JPH02283221A - Circular mobile cultivation apparatus for water culture - Google Patents

Circular mobile cultivation apparatus for water culture

Info

Publication number
JPH02283221A
JPH02283221A JP1100054A JP10005489A JPH02283221A JP H02283221 A JPH02283221 A JP H02283221A JP 1100054 A JP1100054 A JP 1100054A JP 10005489 A JP10005489 A JP 10005489A JP H02283221 A JPH02283221 A JP H02283221A
Authority
JP
Japan
Prior art keywords
circular
plants
seedlings
crops
planting
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.)
Pending
Application number
JP1100054A
Other languages
Japanese (ja)
Inventor
Tsuneo Sugiyama
杉山 恒雄
Kichiji Uchiyama
内山 吉治
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.)
Hitachi Ltd
Original Assignee
Hitachi 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 Hitachi Ltd filed Critical Hitachi Ltd
Priority to JP1100054A priority Critical patent/JPH02283221A/en
Publication of JPH02283221A publication Critical patent/JPH02283221A/en
Pending legal-status Critical Current

Links

Classifications

    • YGENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
    • Y02TECHNOLOGIES OR APPLICATIONS FOR MITIGATION OR ADAPTATION AGAINST CLIMATE CHANGE
    • Y02PCLIMATE CHANGE MITIGATION TECHNOLOGIES IN THE PRODUCTION OR PROCESSING OF GOODS
    • Y02P60/00Technologies relating to agriculture, livestock or agroalimentary industries
    • Y02P60/20Reduction of greenhouse gas [GHG] emissions in agriculture, e.g. CO2
    • Y02P60/21Dinitrogen oxide [N2O], e.g. using aquaponics, hydroponics or efficiency measures

Landscapes

  • Hydroponics (AREA)

Abstract

PURPOSE:To save labor of operation, such as plating of seedlings, by carrying out setting of the seedlings at prescribed points in the central part of an apparatus and harvesting of plants at prescribed points on the outer periphery in a circular mobile cultivation apparatus for water culture capable of moving and cultivating crops while extending the hill space of the crops according to growth thereof. CONSTITUTION:A rotatable circular crop planting plate 2 is provided on a circular nutrient water vessel 1 having the circular central part 9 incapable of collecting nutrient water 18 in the center thereof and planting holes 4 extending the hill space radially toward the outside of the plate 2 are provided to carry out setting of seedlings at prescribed points in the central part of the above-mentioned apparatus and harvesting of plants at prescribed points of the outer periphery thereof. Thereby, labor of cultivation is saved to simultaneously save energy and reduce cost of the apparatus.

Description

【発明の詳細な説明】 〔産業上の利用分野〕 本発明は株間隔を生長に応じ広くする機能を持ち、水耕
で移動連続栽培する円形栽培装置における苗の植付けお
よび作物の収穫などの作業を簡便に実施するための水耕
栽培装置に関するものである。
[Detailed Description of the Invention] [Industrial Application Field] The present invention has a function of widening the spacing between plants according to growth, and is suitable for operations such as planting seedlings and harvesting crops in a circular cultivation device that performs continuous continuous cultivation using hydroponics. The present invention relates to a hydroponic cultivation device for easily carrying out.

〔従来の技術〕[Conventional technology]

従来の装置は、実開昭57−146863号公報に記載
のように、円形装置の内周および外周辺の全域で苗の定
植および収穫作業を行なわなければならず、チーの労力
を必要とし、また、外周辺全域で作業するために装置の
外周に作業スペースを必要とし屋内で栽培する場合、広
い床面積の建屋が必要であった。そのため尋こ、栽培環
境を最適条件にするための空調負荷が大きくなり大形の
空調装置が必要であった。更に、作物を移動するのが放
射状や螺線状に行なうため機構が複雑となり装置が高価
であった。
As described in Japanese Utility Model Application Publication No. 57-146863, the conventional device requires the planting and harvesting of seedlings throughout the inner and outer peripheries of the circular device, which requires a lot of labor. In addition, a work space is required around the outer periphery of the device in order to work all around the outside, and when cultivating indoors, a building with a large floor area is required. As a result, the air conditioning load to optimize the cultivation environment increased, requiring large air conditioning equipment. Furthermore, since the crops are moved in a radial or spiral manner, the mechanism is complicated and the equipment is expensive.

