JPH11178452A - Elevated cultivation vessel - Google Patents
Elevated cultivation vesselInfo
- Publication number
- JPH11178452A JPH11178452A JP9354911A JP35491197A JPH11178452A JP H11178452 A JPH11178452 A JP H11178452A JP 9354911 A JP9354911 A JP 9354911A JP 35491197 A JP35491197 A JP 35491197A JP H11178452 A JPH11178452 A JP H11178452A
- Authority
- JP
- Japan
- Prior art keywords
- cultivation
- reinforcing member
- soil storage
- soil
- cultivation container
- 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
Links
Classifications
-
- A—HUMAN NECESSITIES
- A01—AGRICULTURE; FORESTRY; ANIMAL HUSBANDRY; HUNTING; TRAPPING; FISHING
- A01G—HORTICULTURE; CULTIVATION OF VEGETABLES, FLOWERS, RICE, FRUIT, VINES, HOPS OR SEAWEED; FORESTRY; WATERING
- A01G9/00—Cultivation in receptacles, forcing-frames or greenhouses; Edging for beds, lawn or the like
- A01G9/02—Receptacles, e.g. flower-pots or boxes; Glasses for cultivating flowers
-
- A—HUMAN NECESSITIES
- A01—AGRICULTURE; FORESTRY; ANIMAL HUSBANDRY; HUNTING; TRAPPING; FISHING
- A01G—HORTICULTURE; CULTIVATION OF VEGETABLES, FLOWERS, RICE, FRUIT, VINES, HOPS OR SEAWEED; FORESTRY; WATERING
- A01G13/00—Protecting plants
- A01G13/02—Protective coverings for plants; Coverings for the ground; Devices for laying-out or removing coverings
- A01G13/0256—Ground coverings
- A01G13/0262—Mulches, i.e. covering material not-pre-formed in mats or sheets
-
- A—HUMAN NECESSITIES
- A01—AGRICULTURE; FORESTRY; ANIMAL HUSBANDRY; HUNTING; TRAPPING; FISHING
- A01G—HORTICULTURE; CULTIVATION OF VEGETABLES, FLOWERS, RICE, FRUIT, VINES, HOPS OR SEAWEED; FORESTRY; WATERING
- A01G13/00—Protecting plants
- A01G13/02—Protective coverings for plants; Coverings for the ground; Devices for laying-out or removing coverings
- A01G13/0256—Ground coverings
- A01G13/0268—Mats or sheets, e.g. nets or fabrics
- A01G13/0275—Films
Landscapes
- Life Sciences & Earth Sciences (AREA)
- Environmental Sciences (AREA)
- Health & Medical Sciences (AREA)
- General Health & Medical Sciences (AREA)
- Toxicology (AREA)
- Cultivation Receptacles Or Flower-Pots, Or Pots For Seedlings (AREA)
Abstract
Description
【0001】[0001]
【発明の属する技術分野】本発明は、果実野菜、葉物野
菜、花卉、根菜類などを地表面より高い位置で栽培する
ための高設栽培容器に関する。BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an elevated cultivation container for cultivating fruit vegetables, leafy vegetables, flowers, root vegetables and the like at a position higher than the ground surface.
【0002】[0002]
【従来の技術】果実野菜、葉物野菜、花卉あるいは根菜
類などを栽培する場合、栽培地の地面に形成した畝に沿
って苗を植えて生育させる、土耕栽培という方法が採ら
れている。土耕栽培においては、育苗から収穫までの一
連の作業は、中腰やしゃがんだ姿勢で行うことが多く、
特に、苺などの場合、苗の定植作業においては、苗の運
搬などの重労働を伴うため、作業者の肉体的負担は非常
に大きなものとなっている。2. Description of the Related Art When cultivating fruit vegetables, leafy vegetables, flowers or root crops, a method called soil cultivation is used, in which seedlings are planted and grown along ridges formed on the ground of the cultivation area. . In soil cultivation, a series of operations from raising seedlings to harvesting are often performed in a crouching or crouching posture,
In particular, in the case of strawberries and the like, the planting work of the seedlings involves heavy labor such as transportation of the seedlings, so that the physical burden on the worker is extremely large.
【0003】このような過酷な労働条件を改善するた
め、作業者が立った姿勢で作業可能な栽培容器の開発や
新たな栽培技術の研究などが行われ、近年では、いわゆ
る高設栽培と呼ばれる栽培方法が実施されている。[0003] In order to improve such harsh working conditions, development of a cultivation container in which a worker can work in a standing posture and research on a new cultivation technique have been carried out. Cultivation methods are being implemented.
【0004】本出願人も苺などの栽培容器として、培土
の使用量が少なくてすみ、根の成長も良好な栽培容器を
開発し、実開平6−34437号公報などにおいて開示
している。また、この栽培容器を保持する装置、および
散水や施肥に好適な補助具も開発し、実公平6−164
95号公報などで開示している。これらの栽培容器と装
置とを組み合わせることにより、労働条件の改善を図る
ことができる。[0004] The present applicant has also developed a cultivation container for strawberry and the like which requires a small amount of cultivation soil and has good root growth, and this is disclosed in Japanese Utility Model Laid-Open No. 6-34437. In addition, a device for holding the cultivation container and an auxiliary tool suitable for watering and fertilizing have been developed.
No. 95 discloses this. By combining these cultivation containers and devices, working conditions can be improved.
【0005】図6は、このような補助具をセットした栽
培容器を保持装置で保持した状態を示す斜視図である。
図6に示すように、保持装置80は、フレーム81およ
び支柱82などで構成されており、先細り円筒状の栽培
容器91や散水・施肥用の補助具92を保持装置80で
保持することによって、立ち作業が可能となるため、労
働条件の改善とともに栽培作業の効率化を図ることがで
きる。FIG. 6 is a perspective view showing a state in which a cultivation container in which such an auxiliary tool is set is held by a holding device.
As shown in FIG. 6, the holding device 80 is configured by a frame 81, a support column 82, and the like. By holding the tapered cylindrical cultivation container 91 and an auxiliary tool 92 for watering and fertilizing with the holding device 80, Since the standing work can be performed, the working conditions can be improved and the cultivation work can be made more efficient.
