JP2840704B2 - Cultivation floor with limited root zone and method for producing the same - Google Patents
Cultivation floor with limited root zone and method for producing the sameInfo
- Publication number
- JP2840704B2 JP2840704B2 JP7179396A JP17939695A JP2840704B2 JP 2840704 B2 JP2840704 B2 JP 2840704B2 JP 7179396 A JP7179396 A JP 7179396A JP 17939695 A JP17939695 A JP 17939695A JP 2840704 B2 JP2840704 B2 JP 2840704B2
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- JP
- Japan
- Prior art keywords
- sheet
- crop
- medium
- floor
- side edges
- 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.)
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- Cultivation Of Plants (AREA)
Description
【0001】[0001]
【産業上の利用分野】本発明は主として、野菜園芸(ト
マト、キュウリ、ナス、ピーマン、スイカ、メロン等の
果菜類、セロリ、レタス、サラダ菜、春菊、三葉、チン
ゲン菜、ホウレン草等の葉菜類)、及び花卉園芸(カー
ネーション、ストック、スイトピー、カスミ草等)等に
好適な作物栽培床に関し、詳しくは根部が伸長し得る領
域を制限することによって、周辺土壌環境に影響される
ことなく栽培でき、かつ周辺の病原体の感染から保護し
得る根域制限作物栽培床に関する。The present invention mainly relates to vegetable horticulture (fruit vegetables such as tomato, cucumber, eggplant, pepper, watermelon, melon, etc., celery, lettuce, salad vegetables, spring chrysanthemum, three leaves, bok choy, spinach, etc.). And a crop cultivation floor suitable for flower horticulture (carnation, stock, sweet pea, kasumi grass, etc.). In particular, by limiting the area where the root can grow, it can be cultivated without being affected by the surrounding soil environment, Also, the present invention relates to a root zone restricted crop cultivation floor capable of protecting against infection by surrounding pathogens.
【0002】[0002]
【発明の背景】従来、作物栽培方法には、土地(土壌)
が持つエネルギー再生産力(以下、必要により「地力」
という)の活用を基礎として、これに温室、ハウス、ト
ンネル形式の施設を設け、ガラス、フィルム等を被覆し
た施設栽培や、かかる被覆手段を持たない露地栽培があ
り、かかる露地栽培等における地力の起因となる畦面を
極めて薄肉のプラスチックフィルムで被覆(マルチン
グ)して、土壌条件が露地条件より有利となるような栽
培条件を作り、作物の生産性を高める工夫がなされてい
る。BACKGROUND OF THE INVENTION Conventionally, crop cultivation methods include land (soil).
Energy reproducibility (hereinafter referred to as “ground power”
This is based on the utilization of greenhouses, houses, and tunnel-type facilities, and there are facility cultivation in which glass, film, etc. are covered, and open-field cultivation without such covering means. A cultivation condition in which the soil condition is more advantageous than the open-air condition is created by covering (mulching) a very thin plastic film on the ridge surface that causes the ridge surface, thereby contriving to improve the productivity of the crop.
【0003】かかる栽培において収穫量増進のために、
土壌作り運動が提唱され、その重要性が認識されてい
る。かかる土壌、即ち土地利用型の作物栽培の利点は土
中の腐植により発生し共存する多種多様な土中微生物や
細菌の存在が作物生育上不可欠な環境を形成し、巧みに
作用・調節が行われていることである。In order to increase the yield in such cultivation,
The soil-building movement has been advocated and its importance has been recognized. The advantage of such soil, that is, land use type crop cultivation, is that humus in the soil generates and coexists with a variety of soil microorganisms and bacteria that form an essential environment for the growth of the crop, and it works and regulates it skillfully. It is being done.
【0004】これらの土地が持つエネルギー再生産力を
十分に活用するために、古代より人類は地力の維持・育
成に計り知れない工夫と努力を重ねてきた。現代、我々
が得ている食糧の全ては、祖先の努力の結晶である地力
という遺産によって得ていると言って過言ではない。[0004] In order to make full use of the energy reproducibility of these lands, since ancient times humans have made enormous efforts and efforts to maintain and cultivate the earth's power. It's no exaggeration to say that all of the food we get in our modern day comes from the heritage of land power, the fruit of our ancestral efforts.
【0005】しかし、近年、土地利用型の作物栽培の実
行は、現実には様々な問題がある。即ち、土壌作りのた
めに欠くことのできない堆厩肥造成に必要な粗大有機物
資源の確保が困難であり、これを得たとしても、堆厩肥
として成熟させることは多大の労力を要し、現在その実
行は困難になってきている。このため、現在、日本国に
おいては、欧米諸国からピートモス、ヤシガラ等を輸入
し、企業がこれらを素材として即席コンポストを製造
し、農業者がこれを購入し、土に混ぜて培地として使用
することも試みられているが、作物を栽培する甫場全体
にコンポストを使用するのはコンポスト使用量が多くな
り、また作物の切り替えの際には、切り替え自体の作業
が煩雑であるのみならず、再度甫場全体にコンポストを
添加混合しなければならず、コンポストの無駄が多く、
農業者に過酷な労力的、経済的負担を強いている。[0005] However, in recent years, the practice of land use-type crop cultivation has various problems in practice. In other words, it is difficult to secure the bulky organic matter resources necessary for composting, which is indispensable for soil production, and even if it is obtained, maturing it as compost requires a great deal of labor, Implementation is getting harder. For this reason, in Japan at present, peat moss, coconut husk, etc. are imported from Europe and the United States, companies manufacture instant compost using these as raw materials, and farmers purchase them, mix them with soil and use them as a culture medium. However, the use of compost throughout the farm where crops are grown increases the amount of compost used, and when switching crops, not only is the work of switching itself complicated, but it is also a problem Compost must be added and mixed into the entire Hoba, and there is much waste of compost,
It places severe labor and financial burdens on farmers.
