JPS6022883B2 - Light source irradiation method for electric cultivation - Google Patents
Light source irradiation method for electric cultivationInfo
- Publication number
- JPS6022883B2 JPS6022883B2 JP16384281A JP16384281A JPS6022883B2 JP S6022883 B2 JPS6022883 B2 JP S6022883B2 JP 16384281 A JP16384281 A JP 16384281A JP 16384281 A JP16384281 A JP 16384281A JP S6022883 B2 JPS6022883 B2 JP S6022883B2
- Authority
- JP
- Japan
- Prior art keywords
- light source
- motor
- guide rail
- source device
- power
- 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.)
- Expired
Links
Landscapes
- Cultivation Of Plants (AREA)
Description
【発明の詳細な説明】
本発明は温室内の作物を電照により抑制又は促成させて
適期収穫を図るよにした霧照栽培に係り、特に霞照用光
源の照射方法に関するものである近時、ビニールハウス
等の温室で短日植物例えば秋菊を白熱電灯による電照用
光源により一定時間照射して花芽分化を抑制し、開花期
を遅らせて出荷に適した時期に収穫(以下適期収穫とい
う)するいわゆる電照栽培が盛んに行なわれるようにな
ってきた。DETAILED DESCRIPTION OF THE INVENTION The present invention relates to mist cultivation in which crops in a greenhouse are suppressed or stimulated by electric light to ensure proper harvesting, and in particular relates to a method of irradiating with a light source for mist. In greenhouses such as plastic greenhouses, short-day plants such as autumn chrysanthemums are irradiated with an electric light source using incandescent lights for a certain period of time to suppress flower bud differentiation, delay the flowering period, and harvest at a time suitable for shipping (hereinafter referred to as "appropriate harvesting"). ) So-called electric cultivation has become popular.
これは、例えば第1図に示すように、ビニールハウス等
の温室1 01内に100Wの白熱電灯102を約10
府に1個程度の割合で吊下げて、8月下旬頃から毎日深
夜2時間程度点灯して、1灯当り20ルックス程度の照
度で秋菊103に照射して日長時間を40日間程度補な
い、花芽分化を抑制して年末の出荷時期に合せて開花さ
せる栽培方法である。この場合における光源照射方法は
、上述のように温室内に100Wの白熱電灯を数多く吊
下げてこれを一定時間(例えば2時間程度)点灯して照
射する方法を採用しているため、1戸当り500〜10
00平の規模で栽培している農家では軍照栽培のために
100Wの白熱電灯を150〜30q固設置しなければ
ならず、大口電灯契約としての容量も15〜30KWと
なって割高な契約をしなければならないという問題を有
している。しかも電灯の灯数が150〜30功固と多数
となるため、電灯の断芯チェック(いわゆる球切れチェ
ック)に多くの手間を要するという欠点を生じ、断芯し
た電灯を見すごすと、断芯した電灯により照射される範
囲の秋菊は花芽分化を十分に抑制することができず適期
をまたずに開花するという問題が生ずる。又、1戸当り
の規模が500〜1000平の農家が数多く集中してい
る地域にあっては「特定時間だけ電力のピークが生じ「
これがため、電解栽培用としてのピーク変電所を設置
しなければならないという電力供聯合側にとっても大き
な問題を有している。本発明は上述した点にかんがみて
なされたもので、その目的とするところは、農家にとっ
ては電灯の契約容量を大中に減少させ、電力供給側にと
っては電力のピークを回避することのできる合理的な方
法を提供することにある。本発明の実施例を第2図及び
第3図によって説明する。For example, as shown in FIG.
