JPH09187168A - Bag for fungus incubation and the incubation of the same - Google Patents

Bag for fungus incubation and the incubation of the same

Info

Publication number
JPH09187168A
JPH09187168A JP8021973A JP2197396A JPH09187168A JP H09187168 A JPH09187168 A JP H09187168A JP 8021973 A JP8021973 A JP 8021973A JP 2197396 A JP2197396 A JP 2197396A JP H09187168 A JPH09187168 A JP H09187168A
Authority
JP
Japan
Prior art keywords
bag
culture
porous sheet
air
culture bag
Prior art date
Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
Granted
Application number
JP8021973A
Other languages
Japanese (ja)
Other versions
JP3515266B2 (en
Inventor
Takahiko Baba
隆彦 馬場
Hidekazu Yamauchi
英一 山内
Current Assignee (The listed assignees may be inaccurate. Google has not performed a legal analysis and makes no representation or warranty as to the accuracy of the list.)
KANEBO AGURITETSUKU KK
Kanebo Ltd
Original Assignee
KANEBO AGURITETSUKU KK
Kanebo Ltd
Priority date (The priority date is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the date listed.)
Filing date
Publication date
Application filed by KANEBO AGURITETSUKU KK, Kanebo Ltd filed Critical KANEBO AGURITETSUKU KK
Priority to JP02197396A priority Critical patent/JP3515266B2/en
Publication of JPH09187168A publication Critical patent/JPH09187168A/en
Application granted granted Critical
Publication of JP3515266B2 publication Critical patent/JP3515266B2/en
Anticipated expiration legal-status Critical
Expired - Fee Related legal-status Critical Current

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  • Mushroom Cultivation (AREA)

Abstract

PROBLEM TO BE SOLVED: To provide a bag for fungus incubation and incubating method able to gather fruiting body in high yield at early state by feeding a proper air for the growth of hypha from the stage of incubation, formation of primordium and fruiting body and keeping the high growth vitality (breathing vitality) of mycelium. SOLUTION: This bag for incubation 5 is made of plastic film having a gas permeable porous sheet 3 thermo compression bonded on the venting hole and the bond strength of the thermo compression bonding is 0.1-1.5kgf/15mm according to tensile tester. The bag is filled with culturing raw material 6 and planted with a bacterial strain and the gas permeable sheet 3 is peeled off from the bag when the hypha spreads to the 50% length from culturing medium to top edge of the bag and continued the incubation.

Description

【発明の詳細な説明】Detailed Description of the Invention

【0001】[0001]

【発明の属する技術分野】本発明は、工業的にきのこ類
を量産するために用いられるきのこ類の培養袋およびこ
れを用いたきのこ類の培養方法に関するものである。
BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a mushroom bag for industrially mass-producing mushrooms and a method for cultivating mushrooms using the same.

【0002】[0002]

【従来の技術】近年、食用きのこ類を工業的に生産する
方法として、プラスチック製の袋におが粉や米糠などを
加水調整したきのこ培地を詰めて殺菌し、これに種菌を
接種して培養した後、袋の一部あるいは全部を破って菌
床を露出させ、きのこを発生させることが行われてい
る。
2. Description of the Related Art In recent years, as a method for industrially producing edible mushrooms, a plastic bag is sterilized by filling mushroom medium prepared by hydrolyzing sawdust, rice bran, etc., and inoculated with inoculum. After that, a part or all of the bag is torn to expose the fungus bed and to generate mushrooms.

【0003】上記工程中、培養工程においては、種菌か
ら伸長したきのこ菌糸を培地に蔓延させ、蔓延後も袋内
で追培養し、子実体の原基を誘起させたのち、培養袋を
一部または全部破袋して、栽培工程に供し、子実体を形
成させる。従って、きのこ菌糸は、培地に蔓延する過程
だけではなく、蔓延完了後も長期に渡って培養袋内の環
境の中で培養されることとなる。この袋内培養期間(追
培養を含む)は、きのこの種類や培地の大きさによって
異なるが、20日から120日に及んでいる。
In the above-mentioned process, in the culturing process, mushroom hyphae elongated from the inoculum are spread on the medium, and after the spread, additional culture is carried out in the bag to induce the primordium of the fruiting body, and then the culture bag is partially Alternatively, the whole bag is crushed and subjected to a cultivation process to form fruit bodies. Therefore, the mushroom mycelia will be cultured not only in the process of infesting the medium but also in the environment in the culture bag for a long time after the infestation is completed. The in-bag culture period (including additional culture) varies depending on the type of mushroom and the size of the medium, but ranges from 20 to 120 days.

【0004】そこで、上記きのこを培養する袋として
は、プラスチック袋の側面にフィルターを接着し、この
フィルターから雑菌の侵入を防止しつつ、長期間に渡っ
て袋内に空気を流通させることが行われている。例え
ば、特公昭57−42287号公報の茸菌培養袋は、オ
レフィン系プラスチック袋の一部分に特定穴径と空隙率
を持った多孔性プラスチックフィルムを設けたものであ
る。また、実公平4−23393号公報のきのこ菌類培
養生育容器は、容器本体に通気用の穴を設け、特定透気
度を持った撥水性滅菌紙を貼りつけたものである。
Therefore, as a bag for cultivating the mushrooms, a filter is attached to the side surface of a plastic bag, and air is circulated in the bag for a long period of time while preventing invasion of various bacteria from the filter. It is being appreciated. For example, the mushroom culture bag of Japanese Patent Publication No. 57-42287 is a olefin plastic bag provided with a porous plastic film having a specific hole diameter and porosity in a part thereof. In addition, the mushroom fungus culture growth container disclosed in Japanese Utility Model Publication No. 4-23393 has a container body provided with a vent hole and a water-repellent sterilized paper having a specific air permeability attached thereto.