【0006】また、多種多様な土中微生物や細菌の中に
は、作物の病気を誘因するものも含まれるため、これら
の対策が必要となる。従来、露地栽培やハウス栽培等で
は甫場全体の土壌を燻蒸処理や薬剤散布して作物の病害
を防止しようとしていたが、手数がかかると共に薬剤使
用量が多くなる問題があった。更に殺虫殺菌剤散布によ
ると栽培土壌の上面からの病害感染には効果的である
が、根域からの感染には効果的でない問題がある。[0006] In addition, since various types of soil microorganisms and bacteria include those that induce crop diseases, these measures are required. Conventionally, in open-field cultivation or house cultivation, etc., attempts have been made to prevent the disease of crops by fumigating or spraying chemicals on the soil of the entire farm, but there has been a problem that it takes time and increases the amount of chemicals used. Furthermore, the application of insecticide fungicides is effective for disease transmission from the upper surface of the cultivated soil, but is not effective for infection from the root zone.
【0007】一方、近年、土地利用型の作物栽培からの
脱却を志向して、養液栽培(水耕栽培)を中心に無土壌
栽培が提唱されている。[0007] On the other hand, in recent years, soilless cultivation has been proposed centering on hydroponic cultivation (hydroponic cultivation) with a view to breaking away from land use type crop cultivation.
【0008】しかし、我が国では、かかる養液栽培を広
く一般に普及しにくい問題がある。即ち、我国の気候風
土は冬は寒帯、夏は熱帯と言われる如くに気候変化が著
しく、北欧で発達、定着した単純養液栽培方法を導入し
た場合には、細心の養液調節管理を行う、調節設備
の整備を行う、温度や水質の調節を行う等のいわゆる
栽培管理が必要とされ、かかる栽培管理において多額の
資金と高度技術が必要とされる問題がある。However, there is a problem in Japan that such hydroponic cultivation is difficult to spread widely. In other words, the climate of our country has a remarkable climate change as it is said to be cold in winter and tropical in summer, and if a simple nutrient cultivation method developed and established in Northern Europe is introduced, meticulous nutrient liquid adjustment management will be performed Therefore, so-called cultivation management such as maintenance of adjustment facilities and adjustment of temperature and water quality is required, and there is a problem that a large amount of funds and advanced technology are required in such cultivation management.
【0009】[0009]
【発明が解決しようとする課題】そこで、本発明は、地
力によるエネルギー再生産力の活用を図ると共に、作物
の栽培管理を容易かつ低コストで可能とするのみならず
肥料の無駄をなくし、農業者の労力や経済的負担を軽減
し、作物の根域からの病原体の感染を防止できる根域制
限作物栽培床及びその製造方法を提供することを目的と
する。SUMMARY OF THE INVENTION Accordingly, the present invention not only makes it possible to utilize the energy-reproducing power of the land, but also makes it possible to easily and at low cost to manage the cultivation of crops, to eliminate waste of fertilizer, It is an object of the present invention to provide a root-zone-restricted crop cultivation floor capable of reducing the labor and economic burden on a person and preventing infection of a pathogen from the root zone of the crop, and a method for producing the same.
【0010】[0010]
【課題を解決するための手段】上記目的を達成する本発
明に係る根域制限作物栽培床は、熱可塑性樹脂繊維製の
織布又は不織布からなり、透水性は有するが植物の根は
通さない性質(以下、必要により防根性という)を有す
る長尺状のシートの中央部に作物育成に必要な栄養分を
含有する培地を載置すると共に該シートの両側縁部を持
ち上げて寄せ合わせ、該両側縁部を接合することにより
前記培地を包み込むと共に該シートの両側縁部間に作物
の植え込み間隙を複数形成してなることを特徴とする。A root zone restricted crop cultivation floor according to the present invention, which achieves the above object, is made of a woven or non-woven fabric made of thermoplastic resin fiber, has water permeability, but does not allow plant roots to pass through. A medium containing nutrients necessary for growing a crop is placed on the center of a long sheet having properties (hereinafter referred to as root protection as necessary), and both side edges of the sheet are lifted and brought together, and the both sides are brought together. By joining the edges, the medium is wrapped, and a plurality of planting gaps are formed between both side edges of the sheet.
【0011】本発明の好ましい態様としては、前記培地
が、ピートモス、稲ワラ、もみがらくん炭及び植物性廃
棄物から選ばれる1種又は2種以上の混合物を主として
用いて堆積発酵製造したコンポストを主材とすることで
あり、より好ましくは上記の培地に、緩効性化成肥料及
び又は固形有機複合肥料を含有することであり、更に好
ましくはかかる培地に給水が可能な、点滴又は散水用の
チューブを設置することである。[0011] In a preferred embodiment of the present invention, the medium is a compost produced by sedimentation and fermentation mainly using one or a mixture of two or more selected from peat moss, rice straw, rice bran charcoal and vegetable waste. It is to be the main material, more preferably in the above medium, it is to contain a slow-acting chemical fertilizer and / or solid organic compound fertilizer, more preferably water can be supplied to such a medium, for drip or watering Installing a tube.