They are hung at a rate of about one in each city, and are turned on for about two hours every night from around late August, illuminating Autumn Chrysanthemum 103 with an illuminance of about 20 lux per light to compensate for the daylength for about 40 days. This is a cultivation method that suppresses flower bud differentiation and allows the flowers to bloom in time for shipping at the end of the year. In this case, the light source irradiation method is to hang a number of 100W incandescent lights inside the greenhouse and turn them on for a certain period of time (for example, about 2 hours) to irradiate the greenhouse, as described above. 500-10
Farmers who are cultivating on a scale of 10,000 yen have to install 150 to 30 q of 100 W incandescent lights for military cultivation, and the capacity for large-scale lighting contracts is 15 to 30 KW, making them expensive contracts. I have a problem that I have to do it. Moreover, since the number of electric lights is large (150 to 30), there is a disadvantage that it takes a lot of effort to check for broken lamps (so-called bulb breakage checks), and if you ignore a broken electric light, The problem arises that autumn chrysanthemums in the area irradiated by the electric light cannot sufficiently suppress flower bud differentiation and bloom before the appropriate period. Additionally, in areas where there are a large number of farms with a size of 500 to 1,000 square meters per household, there is a possibility that ``power peaks may occur only at specific times.''
This poses a big problem for the power supply union, which has to install a peak substation for electrolytic cultivation. The present invention has been made in view of the above-mentioned points, and its purpose is to dramatically reduce the contracted capacity of electric lights for farmers, and to avoid power peaks for power suppliers. The aim is to provide a method that An embodiment of the present invention will be described with reference to FIGS. 2 and 3.
1はトンネル状に枠組してビニールを張ったいわゆるビ
ニールハウスと呼ばれる温室である。この温室1の広さ
は一般に160枕程度のものが多く用いられている。2
は金属パイプからなるガイド用レールで「温室1内の上
部に該温室1の奥行方向(長手方向)に延して架設され
ている。1 is a so-called greenhouse, which is constructed in the form of a tunnel and covered with vinyl. Generally, the greenhouse 1 has a size of about 160 pillows. 2
is a guide rail made of a metal pipe and is installed at the upper part of the greenhouse 1 so as to extend in the depth direction (longitudinal direction) of the greenhouse 1.
3は通称カーテンレールと呼ばれて滑り子3aを複数個
槽動自在に備えたレールで、上記ガイド用レール2の下
側にカラー4を介してネジ等により一定の間隔をへだて
て取付けてガイド用レール2と並行して設けられている
。Reference numeral 3 denotes a rail commonly called a curtain rail, which is equipped with a plurality of sliders 3a that can be moved freely, and is attached to the lower side of the guide rail 2 via a collar 4 with a screw or the like at a fixed interval to guide the guide. It is provided in parallel with the rail 2 for use.
5は帯板状の支持金具で「温室1の天井部の枠に間隔を
おいて複数個取付けて華設しこの垂設端部をL字状に折
曲げて上記ガイド用レール2としール3の間に介挿しカ
ラー4と共に一体に装着して、ガイド用レール2としー
ル3を吊下支持するようになっている。Reference numeral 5 designates strip-shaped supporting metal fittings, which are installed in multiple pieces at intervals on the frame of the ceiling of the greenhouse 1, then bent into an L-shape at the hanging end and used as the guide rail 2. 3, the guide rail 2 and the rule 3 are suspended and supported together with a collar 4.
6はガイド用レール2に沿って走行する電照用の光源装
置であり、これについて説明する。Reference numeral 6 denotes a light source device for illumination that runs along the guide rail 2, and will be described below.
7は板状の支持板で、その上端部は逆U字状に折曲げこ
の折曲片間に上記ガイド用レ−ル2と同じ半円状の溝を
周設したプーリー8をその支軸8aを貫通させた軸受9
を回転自在に支承させ、このプーリ−8の支軸8aの一
端にチェン車10を装着し、このチェン車10と共動し
てプーリ−8が回転するようになっている。Reference numeral 7 designates a plate-shaped support plate, the upper end of which is bent into an inverted U shape, and a pulley 8, which has a semicircular groove similar to the guide rail 2 above, is attached to the support shaft between the bent pieces. Bearing 9 penetrated through 8a
A chain wheel 10 is attached to one end of a support shaft 8a of this pulley 8, and the pulley 8 rotates in cooperation with this chain wheel 10.