【0005】しかしながら、菌糸の蔓延に伴って菌体量
が増加し、呼吸量が増加するため、単一のフィルターで
は充分に必要量の空気(酸素)が供給できない。従っ
て、培養に時間を要したり、原基の形成が遅れたり、子
実体の収量低下をきたしていた。
[0005] However, since the amount of bacterial cells increases with the spread of mycelium and the respiratory volume increases, a single filter cannot supply a sufficient amount of air (oxygen). Therefore, it takes a long time for culturing, the formation of primordia is delayed, and the yield of fruiting bodies is decreased.

【0006】すなわち、従来のフィルター付き培養袋で
は、種菌接種時には培地内に空気が充分にあり、しかも
菌体量が少ないため、菌体呼吸量より空気流通量が多
く、菌糸の生長は良好であるが、菌糸生長に伴ってフィ
ルターからの空気の供給量が不足し、袋内の酸素量が減
ってピークを迎える。その後は、いわゆる酸欠状態の中
で菌糸体の活力が低下し、総呼吸量も減少すると考えら
れる。したがって、従来のフィルターを用いた培養方法
では、フィルターの空気流通量は、培養初期から中期に
かけてはある程度の必要量を供給できるが、培養後期か
ら子実体形成にかけては不十分となる。
That is, in the conventional culture bag with a filter, air is sufficient in the medium at the time of inoculation of the inoculum and the amount of mycelia is small. Therefore, the air flow rate is larger than the respiration rate of the mycelia and the growth of mycelia is good. However, as the hyphae grow, the amount of air supplied from the filter becomes insufficient, and the amount of oxygen in the bag decreases, reaching a peak. After that, it is considered that the vitality of the mycelium is reduced in the so-called oxygen deficient state and the total respiration volume is also reduced. Therefore, in the conventional culture method using a filter, the air flow rate of the filter can be supplied to a certain required amount from the early stage of culture to the middle stage, but becomes insufficient from the late stage of culture to fruit body formation.

【0007】また、この点を改良するために、培養の初
期段階で培養袋から培養基を取り出すことは、雑菌汚染
が生じたり、培養基が著しく乾燥する等の問題が生じる
という欠点がある。
[0007] In order to improve this point, taking out the culture medium from the culture bag in the initial stage of the culture has a drawback that various bacteria are contaminated and the culture medium is significantly dried.

【0008】[0008]

【発明が解決しようとする課題】本発明はこのような事
情に鑑みなされたものであって、その目的とするところ
は、培養から原基形成あるいは子実体形成に至るまで、
菌糸の生長に適正な空気を供給し、菌糸体の生長活力
(呼吸活性)を高く維持し、早期にしかも高収量の子実
体を採取することを可能ならしめるきのこ類の培養袋お
よびこれを用いたきのこ類の培養方法を提供するにあ
る。
SUMMARY OF THE INVENTION The present invention has been made in view of the above circumstances, and its purpose is from culture to primordium formation or fruit body formation.
Mushroom culture bag and bag that can supply the proper air for mycelial growth, maintain high mycelial growth vitality (respiratory activity), and collect high-yield fruiting bodies at an early stage A method for cultivating mushrooms is provided.

【0009】[0009]

【課題を解決するための手段】上記の目的は、プラスチ
ックフィルムからなる培養袋の通気用の開口部に、通気
性多孔質シートを熱圧着してなる培養袋であって、該熱
圧着の強さが引っ張り試験機で0.1〜1.5kgf/
15mmであることを特徴とするきのこ類の培養袋、及
び培養袋内に培地原料を充填し、きのこ種菌を植菌した
後に培養するきのこ類の培養方法であって、培養袋とし
て下記の培養袋(A)を用い、培養袋(A)の通気性多
孔質シートを、きのこ菌糸が培地天面から50%以上蔓
延した時点で剥離して更に培養することを特徴とするき
のこ類の培養方法によって達成される。 (A)プラスチックフィルムからなる培養袋の通気用の
開口部に、通気性多孔質シートを熱圧着してなる培養袋
であって、該熱圧着の強さが引っ張り試験機で0.1〜
1.5kgf/15mmであるきのこ類の培養袋。
[Means for Solving the Problems] The above-mentioned object is a culture bag in which a breathable porous sheet is thermocompression-bonded to an opening for ventilation of a culture bag made of a plastic film. Saga tensile tester 0.1-1.5kgf /
A mushroom bag for cultivating mushrooms, characterized by having a length of 15 mm, and a method for cultivating mushrooms, which comprises culturing mushroom bags after inoculating mushroom seeds with a medium raw material filled in the culture bag. A method for cultivating mushrooms characterized in that (A) is used, and the air-permeable porous sheet of the culture bag (A) is peeled off and further cultured when the mushroom hyphae have spread 50% or more from the top surface of the medium. To be achieved. (A) A culture bag in which a breathable porous sheet is thermocompression bonded to an opening for ventilation of a culture bag made of a plastic film, the thermocompression strength being 0.1 to 10 in a tensile tester.
A culture bag for mushrooms that is 1.5 kgf / 15 mm.