【0012】また本発明の他の好ましい態様としては、
前記長尺状のシートが、可視光線の透過率10%以下であ
り、かつ光吸収性の黒色の裏面を有すると共に光反射性
の白色またはシルバー色の表面を有し、該黒色の裏面が
作物栽培床の内面側になるように配置してなることであ
る。[0012] In another preferred embodiment of the present invention,
The long sheet has a visible light transmittance of 10% or less, has a light-absorbing black back surface, and has a light-reflective white or silver surface, and the black back surface is a crop. It is to be arranged so as to be on the inner side of the cultivation floor.
【0013】上記目的を達成する本発明に係る根域制限
作物栽培床の製造方法は、熱可塑性樹脂繊維製の織布又
は不織布からなり、透水性は有するが植物の根は通さな
い性質を有する長尺状のシートを作物育成予定地に一定
の間隔で展張し、次いで該シートの中央部に作物育成に
必要な栄養分を含有する培地を載置し、次いで該シート
の両側縁部を持ち上げて寄せ合わせ、次いで該シートの
両側縁部を接合することにより前記培地を包み込むと共
に該シートの両側縁部間に作物の植え込み間隙を形成す
ることを特徴とする。[0013] The method for producing a root zone restricted crop cultivation floor according to the present invention, which achieves the above object, comprises a woven or non-woven fabric made of thermoplastic resin fiber, and has a property of having water permeability but not penetrating plant roots. A long sheet is stretched at predetermined intervals on the crop growing area, and a medium containing nutrients necessary for growing the crop is placed in the center of the sheet, and then both side edges of the sheet are lifted. It is characterized in that the medium is wrapped by assembling and then joining both side edges of the sheet, and a crop planting gap is formed between both side edges of the sheet.
【0014】本発明において、根域制限なる用語を用い
ている所以は、作物根が設定した培地外に侵出して、不
良環境の土壌条件をはじめとする外因性障害を回避排除
することを目的とするものである。したがって、園芸作
物の栽培床としての利用を対象の一つに設定している
が、世界に広く存在する黄土(Loess)地帯、砂漠
地、塩害地を始め、礫層地帯やシラス地帯等々、現状農
耕不適なる地帯にあっても、十分なる作物生産地造成の
可能性を有するものである。[0014] In the present invention, the term root zone restriction is used for the purpose of avoiding and eliminating extrinsic disorders such as soil conditions in a bad environment, in which the roots of crops infiltrate out of a set medium. It is assumed that. Therefore, the use of horticultural crops as cultivation floors is set as one of the targets. However, in the world, there are loess (Loess), desert, and salt-damaged areas that are widely present in the world, as well as gravel layer and shirasu areas. Even in areas where farming is unsuitable, it has the potential to create sufficient crop production areas.
【0015】[0015]
【作用】本発明に係る根域制限作物栽培床は、熱可塑性
樹脂繊維製の織布又は不織布からなり、透水性は有する
が植物の根は通さない性質を有する長尺状のシートを用
いているので、培地に給水された余剰の水は外部に排出
され、また作物の根域からの病原体の感染を防止でき
る。上記長尺状のシートによって包み込まれた培地に
は、作物育成に必要な栄養分を含有するため、地力の増
進、活用を図りつつ作物を栽培できるのみならず、培地
以外の土壌には肥料を添加する必要がなく肥料の無駄を
省き農業者の経済的、労力的負担を軽減できる。上記の
長尺状のシートによって上記の培地が包み込まれている
ので、土地型栽培の欠点である土壌切り替え作業が不要
となり、農業者の労力を軽減できる。作物の病害をあら
かじめ防止しようとして薬剤を培地に供給する際に、個
別の培地だけに供給するだけでよいので、薬剤供給の手
数が省け、かつ薬剤使用量を少なくできる。The root zone restricted crop cultivation floor according to the present invention is made of a woven or non-woven fabric made of thermoplastic resin fiber, and is made of a long sheet having a property of having water permeability but not penetrating plant roots. As a result, excess water supplied to the culture medium is discharged to the outside, and the transmission of pathogens from the root zone of the crop can be prevented. The medium wrapped by the long sheet contains nutrients necessary for growing crops, so not only can the crops be cultivated while improving and utilizing soil strength, but also fertilizers are added to soil other than the medium. This eliminates the need for fertilizers and reduces the economic and labor burden on farmers. Since the above-described medium is wrapped by the long sheet, the soil switching operation, which is a drawback of land-type cultivation, becomes unnecessary, and the labor of the farmer can be reduced. When the drug is supplied to the culture medium in order to prevent the disease of the crop in advance, it is only necessary to supply the drug to the individual culture medium. Therefore, the labor for supplying the medicine can be reduced and the amount of the drug used can be reduced.
【0016】本発明において、前記培地が、ピートモ
ス、稲ワラ、もみがらくん炭及び植物性廃棄物を主とし
て用いて堆積発酵製造したコンポストを主材とすること
によって、廃物利用ができるのみならず作物に有用な微
生物を繁殖できる。また上記の培地に、緩効性化成肥料
及び又は固形有機複合肥料を含有することによって給水
管理のみで栽培が可能となる。更に培地に給水が可能
な、点滴又は散水用のチューブを設置することによっ
て、実際的な給水管理ができる。In the present invention, the medium is mainly composed of compost produced by sedimentation and fermentation mainly using peat moss, rice straw, rice husk charcoal and vegetable waste, so that not only waste can be used but also crops can be used. Useful microorganisms can be propagated. In addition, since the above medium contains a slow-acting chemical fertilizer and / or a solid organic compound fertilizer, cultivation can be performed only by water supply management. Further, by providing a tube for drip or watering, which can supply water to the medium, practical water supply management can be performed.