【0006】一方、栽培容器を地表面より高い位置に保
持する方法として、本出願人は、複数個の容器本体を連
結部材で連結した形状の栽培容器を架台に架け渡して保
持する方法を開発し、特開平8−298870号公報な
どで開示している。On the other hand, as a method of holding a cultivation container at a position higher than the ground surface, the present applicant has developed a method of suspending a cultivation container having a shape in which a plurality of container bodies are connected by a connecting member, over a gantry. However, it is disclosed in JP-A-8-298870.
【0007】図7は、前記公報に係る栽培装置の一例を
示す斜視図であり、栽培容器95は、合成樹脂製の容器
本体96の上端の一部を連続的に形成することによっ
て、10個の容器本体を直線状に連結した形状を有する
容器本体群97a,97bを構成し、容器本体群97
a,97bの上部を連結部材98で連結した構造を備え
ている。FIG. 7 is a perspective view showing an example of the cultivation apparatus according to the above-mentioned publication. Cultivation containers 95 are formed by continuously forming a part of the upper end of a synthetic resin container body 96. Container bodies 97a and 97b having a shape in which the container bodies are connected linearly.
a and 97b are connected by a connecting member 98.
【0008】この栽培装置を使用することにより、立ち
作業が可能となり、従来の栽培容器の多数個分を1回の
係止動作でフレーム99に係止することができるため、
栽培容器の係止作業を効率化することができる。[0008] By using this cultivation apparatus, it is possible to perform a standing operation, and a large number of conventional cultivation containers can be locked to the frame 99 by a single locking operation.
The work of locking the cultivation container can be made more efficient.
【0009】[0009]
【発明が解決しようとする課題】従来の高設栽培装置の
場合、栽培容器が単体容器、連続容器のいずれの形状で
あっても、容器内へ培土を充填する作業は容器ごとに行
う必要があるため、多数の栽培容器を使用する大規模栽
培においては、設置作業や培土充填作業に多大な時間と
労力を要している。In the case of a conventional elevated cultivation apparatus, regardless of whether the cultivation container is a single container or a continuous container, it is necessary to perform the operation of filling the container with the cultivation soil for each container. For this reason, in large-scale cultivation using a large number of cultivation containers, a large amount of time and labor is required for installation work and soil filling work.
【0010】また、栽培容器は保持装置に垂り下げた状
態で使用する関係上、保持装置は頑丈な構造とならざる
を得ず、実際に栽培に寄与している部分に比べ、保持装
置が占める割合の方が大きくなりがちである。したがっ
て、運搬などの際に手間がかかるだけでなく、設置する
ためには広いスペースを必要とするため狭い栽培地にお
いては採用が困難である。[0010] Further, since the cultivation container is used in a state of being hung on the holding device, the holding device must have a strong structure, and the holding device has a stronger structure than a portion that actually contributes to cultivation. They tend to be larger. Therefore, not only is it time-consuming to carry, but also a large space is required for installation, and it is difficult to adopt it in a narrow cultivation area.
【0011】また、栽培シーズン終了後においては、栽
培容器内の培土を排出する作業や装置類の撤収作業に多
大な時間と労力を費やしているだけでなく、これらの栽
培容器や保持装置などを収納するために広いスペースを
必要としている。After the end of the cultivation season, not only does a lot of time and labor be spent on the work of discharging the cultivation soil in the cultivation container and withdrawal of the equipment, but also by using these cultivation containers and holding devices. Requires a large space to store.
【0012】さらに、従来の高設栽培装置はサイズが比
較的大きく構造も複雑であるため、製作に多くの時間と
手間を要し、合成樹脂などの原材料も大量に必要とし、
高コストである。このため、栽培面積が小さく売上額も
低い小規模農家などにおいては採用が困難である。Furthermore, the conventional elevated cultivation apparatus is relatively large in size and complicated in structure, so that it takes a lot of time and labor to manufacture, and requires a large amount of raw materials such as synthetic resin.
High cost. For this reason, it is difficult to adopt the method in small-scale farmers with small cultivation areas and low sales.
【0013】そこで、本発明が解決しようとする課題
は、立ち作業が可能で、培土・水・肥料などの使用量を
低減することができ、設置・撤収が容易で、収納スペー
スも小さく、低コストの高設栽培容器を提供することに
ある。The problem to be solved by the present invention is that standing work can be performed, the amount of soil, water, fertilizer, etc. used can be reduced, installation / removal is easy, storage space is small, and low An object of the present invention is to provide a high cost cultivation container.
【0014】[0014]
【課題を解決するための手段】前記課題を解決するた
め、本発明の高設栽培容器は、重ね合わせた複数のフィ
ルム材を部分的に固着して櫛状に形成された培土収容部
と、培土収容部が挿通する開口部と培土収容部を係止す
る係止部とを有する溝状の補強部材と、補強部材と係合
して培土収容部を地面上に起立状態に保持する保持手段
とを備えたことを特徴とする。In order to solve the above-mentioned problems, an elevated cultivation container according to the present invention comprises a comb-shaped cultivated soil storage part formed by partially fixing a plurality of laminated film materials, A groove-shaped reinforcing member having an opening through which the cultivated soil storage portion is inserted and a locking portion for locking the cultivated soil storage portion, and holding means for engaging with the reinforcing member and holding the cultivated soil storage portion upright on the ground. And characterized in that:
【0015】このような構成により、培土収容部を補強
部材の開口部に挿通するとともに係止部に係止し、補強
部材を保持手段に係合させ培土収容部を地面上に起立状
態に保持すれば、培土収容部に培土を充填して植物栽培
が可能となるため、設置作業は容易であり、栽培期間中
は立ち作業が可能である。また、培土は培土収容部に充
填する程度の分量で足りるため、土耕栽培に比べ培土使
用量は少なくてすみ、これに伴って水や肥料などの使用
量も低減することができる。さらに、培土収容部は補強
部材に係合されているため、充填された培土によって培
土収容部が変形、膨張したり、破損することもない。With such a configuration, the cultivated soil storage portion is inserted into the opening of the reinforcing member and locked by the locking portion, and the reinforcing member is engaged with the holding means to hold the cultivated soil storage portion upright on the ground. Then, since the cultivation soil can be filled in the cultivation soil storage unit and plant cultivation can be performed, the installation operation is easy, and the standing operation can be performed during the cultivation period. Further, since the cultivation soil is sufficient to fill the cultivation soil storage part, the amount of cultivation soil used can be smaller than that of soil cultivation, and accordingly, the usage of water and fertilizer can be reduced. Furthermore, since the cultivated soil storage portion is engaged with the reinforcing member, the cultivated soil storage portion is not deformed, expanded, or damaged by the filled cultivated soil.