【0010】すなわち、本発明者らは、きのこ培養袋と
通気性多孔質シートとの接合(熱圧着)強度を特定範囲
とすることにより、剥離容易性(以下「イージーピール
性」と記す)を付与し、培養袋と通気性多孔質シートと
を容易に且つ任意の状態に開封可能にした。そして、培
養基や培養袋を破損することなく通気性多孔質シートを
剥離して空気量を調節し、菌糸生長を促して培養期間の
短縮を図ることができるようにした。更には、特定の培
養状態を経過後、通気性多孔質シートの剥離を行うこと
により、雑菌汚染を防止しつつ、充分量の空気を供給す
ることを可能とした。
That is, the inventors of the present invention set the bonding (thermocompression) strength between the mushroom culture bag and the air-permeable porous sheet within a specific range to facilitate peeling (hereinafter referred to as "easy peelability"). Then, the culture bag and the air-permeable porous sheet can be easily and arbitrarily opened. Then, the air-permeable porous sheet was peeled off without damaging the culture substrate or the culture bag to adjust the amount of air to promote mycelial growth and shorten the culture period. Furthermore, by removing the breathable porous sheet after a specific culture state, it was possible to supply a sufficient amount of air while preventing contamination of various bacteria.

【0011】[0011]

【発明の実施の形態】次に、本発明を詳しく説明する。
図1は、本発明のきのこ類の培養袋の一例を示す説明図
である。図1において、1はガゼット折りして袋状に成
形されたプラスチックフィルム製の袋である。袋1に
は、通気用の開口部2が形成され、この通気用の開口部
2に通気性多孔質シート3を熱圧着して接合部4を形成
している。
Next, the present invention will be described in detail.
FIG. 1 is an explanatory view showing an example of the mushroom culture bag of the present invention. In FIG. 1, reference numeral 1 denotes a bag made of a plastic film formed by folding a gusset into a bag shape. An opening 2 for ventilation is formed in the bag 1, and the air-permeable porous sheet 3 is thermocompression-bonded to the opening 2 for ventilation to form a joint 4.

【0012】この接合部4の接合強度(熱圧着の強さ)
は、JIS−Z0238で規定される引っ張り試験機を
用いた方法で0.1〜1.5kgf/15mm、更に好
ましくは0.2〜1.0kgf/15mmに設定する必
要がある。
Bonding strength of this bonded portion 4 (strength of thermocompression bonding)
Is required to be set to 0.1 to 1.5 kgf / 15 mm, more preferably 0.2 to 1.0 kgf / 15 mm by a method using a tensile tester specified in JIS-Z0238.

【0013】接合強度が0.1kgf/15mm未満で
あると、培養袋に培地を充填したり、植菌作業を行う際
等に通気性多孔質シートが剥がれ易くなるため好ましく
ない。逆に接合強度が1.5kgf/15mmを超える
と、通気性多孔質シートが剥がしにくく、材質によって
は通気性多孔質シートや培養袋本体が破れ易くなるため
好ましくない。
When the bonding strength is less than 0.1 kgf / 15 mm, the air-permeable porous sheet is easily peeled off when the culture bag is filled with the medium or the inoculation work is performed, which is not preferable. On the other hand, if the bonding strength exceeds 1.5 kgf / 15 mm, the breathable porous sheet is difficult to peel off, and depending on the material, the breathable porous sheet or the culture bag body is likely to tear, which is not preferable.

【0014】通気性多孔質シートの材質は、特に限定す
るものではなく、培養袋への熱圧着が上記の接合強度の
範囲内で設定できるものであればよく、例えば、滅菌紙
では、ポリプロピレン、ポリエチレン等に代表される合
成パルプと木材パルプとを混抄したものを用い、熱溶融
する合成パルプとヒートシール性のない木材パルプの混
入率を調整することにより、所望の剥離強度を得ること
かできる。また、ポリエチレン、ポリプロピレン等のオ
レフィン系のプラスチックやポリエステル、ナイロン、
ビニール、ポリ塩化ビニル等により成形されたものであ
ってもよく、これらの中から、溶融温度や密度などの物
性の異なるシートを張り合わせたものを通気性多孔質シ
ートとして用い、剥がす際には各材質の層間が剥離する
ことにより、所定の接合強度とするようにしてもよい。
また、熱圧着での溶融性をもたない木材パルプなど天然
物が主原料の場合は、ホットメルトタイプの糊料をコー
ティングしたものを用いれば、界面剥離によりイージー
ピール性を付与できる。
The material of the air-permeable porous sheet is not particularly limited as long as the thermocompression bonding to the culture bag can be set within the above-mentioned bonding strength range. It is possible to obtain a desired peel strength by using a mixture of synthetic pulp typified by polyethylene and the like and wood pulp, and adjusting the mixing ratio of the heat-melting synthetic pulp and the wood pulp having no heat-sealing property. . In addition, olefin plastics such as polyethylene and polypropylene, polyester, nylon,
It may be formed of vinyl, polyvinyl chloride or the like, and of these, a sheet obtained by laminating sheets having different physical properties such as melting temperature and density is used as a breathable porous sheet, and each sheet is peeled off when peeled. A predetermined bonding strength may be obtained by separating the layers of the material.
When the main raw material is a natural product such as wood pulp that does not have the meltability by thermocompression bonding, if a hot-melt type paste is used, easy peeling can be imparted by interfacial peeling.

【0015】また、通気性多孔質シートは、きのこ類の
菌糸の生長に必要な空気の流通性を有するよう、穴径が
0.1〜100μm、JIS−P8117に規定される
透気度が2〜200秒/100ccの範囲に設定するこ
とが空気の流通性や雑菌の防除性の点で好ましく、更に
好ましくは、穴径1〜100μm,透気度60〜150
秒/100ccである。なお、通気性多孔質シートの面
積や厚みは上記通気性多孔質シートの性能に応じて、例
えば空気の流通性が悪い場合は、シートの面積を広く、
厚みを薄く、逆に空気の流通性が良すぎたり、培養室の
環境が悪く(浮遊微生物が多い)、雑菌汚染率が心配さ
れる場合は、シートの面積を小さく、厚みを暑くするな
ど、適宜設定すればよい。
Further, the air-permeable porous sheet has a hole diameter of 0.1 to 100 μm and an air permeability of 2 according to JIS-P8117 so as to have the air flowability necessary for the growth of mycelia of mushrooms. It is preferable to set it in the range of 200 sec / 100 cc from the viewpoint of air flowability and control of various bacteria, and more preferably, hole diameter 1-100 μm, air permeability 60-150.
Seconds / 100 cc. The area and thickness of the air-permeable porous sheet depends on the performance of the air-permeable porous sheet, for example, when the air flowability is poor, the area of the sheet is wide,
If the thickness is thin, conversely the air circulation is too good, the environment in the culture room is bad (there are many floating microorganisms), and the contamination ratio of various bacteria is a concern, reduce the area of the sheet and increase the thickness. It may be set appropriately.