【0017】また前記長尺状のシートが、可視光線の透
過率10%以下であり、かつ光吸収性の黒色の裏面を有す
ると共に光反射性の白色またはシルバー色の表面を有
し、該黒色の裏面が作物栽培床の内面側になるように配
置してなることにより、地温調節が可能となり、またシ
ートの外表面に抗菌剤や害虫忌避剤等を付着含浸させる
ことにより病虫害被害を防止できる。The long sheet has a visible light transmittance of 10% or less, has a light-absorbing black back surface, and has a light-reflective white or silver surface. It is possible to control the soil temperature by arranging the rear surface of the sheet on the inner side of the crop cultivation floor, and it is possible to prevent pest damage by attaching and impregnating the outer surface of the sheet with an antibacterial agent or an insect repellent. .
【0018】更に、本発明は最低量の培地によって栽培
を成り立たせることが、これまでの土地生産力に依存し
た作物栽培(農業)形態と異なる。これまでの土地生産
型農業は畑の保水力、排水性、通気性、土壌養分の保持
という相矛盾するような機能を甫場土壌構造に付与させ
るため、深耕、堆厩肥の造成、多施、中耕による土中空
気の供給を行なうことが必要であった。しかし、これら
は何れも多労のみならず、その精粗によって、その成果
が左右された。Further, the present invention is different from the conventional crop cultivation (agriculture) form in which the cultivation can be established with a minimum amount of medium, depending on the land productivity. Up until now, land-based agriculture has provided deep-seated plowing, composting, fertilization, and so on, in order to add contradictory functions such as water retention, drainage, air permeability, and soil nutrient retention to fields. It was necessary to supply soil air by medium tilling. However, the results were influenced not only by much labor but also by the precision.
【0019】更に又、本発明では、1m当たりの培地量
を例えば5kg〜30kgというような極めて微量とも言うべ
き培地量に限定でき、給排水を作物毎、生育相に合わ
せ、且つ温度条件等に適確に調節実施すると同時に常時
間断なく空気供給のできるシートを用いていることによ
り、根群を深層化発達させる必要性がない。Furthermore, in the present invention, the amount of culture medium per meter can be limited to an extremely small amount of culture medium, for example, 5 kg to 30 kg, so that the water supply and drainage can be adjusted for each crop, growth phase, and temperature conditions. The use of a sheet that can supply air without interruption at the same time as performing the adjustment reliably eliminates the need to deepen and develop the root group.
【0020】[0020]
【発明の実施の形態】以下、本発明の実施の形態を詳細
に説明するが、かかる説明例によって本発明が限定され
るものではない。DESCRIPTION OF THE PREFERRED EMBODIMENTS The embodiments of the present invention will be described in detail below, but the present invention is not limited by the description.
【0021】図1は本発明の根域制限作物栽培床の一例
を示す斜視図である。同図において、1は作物栽培床で
あり、主として長尺状のシート2と培地3によって構成
されている。4は給水管4aに連結された点滴又は散水
用のチューブであり、かかるチューブ4は培地3の上部
に設けられ、該培地3に給水が可能となる。5は作物6
の植え込み間隙であり、作物栽培床1の長手方向の中央
上部に沿って複数設けられている。FIG. 1 is a perspective view showing one example of a cultivation floor for a root zone restricted crop of the present invention. In FIG. 1, reference numeral 1 denotes a crop cultivation floor, which is mainly constituted by a long sheet 2 and a medium 3. Reference numeral 4 denotes a tube for drip or water sprinkling connected to the water supply pipe 4a. The tube 4 is provided above the culture medium 3 so that the culture medium 3 can be supplied with water. 5 is crop 6
And a plurality of the gaps are provided along the upper central portion of the crop cultivation floor 1 in the longitudinal direction.
【0022】シート2は、熱可塑性樹脂繊維製の織布又
は不織布が用いられ、透水性は有するが植物の根は通さ
ない性質、即ち防根性を有している。The sheet 2 is made of a woven or nonwoven fabric made of a thermoplastic resin fiber, and has a property of having water permeability but not penetrating plant roots, that is, root protection.
【0023】熱可塑性樹脂としては、ポリエチレン(特
に高密度ポリエチレン)、ポリプロピレン、ポリエステ
ル、ポリアミド等およびこれらの共重合体を挙げること
ができる。これらの樹脂は単独で、または混合して使用
することができる。強度、耐久性の点ではポリエステル
が望ましい。Examples of the thermoplastic resin include polyethylene (especially high-density polyethylene), polypropylene, polyester, polyamide and the like and copolymers thereof. These resins can be used alone or as a mixture. Polyester is desirable in terms of strength and durability.
【0024】繊維の太さは、特に限定されないが、反射
率を向上させるには、できるだけ細い方がよく、一般的
には0.1 〜40μm程度、望ましくは 0.1〜30μmである。
シートの厚さは、特に限定されないが、作業性等を考慮
すると、0.05〜1.0mm程度が適当である。The thickness of the fiber is not particularly limited, but is preferably as thin as possible in order to improve the reflectivity, and is generally about 0.1 to 40 μm, preferably 0.1 to 30 μm.
The thickness of the sheet is not particularly limited, but is suitably about 0.05 to 1.0 mm in consideration of workability and the like.
【0025】本発明において、シートの透水性は、一定
面積をもつシートの中を水が透過する速度であり、図5
及び図6に示す装置によって測定した値によって規定す
ることができる。In the present invention, the water permeability of a sheet is the speed at which water permeates through a sheet having a fixed area.
And the value measured by the apparatus shown in FIG.