【0016】この場合、培土収容部の下方部分に排水孔
などの排水手段を設けておけば、土耕栽培と同様に水は
けが良くなるため、水分滞留に起因する根腐れなどの発
生を防止することができる。なお、培土収容部の下端を
接地させれば、栽培期間中の安定性を確保することがで
き、地面の温度がフィルム材を伝わって高設栽培容器全
体に広がるため、保温機能を高めることができる。ま
た、培土収容部全体をフィルム材で被覆し、その内部を
加温機で暖房することにより保温機能を高めて、植物の
根部の発育を促し、果実や茎葉の成長を促進させること
も可能である。この場合、ダクトなどの公知の手段を用
いることができる。In this case, if drainage means such as drainage holes are provided below the cultivation soil accommodating portion, drainage is improved similarly to soil cultivation, so that root rot due to water retention is prevented. be able to. In addition, if the lower end of the cultivation soil storage unit is grounded, stability during the cultivation period can be secured, and the temperature of the ground spreads throughout the high-growth cultivation container through the film material, so that the heat retaining function can be enhanced. it can. It is also possible to cover the whole cultivation soil storage area with film material and heat the inside with a heater to enhance the heat insulation function, promote the growth of the root of the plant, and promote the growth of fruits and foliage. is there. In this case, a known means such as a duct can be used.
【0017】また、本発明の高設栽培容器で栽培される
植物の根は、起立状態にある培土収容部に充填された培
土中を下方へ伸長していくことが可能であるため、根域
が広がって根量も多量となり、養分吸収性が高まること
によって生育状態が向上し、収穫量の増大を図ることが
できる。また、ゴボウや大根など根菜類を栽培する場
合、作物を培土収容部内で成長させることが可能である
ため、収穫時期においては、培土収容部を形成している
フィルム材をナイフでカットするなどの方法で掘り出す
こともできるようになり、土耕栽培に比べ収穫作業が容
易となり、作物を切損するようなこともなくなる。Further, the roots of the plant cultivated in the elevated cultivation container of the present invention can extend downward in the cultivation soil filled in the cultivation soil storage part in the upright state, so that the root zone Are spread, the amount of roots is increased, and the nutrient absorption is enhanced, so that the growth state is improved and the yield can be increased. In addition, when cultivating root vegetables such as burdock and radish, it is possible to grow the crop in the cultivation soil storage part, so at the harvest time, cut the film material forming the cultivation storage part with a knife, etc. It is also possible to excavate by a method, harvesting work is easier than in soil cultivation, and crops are not cut off.
【0018】一方、栽培期間が終了した後は、培土を排
出すれば、培土収容部を補強部材から離脱させてそれぞ
れ別々に撤収することができるため撤収作業は容易であ
り、培土収容部は元のフィルム状となり、折り畳んだ
り、ロール状に巻くことができるため、運搬性が良好
で、収納スペースも小さくてすむ。さらに、高設栽培容
器は、複数のフィルム材、補強部材および保持手段など
で構成された簡素な構造であるため、製作が容易で、原
材料の使用量も少なく、低コストである。On the other hand, after the cultivation period is over, if the cultivation soil is discharged, the cultivation soil storage section can be detached from the reinforcing member and withdrawn separately, so that the withdrawal work is easy, and the cultivation soil storage section can be easily removed. The film can be folded or wound into a roll, so that it has good transportability and requires a small storage space. Furthermore, since the elevated cultivation container has a simple structure composed of a plurality of film materials, reinforcing members, holding means, and the like, it is easy to manufacture, the amount of raw materials used is small, and the cost is low.
【0019】また、本発明の高設栽培容器では、培土収
容部を起立状態に保持する保持手段として、地上に設置
された支持部材と、補強部材に形成され支持部材と係合
可能な係合部とを備えた構造とすることにより、補強部
材と培土収容部とを一体的に保持することができるため
安定性が良く、培土収容部へ培土を充填する場合、補強
部材が培土を培土収容部内へ導くガイドとして機能する
ため、作業性も良好である。Further, in the elevated cultivation container of the present invention, as a holding means for holding the cultivation soil storage portion in an upright state, a support member installed on the ground and an engagement formed on the reinforcement member and capable of engaging with the support member. With the structure that includes the part, the reinforcement member and the cultivation soil storage part can be integrally held, so that the stability is good, and when filling the cultivation soil into the cultivation soil storage part, the reinforcement member Since it functions as a guide leading to the inside of the unit, workability is also good.
【0020】さらに、本発明の高設栽培容器では、培土
収容部として、重ね合わせた複数のフィルム材に設けら
れた波線状の固着部に沿ってフィルム材を切断して形成
されたものを用いてもよい。このような構成とすること
により、重ね合わせた複数のフィルム材から、櫛状をし
た培土収容部を少なくとも2組形成することができ、フ
ィルム材の廃棄部分が発生しないため、資源の有効活
用、コスト低減を図ることができ、廃棄物による環境汚
染防止にも寄与することができる。この場合、フィルム
材を固着する手段としては、接着剤、圧着、加熱融着、
縫製などを採用することができる。なお、波線状の固着
部の形状を変えることにより、培土収容部の内径や深
さ、配置間隔などを変更することができる。Further, in the elevated cultivation container of the present invention, the cultivation soil storage portion is formed by cutting a film material along a wavy fixing portion provided on a plurality of stacked film materials. You may. With such a configuration, at least two sets of comb-shaped cultivation soil storage sections can be formed from a plurality of stacked film materials, and a waste portion of the film material does not occur. It is possible to reduce costs and contribute to prevention of environmental pollution by waste. In this case, as means for fixing the film material, adhesive, pressure bonding, heat fusion,
Sewing or the like can be adopted. By changing the shape of the wavy fixing portion, it is possible to change the inner diameter, depth, arrangement interval, and the like of the cultivated soil storage portion.