〔発明が解決しようとする課題〕[Problem to be solved by the invention]

上記従来技術は、栽培装置の省エネ化と簡略化に関して
配慮がされておらず、円形装置の内周辺および外周辺の
全域で苗の定植および収穫作業を行なわなければならず
多畷の労働力を必要とし、また、外周辺全域で作業をす
るために装置の外側に作業スペースを必要とじ屋内で栽
培する場合、広い床面積の建屋が必要であった。そのた
めに、栽培環境を最適条件にするための空調負荷が大き
くなり大形の空WI4装置が必要であった。更に1作物
を移動するのが放射状や螺線状に行なうため機構が複雑
となり装置が高価となる欠点があった。
The above-mentioned conventional technology does not give consideration to energy saving and simplification of the cultivation device, and planting and harvesting of seedlings must be done throughout the inner and outer periphery of the circular device, requiring a large amount of labor. In addition, a work space was required outside the equipment in order to work all around the outside area, and when cultivating indoors, a building with a large floor area was required. For this reason, the air conditioning load to optimize the cultivation environment increased, and a large air WI4 device was required. Furthermore, since each crop is moved in a radial or spiral manner, the mechanism is complicated and the device is expensive.

本発明は、円形栽培装置の内または外周辺の1箇所で作
業が行なえ省力化と環境条件を維持する建屋の床面積を
狭くし空調負荷を少な畷し省エネルギ化を目的としてお
り、さらに、構造の簡略な価格の安い栽培装置を提供す
ることを目的としている。
The present invention aims to save energy by allowing work to be carried out at one location inside or outside the circular cultivation device, saving labor and maintaining environmental conditions by narrowing the floor space of the building and reducing the air conditioning load. The purpose is to provide an inexpensive cultivation device with a simple structure.

〔課題を解決するための手段〕[Means to solve the problem]

上記の目的を達成するために、円形の栽培養水槽の上に
回転可能な円形の作物植付板を設け、この板に放射状に
外側に行くにつれ株間隔が広曵なる植込穴を設け、内周
辺および外周辺の1箇所で苗の植込および生長した作物
の収穫を可能とし、作業場所に来ると各棟が手動又は自
動的に外側に移動する構造とした。
In order to achieve the above purpose, a rotatable circular crop planting plate is provided above a circular cultivation water tank, and planting holes are provided in this plate so that the spacing between the plants becomes wider as they go outward in a radial manner. The structure allows seedlings to be planted and grown crops to be harvested at one location on the inner and outer peripheries, and each ridge moves manually or automatically to the outside when the work area is reached.

更に、栽培装置の外側の全域で収穫作業をする必要がな
いために外側の作業スペースを無(すことが可能となり
建屋の床面積を減少できた。このため環境条件維持のた
めの空調負荷が少なくなり省エネルギと装置の価格低減
を行うことができた。
Furthermore, since there is no need to perform harvesting work in the entire area outside the cultivation equipment, it is possible to eliminate outside work space and reduce the floor space of the building.This reduces the air conditioning load required to maintain environmental conditions. This enabled us to save energy and reduce the cost of the equipment.

〔作  用〕[For production]

円形栽培装置で株を放射線状に、かつ、外周に近くなる
につれ株間隔が二次元に拡がるように植込んだ円形板を
栽培中の全部の株と共に回転させて栽培し、円形板上で
株を移動、移植するときは、外周辺の一定の1箇所で行
ない、ここに回ってきた最も外側の株を収穫し、この株
と放射線状の同一線上の株を順次外側に移すと最も内側
の株が植えてあった円形板上の場所が空曵ので、ここに
他の育苗装置で育てた幼苗を植込む。
Using a circular cultivation device, the plants are planted in a radial pattern, with the distance between the plants expanding two-dimensionally as they get closer to the outer periphery, and the circular plate is rotated together with all the plants being cultivated. When moving or transplanting, do it at one fixed location on the outer periphery, harvest the outermost plant that has come around here, and move the plants on the same radial line as this plant to the outside one by one. The area on the circular board where the stocks were planted is empty, so seedlings grown using other seedling raising equipment are planted here.