【0026】即ち、図5及び図6に示すように、内径20
mmのガラス管50の下端に、試料シート20を接着剤51を用
いて張付け固定する。垂直に立設したガラス管50に水柱
高52が100cm以上になるように水を入れ、下端の試料シ
ート20を透過させて、受槽53に排出する。しかして、水
柱高52が100cmの標線を通過したときに測定を開始して
透水速度を測定する。That is, as shown in FIG. 5 and FIG.
The sample sheet 20 is attached and fixed to the lower end of the glass tube 50 of mm using an adhesive 51. Water is poured into a vertically erected glass tube 50 so that the water column height 52 becomes 100 cm or more, and the sample sheet 20 at the lower end is permeated and discharged to a receiving tank 53. Then, when the water column height 52 passes through the 100 cm mark, the measurement is started to measure the water permeation rate.
【0027】本発明では、シートとしては、この手法に
よる測定によって、水柱高52が90cmに達するまでの時間
が60分以内、好ましくは30分以内、更に好ましくは10分
以内の透水性を有するシートが用いられる。In the present invention, a sheet having a water permeability of 60 minutes or less, preferably 30 minutes or less, more preferably 10 minutes or less until the height of the water column 52 reaches 90 cm by this method is measured. Is used.
【0028】また、本発明のシートは防根性を有してい
るが、根の通過を止めるためには、繊維間に大きな間隙
を有していないものが用いられ、不織布では繊維間の間
隙が微小で繊維の重なりの多いものが用いられる。Further, although the sheet of the present invention has a root-proof property, in order to stop the passage of roots, a sheet having no large gap between fibers is used. Those having a small size and many overlapping fibers are used.
【0029】防根性は透水性とは直接の関係は有しない
が、一般に、上述の測定法において水柱高が10cmになる
までの時間が1.5秒以上、好ましくは3秒以上の透水速
度のものが使用される。Although the root control does not have a direct relationship with the water permeability, generally, the water permeability of the above-mentioned measuring method is 1.5 seconds or more, preferably 3 seconds or more, until the height of the water column becomes 10 cm. used.
【0030】また本発明のシートとしては、地温を調節
して夏期の高温から保護するために、裏面を光吸収性の
黒、青、赤色等に着色し、表面が光反射性の白色又はシ
ルバー色とした不織布又は織布シートが好ましく用いら
れ、培地をこのシートで包み込むに際しては、培地に接
する内面側にシートの黒色面、外面側を白色面となるよ
うに配置し、可視光線の透過率が10%以下となる不織布
又は織布シートを用いることが好ましい。The sheet of the present invention has a rear surface colored black, blue, red or the like having light absorbency and a light reflective white or silver surface in order to adjust the ground temperature and protect it from high temperatures in summer. A nonwoven or woven fabric sheet with a color is preferably used, and when wrapping the medium with this sheet, the sheet is arranged so that the black surface of the sheet is on the inner surface in contact with the medium and the white surface is on the outer surface, and the transmittance of visible light is high. Is preferably 10% or less.
【0031】シートの外面側を白色面にすると、散乱光
ではあるが可視光線を反射し、作物栽培床内温度を低く
し、作物の根部成長を阻害する程には高温にならない効
果がある。又、紫外線の反射率も高く、有翅アブラム
シ、ミナミキイロアザミウマ等の飛来が少なく、ウイル
ス性病害発生等を最小限に抑止する。When the outer surface side of the sheet is made white, it reflects the scattered light but visible light, lowers the temperature inside the crop cultivation floor, and has the effect that the temperature does not become high enough to inhibit the root growth of the crop. In addition, the reflectance of ultraviolet rays is high, the flying of winged aphids, Thrips palmi or the like is small, and the occurrence of viral diseases is minimized.
【0032】一方、シートの内面を黒色とすることによ
り、光をできるだけこの黒色層(面)に吸収させ、培地
に届く光線を遮断し、培地とシートの内面との間に苔や
藻類及び雑草が発生しないようにすると共に、根の発育
を促進することができる(実公平6−941号公報)。On the other hand, by making the inner surface of the sheet black, light is absorbed by this black layer (surface) as much as possible, light rays reaching the culture medium are blocked, and moss, algae and weeds are interposed between the culture medium and the inner surface of the sheet. And promote root growth (Japanese Utility Model Publication No. 6-941).
【0033】本発明で用いられるシートのうちで、例え
ば、不織布シートを製造する方法としては下記の方法が
挙げられる。Among the sheets used in the present invention, for example, the following method can be mentioned as a method for producing a nonwoven fabric sheet.
【0034】(a)ポリエステルをスパンボンド紡糸し
て製造した白色不織布の表面を黒(墨)色グラビア印刷
インキ、オフセット印刷インキ、スクリーン印刷インキ
等の黒色インキを用いてベタ印刷する。 (b)酸化チタン、硫酸バリウム等の白色顔料、アルミ
ニウム粉末を3〜15重量%含有するポリエステルをスパ
ンボンド紡糸法により製造した不織布と、カーボンブラ
ックを 0.5〜5重量%含有するポリエステルをスパンボ
ンド紡糸法により製造した不織布とを接着剤を用いて貼
合する。 (c)白色またはシルバー色の不織布の裏面を、黒
(墨)色のグラビア印刷インキ、オフセット印刷イン
キ、スクリーン印刷インキ等の黒色インキを用いてベタ
印刷する。 (d)黒色の不織布の表面にアンカーコート剤を塗布し
た後、アルミニウムを蒸着させる。 (e)黒色の不織布の裏面に、白色塗料またはアルミニ
ウム塗料を塗布し、乾燥させる。(A) The surface of a white nonwoven fabric produced by spunbonding a polyester is solid-printed using black ink such as black (black) gravure printing ink, offset printing ink, screen printing ink, or the like. (B) Nonwoven fabric produced by spunbond spinning of a polyester containing 3 to 15% by weight of a white pigment such as titanium oxide and barium sulfate and aluminum powder, and spunbonding a polyester containing 0.5 to 5% by weight of carbon black. Is bonded to a nonwoven fabric manufactured by the method using an adhesive. (C) Solid printing is performed on the back surface of the white or silver nonwoven fabric using black ink such as black (black) gravure printing ink, offset printing ink, or screen printing ink. (D) After applying an anchor coat agent to the surface of the black nonwoven fabric, aluminum is deposited. (E) A white paint or an aluminum paint is applied to the back surface of the black nonwoven fabric and dried.