【0016】上記通気性多孔質シート及び培養袋に設け
る通気用の開口部の形状は特に限定されるものではな
く、円形、楕円形、三角形や四角形等の多角形、線状形
など適宜設定すればよい。
The shape of the ventilation openings provided in the air-permeable porous sheet and the culture bag is not particularly limited, and may be appropriately set such as a circle, an ellipse, a polygon such as a triangle or a quadrangle, and a linear shape. Good.

【0017】通気用開口部の大きさは、特に限定される
ものではなく、培養基と培養袋との容量比等に合わせ
て、必要な通気量が得られるように適宜設定すれば良
い。例えば、培養袋のほぼ全面を通気用開口部に設定し
ても良い。但し、この場合、通気性多孔質シートの剥離
は、培養袋空間部,すなわち培養原料と接していない部
分のみ剥離することが、雑菌汚染防止の点で好ましい。
The size of the ventilation opening is not particularly limited, and may be appropriately set in accordance with the volume ratio of the culture medium and the culture bag so that the required ventilation amount can be obtained. For example, almost the entire surface of the culture bag may be set as the ventilation opening. However, in this case, it is preferable that the air-permeable porous sheet is peeled off only in the culture bag space portion, that is, the portion that is not in contact with the culture raw material, from the viewpoint of preventing contamination of various bacteria.

【0018】通気性多孔質シートの大きさ及び形状は、
培養袋からの剥離を容易にする点で、通気用の開口部よ
りも大きいか、形状を変えるなどして、通気性多孔質シ
ート側に、接合されない余白部を形成することが望まし
い。例えば、通気用の開口部を円形とし、通気性多孔質
シートの一辺の長さを通気用の開口部の直径よりも若干
大きい四角形に設定して、通気性多孔質シートの四隅か
ら剥がしやすくするようにしてもよい。
The size and shape of the breathable porous sheet are
From the viewpoint of facilitating peeling from the culture bag, it is desirable to form a non-bonded margin on the side of the air-permeable porous sheet by making it larger than the opening for ventilation or changing the shape. For example, the ventilation openings are circular, and the length of one side of the ventilation porous sheet is set to a quadrangle slightly larger than the diameter of the ventilation openings to facilitate peeling from the four corners of the ventilation porous sheet. You may do it.

【0019】あるいは、図3に示すように、スタンディ
ングパウチ型プラスチックフィルム袋11に、線状形の
通気性多孔質シート12を熱圧着し固定した培養袋を用
いるようにしてもよい。この場合、図4に示すように、
通気性多孔質シート12を剥がすことにより、培養袋1
3の上部を分割することができるので、培養基14の天
面から子実体を発生させるようなヒラタケ、ブナシメ
ジ、ナメコ等のきのこの栽培に好適である。
Alternatively, as shown in FIG. 3, a standing pouch-type plastic film bag 11 may be used as a culture bag in which a linear breathable porous sheet 12 is thermocompression-bonded and fixed. In this case, as shown in FIG.
By peeling the air-permeable porous sheet 12, the culture bag 1
Since the upper part of 3 can be divided, it is suitable for cultivating mushrooms such as oyster mushrooms, beech slugs and nameko that produce fruiting bodies from the top surface of the culture medium 14.

【0020】上記の培養袋を用いたきのこ類の培養は、
例えば次のようにして行われる。まず、おが粉や米糠等
を混合して加水調整されたきのこ培地を、上記のように
して得られた培養袋に充填する。そして、加熱滅菌を行
い、滅菌終了後、培地を冷却したのち、シイタケ、ナメ
コ、マイタケ等の所望のきのこ種菌を接種する。そし
て、培養袋の上部開口を熱圧着して密封し、図2に示す
ように培養を行う。
Cultivation of mushrooms using the above culture bag is
For example, it is performed as follows. First, a mushroom bag obtained by mixing water with sawdust, rice bran, or the like and adjusted with water is filled in the culture bag obtained as described above. Then, heat sterilization is performed, and after the sterilization is completed, the medium is cooled, and then a desired mushroom inoculum such as shiitake, nameko, maitake, etc. is inoculated. Then, the upper opening of the culture bag is thermocompression-bonded and sealed, and the culture is performed as shown in FIG.

【0021】きのこ種菌接種後、培養すると、通気性多
孔質シートを介した空気の流通により、きのこ菌糸は呼
吸生長し、培地全体の30%程度まで伸長する。更に培
養を続けると、図5(A)に示すように、きのこ菌糸生
長部22が培地天面21から培地底面24に向かって、
培地全体の高さ19の50%〜65%程度まで伸長し、
培養袋18内でのきのこ菌糸の呼吸による酸素消費量が
ピークを越え、通気性多孔質シート15を介しての空気
供給が間に合わず、いわゆる酸欠状態が始まって菌糸活
力が低下する。したがって、この時期以降に通気性多孔
質シート15の一部あるいは全部を剥がし、空気の流通
促進を図ることが望ましい。
When inoculated with mushroom inoculum and cultivated, the mycelium of mushroom grows respiration by the circulation of air through the air-permeable porous sheet and extends to about 30% of the whole medium. When the culture is further continued, as shown in FIG. 5 (A), the mushroom hyphae-growing portion 22 moves from the culture medium top surface 21 toward the culture medium bottom surface 24,
It grows up to 50% to 65% of the total height 19 of the medium,
The oxygen consumption due to the respiration of mushroom hyphae in the culture bag 18 exceeds the peak, and the air supply through the air-permeable porous sheet 15 cannot be made in time, so-called oxygen deficiency state begins and the hyphae vigor is reduced. Therefore, it is desirable to peel off a part or all of the air-permeable porous sheet 15 after this time to promote the circulation of air.