この動作を順次繰返すことにより二次元に株間隔を拡げ
なから密植栽培が可能となり、1箇所で作業ができるた
め省力化となる。
By repeating this operation in sequence, the distance between the plants can be expanded two-dimensionally, making dense cultivation possible, and labor can be saved because the work can be done in one place.

本発明の装置では、二次元株間隔拡大移動式密植栽培の
ため栽培面積が少なくてすみ、全外周辺の収穫作業スペ
ースを必要とせず栽培装置全体を覆い作物にとって最適
な環境を維持するための遮蔽のためのamの床面積が少
な曵なり空調負荷な少な曵することが可能となりだ。
In the device of the present invention, the cultivation area is small due to the two-dimensional space between the plants and mobile dense planting cultivation, and there is no need for a harvesting work space around the entire outside, and the entire cultivation device is covered to maintain the optimal environment for crops. Since the floor area of AM for shielding is small, it is possible to reduce the air conditioning load.

植込んだ作物は、必ず1回転するので生長に必要な光を
受ける条件が均一となり均質な作物を収穫することがで
きる。
Since the planted crops always rotate once, the conditions for receiving the light necessary for growth are uniform, and uniform crops can be harvested.

丈に、1箇所でのみ株の移植、移動を行うので作物の損
傷が少な畷、根や養水へ光が当るのを防止するためのカ
バー類を外す機会が少な(、重水に藻が発生し難く、作
物の生長を阻害する要因を低く押えることが可能である
Plants are transplanted and moved only in one place, so there is less damage to crops. It is possible to suppress the factors that inhibit crop growth.

〔実 施 例〕〔Example〕

以下、本発明の一実施例を、第1図ないし第3図により
説明する。
An embodiment of the present invention will be described below with reference to FIGS. 1 to 3.

図において、中央に養水18を溜めることかで券ない円
形の中心部9を持つ円形の養水槽lと、この養水槽lの
蓋と作物の植付板とを兼ねた円形板2よりなり、円形板
2は潤滑剤3を介し要水槽工に対し一定の方向に回転可
能な構造となっている。
In the figure, it consists of a circular water tank 1 with a circular center 9 for storing nutrient water 18 in the center, and a circular plate 2 that also serves as the lid of this water tank 1 and a planting board for crops. The circular plate 2 is structured to be rotatable in a fixed direction relative to the water tank via a lubricant 3.

養水槽1には養水18が蓄えられている。円形板2には
、作物を植込む穴が放射状に設けられており、半径方向
に外側になるにつれ穴の間隔は大h<なっている。
Nutrient water 18 is stored in the aquaculture tank 1. Holes for planting crops are provided in a radial manner in the circular plate 2, and the distance between the holes increases as the distance increases toward the outside in the radial direction.