【0021】一方、本発明の高設栽培容器では、発泡合
成樹脂で形成された補強部材を用いることにより、発泡
合成樹脂の断熱作用で保温、保冷機能が向上するため、
栽培する植物に適した温度管理を正確に行うことができ
る。また、発泡合成樹脂は耐蝕性に優れているため、使
用中に、農薬や肥料などの薬剤あるいは太陽光などによ
って変質、変形することがない。On the other hand, in the elevated cultivation container of the present invention, the use of the reinforcing member formed of the foamed synthetic resin improves the heat retaining and cooling functions by the heat insulating effect of the foamed synthetic resin.
Temperature control suitable for the plant to be grown can be performed accurately. In addition, since the foamed synthetic resin has excellent corrosion resistance, the foamed synthetic resin is not deteriorated or deformed by a chemical such as an agricultural chemical or a fertilizer, sunlight, or the like during use.
【0022】この場合、発泡合成樹脂として発泡ポリス
チレンを採用することにより、軽量で運搬性に優れた補
強部材を形成することができる。また、発泡ポリスチレ
ンは成形性が良好であるため、栽培条件に適応した構造
の補強部材を容易に形成することができる。In this case, by using expanded polystyrene as the expanded synthetic resin, it is possible to form a reinforcing member that is lightweight and has excellent transportability. In addition, since expanded polystyrene has good moldability, a reinforcing member having a structure suitable for cultivation conditions can be easily formed.
【0023】さらに、本発明の高設栽培容器では、フィ
ルム材として、合成樹脂、紙、布、不織布などを用いる
ことができる。合成樹脂製のフィルム材の場合、気密
性、耐蝕性、耐久性に優れた培土収容部を形成すること
ができる。また、有孔合成樹脂製のフィルム材、あるい
は紙、布、不織布製のフィルム材の場合、植物根の発育
に必要な通気性を備えた培土収容部を形成することがで
き、紙、布、不織布は空気中で燃やしても有毒ガスが発
生しないため、焼却処分が可能である。なお、フィルム
材は、栽培する植物の種類に応じて、透明なもの、不透
明なもののいずれでもよい。Further, in the elevated cultivation container of the present invention, a synthetic resin, paper, cloth, non-woven fabric or the like can be used as the film material. In the case of a synthetic resin film material, it is possible to form a buried soil accommodating portion having excellent airtightness, corrosion resistance, and durability. In addition, in the case of a film material made of perforated synthetic resin, or paper, cloth, or a film material made of nonwoven fabric, it is possible to form a cultivated soil storage part having air permeability necessary for the growth of plant roots, paper, cloth, Since non-woven fabrics do not generate toxic gases when burned in the air, they can be incinerated. The film material may be either transparent or opaque depending on the type of plant to be cultivated.
【0024】この場合、合成樹脂、紙、布、不織布など
を素材とする複数種類のフィルム材を用いれば、それぞ
れの材料の性質を兼備した培土収容部を形成することが
できるため、栽培する植物の種類、栽培地の気候、栽培
条件などに的確に対応することが可能となる。In this case, if a plurality of types of film materials made of synthetic resin, paper, cloth, non-woven fabric and the like are used, a cultivated soil accommodating portion having the properties of each material can be formed. , Cultivation site climate, cultivation conditions, etc., can be accurately handled.
【0025】[0025]
【発明の実施の形態】以下、本発明の実施の形態を図面
に基づいて説明する。図1は実施の形態である高設栽培
容器を示す斜視図、図2は前記高設栽培容器の縦断面
図、図3は前記高設栽培容器の組立工程を示す斜視図、
図4は前記高設栽培容器の培土収容部下端付近の斜視図
である。Embodiments of the present invention will be described below with reference to the drawings. 1 is a perspective view showing an elevated cultivation container according to an embodiment, FIG. 2 is a longitudinal sectional view of the elevated cultivation container, FIG. 3 is a perspective view showing an assembly process of the elevated cultivation container,
FIG. 4 is a perspective view of the vicinity of the lower end of the cultivation soil storage portion of the elevated cultivation container.
【0026】本実施形態の高設栽培容器10は、図1,
2に示すように、重ね合わせた2枚のフィルム材11,
12を部分固着して形成された櫛状の培土収容部13
と、培土収容部13が挿通する開口部14と培土収容部
13を係止する係止部15とを有する溝状の補強部材1
6と、補強部材16と係合して培土収容部13を地面2
9上に起立状態に保持する保持パイプ17とを備えてい
る。また、フィルム材11,12の上端部分は、補強部
材16の上縁にU字状をした着脱可能な固定用クリップ
18で係止され、保持パイプ17は地面29に立設され
た支柱19および水平バー20によって固定されてい
る。The elevated cultivation container 10 of this embodiment is shown in FIG.
As shown in FIG. 2, two superposed film materials 11,
Comb-filled soil storage part 13 formed by partially fixing 12
And a groove-shaped reinforcing member 1 having an opening 14 through which the cultivated soil accommodating portion 13 is inserted and a locking portion 15 for locking the cultivated soil accommodating portion 13.
6 and the reinforcement member 16 to engage the soil storage portion 13 with the ground 2
9 and a holding pipe 17 for holding it in an upright state. The upper ends of the film members 11 and 12 are locked to the upper edge of the reinforcing member 16 by a U-shaped detachable fixing clip 18, and the holding pipe 17 is supported by a support 19 erected on a ground 29. It is fixed by a horizontal bar 20.
【0027】高設栽培容器10の場合、図3に示すよう
に、培土収容部13を補強部材16の開口部14に挿通
するとともに係止部15に係止し、補強部材16を保持
パイプ17に係合させて培土収容部13を地面29上に
起立状態に保持すれば、培土収容部13に培土21を充
填して植物22の栽培が可能となるため、設置作業は容
易であり、栽培期間中は立ち作業が可能である。また、
培土21は培土収容部13に充填する程度の分量で足り
るため、土耕栽培に比べ培土使用量は少なくてすみ、こ
れに伴って水や肥料などの使用量も低減することができ
る。なお、フィルム材11,12および補強部材16の
長さは特に限定するものではないため、栽培地の広さな
どに応じて自由に設定することができる。In the case of the elevated cultivation container 10, as shown in FIG. 3, the cultivated soil storage section 13 is inserted into the opening 14 of the reinforcing member 16 and locked by the locking section 15, and the reinforcing member 16 is connected to the holding pipe 17. When the cultivation soil storage unit 13 is held upright on the ground 29 by engaging the cultivation soil storage unit 13 with the cultivation soil 21, the plant 22 can be cultivated. Standing work is possible during the period. Also,
Since the cultivation soil 21 is sufficient to fill the cultivation soil accommodating section 13, the cultivation soil usage can be reduced as compared with soil cultivation, and accordingly, the usage of water, fertilizer, and the like can be reduced. In addition, since the length of the film materials 11 and 12 and the reinforcing member 16 are not particularly limited, they can be freely set according to the area of the cultivation area and the like.