【0022】なお、図2(B)の状態では、既に培地の
天面部分のきのこ菌糸の菌体量やその分泌物は、通気性
多孔質シートをある程度剥がして雑菌侵入が生じても、
雑菌が繁殖することができず、雑菌汚染されにくい状態
になっている。
In the state of FIG. 2 (B), even if the amount of fungal mycelium of the mushroom mycelium on the top surface of the medium and its secreted product are removed by removing the air-permeable porous sheet to some extent,
Miscellaneous bacteria cannot reproduce and are in a state of being less susceptible to contamination.

【0023】通気性多孔質シートを剥がすタイミング
は、きのこ菌糸の活力を高水準に維持し、子実体の早期
発生、高収量を得るために、先に述べた培養袋内酸素消
費量のピーク時、もしくはピーク直後が望ましいが、培
養するきのこ類の菌糸生長速度や雑菌抵抗性、あるいは
培養室の環境に応じて、適宜変更すればよく、例えば菌
糸の蔓延完了以後に行ってもよい。
The timing of peeling the air-permeable porous sheet is at the peak of the oxygen consumption in the culture bag described above in order to maintain the vitality of the mushroom hyphae at a high level, obtain early fruiting bodies, and obtain a high yield. Or, it is desirable that it is immediately after the peak, but it may be appropriately changed depending on the mycelial growth rate of the mushrooms to be cultured, the resistance to various bacteria, or the environment of the culture room. For example, it may be performed after the completion of the mycelial spread.

【0024】また、通気性多孔質シートを剥がす面積に
ついては、全部剥がすことが空気の流通性の点では望ま
しいが、培養するきのこ類の菌糸生長速度や雑菌抵抗
性、あるいは培養室の環境に応じて、適宜設定すればよ
く、例えば培養室内環境が乾燥しやすい場合は、図2
(B)のように、一部分のみ剥がすようにしてもよい。
Regarding the area for peeling off the air-permeable porous sheet, it is desirable to peel off the entire area from the viewpoint of air circulation, but depending on the hyphae growth rate and resistance to various bacteria of the mushrooms to be cultured, or the environment of the culture room. Therefore, if the environment in the culture room is easily dried, for example, in FIG.
You may make it peel off only one part like (B).

【0025】上記のようにして培養を行うことにより、
培養袋内への空気流通性は促進され、きのこ菌糸の活力
は飛躍的に向上する。しかも、特定の接合強度の通気性
多孔質シートを用いているので、手作業でも容易に確実
に剥がすことができる。したがって、同じ作業をカッタ
ーや鋏を用いて実施した場合のように破れが不均一にな
ったり、培養基を傷つけることもなく、また培養基の乾
燥も防止することができる。
By culturing as described above,
The air circulation to the culture bag is promoted, and the vitality of mushroom mycelia is dramatically improved. Moreover, since the breathable porous sheet having a specific bonding strength is used, it can be easily and surely peeled off even by manual work. Therefore, unlike the case where the same work is carried out using a cutter or scissors, the breakage is not uneven, the culture medium is not damaged, and the culture medium can be prevented from being dried.

【0026】次に、この状態で培養を続けると、図5
(B)に示すように、菌糸が培地全体に蔓延したのち、
図2(C)に示すように、子実体原基9が誘導される。
そして、子実体の生長の過程で培養袋の上部を破り、図
2(D)に示すように所望のきのこ子実体10が得られ
る。なお、きのこ培養基全面から子実体を発生させる場
合には、培養袋全体を破れば良い。
Next, when culturing is continued in this state, as shown in FIG.
As shown in (B), after the hyphae spread throughout the medium,
As shown in FIG. 2C, the fruiting body primordium 9 is derived.
Then, the upper part of the culture bag is broken during the growth of the fruiting body, and the desired mushroom fruiting body 10 is obtained as shown in FIG. 2 (D). When the fruiting bodies are generated from the entire surface of the mushroom culture medium, the entire culture bag may be broken.

【0027】[0027]

【発明の効果】以上のように、本発明のきのこ類の培養
袋は、プラスチックフィルム袋の一部に通気孔を設け、
その部分に通気性多孔質シートを特定の接合強度となる
ように熱圧着しているので、特定の培養状態を経過後
に、きのこ類の培養袋の通気性多孔質シートを剥がすこ
とにより、雑菌汚染を防止しつつ充分量の空気を供給す
ることができ、従来の培養袋に比べて飛躍的に培養期間
の短縮を実現でき、高収量できのこ培養基を量産化する
事ができる。
INDUSTRIAL APPLICABILITY As described above, the mushroom bag for cultivating mushrooms of the present invention is provided with a vent hole in a part of the plastic film bag,
Since a breathable porous sheet is thermocompression-bonded to that part so that it has a specific bonding strength, by removing the breathable porous sheet of the mushroom bag for culture after a specific culture condition, contamination of various bacteria is possible. It is possible to supply a sufficient amount of air while preventing the above, and it is possible to dramatically shorten the culture period as compared with the conventional culture bag, and it is possible to mass-produce the mushroom culture medium with high yield.