また、養水槽1および円形板2の外側は隙間5をできる
限り少なくした状態で建I6で囲まれており建屋の一部
には栽培の手入れや収穫作業をするための作業場所7が
設けられている。さらに、円形板2に植込む作物は培床
10に得られる定植コマ11に挿入されている。作業場
所7から中心部9に入るための足場8が設けられている
。これらの栽培装置で作物を栽培するには、作業場所7
または中心部9で第3図に示すごとき状態の幼苗14を
円形板2の最も内側に植込む。次に、円形板2を一定の
方向に回転させ苗を植込み局い位置に止め次の苗を植込
む。この動作を繰返して行い内側の穴を埋め一定の期間
が過ぎると苗が生長するので円形板2が回転し作業場所
7にきたところで外側の穴に移す、移した跡の穴には新
たに幼苗株を植込む、二の動作を繰返し円形板2の総て
の穴を作物で埋める。これにより、円形板2の作物は外
側になるにつれ大きくなる。最も外側の株が生長し収穫
できる状態になると、作業場所フで手前にきた収穫株口
を収藻しその列の株を順次外側に移植し最も内側に幼苗
株14を植込み円形板2を回転させる。この動作なM1
返すことにより一定間隔期間で連続して作物を収穫する
二とが可能になる。円形板2の穴は作物が生長するにつ
れ間隔が大h(なる二次元株間隔連続移動栽培が可能と
なるように明けられており密植栽培が可能となる。
In addition, the outside of the water tank 1 and the circular plate 2 is surrounded by a building I6 with a gap 5 as small as possible, and a part of the building is provided with a work area 7 for cultivation care and harvesting work. ing. Furthermore, the crops to be planted on the circular plate 2 are inserted into the planting pieces 11 obtained on the culture bed 10. Scaffolding 8 is provided for entering the center 9 from the work area 7. To grow crops with these cultivation devices, work place 7
Alternatively, seedlings 14 in the state shown in FIG. 3 are planted in the innermost part of the circular plate 2 at the center 9. Next, the circular plate 2 is rotated in a fixed direction, and the seedlings are planted at the correct position, and the next seedling is planted. This operation is repeated until the inner hole is filled and the seedlings grow after a certain period of time, so the circular plate 2 rotates and when it reaches the work area 7, it is moved to the outer hole, and new seedlings are placed in the hole where it was moved. Repeat the second operation of planting the plants to fill all the holes in the circular plate 2 with the crops. As a result, the crop of the circular plate 2 becomes larger toward the outside. When the outermost plants have grown and are ready to be harvested, harvest the harvested plants that have come to the front in the work area, and transplant the plants in that row to the outside one after another.The innermost seedlings 14 are planted and the circular plate 2 is rotated. let This action M1
This allows for continuous harvesting of crops at regular intervals. The holes in the circular plate 2 are opened so that as the crops grow, the intervals become large (h) to enable continuous cultivation with two-dimensional plant spacing, making dense cultivation possible.

この栽培Mlでは、苗の植込や生長株の収穫などの作業
が一定の1箇所で行なえるため栽培装置の全外周に作業
場所を設ける必要炉な喀、また、多くの人手を必要とせ
ず、建屋6との隙間5が小さ鳴てすみ建316が小形と
なり内部空間が少な鳴栽培作物の環境条件を人工的に調
整する場合の空調負荷を少なくすることが可能である。
With this cultivation method, work such as planting seedlings and harvesting growing plants can be done in one fixed location, so there is no need for a furnace or large number of hands to provide a work area around the entire perimeter of the cultivation device. , the gap 5 with the building 6 is small, and the building 316 is small, and the air-conditioning load when artificially adjusting the environmental conditions for crops cultivated in the building 316 with a small internal space can be reduced.

さらに、外周の隙間5が少ないので作物を人工光で育て
る場合、婬1の内面を反射機で内装すると反射効率が大
きくなる利点がある。
Furthermore, since the gap 5 around the outer periphery is small, when growing crops with artificial light, the inner surface of the cover 1 can be lined with a reflector, which has the advantage of increasing reflection efficiency.

第1図ないしjl13図に示す発明例では、作物の収穫
後の同一列上の他の株の外側への移植作業を手動で行な
っているが、第4図に示すようにすると自動的に移植作
業を行なうことが可能である。
In the examples of the invention shown in Figures 1 to 13, the work of transplanting other plants on the same row to the outside after harvesting is done manually, but in the case shown in Figure 4, transplanting is done automatically. It is possible to perform the work.