【0028】また、高設栽培容器10においては、培土
収容部13の上部は補強部材16によって補強されてい
るため、充填された培土21によってフィルム材11,
12の異常膨張や破損などが生じることもない。In the elevated cultivation container 10, since the upper portion of the cultivated soil accommodating portion 13 is reinforced by the reinforcing member 16, the film material 11,
There is no occurrence of abnormal expansion, breakage, etc.
【0029】さらに、図4に示すように、培土収容部1
3の下端部分においては、固着部25の一部に非固着部
30を設けるとともに、フィルム材11,12に排水孔
31を形成することによって排水性を確保しているた
め、水分滞留による根腐れなどの発生を防止することが
できる。さらに、培土収容部13の下端は地面29に形
成した畝26に埋設しているため、栽培期間中の安定性
も良好であり、地面29の温度がフィルム材11,12
や培土収容部13に充填された培土21を伝わって高設
栽培容器10の全体に広がるため、保温機能も高い。Further, as shown in FIG.
At the lower end portion of 3, a non-fixed portion 30 is provided in a part of the fixed portion 25, and drainage holes 31 are formed in the film materials 11 and 12 to ensure drainage. And the like can be prevented. Further, since the lower end of the cultivated soil storage unit 13 is buried in the ridge 26 formed on the ground 29, the stability during the cultivation period is also good, and the temperature of the ground 29 is lower than the film materials 11 and 12.
Since the cultivation soil 21 filled in the cultivation soil storage portion 13 is spread over the entire erect cultivation container 10, the heat insulation function is also high.
【0030】この場合、高設栽培容器10で栽培される
植物22の根27は、起立状態にある培土収容部13に
充填された培土21中を下方に向かって伸長していくこ
とが可能であるため、根域が広がって根量も多量とな
り、深耕栽培と同様、養分吸収性が高まることによって
生育状態が向上し、収穫量の増大を図ることができる。In this case, the root 27 of the plant 22 cultivated in the elevated cultivation container 10 can extend downward in the cultivated soil 21 filled in the cultivated soil storage unit 13 in the upright state. Therefore, the root area is widened and the amount of roots is large, and as in the deep cultivation, the nutrient absorption is enhanced, so that the growth state is improved and the yield can be increased.
【0031】また、高設栽培容器10でゴボウ、大根、
人参など根菜類を栽培する場合、作物を培土収容部13
内で成長させることが可能であり、収穫時期には、培土
収容部13を形成しているフィルム材11,12をナイ
フなどでカットすれば簡単に掘り出すことができるた
め、収穫作業を効率化することができ、作物が折れた
り、傷ついたりすることもなくなる。Also, burdock, radish,
When cultivating root vegetables such as carrots, the crop is cultivated
In the harvest time, the film materials 11 and 12 forming the cultivated soil accommodating portion 13 can be easily dug out by cutting with a knife or the like, thereby improving the efficiency of the harvesting operation. And the crop is not broken or damaged.
【0032】一方、栽培期間が終了した後は、培土21
を排出すれば、培土収容部13を補強部材16から離脱
させることができるため撤収作業は容易であり、培土収
容部13は元のフィルム状となり、折り畳んだりロール
状に巻くことができるため、運搬性が良好で、収納スペ
ースも小さくてすむ。さらに、高設栽培容器10は、2
枚のフィルム材11,12、補強部材16および保持パ
イプ17などで構成された簡素な構造であるため、製作
が容易で、原材料の使用量も少なく、低コストである。
このため、小規模農家などにおいても導入が容易であ
る。On the other hand, after the cultivation period is over, the cultivation soil 21
Is discharged, the cultivated soil storage unit 13 can be detached from the reinforcing member 16 so that the withdrawal operation is easy, and the cultivated soil storage unit 13 becomes the original film shape, and can be folded or wound into a roll. Good qualities and small storage space. In addition, the elevated cultivation container 10
Since it has a simple structure including the film materials 11 and 12, the reinforcing member 16, the holding pipe 17 and the like, it is easy to manufacture, the amount of raw materials used is small, and the cost is low.
For this reason, it is easy to introduce even small farmers.
【0033】また、高設栽培容器10では、補強部材1
6の側面に形成された凹状の係合部28を保持パイプ1
7に係合することにより、溝状の補強部材16と培土収
容部13とを一体的に保持しているため、培土21の重
量で培土収容部が変形、膨張したり、破損することがな
い。さらに、地面29上に起立状態に保持された培土収
容部13へ培土21を充填する場合、補強部材16の内
面部分が培土21を培土収容部13内へ導くガイドとし
て機能するため、作業性も良好である。In the elevated cultivation container 10, the reinforcing member 1
6 and the concave engaging portion 28 formed on the side surface of the holding pipe 1
7, the groove-shaped reinforcing member 16 and the cultivated soil storage portion 13 are integrally held, so that the cultivated soil storage portion is not deformed, expanded, or damaged by the weight of the cultivated soil 21. . Further, when filling the cultivation soil 21 into the cultivation soil storage portion 13 held on the ground 29 in an upright state, the inner surface portion of the reinforcing member 16 functions as a guide for guiding the cultivation soil 21 into the cultivation soil storage portion 13. Good.
【0034】なお、高設栽培容器10では、補強部材1
6を発泡ポリスチレンで形成しているため、軽量で運搬
性に優れ、保温、保冷機能が高く、栽培する植物22に
適した的確な温度管理を行うことができる。また、発泡
ポリスチレンは耐蝕性に優れているため、使用中に農薬
や肥料などの薬剤あるいは太陽光などによって変質、変
形することがない。また、発泡ポリスチレンは成形性が
良好であるため、栽培条件に適した形状、構造の補強部
材を容易に形成することができる。In the elevated cultivation container 10, the reinforcing member 1
Since 6 is made of expanded polystyrene, it is lightweight, has excellent transportability, has a high heat retention and cooling function, and can perform accurate temperature management suitable for the plant 22 to be cultivated. In addition, since expanded polystyrene is excellent in corrosion resistance, it is not deteriorated or deformed by chemicals such as pesticides and fertilizers or sunlight during use. In addition, since expanded polystyrene has good moldability, a reinforcing member having a shape and structure suitable for cultivation conditions can be easily formed.