又、この支持板7の下端部にはモータ取付板11を横設
してこれに可逆用モ−夕12を秦載して取付け、このモ
ーター2の回転軸12aを上記支軸8aに装着したチェ
ン車10と同方向に突出させ、この突出端にチェン車1
3を装着し、このチヱン車13と10にチェン14を巻
掛けて、モータ12の回転軸12aとプーリー8とを駆
動連結させている。15は電気絶縁材からなる帯板状の
光源支持板で、長手方向をガイド用レール2と直交する
方向に配置し、その中央部に上記モータ取付板11から
華設した吊りポルト16にナット16aにより装着され
て吊下支持され、両端部の下面にはソケット17を取付
けこれに白熱電灯からなる電照用光源18が着脱可能に
装着されておる。Further, a motor mounting plate 11 is provided horizontally at the lower end of this support plate 7, and a reversible motor 12 is mounted and mounted on this, and the rotating shaft 12a of this motor 2 is mounted on the above-mentioned support shaft 8a. The chain wheel 1 is made to protrude in the same direction as the chain wheel 10, and the chain wheel 1 is attached to this protruding end.
3 is attached, and a chain 14 is wound around the chain wheels 13 and 10 to drive and connect the rotating shaft 12a of the motor 12 and the pulley 8. Reference numeral 15 denotes a light source support plate in the form of a strip made of electrically insulating material, the longitudinal direction of which is arranged perpendicular to the guide rail 2, and a nut 16a is attached to a hanging port 16 extending from the motor mounting plate 11 in the center thereof. A socket 17 is attached to the lower surface of both ends, and a light source 18 for illumination consisting of an incandescent lamp is detachably attached to the socket 17.
そして「上記モータ12と電照用光源18には温室1内
に設けた電源装置19に接続された電源コード2川こよ
り電源が供給されるようになっている。上記電源コード
20はしール3の滑り子3a,3a……に設けた吊輪に
は鶏着されて、光源装置6の移動に追従して伸長できる
ようになっている。又、上記支持板7の移動方向の両端
部にはマイクロスイッチ等からなるリミットスイッチ2
1,22をそれぞれ取付け、このリミットスイッチ21
,22と対応させてガイド用レール2の延長方向両端に
ストッパー23,24をそれぞれ設け、光源装置6が走
行してリミットスイッチ21(又は22)がストッパー
23(又は24)に衝接したとき接点を開いてモーター
2の回転を反転せしめるようになっている。又、上記支
持板7の上端部の逆U字状の折曲片間に半円状の溝を筒
設したプーリー25,26を上記プーリー8を介して第
2図において左右に半円状の溝がプーリー8の溝と直線
となるように配置して回転自在に取付け、ガイド用レー
ル2上にこれらプーリ−8,25,26の溝をはめて光
源装置6を懸架し、プーリー8をモータ12の起動によ
りチェン車13,10を介して回転させ、光源装置6を
ガイド用レール2に沿って走行(いわゆる自走)せしめ
るよになっている。27は秋菊などの作物である。Then, power is supplied to the motor 12 and the light source 18 from a power cord 2 connected to a power supply device 19 provided in the greenhouse 1. The suspension rings provided on the sliders 3a, 3a, . There is a limit switch 2 consisting of a micro switch etc.
1 and 22 respectively, and this limit switch 21
, 22 are provided at both ends of the guide rail 2 in the extending direction, and when the light source device 6 travels and the limit switch 21 (or 22) collides with the stopper 23 (or 24), a contact point is formed. When opened, the rotation of motor 2 is reversed. Further, pulleys 25 and 26 having semicircular grooves between the bent pieces of the inverted U shape at the upper end of the support plate 7 are inserted through the pulley 8 into semicircular grooves on the left and right sides in FIG. The grooves of the pulleys 8, 25, and 26 are arranged so that they are in a straight line with the grooves of the pulley 8, and are rotatably mounted. 12 is activated, it is rotated via chain wheels 13 and 10, and the light source device 6 is made to run along the guide rail 2 (so-called self-propelled). 27 is crops such as autumn chrysanthemums.
尚、上記電源装置19は入力端に図示しない交流電源(
例えばACIOOV)を接続し、2独特間タイマを備え
これを図示しない入力スイッチの投入により毎日所定時
刻(例えば21時)になると、タイマーの接点を閉路し
て図示しない電源用スイッチを投入させてモーター2を
起動せしめると共に電照用光源18を点灯させ、上記タ
イマが一定時間(例えば6時間、即ち翌日の3時)経過
すると開路するタイマの接点により電源スイッチをしや
断させてモータ12の駆動を停止させると共に電照用光
源18を消灯せしめるようになつている。次に作物27
に対する電照用光源の照射方法について説明する。Note that the power supply device 19 has an AC power source (not shown) at the input end.
