for use in the practice of the present invention will be given and described in detail below with reference to FIG.

  In FIG. 4, reference numeral 101 denotes a cutting saw body for cutting according to an embodiment of the present invention (hereinafter simply referred to as a tipsaw body).

  The tip saw body 101 basically includes a disk-shaped base part 121 and a cutting edge part 141 formed on the outer peripheral edge of the base part 121. A central hole 151 is formed in the central portion of the base metal portion 121 to be attached to the rotational shaft of the rotational drive source via a fixing means (not shown).

  The cutting blade portion 141 is formed concentrically around the center hole 151, and is spaced apart from each other by a predetermined angle along the circumferential direction and protrudes outward, and the bulging portion A plurality of cutting tips 201 (hereinafter simply referred to as “tips”) 201 each having a cutting edge 191 fixed to one end of 181.

  As shown in the drawing, the tip 201 made of a super hard alloy is composed of a left tooth tip 201a and a right tooth tip 201b formed so that the cutting edge 191 at the front end is inclined by a predetermined angle with respect to the horizontal axis. Thus, they are planted alternately at the peripheral edge of the base metal part 121 at a predetermined angle.

  In this case, as shown in FIG. 4, the chip 201 is brazed and joined to the concave portion of the bulging portion 181 in which the outer periphery of the base metal portion 121 is divided into 50 equal parts.

  In addition, it is preferable that a plurality of slits 131 extending from the outer peripheral edge portion toward the center hole 151 by a predetermined length are formed in the base metal portion 121 at a predetermined angle.

  Thus, in this embodiment, the bamboo (raw bamboo) 24 can be cut into units of microns (for example, about several tens to several hundreds μ) by cutting at a normal temperature. A plurality of existing rotary cutting tools such as the disk-shaped cutting blade 38 are stacked to construct the tip saw 20 made of a substantially cylindrical body, so that it can be manufactured inexpensively and easily.

  This raw bamboo powder may be used as an additive for food or feed as it is, but if it is mixed with a suitable amount of water and stirred well into pellets, it will be easier to process and distribute to fields. is there. As a result of repeated experiments, it was found that effective bacteria were generated in the raw bamboo powder. As a result, it has been found that the organic waste such as various kinds of garbage can be used for recycling resources such as feed.

  In carrying out the present invention, the number of blades and blade thickness of the rotary cutting tool can be easily set, and the size and shape of the powder fine particles (for example, a flat surface, a wedge shape, a permanent shape, etc.) can be combined. ) Can be changed.

  Moreover, when the cutting edge (for example, the cutting edge part of the chip | tip 42) of the said rotary cutting tool deteriorates, it can remove from the shaft 32 and can be easily re-polished.

  Further, the raw bamboo 24 that is a workpiece is not subjected to any pre-treatment processing, and can be subjected to cutting processing as it is. In order to cut the raw bamboo 24 at room temperature, The components of the bamboo 24 do not change, and a safe extract can be obtained from the raw bamboo 24 powder.

  In other words, the raw bamboo 24, which is the workpiece, is not subjected to freezing or heat treatment, so that the nutritional balance, the amount of minerals, the reactivity of microorganisms, etc. are not changed, and the secondary product is made from bamboo flour. Can be suitably manufactured. Moreover, since it is a bamboo powder cut at room temperature, the amount of water contained in this powder is maintained as it is, and when used as a polishing powder, it is contained in the powder together with a suitable polishing effect due to the silicic acid component of raw bamboo 24. Moisture can suppress an increase in temperature.

  Furthermore, since the bamboo powder manufacturing apparatus 10 according to the present embodiment is configured with a simple structure, for example, it can be easily transported to an abandoned bamboo forest or the like, and a cutting operation can be performed locally. Bamboo can be made into powder efficiently.

  In the present embodiment, the bamboo powder production apparatus 10 cuts the vascular bundle 24a of the raw bamboo 24 as shown in FIG. Without raising, it can be cut into a powder of micron units (for example, about several tens to several hundreds μm) without producing needle-like fibers of the raw bamboo 24. FIG. 15 shows an example of a micrograph of powder obtained by cutting the raw bamboo 24 at room temperature and cutting the vascular bundle into a round shape.