【0035】ここで、図5を参照して高設栽培容器10
を構成する培土収容部13の製造方法について説明す
る。図5は培土収容部13の製造工程を示す説明図であ
る。Here, with reference to FIG.
A method of manufacturing the cultivated soil storage unit 13 will be described. FIG. 5 is an explanatory diagram illustrating a manufacturing process of the cultivated soil storage unit 13.
【0036】図5(a)に示すように、2枚のフィルム
材11,12を重ね合わせた後、図5(b)に示すよう
に、波線状の固着部25を設けることによりフィルム材
11,12を部分的に固着するともに、固着部25の中
央部分を固着部25に沿って切断する。また、この場
合、前述した非固着部30および排水孔31(図3参
照)を形成する。そして、図5(c)に示すように、切
断部分で分離すると、櫛状の培土収容部13を形成する
ことができる。As shown in FIG. 5A, after the two film materials 11 and 12 are overlaid, as shown in FIG. 5B, the film material 11 is provided by providing a wavy fixing portion 25. , 12 are partially fixed, and a central portion of the fixed portion 25 is cut along the fixed portion 25. In this case, the above-mentioned non-fixed portion 30 and drain hole 31 (see FIG. 3) are formed. Then, as shown in FIG. 5 (c), when separated at the cutting portion, a comb-shaped cultivated soil accommodating portion 13 can be formed.
【0037】このような工程をとることにより、重ね合
わせた2枚のフィルム材11,12から、櫛状をした培
土収容部13を2組形成することができるため作業効率
が高く、フィルム材11,12を廃棄する部分が発生し
ないため資源の有効活用、コスト低減を図ることがで
き、廃棄物による環境汚染防止にも寄与することができ
る。本実施形態では、フィルム材11,12の固着手段
として、接着剤を用いているが、このほかに圧着、加熱
融着、縫製などの固着手段を採用することも可能であ
る。なお、フィルム材11,12の厚さ、長さ、幅など
は、栽培条件に応じて自由に定めることができる。By adopting such a process, two sets of comb-shaped cultivated soil accommodating portions 13 can be formed from the two film materials 11 and 12 which are superimposed on each other. , 12 are not disposed, so that the resources can be effectively used, the cost can be reduced, and the environmental pollution due to waste can be prevented. In the present embodiment, an adhesive is used as a means for fixing the film materials 11 and 12, but other fixing means such as pressure bonding, heat fusing, sewing and the like may be used. In addition, the thickness, length, width, etc. of the film materials 11 and 12 can be freely determined according to cultivation conditions.
【0038】また、高設栽培容器10の場合、フィルム
材11,12の材質はポリエチレンであるが、ポリ塩化
ビニル、ポリプロピレン、ポリスチレン、ABS樹脂、
AES樹脂などの合成樹脂、あるいは、紙、布、不織布
などを用いることができる。フィルム材11,12の素
材として合成樹脂を用いた場合、気密性、耐蝕性、耐久
性に優れた培土収容部13を形成することができる。In the case of the elevated cultivation container 10, the material of the film materials 11, 12 is polyethylene, but polyvinyl chloride, polypropylene, polystyrene, ABS resin,
A synthetic resin such as AES resin, or paper, cloth, nonwoven fabric, or the like can be used. When a synthetic resin is used as the material of the film materials 11 and 12, the buried soil accommodating portion 13 having excellent airtightness, corrosion resistance, and durability can be formed.
【0039】一方、フィルム材11,12の素材が、有
孔プラスチックフィルム、紙、布、不織布である場合
は、植物根の発育に必要な通気性を備えた培土収容部1
3を形成することができ、植物22の根27への十分な
空気供給が可能となり、紙、布、不織布は燃やしても有
毒ガスを発生しないため、焼却処分が可能となる。さら
に、フィルム材11,12の素材として、微生物のはた
らきで分解する性質を備えた生分解性プラスチックを用
いれば、使用後、地中などへの廃棄処分ができる。な
お、フィルム材11,12は、栽培する植物の種類や栽
培条件などに応じて、透明なもの、不透明なもののいず
れを採用してもよい。On the other hand, when the material of the film materials 11 and 12 is a perforated plastic film, paper, cloth, or non-woven fabric, the cultivated soil storage unit 1 having the air permeability necessary for the growth of plant roots.
3 can be formed, sufficient air supply to the root 27 of the plant 22 is possible, and paper, cloth and non-woven fabric do not generate toxic gas even when burned, so that they can be incinerated. Furthermore, if a biodegradable plastic having a property of decomposing by the action of microorganisms is used as a material of the film materials 11 and 12, it can be disposed of in the ground after use. The film materials 11 and 12 may be either transparent or opaque depending on the type of plant to be cultivated, cultivation conditions, and the like.
【0040】なお、フィルム材11,12の素材とし
て、合成樹脂、紙、布、不織布などの材料を複数種類用
いれば、それぞれの材料の性質を兼備した培土収容部1
3を形成することができるため、栽培する植物の種類、
栽培地の気候、栽培条件などに的確に対応することがで
きる。If a plurality of kinds of materials such as synthetic resin, paper, cloth, and non-woven fabric are used as the materials of the film materials 11 and 12, the cultivated soil storage unit 1 having the properties of each material can be used.
3 can be formed, the type of plant to be cultivated,
It is possible to accurately respond to the climate of the cultivation area, cultivation conditions, and the like.
【0041】[0041]
【発明の効果】本発明により、以下の効果を奏すること
ができる。According to the present invention, the following effects can be obtained.