For example, ACIOOV) is connected and equipped with a timer for two specific intervals.When a predetermined time (for example, 21:00) is reached every day by turning on an input switch (not shown), the contacts of the timer are closed and a power switch (not shown) is turned on. 2, the illumination light source 18 is turned on, and when the timer has elapsed for a certain period of time (for example, 6 hours, that is, 3 o'clock the next day), the power switch is turned off by the contact of the timer, which opens, and the motor 12 is driven. At the same time, the illumination light source 18 is turned off. Next crop 27
A method of irradiating a light source with an illumination light source will be explained.
尚、モーター2の回転は便宜上第2図において時計回り
を正回転、反時計回りを逆回転として説明することとす
る。今、電源装置19の図示しないタイマは21時にな
ると接点閉t3時になると接点関となるようにセットし
たとすると、図示しない入力スイッチの投入により21
時になると上記タイマの接点が閉路して図示しない電源
用スイッチを投入させ、光源装置6のモータ12が起動
すると共に露照用光源18が点灯する。起動したモー夕
12の回転がこのとき正回転であると、光源装置6は矢
印FI方向へガイド用レール2に沿って走行し、これに
より軍照用光源18も移動しながら作物27に例えば2
0ルックス程度で放射状に照射する。そして上記光源装
置6がガイド用レール2の一方の端部(FI方向の端部
)まで移動してリミットスイッチ22がストッパー24
に衝接すると接点が関路されてモータ12の回転が反転
する。このため、光源装置6は上述とは逆にガイド用レ
ール2に沿って矢印F2方向に走行し、亀照用光源18
により作物27に上述同様、放射状に移動照射する。こ
の光源装置6の往復動は電源装置19の図示しないタイ
マが所定の時刻(本例では3時)になってタイマ接点が
関路するまで継続して行なわれる。この移動照射をうけ
た作物はその光を感じて日長反応をおこし、作物27が
例えば秋菊にあっては花芽分化を抑制して開花期を遅ら
せる。この際、光源装置6の移動速度は、従来の吊上げ
固定した多数の光源による照度と照射時間に相当する移
動照射を令えば6時間の照射時間の間に行うように設定
すればよく、換言すれば、特定した作物に固定した光源
による照度と照射時間の積分値と、移動による光源の照
度と照射時間の積分値とが同時になるように設定すれば
し、。又、この電照用光源の移動速度は作物27の種類
、抑制あるいは、促成の露照の目的、光源の照度と照射
範囲及び作物27に対する照射時間等によって異なるの
でそれぞれに通した度を選定すればよい。例えば秋菊を
軍照により花芽分化を抑制する場合、温室内に100W
の白熱電灯13固を吊下げ固定した光源により照度を2
0ルックスその照射範囲を4肌、照射時間2時間として
行っているとすれば、100Wの白熱電灯2個を装着し
た光源装置で、照度20ルックス、照射範囲4肌、照射
時間6時間、移動速度を18m/分として移動照射して
も同等の日長反応を得て花芽分化を制御できたことが発
明者によって確認されておる。そして、上記移動照射に
より作物27に対する頚鮒方向も可変されて雷照用光源
18によって作物27のすみまで照射されて日長時間が
補われ、作物27の花芽分化の抑制が行なわれる。この
際「電源コード20は光源装置6の走行距離に充分な長
さを有していても、レール3の複数の滑り子3aに複数
個所それぞれ掛着されているので、作物27に電源コー
ド20をひっかけたりすることなく、光源装置6の移動
に追従して上記滑り子3aを移動方向に摺動ざせて電源
コード20を伸長する。尚、上記実施例にあって、ガイ
ド用レール2は温室1の奥行方向(長手方向)に直線状
に架設して光源装置6を直線状に往復せしめるように説
明したが、ガイド用レールをサークル状等のいわゆるエ
ンドレス状に架設してこのガイド用レールに沿って光源
装置を一定時間走行させ、竜照用光源により移動照射す
るにしたものであっても適用できることは伝うまでもな
い。For convenience, the rotation of the motor 2 will be described with clockwise rotation as normal rotation and counterclockwise rotation as reverse rotation in FIG. 2. Assuming that the timer (not shown) of the power supply device 19 is set so that the contacts close at 21:00 and the contacts close at t3, when the input switch (not shown) is turned on,
When the time comes, the contacts of the timer are closed, a power switch (not shown) is turned on, the motor 12 of the light source device 6 is activated, and the exposure light source 18 is turned on. If the rotation of the activated motor 12 is positive rotation at this time, the light source device 6 travels along the guide rail 2 in the direction of the arrow FI, and as a result, the light source 18 for military illumination also moves and illuminates the crops 27 with, for example, 2
Irradiates radially at approximately 0 lux. Then, the light source device 6 moves to one end (the end in the FI direction) of the guide rail 2, and the limit switch 22 moves to the stopper 24.