即ち1円形板2に放射状スリット17を設け、かつ、養
水槽!より案内16を移植作業を行なう作業場所付近に
設け、収穫株口を収穫した後に円形板2を回転させると
定植コマUが案内16に接しているのでスリット17の
内を外周方向に自動的に移動し次の定位置に移植させる
ことができる。なお円形板2にスリブト17を設けるた
めに光線が養水や作物の根に当り養水を劣化させ作物の
生長に悪影響するので、この場合には、遮光板上を総て
のスリブトに設ける。この塵光板巧は収穫作業が始まる
前に外し移植や幼苗株の定植が終り次第再度設置するも
のとする。
That is, a radial slit 17 is provided in one circular plate 2, and a water tank! Therefore, the guide 16 is installed near the work place where the transplanting work is performed, and when the circular plate 2 is rotated after harvesting the harvested stock opening, the planting piece U is in contact with the guide 16, so that the inside of the slit 17 is automatically moved in the outer circumferential direction. It can be moved and transplanted to the next permanent location. Since the slits 17 are provided on the circular plate 2, the light rays hit the nutrient water and the roots of the crops, deteriorating the nutrient water and adversely affecting the growth of the crops, so in this case, all the slibs are provided with light shielding plates. This dust board shall be removed before harvesting begins and reinstalled once transplanting and planting of young seedlings are completed.

なお、第1図から第4図までに示す実施例はいずれも床
面に直に栽培装置を設けたものであるが、男5図に示す
如く第1図から第4図に示す栽培装置を積重ね多層にす
ることにより、太陽光を利用せずに人工光のみで作物を
栽培する場合には栽培が可能である。
In addition, in all the embodiments shown in FIGS. 1 to 4, the cultivation device is installed directly on the floor, but as shown in FIG. 5, the cultivation device shown in FIGS. By stacking them in multiple layers, it is possible to grow crops using only artificial light without using sunlight.

更に、第1図から第4図に示す実施例では、栽培装置の
外径が大!くなった場合、内周に植込む幼苗の間隔は少
なくても収穫する場所での株間隔は外径が大きくなる程
広くなり、作物が必要とする株間隔より広くなってしま
い必ずしも密植性は良くない。従って、!6図に示す如
(円形栽培装置を、栽培する作物の幼苗と収穫時に必要
とする株間隔になるように同心円状に区切り、おのおの
の区域の密植性が最大になるように作物を植込み栽培す
る。
Furthermore, in the embodiments shown in Figures 1 to 4, the outer diameter of the cultivation device is large! In this case, even if the spacing between seedlings planted on the inner periphery is small, the spacing at the harvesting location becomes wider as the outer diameter increases, and the spacing between the seedlings becomes wider than that required by the crop, which does not necessarily result in dense planting. not good. Therefore,! As shown in Figure 6, the circular cultivation device is divided into concentric circles so that the spacing between the seedlings of the crops to be cultivated and the plants required for harvesting is maintained, and the crops are planted and cultivated so that the density of planting in each area is maximized. .

本実施例によれば、作物の生長に応じ株間隔を二次元に
拡大し移動栽培が可能となり、光の照射が均一になり同
じ品質の作物が収穫できる。また、収穫や植込作業が1
箇所でできるため省力化ができ、栽培装置全周辺での作
業が無くなるので栽培装置と建屋との間隔を狭くするこ
とができ、建屋が小形になるので建設費を低減し、内部
の空調負荷を少なくできる。また1人工照明の場合は建
屋内装の反射効率を向上し省エネルギが可能となり栽培
コストの低減に多鴨の効果がある。
According to this embodiment, it is possible to expand the spacing between plants two-dimensionally according to the growth of the crop, allowing for moving cultivation, and uniform light irradiation makes it possible to harvest crops of the same quality. In addition, harvesting and planting work is
It can be done locally, which saves labor, and since there is no need to work around the entire area of the cultivation equipment, the distance between the cultivation equipment and the building can be narrowed, and the building is smaller, reducing construction costs and reducing the internal air conditioning load. You can do less. In addition, in the case of one artificial light, the reflection efficiency of the interior of the building is improved, making it possible to save energy and reduce cultivation costs.

また、二重、三重に栽培装置を重ねることで床面積当り
の収穫量をさらに向上することが可能である。
Furthermore, by stacking cultivation devices in double or triple layers, it is possible to further improve the yield per floor area.