【0028】次に、本発明を実施例に基づき具体的に説
明する。 〈培養袋の調製〉円筒形に押し出し成形された直径12
cm、厚み50μの透明ポリプロピレンフィルムを長さ
35cmに切断した。そしてこの円筒フィルムをガゼッ
ト折り込みし、底部をヒートシールして密封し、袋状に
成形した。次に、袋開口から80cmの位置を中心に直
径2cmの通気孔を開けた。一方、通気性多孔質シート
(60重量%高密度ポリエチレンと40重量%木材パル
プを混抄した厚み0.12mm、平均穴径3μ、透気度
100秒(JIS−P8117)の滅菌紙)を準備し、
上記培養袋の通気孔に培養袋の外側から熱圧着した。こ
の時の接合強度は、JIS−Z0238で0.4kgf
/15mmであった。
Next, the present invention will be specifically described based on examples. <Preparation of culture bag> Cylindrical extruded diameter 12
A transparent polypropylene film having a thickness of 50 cm and a thickness of 50 cm was cut into a length of 35 cm. Then, this cylindrical film was gusset-folded, and the bottom portion was heat-sealed and hermetically sealed to form a bag. Next, a vent hole having a diameter of 2 cm was opened around the position 80 cm from the bag opening. On the other hand, a breathable porous sheet (60% by weight high-density polyethylene and 40% by weight wood pulp mixed 0.12 mm thick, 3 mm average hole diameter, 100 seconds air permeability (JIS-P8117) sterilized paper) is prepared. ,
Thermocompression bonding was performed from the outside of the culture bag to the ventilation holes of the culture bag. The bonding strength at this time is 0.4 kgf according to JIS-Z0238.
/ 15 mm.

【0029】〈しいたけ培養基の調製〉上記のきのこ培
養袋に、おが粉4重量部(以下「部」)米糠1部に加水
し、含水率を70%に調整した培地1kgを充填した。
次に、これを加熱滅菌釜に入れ、120℃において90
分間保持して滅菌した。そしてこれをクリーンルーム内
に取り出し、培地温度が25℃になるまで冷却したの
ち、しいたけ種菌を5g接種し、培養袋の上部開口を図
2(A)に示すように一文字に閉じてヒートシールで密
封し、培養を行った。培養室の環境は20〜25℃に管
理されており、床面は清潔に保たれていた。
<Preparation of Shiitake Culture Medium> Into the mushroom culture bag described above, 1 part of rice bran having 4 parts by weight of sawdust (hereinafter referred to as “part”) was added and 1 kg of a medium having a water content adjusted to 70% was filled.
Next, this is put in a heat sterilization kettle, and 90 at 120 ° C
Hold for minutes to sterilize. Then, take this out into a clean room, cool it until the medium temperature reaches 25 ° C, inoculate 5 g of Shiitake inoculum, close the upper opening of the culture bag in one letter as shown in Fig. 2 (A), and seal with heat seal. Then, the cells were cultured. The environment of the culture room was controlled at 20 to 25 ° C, and the floor surface was kept clean.

【0030】〈実施例1〜5〉上記のようにして調製し
た培養袋入りしいたけ培養基を用い、植菌後10日、2
0日、30日、40日、60日目でそれぞれ培養袋の通
気性多孔質シートを剥がし(実施例1、2、3、4、
5)、更にこれらを植菌後80日目まで培養を続けて培
養袋を破袋し、その後栽培ハウス内にて栽培に供した。
そして、子実体採取終了後、110日目に浸水処理し、
2回目の子実体発生を促した。栽培ハウス内の温度条件
は、自然条件(最高25℃、最低10℃、平均15℃)
で行った。なお、それぞれの試験は300個の培養基を
用いて行い、子実体採取は140日目に打ち切った。
<Examples 1 to 5> Using the Shiitake mushroom culture medium in a culture bag prepared as described above, 10 days after inoculation, 2
On days 0, 30, 40, and 60, the air-permeable porous sheet of the culture bag was peeled off (Examples 1, 2, 3, 4,
5) Further, the culture was continued until the 80th day after the inoculation, the culture bag was broken, and then the culture bag was cultivated in the cultivation house.
Then, after the fruit body collection is completed, it is flooded on the 110th day,
Prompted the second fruiting body development. The temperature conditions in the cultivation house are natural (maximum 25 ° C, minimum 10 ° C, average 15 ° C)
I went in. Each test was performed using 300 culture media, and fruit body collection was terminated on the 140th day.

【0031】〈実施例6〜8〉通気性多孔質シートの培
養袋との接合強度を表1に示す値とする他は、実施例2
と同様にした。
Examples 6 to 8 Example 2 was repeated except that the bonding strength of the air-permeable porous sheet with the culture bag was set to the value shown in Table 1.
Same as.

【0032】〈実施例9〉培養袋の通気性多孔質シート
を剥がさずに植菌後80日目まで培養を続ける他は実施
例1〜5と同様にした。
<Example 9> The same procedure as in Examples 1 to 5 was repeated, except that the air-permeable porous sheet of the culture bag was not removed and the culture was continued until 80 days after the inoculation.

【0033】〈比較例1〉培養袋の調製において、培養
袋通気孔と通気性多孔質シートとの熱圧着時の強さを引
っ張り試験機で0.05kgf/15mmとする他は実
施例2と同様にした。
<Comparative Example 1> In the preparation of the culture bag, the strength of the culture bag ventilation hole and the air-permeable porous sheet at the time of thermocompression bonding was set to 0.05 kgf / 15 mm in a tensile tester, and the same manner as in Example 2. I did the same.