When it collides with , the contacts are closed and the rotation of the motor 12 is reversed. Therefore, contrary to the above, the light source device 6 travels along the guide rail 2 in the direction of arrow F2, and the light source 18 for illumination
The crop 27 is irradiated in a radial manner in the same manner as described above. This reciprocating movement of the light source device 6 continues until a timer (not shown) of the power supply device 19 reaches a predetermined time (3 o'clock in this example) and the timer contact closes. Crops that have received this moving irradiation sense the light and cause a photoperiod response, and if the crop 27 is, for example, an autumn chrysanthemum, flower bud differentiation is suppressed and the flowering period is delayed. At this time, the moving speed of the light source device 6 may be set so that moving irradiation equivalent to the illumination intensity and irradiation time of a large number of conventional suspended and fixed light sources is performed during the irradiation time of 6 hours. For example, it is possible to set the integral value of the illumination intensity and irradiation time of a fixed light source on the specified crop so that the integral value of the illuminance and irradiation time of a moving light source is the same. Furthermore, the moving speed of this electric light source varies depending on the type of crop 27, the purpose of exposure for suppression or promotion, the illuminance and irradiation range of the light source, the irradiation time for the crop 27, etc., so select the degree of illumination for each. Bye. For example, when suppressing flower bud differentiation of autumn chrysanthemums by military lighting, 100W is applied in the greenhouse.
The illuminance was set to 2 by a light source with 13 fixed incandescent lamps suspended.
0 Lux If the irradiation range is 4 skins and the irradiation time is 2 hours, a light source equipped with two 100W incandescent lamps will have an illuminance of 20 lux, an irradiation area of 4 skins, an irradiation time of 6 hours, and a moving speed. The inventor has confirmed that even when moving irradiation is performed at a speed of 18 m/min, the same photoperiod response can be obtained and flower bud differentiation can be controlled. The moving irradiation also changes the direction of the neck toward the crop 27, and the lightning light source 18 irradiates every corner of the crop 27 to compensate for the day length and suppress flower bud differentiation of the crop 27. At this time, even if the power cord 20 has a sufficient length for the traveling distance of the light source device 6, the power cord 20 is hooked onto the plurality of sliders 3a of the rail 3 at multiple points, so the power cord 20 is attached to the crops 27. The power cord 20 is extended by sliding the slider 3a in the moving direction following the movement of the light source device 6 without catching the light source device 6.In the above embodiment, the guide rail 2 is 1 is installed in a straight line in the depth direction (longitudinal direction) and the light source device 6 is moved back and forth in a straight line. Needless to say, it is also applicable to a device in which the light source device is run along the same line for a certain period of time and the light source for long lighting is used for moving illumination.
本発明によれば、1個ないし2個の電灯からなる蚤照用
光源を作物に移動しながら放射状に照射するようにして
あるから、従来のように多数の光源を吊下げ固定して照
射するものに比して、照射方向が可変され作物のすみず
みまで照射することができ、これにより作物に対する照
度の均一化を図って作物に生ずる日長反応の均一化を図
り、適期収穫の成果を一段と向上せしめることができる
。According to the present invention, the light source for flea illumination consisting of one or two electric lamps irradiates the crops in a radial manner while moving them, so unlike the conventional method, a large number of light sources are hung and fixed for illumination. Compared to conventional products, the irradiation direction can be varied and irradiated to every corner of the crop.This makes it possible to uniformize the illuminance to the crops, and even out the photoperiod response that occurs in the crops, thereby increasing the results of harvesting at the right time. It can be improved further.