【0035】しかして、シートの坪量は20〜200g/m2が
好ましい。20g/m2未満では強度が不足するとともに、反
射率が低下してしまい、200g/m2を越えるとコスト高と
なるためである。好ましい坪量は30〜100g/m2の範囲で
ある。However, the basis weight of the sheet is preferably from 20 to 200 g / m 2 . If it is less than 20 g / m 2 , the strength will be insufficient and the reflectance will be reduced. If it exceeds 200 g / m 2 , the cost will be high. Preferred basis weight is in the range of 30 to 100 g / m 2.
【0036】次に、培地3としては、ピートモス、稲ワ
ラ、もみがらくん炭及び植物性廃棄物の1種又は2以上
を混合して、更に必要により腐葉土、ヒノキ、スギ等の
樹皮、木炭末、水苔、焼成赤玉土、鹿沼土等の少なくと
も1種を混合して、堆積発酵製造したコンポストを主材
とすることが好ましい。また、コンポストの原料には、
地方的特産として存在するカキ殻、甲殼類カラ、骨料等
を加えることもできる。Next, as the medium 3, one or more of peat moss, rice straw, rice bran charcoal and vegetable waste are mixed, and if necessary, bark of humus, hinoki and cedar, charcoal powder It is preferable to use at least one kind of compost obtained by sedimentation and fermentation production by mixing at least one of water, moss, calcined Akadama soil, Kanuma soil and the like. Also, compost raw materials include
Oyster shells, crustacean shells, bone materials, etc. that exist as local specialties can also be added.
【0037】また培地には、肥料、殺虫剤、保温剤を配
合してもよい。特に緩効性肥料及び又は固形有機複合肥
料を入れておくことが大切で、これにより主に給水管理
のみで栽培が可能になる。更に培地は、充填使用前に加
熱殺菌等の処置を施すことが望ましい。その方法として
は、化石エネルギー依存を回避する観点から太陽光熱を
利用することが好ましい。The medium may contain a fertilizer, an insecticide, and a warming agent. In particular, it is important to add a slow-release fertilizer and / or a solid organic composite fertilizer, which enables cultivation mainly by water supply management alone. Further, it is desirable that the medium be subjected to a treatment such as heat sterilization before filling and use. As the method, it is preferable to use solar heat from the viewpoint of avoiding dependence on fossil energy.
【0038】本発明の培地は、栽培終了後、栽培床に充
填されている培地を回収し、堆積発酵して再利用するこ
とが望ましい。その場合、培地としての再生工程を阻害
する恐れのあるものは最初から使用しないことが望まし
い。After completion of the cultivation, it is desirable that the medium of the present invention be recovered by collecting the medium filled in the cultivation bed, deposited, fermented, and reused. In such a case, it is desirable not to use a medium that might interfere with the regeneration step as a culture medium from the beginning.
【0039】次に、図2に基づき本発明の作物栽培床の
製造例を説明する。Next, an example of manufacturing the crop cultivation floor of the present invention will be described with reference to FIG.
【0040】図2のように、長尺状のシート2を作物育
成予定地に一定の間隔で展張し(図では1列設置の場合
について示している)、次いで該シート2の長手方向に
沿ってその中央部に培地3を載置する。この培地積み込
みと同じくして培地3の上部に散水用の小孔を有する簡
易灌水チューブ(図示せず)を併設する。As shown in FIG. 2, a long sheet 2 is stretched at a predetermined interval on a crop growing site (in the figure, a single row is shown), and then along the longitudinal direction of the sheet 2. The culture medium 3 is placed at the center of the lever. As in the loading of the medium, a simple watering tube (not shown) having a small hole for watering is provided on the upper part of the medium 3.
【0041】次いでシート2の両側縁部2a、2bを持
ち上げて寄せ合わせる。この寄せ合わせに際しては、両
側縁部2a、2bを互いに立ち上げるようにして寄せ合
わせて突き合わせることが好ましい。Next, the side edges 2a, 2b of the sheet 2 are lifted and brought together. In this assembling, it is preferable that both side edges 2a, 2b are brought up to each other and brought together and abutted.
【0042】次いで両側縁部2a、2b又はその近傍を
接合(連結)する。両側縁部2a、2bの接合方法とし
ては、接着、溶着、縫合、ステープル止め、針金による
引掛等のいずれの方法でもよい。Next, the side edges 2a and 2b or their vicinity are joined (connected). As a joining method of the both side edges 2a and 2b, any method such as adhesion, welding, stitching, stapling, hooking with a wire, or the like may be used.
【0043】図2の例においては、シート2の両側縁部
に沿って小孔2cが設けられ、鈎で引掛けるようにされ
ている。図3には鈎2dで引掛けることにより接合して
培地3を包み込んだ例が示されている。In the example shown in FIG. 2, small holes 2c are provided along both side edges of the sheet 2 so as to be hooked by hooks. FIG. 3 shows an example in which the medium 3 is wrapped by joining by hooking with a hook 2d.