【0034】〈比較例2〉培養袋の調製において、通気
性多孔質シートを100%ポリプロピレンとし、培養袋
通気孔と通気性多孔質シートとの熱圧着時の強さを引っ
張り試験機で2.0kgf/15mmとする他は実施例
2と同様にした。以上の結果を表1及び表2に示す。
Comparative Example 2 In the preparation of the culture bag, the air-permeable porous sheet was made of 100% polypropylene, and the strength of the culture bag ventilation hole and the air-permeable porous sheet during thermocompression bonding was measured by a tensile tester. The same procedure was performed as in Example 2 except that the pressure was 0 kgf / 15 mm. The above results are shown in Tables 1 and 2.

【0035】[0035]

【表1】 [Table 1]

【0036】[0036]

【表2】 [Table 2]

【0037】表1,表2から明らかなように、実施例1
は、通気性多孔質シートの、きのこ培養袋からの剥離
を、菌糸が培地天面から20%蔓延した時点で行ったの
で、菌糸が生長していない部分に雑菌汚染が見られ、ま
た、表中には示していないが、子実体収量の培養基間で
のばらつきが多少観察された。しかし、子実体収量は高
く、短期間で高収量を得るという本発明の最大の目的は
十分達成されていた。
As is clear from Table 1 and Table 2, Example 1
Since the air-permeable porous sheet was peeled from the mushroom culture bag when the hyphae spread 20% from the top surface of the culture medium, contamination of miscellaneous bacteria was observed in the portion where the hyphae did not grow, and Although not shown in the figure, some variation in the fruit body yield among the culture media was observed. However, the fruiting body yield was high, and the maximum object of the present invention to obtain a high yield in a short period of time was sufficiently achieved.

【0038】実施例2〜4で得られた培養基はいずれも
子実体収量が高く、実施例1に比べて雑菌汚染も殆どな
かった。このことから、培養の過程で、菌糸が培地天面
から50%以上蔓延した時点で通気性多孔質シートを剥
がすことは、培養袋内への空気流通が十分に行われ、菌
糸の活性化を促して雑菌汚染に対する抵抗性が増し、子
実体が早期に発生し、収量が向上することから好ましい
ことがわかる。
Each of the culture media obtained in Examples 2 to 4 had a high fruiting body yield, and there was almost no contamination by various bacteria as compared with Example 1. From this, in the process of culturing, peeling the air-permeable porous sheet when the hyphae have spread 50% or more from the top surface of the medium means that the air flow into the culture bag is sufficient and the hyphae are activated. It can be seen that it is preferable because it promotes the resistance to contamination by various bacteria, the fruiting body is generated early, and the yield is improved.

【0039】実施例5では通気性多孔質シートの、きの
こ培養袋からの剥離を、菌糸蔓延後も植菌後60日まで
培養したのち行っているので、きのこ培養袋内での酸欠
状態が継続し、一旦菌糸の活力が低下するため、子実体
収量が実施例1〜4程は高くないことがわかる。
In Example 5, the air-permeable porous sheet was peeled from the mushroom culture bag after culturing for up to 60 days after inoculation even after the mycelium was infested. It can be seen that the fruiting body yield is not as high as in Examples 1 to 4, because the vigor of the hyphae is once reduced and the viability of the hyphae is once reduced.

【0040】実施例6〜8は、実施例2において通気性
多孔質シートの接合強度を変化させたものであるが、接
合強度が0.1〜1.5kgf/15mmの範囲内であ
れば、実施例2と同様の結果が得られることがわかる。
但し、実施例8では、接合強度が1.5kgf/15m
mと強いため、イージーピール性はあるものの、通気性
多孔質シートを培養袋から剥がす際、培養袋を傷つけな
いよう、注意深くあける必要があった。
In Examples 6 to 8, the bonding strength of the air-permeable porous sheet was changed in Example 2, but if the bonding strength is within the range of 0.1 to 1.5 kgf / 15 mm, It can be seen that the same results as in Example 2 are obtained.
However, in Example 8, the bonding strength was 1.5 kgf / 15 m.
Since it has a strong m, it has an easy peeling property, but when peeling the breathable porous sheet from the culture bag, it was necessary to open it carefully so as not to damage the culture bag.

【0041】実施例9は、通気性多孔質シートを剥離せ
ずに接合したまま培養したので、子実体収量が他の実施
例程は高くないことがわかる。
In Example 9, since the permeable porous sheet was cultured without being peeled off and bonded, the fruiting body yield was not as high as that of the other Examples.

【0042】これに対し、比較例1は、通気性多孔質シ
ートと培養袋との接合強度が低いため、培養袋への培地
充填、蒸気殺菌と冷却工程、および植菌作業で通気性多
孔質シートの一部もしくは全部が剥離してしまい、培養
初期で大量の雑菌汚染が発生した。
On the other hand, in Comparative Example 1, since the bonding strength between the air-permeable porous sheet and the culture bag is low, the air-permeable porous sheet is used for filling the culture bag with the medium, the steam sterilization and cooling process, and the inoculation work. A part or all of the sheet was peeled off, and a large amount of contaminants was generated in the early stage of culture.

【0043】また、比較例2では、接合強度が強いた
め、通気性多孔質シートを剥がすのに時間を要するだけ
でなく、通気性多孔質シートや培養袋が破れて、雑菌汚
染が発生した。更に雑菌汚染をせずに栽培まで実施した
培養基についても、培養の過程で培養基の天面が乾燥
し、子実体の収量が激減した。
Further, in Comparative Example 2, since the bonding strength was strong, it took not only time to peel off the air-permeable porous sheet, but also the air-permeable porous sheet and the culture bag were torn, resulting in contamination of various bacteria. Furthermore, regarding the culture medium that was grown up without contamination with various bacteria, the top surface of the culture medium was dried during the culture process, and the yield of fruiting bodies was drastically reduced.