【0042】(1)重ね合わせた複数のフィルム材を部
分的に固着して櫛状に形成された培土収容部と、培土収
容部が挿通する開口部と培土収容部を係止する係止部と
を有する溝状の補強部材と、補強部材と係合して培土収
容部を地面上に起立状態に保持する保持手段とを備えた
ことにより、設置作業は容易となり、起立状態の培土収
容部で植物栽培が可能となるため立ち作業が可能であ
り、培土収容部に充填する程度の培土で足りるため、培
土使用量は少なくてすみ、これに伴って水や肥料などの
使用量も低減することができる。また、培土の重量によ
る培土収容部の変形なども発生しない。(1) A cultivated soil accommodating part formed by partially fixing a plurality of superposed film materials to form a comb, and an engaging part for engaging the opening for inserting the cultivated soil accommodating part and the cultivated soil accommodating part. And a holding means for engaging the reinforcing member to hold the cultivated soil storage portion on the ground in an upright state, thereby facilitating the installation work, and increasing the cultivated soil storage portion in the upright state. Standing work is possible because plant cultivation is possible, and cultivation only enough to fill the cultivation storage part is sufficient, so less cultivation is required, and accordingly the amount of water and fertilizer used is also reduced. be able to. In addition, deformation of the cultivation soil storage unit due to the weight of the cultivation soil does not occur.
【0043】(2)栽培期間の終了後、培土を排出すれ
ば、培土収容部を補強部材から離脱させることができる
ため撤収作業は容易であり、培土収容部は元のフィルム
状となり、折り畳んだり、ロール状に巻くことができる
ため、運搬性が良好で、収納スペースも小さくてすむ。
また、複数のフィルム材、補強部材および保持手段など
で構成された簡素な構造であるため、製作が容易で、原
材料の使用量も少なく、低コストである。(2) If the cultivation soil is discharged after the cultivation period is over, the cultivation soil storage section can be detached from the reinforcing member, so that the withdrawal operation is easy, and the cultivation soil storage section becomes the original film shape and can be folded. Since it can be wound into a roll, it has good transportability and requires a small storage space.
Further, since it has a simple structure composed of a plurality of film materials, reinforcing members, holding means, and the like, it is easy to manufacture, the amount of raw materials used is small, and the cost is low.
【0044】(3)培土収容部の保持手段として、地上
に設置された支持部材と、補強部材に形成され支持部材
と係合可能な係合部とを備えたことにより、補強部材と
培土収容部とを一体的に保持することができるため、安
定性が良好であり、培土収容部へ培土を充填する場合、
培土収容部と一体化した補強部材が培土を導くガイドと
して機能し、作業性は良好である。(3) As a means for holding the cultivated soil storage unit, a support member provided on the ground and an engaging portion formed on the reinforcing member and capable of engaging with the support member are provided, so that the reinforcing member and the cultivated soil storage unit are provided. Part can be held integrally, so the stability is good, and when filling the cultivation soil into the cultivation storage part,
The reinforcing member integrated with the cultivation soil storage unit functions as a guide for cultivating soil, and the workability is good.
【0045】(4)重ね合わせた複数のフィルム材に設
けられた波線状の固着部に沿ってフィルム材を切断して
形成した培土収容部を用いることにより、重ね合わせた
複数のフィルム材から、櫛状をした培土収容部を少なく
とも2組形成することができ、フィルム材の廃棄部分も
発生しないため、資源の有効活用、コスト低減を図るこ
とができ、廃棄物による環境汚染防止にも寄与すること
ができる。(4) By using a cultivated soil accommodating portion formed by cutting the film material along the wavy fixing portion provided on the plurality of laminated film materials, Since at least two sets of comb-shaped cultivated soil storage sections can be formed, and no waste portion of the film material is generated, effective use of resources and cost reduction can be achieved, and contribution to prevention of environmental pollution by waste. be able to.
【0046】(5)発泡合成樹脂で形成された補強部材
を用いることにより、保温、保冷機能が向上するため、
栽培する植物に適した的確な温度管理を行うことができ
る。また、発泡合成樹脂は耐蝕性に優れているため、使
用中に、農薬や肥料などの薬剤あるいは太陽光などによ
って変質、変形することがない。(5) By using a reinforcing member formed of a foamed synthetic resin, the function of keeping heat and keeping cool is improved.
Precise temperature management suitable for plants to be cultivated can be performed. In addition, since the foamed synthetic resin has excellent corrosion resistance, the foamed synthetic resin is not deteriorated or deformed by a chemical such as an agricultural chemical or a fertilizer, sunlight, or the like during use.
【0047】(6)発泡合成樹脂として発泡ポリスチレ
ンを採用することにより、軽量で運搬性に優れた補強部
材を形成することができる。また、発泡ポリスチレンは
成形性が良好であるため、栽培条件に適応した形状、構
造の補強部材を容易に形成することができる。(6) By using expanded polystyrene as the expanded synthetic resin, it is possible to form a lightweight reinforcing member having excellent transportability. In addition, since expanded polystyrene has good moldability, a reinforcing member having a shape and structure suitable for cultivation conditions can be easily formed.
【0048】(7)合成樹脂製のフィルム材を用いるこ
とにより、気密性、耐蝕性、耐久性に優れた培土収容部
を形成することができる。また、有孔合成樹脂フィルム
材、あるいは紙、布、不織布を素材とするフィルム材を
用いることにより、植物根の発育に必要な通気性を備え
た培土収容部を形成することができ、紙、布、不織布は
燃やしても有毒ガスが発生しないため、焼却処分が可能
である。さらに、フィルム材として、合成樹脂、紙、
布、不織布などを複数種類用いれば、それぞれの材料の
性質を兼備した培土収容部を形成することができるた
め、植物の種類、栽培地の気候、栽培条件などに的確に
対応することができる。(7) By using a film material made of a synthetic resin, it is possible to form a buried soil accommodating portion having excellent airtightness, corrosion resistance and durability. In addition, by using a perforated synthetic resin film material, or a film material made of paper, cloth, or non-woven fabric, it is possible to form a cultivated soil storage part having air permeability necessary for the growth of plant roots, paper, Cloths and non-woven fabrics can be incinerated because they emit no toxic gas when burned. Furthermore, synthetic resin, paper,
If a plurality of types of cloths, nonwoven fabrics, and the like are used, a cultivated soil accommodating portion that combines the properties of the respective materials can be formed, so that it is possible to appropriately respond to the type of plant, the climate of the cultivation area, cultivation conditions, and the like.
【図1】実施の形態である高設栽培容器を示す斜視図で
ある。FIG. 1 is a perspective view showing an elevated cultivation container according to an embodiment.