【0044】上記のような接合によって、培地3を包み
込む。そして両側縁部2a、2bの接合箇所に図1に示
すような作物6の植え込み間隙5を形成する。The medium 3 is wrapped by the conjugation as described above. Then, the planting gap 5 for the crop 6 as shown in FIG. 1 is formed at the joint between the side edges 2a and 2b.
【0045】かかる間隙は両側縁部2a、2bの接合が
完了した後に形成することができる。間隙を形成する方
法は特に限定されず、また間隙の形状は○形、×形等の
いずれでもよい。Such a gap can be formed after the joining of the side edges 2a, 2b is completed. The method of forming the gap is not particularly limited, and the shape of the gap may be any of a circle, a cross, and the like.
【0046】なお、両側縁部2a、2bを接着剤を用い
て接合するには、両側縁部2a、2bを重ね合わせ、そ
の重ね合わせ部に接着剤を塗って接合することができ
る。特にシート2としてポリエステル製の不織布シート
を用いた場合に効果的である。In order to join the two side edges 2a and 2b using an adhesive, the two side edges 2a and 2b can be overlapped, and the overlapped portion can be coated with an adhesive and joined. This is particularly effective when a polyester nonwoven fabric sheet is used as the sheet 2.
【0047】以上のような両側縁部2a、2bの接合、
更には培地3の長手方向の両端を包み込みことによって
図1に示すような作物栽培床1が得られる。The joining of both side edges 2a and 2b as described above,
Furthermore, the crop cultivation floor 1 as shown in FIG. 1 is obtained by wrapping both ends of the medium 3 in the longitudinal direction.
【0048】上記のようにして得られた作物栽培床1の
シート2の上側面には、図4に示すような、面積が0.5
〜50mm2の細孔7、7、・・・を、0.01〜1.0個/cm2の
密度で設けることにより、シートの上方(栽培床の外
側)からの散水、液肥の施肥、降雨のスムーズな床内へ
の浸透が可能となる。The upper surface of the sheet 2 of the crop cultivation floor 1 obtained as described above has an area of 0.5 as shown in FIG.
Pores 7,7 of ~50Mm 2, a., By providing a density of 0.01 to 1.0 pieces / cm 2, water spray from the upper sheet (outer cultivation bed), fertilization of liquid fertilizer, smooth rainfall Penetration into the floor becomes possible.
【0049】細孔の面積を0.5〜50mm2とするのは、0.5m
m2未満では結露水による水膜で閉塞り易く、50mm2を越
えると発芽した雑草が孔から突き出してしまうことが多
いためである。好ましい細孔面積は1〜10mm2である。When the area of the pores is 0.5 to 50 mm 2 , it is 0.5 m
If it is less than m 2, it is easily blocked by a water film due to dew condensation water, and if it exceeds 50 mm 2 , germinated weeds often protrude from holes. Preferred pore area is 1 to 10 mm 2.
【0050】細孔の密度を0.01〜1.0個/cm2とするの
は、0.01個/cm2未満では透水が不均一となり、1.0個/
cm2を越えると孔あけ加工も難しくなり、強度も低下す
る。好ましい密度は0.05〜0.2個/cm2である。細孔の形
状は、円形、楕円形、正方形、長方形、六角形等任意の
ものを選択することができる。The reason why the density of the pores is set to 0.01 to 1.0 pores / cm 2 is that if the pore density is less than 0.01 pores / cm 2 , the water permeability becomes non-uniform, and the pore density is 1.0 pores / cm 2.
If it exceeds cm 2 , drilling becomes difficult, and the strength decreases. The preferred density is 0.05-0.2 pieces / cm 2 . The shape of the pores can be selected arbitrarily, such as a circle, an ellipse, a square, a rectangle, and a hexagon.
【0051】上述した本発明の作物栽培床は、一般の露
地に於ける作物栽培床として、またガラス室、プラスチ
ックハウス等の施設として使用できることは当然である
が、通常、農耕と目される砂利、コンクリート、アスフ
ァルト等で舗装された一定地積を農作物栽培生産に利用
することもできる。The above-described crop cultivation floor of the present invention can be used as a crop cultivation floor in a general open field, or as a facility such as a glass room or a plastic house. A fixed area paved with concrete, asphalt, or the like can be used for agricultural production.
【0052】[0052]
【発明の効果】本発明によれば、地力の増進、活用を図
り、かつ作物の栽培管理を容易かつ低コストで可能とす
るのみならず肥料の無駄をなくし、農業者の労力や経済
的負担を軽減し、作物の根域からの病原体の感染を防止
できる根域制限作物栽培床及びその製造方法を提供する
ことができる。According to the present invention, not only is it possible to promote and utilize the land power, and to make it possible to easily and inexpensively manage the cultivation of crops, but also to eliminate waste of fertilizer, and to save labor and economic burden on farmers. The present invention can provide a root-zone-restricted crop cultivation floor that can reduce the occurrence of infection with a pathogen from the root zone of a crop, and a method for producing the same.
【図1】本発明の根域制限作物栽培床の一例を示す斜視
図FIG. 1 is a perspective view showing an example of a root zone restricted crop cultivation floor of the present invention.
【図2】本発明の根域制限作物栽培床の製造例を示す斜
視図FIG. 2 is a perspective view showing a production example of a root zone restricted crop cultivation floor according to the present invention.
【図3】本発明の根域制限作物栽培床の製造例を示す斜
視図FIG. 3 is a perspective view showing a production example of a root zone restricted crop cultivation floor according to the present invention.