又「光源の灯数が大中に減少するので、電灯の断芯チェ
ックも簡単に行うことができ、メンテナンスの面からも
手間を省くことができ、断芯した電灯により適期をまた
ずに開花する等の問題も解決して適期収穫の実をあげる
ことができる。しかも灯数の大中な減少により、電灯契
約も一段と安価にすることができ、亀照裁培のコストを
軽減して合理化を図ることができる。又、移動照射の方
法も光源装置は自走する構造を採用しているので、ガイ
ド用レールを作物の照射に通した形状に架設してこのガ
イド用レールに沿って蚕照用光源を移動せしめることが
できる。しかも、光源装置は目走する構造であっても、
電源コードは、ガイド用レールと並設したレールに摺動
自在に具備させた滑り子に複数個所をそれぞれ鎖着させ
て支持され、光源装置の移動に追従して伸長するように
なっているので、移動照射は阻害することなく、作物を
傷つけることなく、円滑に行うことができる。又、電照
用光源は支持板の下部に下方に向って放射状に照射する
ように吊下支持する構造であるので、作物に照射するた
めの反射笠や反射板等の部材も不要となって装置を簡略
化し安価に製することができる。更に、少ない灯数の亀
照用光源で、従来より長い時間移動照射するようにして
あるから、露照裁培の農家が集中する地域であってもピ
ークシフトされて電力のピークを回避することができ、
従来のように、函照裁培のためのピーク変電所を設ける
必要もなくなり、電力供給側にとっても省力化、合理化
を図ることができるという著しい効果を有するものであ
る。In addition, since the number of light sources is reduced during flowering, it is easier to check for broken lights, which saves time and effort in terms of maintenance. It is possible to solve the problems such as overheating and produce fruits at the right time.Furthermore, because the number of lights is significantly reduced, electric lighting contracts can be made even cheaper, reducing and rationalizing the cost of cultivating turtles. In addition, as for the method of moving irradiation, the light source device has a self-propelled structure, so a guide rail is built in a shape that allows the crop to be irradiated, and the silkworms follow the guide rail. The illumination light source can be moved.Moreover, even if the light source device has a structure that moves around,
The power cord is supported by being chained at multiple points to sliders that are slidably provided on a rail installed in parallel with the guide rail, and is designed to extend as the light source device moves. , moving irradiation can be carried out smoothly without disturbing or damaging the crops. In addition, since the electric light source is suspended from the bottom of the support plate so as to radiate the light downward, there is no need for components such as reflective shades or reflectors to illuminate the crops. The device can be simplified and manufactured at low cost. Furthermore, since the light source for illumination has a small number of lamps and is designed to irradiate for a longer period of time than before, peaks can be shifted and power peaks can be avoided even in areas where there are a large number of farmers cultivating by exposure. is possible,
Unlike in the past, there is no need to provide a peak substation for box-turning cultivation, and this has the remarkable effect of saving labor and streamlining power on the power supply side.