【図面の簡単な説明】[Brief description of the drawings]

【図1】本発明のきのこ類の培養袋の一例を示す説明図
である。
FIG. 1 is an explanatory view showing an example of a culture bag for mushrooms of the present invention.

【図2】本発明のきのこ類の培養袋を用いて培養から栽
培までを行った過程を示す説明図である。
FIG. 2 is an explanatory view showing a process of culturing to cultivating using the mushroom bag of the present invention.

【図3】本発明のきのこ類の培養袋の他の一例を示す説
明図である。
FIG. 3 is an explanatory view showing another example of the mushroom culture bag of the present invention.

【図4】図3のきのこ類の培養袋の通気性多孔質シート
を剥離した状態を示す説明図である。
FIG. 4 is an explanatory view showing a state in which the air-permeable porous sheet of the mushroom bag of FIG. 3 is peeled off.

【図5】本発明のきのこ類の培養袋を用いて培養し、菌
糸が成長する状態を示した説明図である。
FIG. 5 is an explanatory view showing a state in which mycelium grows by culturing using the mushroom bag of the present invention.

【符号の説明】[Explanation of symbols]

1 ガゼット折りして袋状に成形されたプラスチック
フィルム性の袋 2 通気用の開口部 3 通気性多孔質シート 4 接合部 5 培養袋 6 培地 7 きのこ菌糸 8 ヒートシール部 9 子実体原基 10 きのこ子実体 11 スタンディングパウチ型プラスチックフィルム袋 12 線状形の通気性多孔質シート 13 培養袋 14 培養基 15 通気性多孔質シート 16 通気用開口部 17 封止部 18 培養袋 19 培地全体の高さ 20 種菌 21 培地天面 22 菌糸生長部 23 培地 24 培地底面 25 菌糸が蔓延したきのこ培養基
1 Plastic bag made by folding a gusset into a bag 2 Opening part for ventilation 3 Breathable porous sheet 4 Joining part 5 Culture bag 6 Medium 7 Mushroom mycelium 8 Heat seal part 9 Fruit body primordium 10 Mushroom Fruiting body 11 Standing pouch type plastic film bag 12 Linear breathable porous sheet 13 Culture bag 14 Culture medium 15 Breathable porous sheet 16 Venting opening 17 Sealing portion 18 Culture bag 19 Total medium height 20 Inoculum 21 medium top surface 22 mycelial growth part 23 medium 24 medium bottom 25 mushroom culture medium in which mycelium has spread

Claims (2)

【特許請求の範囲】[Claims] 【請求項1】 プラスチックフィルムからなる培養袋の
通気用の開口部に、通気性多孔質シートを熱圧着してな
る培養袋であって、該熱圧着の強さが引っ張り試験機で
0.1〜1.5kgf/15mmであることを特徴とす
るきのこ類の培養袋。
1. A culture bag in which an air-permeable porous sheet is thermocompression bonded to an aeration opening of a culture bag made of a plastic film, the thermocompression strength being 0.1 in a tensile tester. A culture bag for mushrooms, which is ~ 1.5 kgf / 15 mm.
【請求項2】 培養袋内に培地原料を充填し、きのこ種
菌を植菌した後に培養するきのこ類の培養方法であっ
て、培養袋として下記の培養袋(A)を用い、培養袋
(A)の通気性多孔質シートを、きのこ菌糸が培地天面
から50%以上蔓延した時点で剥離して更に培養するこ
とを特徴とするきのこ類の培養方法。 (A)プラスチックフィルムからなる培養袋の通気用の
開口部に、通気性多孔質シートを熱圧着してなる培養袋
であって、該熱圧着の強さが引っ張り試験機で0.1〜
1.5kgf/15mmであるきのこ類の培養袋。
2. A method of cultivating mushrooms, which comprises culturing a mushroom bag in which a culture medium material is filled, inoculated with a mushroom inoculum, and then cultivated, wherein the following culture bag (A) is used as the culture bag. ) A method for cultivating mushrooms, characterized in that the breathable porous sheet (1) is peeled off and further cultured when the mushroom hyphae have spread from the top surface of the medium by 50% or more. (A) A culture bag in which a breathable porous sheet is thermocompression bonded to an opening for ventilation of a culture bag made of a plastic film, the thermocompression strength being 0.1 to 10 in a tensile tester.
A culture bag for mushrooms that is 1.5 kgf / 15 mm.
JP02197396A 1996-01-12 1996-01-12 Culture bag for mushrooms and method for culturing mushrooms Expired - Fee Related JP3515266B2 (en)

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JP3515266B2 JP3515266B2 (en) 2004-04-05

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Cited By (4)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
JP2014008048A (en) * 2012-07-03 2014-01-20 Ueda Sangyo Kk Method for artificially cultivating flammulina velutipes mushrooms
CN104247627A (en) * 2013-06-28 2014-12-31 株式会社F·Tec Mushroom bed cultivation bag
CN105110977A (en) * 2015-09-18 2015-12-02 临汾市尧都区杜怡霖种植专业合作社 Cultivation medium used for increasing lentinacin in lentinus edodes
JP2020000037A (en) * 2018-06-26 2020-01-09 株式会社北研 Mushroom cultivation method by extension film

Cited By (4)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
JP2014008048A (en) * 2012-07-03 2014-01-20 Ueda Sangyo Kk Method for artificially cultivating flammulina velutipes mushrooms
CN104247627A (en) * 2013-06-28 2014-12-31 株式会社F·Tec Mushroom bed cultivation bag
CN105110977A (en) * 2015-09-18 2015-12-02 临汾市尧都区杜怡霖种植专业合作社 Cultivation medium used for increasing lentinacin in lentinus edodes
JP2020000037A (en) * 2018-06-26 2020-01-09 株式会社北研 Mushroom cultivation method by extension film

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