さらに、栽培装置の外径が大きくなった場合は同心円状
に区切り、おのおのの区域で幼苗の植込み2作物の収穫
ができるようにすることにより作物の密植性を向上し栽
培コストを大巾に低減することが可能となる。
Furthermore, if the outside diameter of the cultivation device becomes large, it can be partitioned into concentric circles, allowing seedlings to be planted and two crops harvested in each area, thereby improving the ability to densely plant crops and significantly reducing cultivation costs. It becomes possible to do so.

〔発明の効果〕〔Effect of the invention〕

本発明によれば、#a扉の内外周辺の11所で苗の植込
みおよび生長した作物の収穫ができるので省力化が図れ
ると共に、建屡の床面積の低減により省エネルギ化と装
置価格を低減できる等の効果がある。
According to the present invention, seedlings can be planted and grown crops can be harvested at 11 locations around the outside and outside of the #a door, resulting in labor savings, and the reduction in construction floor space saves energy and reduces equipment costs. There are effects such as being able to do it.

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

第1図は本発明の一実施例の円形移動水耕栽培装置の平
面図、12図は第1図のI−1線断面図、第3図は栽培
装置に植込む作物の各棟の外形図、第4図は栽培作物の
生長に応じ移植する作業を自動化した場合の一実施例の
部分平面図、第5図は本発明の他の実施例の部分断面図
、第6図はさらに本発明の他の実施例の部分平面図であ
る。 1・・・・・・養水槽、2・・・・・・円形板、4・・
・・・・定植穴、6・・・・・・建屋、7・・・・・・
作業場所、IO・・・・・・培床、11・・・定植コマ
、工3・・・・・・収穫株、14・・・・・・幼苗株、
巧・・・・・・遮光板、16・・・・・・案内、17・
・・・・・スリブト、19・・・・・・照明灯
Fig. 1 is a plan view of a circular mobile hydroponic cultivation device according to an embodiment of the present invention, Fig. 12 is a sectional view taken along line I-1 in Fig. 1, and Fig. 3 is an outline of each ridge of crops to be planted in the cultivation device. 4 is a partial plan view of one embodiment of automating the work of transplanting cultivated crops according to their growth, FIG. 5 is a partial sectional view of another embodiment of the present invention, and FIG. FIG. 6 is a partial plan view of another embodiment of the invention. 1... Water tank, 2... Circular board, 4...
...Planting hole, 6...Building, 7...
Work place, IO... Cultivation bed, 11... Planting frame, Work 3... Harvest stock, 14... Seedling stock,
Takumi...shading plate, 16...guidance, 17.
・・・Thrivt, 19・・・Lighting light

Claims (1)