  Next, the above-described silage method of powder obtained from raw bamboo 24 will be described with reference to FIGS.

  In the silage method of the present embodiment, first, the raw bamboo 24 is processed into a powder having a size of μm, for example, about 500 μm by the bamboo powder manufacturing apparatus 10 (step S1), and then in a short time (for example, within one hour). A packaging bag (for example, an aluminum vapor deposition bag) 300 that has a light shielding function of light such as ultraviolet rays and can secure hermeticity, watertightness, and the like is sealed by a vacuum packaging method using a vacuum packaging machine (step S2).

  Thereafter, the packaging bag 300 is allowed to stand at room temperature for about one month (step S3) to obtain a silage body 301 of raw bamboo powder silaged as shown in FIG. 13 (step S4). The degree of vacuum when vacuum packaging the powder into the packaging bag 300 satisfies an anaerobic condition or a semi-anaerobic condition.

  The raw bamboo powder silage body 301 produced in this way contains a large amount of Lactococcus lactes bacteria and Lactobacillus bacteria which are lactic acid bacteria derived from raw bamboo, has a strong acidity and has a function of killing Escherichia coli. It can be stored for a long period of about months to June, and can be stored for a long period of about 2 years depending on the storage conditions. Further, the raw bamboo powder silage body 301 is made from raw bamboo powder 24 which is cut from the raw bamboo 24 so as not to produce bamboo needle-like fibers having a particle size in the unit of μm, for example, about 500 μm. Therefore, the silage body 301 of the raw bamboo powder can be used as food or feed because it has good attack characteristics of microorganisms, can easily adjust moisture such as hydration and drying. In addition, when performing the silageation of the above-mentioned raw bamboo powder, auxiliary bacteria such as lactobacilli and cellulase may be added to the raw bamboo powder in order to promote silageization.

  Next, a fermented food containing the silage body 301 of raw bamboo powder and okara obtained as described above and a method for producing the same will be described with reference to FIG.

  In this fermented food manufacturing method, as shown in FIG. 14, first, an appropriate amount of raw bamboo powder silage body 301 and okara are mixed (step S11). The mixing ratio of silage body 301 and okara can be arbitrarily set by weight ratio such as 1: 1, 2: 1, 3: 1, 1: 2, 1: 3, and is not particularly limited.

  Next, the mixture of raw bamboo powder silage body 301 and okara is allowed to stand for an arbitrary period (step S12). Then, the mixture is fermented with Lactococcus lactes bacteria or Lactobacillus bacteria, which are lactic acid bacteria derived from raw bamboo, to produce a fermented food in a yogurt shape containing the silage body 301 of raw bamboo powder and okara. Yes (step S13).

  When fermenting the above-mentioned mixture, an appropriate amount of fermentation auxiliary bacteria such as Aspergillus or starch, such as wheat flour or rice flour, or an appropriate amount of milk beverages such as milk or soy milk are added, and yogurt-like fermented food containing these and Of course, it is also possible.

  In the fermented food containing the raw bamboo powder silage body 301 and okara obtained in this way, the okara is fermented by lactic acid bacteria fermentation, and the lactic acid bacteria enter the fine pores of the raw bamboo powder, It has the advantage that lactic acid bacteria that are not affected by gastric acid can be sent to the intestine of the living body.

  In addition to the above-mentioned case, the present invention appropriately changes the particle size of the raw bamboo powder so that it is suitable for human food, livestock feed, etc. Of fermented food.