第1図は従来の方法を例示する斜射図、第2図は本発明
の実施例を示す側面断面図、第3図は第2図の光源装置
の構成を示す要部拡大図である。
1:温室、2:ガイド用レール、6:光源装置、7:支
持板、8:プーリー、12:モータ、18:電照用光源
、27:作物。
第1図
第2図
第3図FIG. 1 is a perspective view illustrating a conventional method, FIG. 2 is a side cross-sectional view illustrating an embodiment of the present invention, and FIG. 3 is an enlarged view of main parts showing the configuration of the light source device of FIG. 2. 1: Greenhouse, 2: Guide rail, 6: Light source device, 7: Support plate, 8: Pulley, 12: Motor, 18: Light source for electric lighting, 27: Crops. Figure 1 Figure 2 Figure 3
Claims (1)
の上部にプーリーを回動可能に支承させ、支持板の下部
にモータを装着すると共に電照用光源を下方に向つて照
射するよう吊下支持せしめ、上記モータの回転軸と上記
プーリーとを駆動連結させて成る光源装置を、上記プー
リーを介して懸架させ、上記光源装置のモータと電照用
光源に、24時間タイマを備えて給電する電源装置から
接続された電源コードを接続し、上記電源コードは上記
ガイド用レールと並設して複数の滑り子を摺動自在に備
えたレールの上記滑り子にそれぞれ掛着させて光源装置
の移動に追従して伸長可能とし、毎日所定時刻に上記モ
ータと電照用光源に給電して光源装置を一定時間ガイド
用レールに沿つて自走させ、作物に電照用光源を放射状
に移動照射することにより、作物の日長時間を補つて適
期収穫を図るようにした電照栽培における光源照射方法
。1 A pulley is rotatably supported on the upper part of the support plate on a guide rail installed at the upper part of the greenhouse, a motor is attached to the lower part of the support plate, and the light source is suspended so that it irradiates downward. A light source device, which is supported below and includes a rotating shaft of the motor and the pulley, is suspended via the pulley, and a 24-hour timer is provided to supply power to the motor of the light source device and the illumination light source. A power cord connected from a power supply device is connected to the light source device, and the power cord is hooked to each of the sliders of a rail that is arranged in parallel with the guide rail and is provided with a plurality of sliders so as to be freely slidable. power is supplied to the motor and the illumination light source at a predetermined time every day to make the light source device run by itself along the guide rail for a certain period of time, and the illumination light source is moved radially to the crops. A light source irradiation method for light cultivation in which irradiation compensates for the day length of crops and aims for timely harvest.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
JP16384281A JPS6022883B2 (en) | 1981-10-14 | 1981-10-14 | Light source irradiation method for electric cultivation |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
JP16384281A JPS6022883B2 (en) | 1981-10-14 | 1981-10-14 | Light source irradiation method for electric cultivation |
Publications (2)
Publication Number | Publication Date |
---|---|
JPS5863330A JPS5863330A (en) | 1983-04-15 |
JPS6022883B2 true JPS6022883B2 (en) | 1985-06-04 |
Family
ID=15781782
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
---|---|---|---|
JP16384281A Expired JPS6022883B2 (en) | 1981-10-14 | 1981-10-14 | Light source irradiation method for electric cultivation |
Country Status (1)
Country | Link |
---|---|
JP (1) | JPS6022883B2 (en) |
Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
JPS62245878A (en) * | 1986-04-11 | 1987-10-27 | ジ−メンス・アクチエンゲゼルシヤフト | Transmission penetration connector of color television signal |
Families Citing this family (9)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
FR2545320B1 (en) * | 1983-05-03 | 1985-10-04 | Rhone Poulenc Agrochimie | METHOD FOR IMPROVING THE GROWTH OF PLANTS BY INTERMITTENT ILLUMINATION |
JPS609422A (en) * | 1983-06-30 | 1985-01-18 | 森 敬 | Plant culture apparatus |
JPS6143947A (en) * | 1984-08-07 | 1986-03-03 | 森 敬 | Seedling lock apparatus |
JPH0789797B2 (en) * | 1989-03-29 | 1995-10-04 | 實 後藤 | Mobile irradiation device for growing plants |
WO2007105599A1 (en) * | 2006-03-08 | 2007-09-20 | Shikoku Research Institute Incorporated | Disease control method and disease control device |
JP2012182998A (en) * | 2011-03-03 | 2012-09-27 | Morihisa Engineering:Kk | Hydroponic system |
JPWO2013072990A1 (en) * | 2011-11-14 | 2015-04-02 | 森 一生 | Cultivation system and cultivation method |
WO2013072990A1 (en) * | 2011-11-14 | 2013-05-23 | Mori Kazuo | Cultivation system and cultivation method |
JP6991821B2 (en) * | 2017-10-10 | 2022-01-13 | 鋼鈑商事株式会社 | Plant luminaires and plant luminaires |
-
1981
- 1981-10-14 JP JP16384281A patent/JPS6022883B2/en not_active Expired
Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
JPS62245878A (en) * | 1986-04-11 | 1987-10-27 | ジ−メンス・アクチエンゲゼルシヤフト | Transmission penetration connector of color television signal |
Also Published As
Publication number | Publication date |
---|---|
JPS5863330A (en) | 1983-04-15 |
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