【特許請求の範囲】 1、作物の株間隔を生長に応じて拡げながら移動栽培す
る円形移動水耕栽培装置において、 苗の定植が装置の中心部の一定点、および、株の収穫が
装置の外周の一定点で行うように構成したことを特徴と
する水耕栽培装置。 2、水耕栽培装置を積層することにより占有面積を減少
させ、床面積当りの生産性を向上させるように構成した
ことを特徴とする請求項第1項記載の円形移動水耕栽培
装置。 3、苗の定植板を同心円状に区切り、おのおのの区域に
作物を植込む株間隔を別々に変化させ、密植性を向上さ
せるように構成したことを特徴とする請求項第1項、又
は請求項第2項記載の円形移動水耕栽培装置。 4、作物の株間隔を生長に応じて拡げながら移動栽培す
る円形移動水耕栽培装置において、 円形の栽培養水槽の上に回転可能な円形の作物植付板を
設け、この植付板に放射状に外側に行くにつれて株間隔
が広くなる植込穴を設け、内周辺の1箇所で苗の植込み
および外周辺の1箇所で生長した作物の収穫が行なえる
ように構成したことを特徴とする円形移動水耕栽培装置
[Scope of Claims] 1. In a circular mobile hydroponic cultivation device that moves and cultivates crops while expanding the spacing between plants according to growth, seedlings are planted at a fixed point in the center of the device, and plants are harvested at a fixed point in the center of the device. A hydroponic cultivation device characterized by being configured to perform cultivation at a fixed point on the outer periphery. 2. The circular mobile hydroponic cultivation device according to claim 1, wherein the hydroponic cultivation device is stacked to reduce the occupied area and improve productivity per floor area. 3. Claim 1 or claim 3, characterized in that the planting board for seedlings is divided into concentric circles, and the spacing between plants in each area is changed separately to improve dense planting. The circular mobile hydroponic cultivation device according to item 2. 4. In a circular mobile hydroponic cultivation device that moves and cultivates crops while expanding the spacing between plants according to their growth, a rotatable circular crop planting board is installed above the circular cultivation water tank, and a radial pattern is placed on this planting board. A circular shape characterized by having planting holes in which the spacing between plants becomes wider toward the outside, so that seedlings can be planted at one location on the inner periphery and grown crops can be harvested at one location on the outer periphery. Mobile hydroponic cultivation equipment.
JP1100054A 1989-04-21 1989-04-21 Circular mobile cultivation apparatus for water culture Pending JPH02283221A (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
JP1100054A JPH02283221A (en) 1989-04-21 1989-04-21 Circular mobile cultivation apparatus for water culture

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
JP1100054A JPH02283221A (en) 1989-04-21 1989-04-21 Circular mobile cultivation apparatus for water culture

Publications (1)

Publication Number Publication Date
JPH02283221A true JPH02283221A (en) 1990-11-20

Family

ID=14263773

Family Applications (1)

Application Number Title Priority Date Filing Date
JP1100054A Pending JPH02283221A (en) 1989-04-21 1989-04-21 Circular mobile cultivation apparatus for water culture

Country Status (1)

Country Link
JP (1) JPH02283221A (en)

Cited By (2)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US7401437B2 (en) * 2003-03-10 2008-07-22 Gilles Dumont Rotary plant growing apparatus
CN108142347A (en) * 2017-12-30 2018-06-12 宁波金帽子自动化科技有限公司 A kind of ecological cultivation system

Cited By (2)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US7401437B2 (en) * 2003-03-10 2008-07-22 Gilles Dumont Rotary plant growing apparatus
CN108142347A (en) * 2017-12-30 2018-06-12 宁波金帽子自动化科技有限公司 A kind of ecological cultivation system

Similar Documents

Publication Publication Date Title
CN209861758U (en) Nursery culture device
CN209897902U (en) A sprout growth integration hydroponic device for plant coercion is handled
JPH02283221A (en) Circular mobile cultivation apparatus for water culture
CN218831470U (en) Farming breeding device
CN216906079U (en) Indoor intelligent rotary green plant cultivation planter
CN216701232U (en) Chinese cabbage hydroponic device
CN212852101U (en) Indoor planting device
JP2001078576A (en) Cultivation apparatus
CN114176000B (en) Liftable intelligent pear seedling culture rack with ear blocks
CN220528906U (en) Planting frame for crop planting
CN114830943B (en) Pasture breeding frame convenient to transplant
JPS6349025A (en) Multistage moving rotary culture apparatus
WO1997030579A1 (en) Plant cultivation method and installation
CN218587593U (en) Rice seed germination accelerating incubator
CN215872820U (en) Planting device for garden seedling culture
CN220173918U (en) Three-dimensional breeding device of growing seedlings
CN215683611U (en) Layered nursery stock cultivation pot
JPS6291129A (en) Hydroponic apparatus
CN211861271U (en) Novel farming frame
JPS6098920A (en) Plant culture bed floating on water
CN217284189U (en) Cave dish convenient to alfalfa seeding is thinned between seedlings
CN114223428B (en) Solanaceae crops stereoscopic planting culture apparatus for teenager science popularization
CN211861382U (en) Water planting seedling culture hole tray
CN209931146U (en) Seedling raising cup
CN219762007U (en) Cultivation mechanism for horticultural crops