【図4】本発明の根域制限作物栽培床の他の例を示す斜
視図FIG. 4 is a perspective view showing another example of the cultivation floor for the root zone restricted crop of the present invention.
【図5】透水性を規定する装置を示す斜視図FIG. 5 is a perspective view showing an apparatus for regulating water permeability.
【図6】同上の要部拡大断面図FIG. 6 is an enlarged sectional view of a main part of the above.
1:作物栽培床 2:シート 2a、2b:両側縁部 2c:小孔 2d:鈎 3:培地 4:チューブ 4a:給水管 5:間隙 6:作物 7:細孔 20:試料シート 50:ガラス管 51:接着剤 52:水柱高 53:受槽 1: Crop cultivation floor 2: Sheet 2a, 2b: Side edges 2c: Small hole 2d: Hook 3: Medium 4: Tube 4a: Water supply pipe 5: Gap 6: Crop 7: Porous 20: Sample sheet 50: Glass tube 51: Adhesive 52: Water column height 53: Receiving tank
Claims (6)
なり、透水性は有するが植物の根は通さない性質を有す
る長尺状のシートの中央部に作物育成に必要な栄養分を
含有する培地を載置すると共に該シートの両側縁部を持
ち上げて寄せ合わせ、該両側縁部を接合することにより
前記培地を包み込むと共に該シートの両側縁部間に作物
の植え込み間隙を複数形成してなることを特徴とする根
域制限作物栽培床。1. A central part of a long sheet made of a thermoplastic resin fiber woven or non-woven fabric having the property of having water permeability but not allowing plant roots to contain nutrients necessary for growing crops. A medium is placed, and both side edges of the sheet are lifted and brought together. By joining the two side edges, the medium is wrapped and a plurality of crop planting gaps are formed between both side edges of the sheet. A root zone restricted crop cultivation floor, characterized in that:
ん炭及び植物性廃棄物から選ばれる1種又は2種以上の
混合物を主として用いて堆積発酵製造したコンポストを
主材とすることを特徴とする請求項1記載の根域制限作
物栽培床。2. The medium is mainly composed of compost produced by sedimentation and fermentation mainly using one or a mixture of two or more selected from peat moss, rice straw, rice bran charcoal and vegetable waste. The cultivated floor for limited root area crop according to claim 1, wherein
複合肥料を含有することを特徴とする請求項2記載の根
域制限作物栽培床。3. The cultivated floor for restricted root crop according to claim 2, wherein the medium contains a slow-acting chemical fertilizer and / or a solid organic compound fertilizer.
ューブを設置してなることを特徴とする請求項1、2又
は3記載の根域制限作物栽培床。4. The cultivation floor for limited root zone crop according to claim 1, wherein a tube for drip or watering, which can supply water to the medium, is provided.
10%以下であり、かつ光吸収性の黒色の裏面を有すると
共に光反射性の白色またはシルバー色の表面を有し、該
黒色の裏面が作物栽培床の内面側になるように配置して
なることを特徴とする請求項1、2、3又は4記載の根
域制限作物栽培床。5. The method according to claim 1, wherein the elongated sheet has a visible light transmittance.
10% or less, and has a light-absorbing black back surface and a light-reflective white or silver surface, and is arranged such that the black back surface is on the inner side of the crop cultivation floor. 5. The cultivated floor for limited root area crop according to claim 1, 2, 3 or 4.
なり、透水性は有するが植物の根は通さない性質を有す
る長尺状のシートを作物育成予定地に一定の間隔で展張
し、次いで該シートの中央部に作物育成に必要な栄養分
を含有する培地を載置し、次いで該シートの両側縁部を
持ち上げて寄せ合わせ、次いで該シートの両側縁部を接
合することにより前記培地を包み込むと共に該シートの
両側縁部間に作物の植え込み間隙を形成することを特徴
とする根域制限作物栽培床の製造方法。6. A long sheet made of a woven or non-woven fabric made of thermoplastic resin fibers and having a property of being permeable to plant roots but having water permeability, is stretched at predetermined intervals on a crop growing site, Next, a medium containing nutrients necessary for growing crops is placed on the center of the sheet, and then the both sides of the sheet are lifted and brought together, and then the two sides of the sheet are joined to join the medium. A method for producing a root zone restricted crop cultivation floor, comprising wrapping and forming a crop planting gap between both side edges of the sheet.
Priority Applications (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| JP7179396A JP2840704B2 (en) | 1995-06-22 | 1995-06-22 | Cultivation floor with limited root zone and method for producing the same |
Applications Claiming Priority (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| JP7179396A JP2840704B2 (en) | 1995-06-22 | 1995-06-22 | Cultivation floor with limited root zone and method for producing the same |
Publications (2)
| Publication Number | Publication Date |
|---|---|
| JPH0961A JPH0961A (en) | 1997-01-07 |
| JP2840704B2 true JP2840704B2 (en) | 1998-12-24 |
Family
ID=16065139
Family Applications (1)
| Application Number | Title | Priority Date | Filing Date |
|---|---|---|---|
| JP7179396A Expired - Fee Related JP2840704B2 (en) | 1995-06-22 | 1995-06-22 | Cultivation floor with limited root zone and method for producing the same |
Country Status (1)
| Country | Link |
|---|---|
| JP (1) | JP2840704B2 (en) |
-
1995
- 1995-06-22 JP JP7179396A patent/JP2840704B2/en not_active Expired - Fee Related
Also Published As
| Publication number | Publication date |
|---|---|
| JPH0961A (en) | 1997-01-07 |
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