【図2】図1に示す高設栽培容器の縦断面図である。FIG. 2 is a longitudinal sectional view of the elevated cultivation container shown in FIG.
【図3】図1に示す高設栽培容器の組立工程を示す斜視
図である。3 is a perspective view showing an assembling step of the elevated cultivation container shown in FIG.
【図4】図1に示す高設栽培容器の培土収容部下端付近
の斜視図である。FIG. 4 is a perspective view of the vicinity of a lower end of a cultivation soil storage portion of the elevated cultivation container shown in FIG.
【図5】図1に示す高設栽培容器の培土収容部の製造工
程説明図である。FIG. 5 is an explanatory view of a manufacturing process of a cultivated soil storage part of the elevated cultivation container shown in FIG.
【図6】従来の高設栽培装置を示す斜視図である。FIG. 6 is a perspective view showing a conventional elevated cultivation apparatus.
【図7】従来の高設栽培装置を示す斜視図である。FIG. 7 is a perspective view showing a conventional elevated cultivation apparatus.
10 高設栽培容器 11,12 フィルム材 13 培土収容部 14 開口部 15 係止部 16 補強部材 17 保持パイプ 18 固定用クリップ 19 支柱 20 水平バー 21 培土 22 植物 23 非固着部 24 排水孔 25 固着部 26 畝 27 根 28 係合部 29 地面 30 非固着部 31 排水孔 DESCRIPTION OF SYMBOLS 10 Elevated cultivation container 11, 12 Film material 13 Cultivation soil accommodation part 14 Opening 15 Locking part 16 Reinforcement member 17 Holding pipe 18 Fixing clip 19 Prop 20 Horizontal bar 21 Cultivation 22 Plant 23 Non-fixation part 24 Drain hole 25 Fixing part 26 ridge 27 root 28 engaging part 29 ground 30 non-fixed part 31 drainage hole
Claims (6)
に固着して櫛状に形成された培土収容部と、前記培土収
容部が挿通する開口部と前記培土収容部を保持する保持
部とを有する溝状の補強部材と、前記補強部材と係合し
て前記培土収容部を地面上に起立状態に保持する保持手
段とを備えたことを特徴とする高設栽培容器。1. A cultivated soil storage unit formed by partially fixing a plurality of superposed film materials to form a comb, an opening through which the cultivated soil storage unit is inserted, and a holding unit that holds the cultivated soil storage unit. An elevated cultivation container, comprising: a groove-shaped reinforcing member having: and holding means that engages with the reinforcing member to hold the cultivation soil storage portion upright on the ground.
支持部材と、前記補強部材に形成され前記支持部材と係
合可能な係合部とを備えた請求項1記載の高設栽培容
器。2. The elevated cultivation container according to claim 1, further comprising a support member installed on the ground and an engaging portion formed on the reinforcing member and capable of engaging with the support member, as the holding means.
フィルム材に設けられた波線状の固着部に沿って前記フ
ィルム材を切断して形成されたものである請求項1,2
記載の高設栽培容器。3. The cultivated soil storage section is formed by cutting the film material along a wavy fixing portion provided on a plurality of film materials stacked.
The elevated cultivation container as described.
たものである請求項1〜3記載の高設栽培容器。4. The elevated cultivation container according to claim 1, wherein said reinforcing member is formed of a foamed synthetic resin.
ある請求項4記載の高設栽培容器。5. The elevated cultivation container according to claim 4, wherein the foamed synthetic resin is foamed polystyrene.
不織布のうちの少なくとも一つである請求項1〜5記載
の高設栽培容器。6. The film material is made of synthetic resin, paper, cloth,
The elevated cultivation container according to claim 1, which is at least one of a nonwoven fabric.
Priority Applications (4)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
JP09354911A JP3117672B2 (en) | 1997-12-24 | 1997-12-24 | Elevated cultivation container |
CNB981235999A CN1146316C (en) | 1997-12-24 | 1998-11-06 | Overhead planting container |
TW087119172A TW404815B (en) | 1997-12-24 | 1998-11-19 | A highly equipment cultivated container |
KR1019980057456A KR19990063343A (en) | 1997-12-24 | 1998-12-23 | Snow Cultivation Container |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
JP09354911A JP3117672B2 (en) | 1997-12-24 | 1997-12-24 | Elevated cultivation container |
Publications (2)
Publication Number | Publication Date |
---|---|
JPH11178452A true JPH11178452A (en) | 1999-07-06 |
JP3117672B2 JP3117672B2 (en) | 2000-12-18 |
Family
ID=18440746
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
---|---|---|---|
JP09354911A Expired - Fee Related JP3117672B2 (en) | 1997-12-24 | 1997-12-24 | Elevated cultivation container |
Country Status (4)
Country | Link |
---|---|
JP (1) | JP3117672B2 (en) |
KR (1) | KR19990063343A (en) |
CN (1) | CN1146316C (en) |
TW (1) | TW404815B (en) |
Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN103650818A (en) * | 2012-09-21 | 2014-03-26 | 上海鲜花港企业发展有限公司 | Standing frame cultivation method of anthurium cut flowers |
Families Citing this family (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
JPH1172067A (en) | 1997-06-24 | 1999-03-16 | Toyota Motor Corp | Fuel injection valve of internal combustion engine |
CN105875108A (en) * | 2014-10-09 | 2016-08-24 | 丹阳市君威大棚机械配件有限公司 | Fruit tree planting device |
-
1997
- 1997-12-24 JP JP09354911A patent/JP3117672B2/en not_active Expired - Fee Related
-
1998
- 1998-11-06 CN CNB981235999A patent/CN1146316C/en not_active Expired - Fee Related
- 1998-11-19 TW TW087119172A patent/TW404815B/en not_active IP Right Cessation
- 1998-12-23 KR KR1019980057456A patent/KR19990063343A/en not_active Application Discontinuation
Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN103650818A (en) * | 2012-09-21 | 2014-03-26 | 上海鲜花港企业发展有限公司 | Standing frame cultivation method of anthurium cut flowers |
Also Published As
Publication number | Publication date |
---|---|
CN1146316C (en) | 2004-04-21 |
KR19990063343A (en) | 1999-07-26 |
CN1220820A (en) | 1999-06-30 |
TW404815B (en) | 2000-09-11 |
JP3117672B2 (en) | 2000-12-18 |
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