It is a partially-cutaway perspective view of the whole bamboo powder manufacturing apparatus concerning the example of the present invention. It is a front view of the chuck mechanism of a present Example. It is a perspective view of the work table of a present Example. It is a front view of the chip saw of a present Example. It is a front view of the whole apparatus of a present Example. It is a front view of the whole apparatus except the positioning mechanism of a present Example. It is plane explanatory drawing of the whole apparatus of a present Example. It is front explanatory drawing of the cutting condition of the raw bamboo of a present Example. It is a partial cross section front view which shows the state which positions the large diameter bamboo of a present Example, and cuts it with a rotary cutting tooth. It is a front view of the positioned apparatus when the raw bamboo of a present Example is a small diameter. It is a front view of the positioned apparatus when the raw bamboo of a present Example is large diameter. It is a flowchart which shows the manufacture process of the silage method of the raw bamboo powder of a present Example. It is a schematic sectional drawing which shows the silage body manufactured by the silage method of the raw bamboo powder of a present Example. It is a flowchart which shows the manufacturing method of the fermented food of a present Example. It is a figure showing the microscope picture which shows the vascular bundle of the raw bamboo of a present Example. It is a figure showing the microscope picture of the powder of a present Example.

Explanation of symbols

A Device frame B Table body C Powder collecting device a Storage container b Dust collector 10 Bamboo powder manufacturing device 12 Work table 14 Base 16 Connecting member 18 Rotating drive source 20 Tip saw 22 Rotating cutting mechanism 24 Raw bamboo 24a Vascular bundle 26 Guide Mechanism 28 Cover member 30 Opening portion 32 Shaft 34 Hole portion 36a Lower side holding member 36b Upper side holding member 38 Cutting blade 40 Base metal 42 Tip 44 Fixing member 46 Duct member 47 Bearing 48 Deriving port 50 Fixing side wall 52 For moving Side wall 54 Abutting side wall 56 Displacement means 58 Inclined surface 60 Notch 62 Link pin 64a Arm member 64b Arm member 66 Adjustment screw member 68 Handle 70 Defense side wall 71 Rail 72 Chuck mechanism 73 Arm body 74 Roller 75 Bearing 76 Chuck body 77 Driving source 78 Belt 79 Post 80 Roller 81 Ear 82 Idle roller 83 Idle roller 84 Weight 101 Tip saw body 121 Base part 131 Slit 141 Cutting edge 151 Central hole 181 Swelling 191 Cutting edge 201 Cutting tip 201a Left tooth tip 201b Right tooth tip 300 Packaging bag 301 Silage body

Claims (8)

The process of cutting raw bamboo into a powder with a particle size of μm,
A process of storing raw bamboo powder in a packaging bag having light shielding properties and sealing properties in a short time after processing and vacuum packaging under anaerobic or semi-anaerobic conditions,
The process of leaving the raw bamboo powder vacuum-packed and silage the raw bamboo powder,
A silage method for raw bamboo powder, comprising: The process of cutting raw bamboo into a powder with a particle size of about 500μm,
The process of storing raw bamboo powder in a light-shielding and sealing packaging bag within one hour after processing and vacuum packaging under anaerobic or semi-anaerobic conditions,
The process of leaving the raw bamboo powder vacuum-packed for about a month and silaging the raw bamboo powder,
A silage method for raw bamboo powder, comprising:   The raw bamboo powder with a particle size of μm is stored in a light-shielding and sealing package in a short time after processing, and vacuum-packed under anaerobic or semi-anaerobic conditions and left to stand. A unique silage body of raw bamboo powder.   Raw bamboo powder with a particle size of about 500μm is stored in a light-shielding and sealing bag within one hour after processing, vacuum-packed under anaerobic or semi-anaerobic conditions, and left standing for about a month. Silage body of raw bamboo powder characterized by being made.   A fermented food containing a raw bamboo powder silage, which is made from a mixture of raw bamboo powder silage and okara and fermented into yogurt.   A raw bamboo powder silage, which is made from a mixture of raw bamboo powder silage and okara, and fermented with yogurt by adding fermentation auxiliary bacteria such as koji mold and fermenting including okara Food. Mixing the raw bamboo powder silage and okara;
The process of leaving the mixture of raw bamboo powder silage and okara to stand and fermenting it into yogurt,
A process for producing fermented foods comprising raw bamboo powder silage body and okara. Mixing the raw bamboo powder silage and okara;
A process of adding fermentation auxiliary bacteria such as Aspergillus oryzae to a mixture of raw bamboo powder silage body and okara and leaving it to be fermented into yogurt,
A process for producing fermented foods comprising raw bamboo powder silage body and okara.

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