JPH0246681Y2 - - Google Patents
Info
- Publication number
- JPH0246681Y2 JPH0246681Y2 JP1986094445U JP9444586U JPH0246681Y2 JP H0246681 Y2 JPH0246681 Y2 JP H0246681Y2 JP 1986094445 U JP1986094445 U JP 1986094445U JP 9444586 U JP9444586 U JP 9444586U JP H0246681 Y2 JPH0246681 Y2 JP H0246681Y2
- Authority
- JP
- Japan
- Prior art keywords
- air
- exhaust
- liquid fertilizer
- cultivation
- air chamber
- 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
- XLYOFNOQVPJJNP-UHFFFAOYSA-N water Substances O XLYOFNOQVPJJNP-UHFFFAOYSA-N 0.000 claims description 8
- 239000007788 liquid Substances 0.000 description 65
- 239000003337 fertilizer Substances 0.000 description 48
- 210000003323 beak Anatomy 0.000 description 6
- QVGXLLKOCUKJST-UHFFFAOYSA-N atomic oxygen Chemical compound [O] QVGXLLKOCUKJST-UHFFFAOYSA-N 0.000 description 3
- 229910052760 oxygen Inorganic materials 0.000 description 3
- 239000001301 oxygen Substances 0.000 description 3
- 238000005276 aerator Methods 0.000 description 1
- XAGFODPZIPBFFR-UHFFFAOYSA-N aluminium Chemical compound [Al] XAGFODPZIPBFFR-UHFFFAOYSA-N 0.000 description 1
- 229910052782 aluminium Inorganic materials 0.000 description 1
- 238000010586 diagram Methods 0.000 description 1
- 230000000694 effects Effects 0.000 description 1
- 238000005516 engineering process Methods 0.000 description 1
- 235000012055 fruits and vegetables Nutrition 0.000 description 1
- 238000012423 maintenance Methods 0.000 description 1
- 239000000463 material Substances 0.000 description 1
- 238000000034 method Methods 0.000 description 1
- 230000003449 preventive effect Effects 0.000 description 1
- 230000000630 rising effect Effects 0.000 description 1
- 239000007787 solid Substances 0.000 description 1
- 125000000391 vinyl group Chemical group [H]C([*])=C([H])[H] 0.000 description 1
- 229920002554 vinyl polymer Polymers 0.000 description 1
Classifications
-
- Y02P60/216—
Landscapes
- Hydroponics (AREA)
Description
【考案の詳細な説明】
産業上の利用分野
本考案は、液肥を使用して植物を栽培する手段
において、栽培槽の中の液肥を空気圧によつて上
昇下降せしめ、その上昇によつて作物の根に液肥
を供給し、かつその下降によつて根を空気中に晒
して酸素を吸収せしめる養液栽培装置に関する。[Detailed description of the invention] Industrial application field The present invention is a means of cultivating plants using liquid fertilizer, in which the liquid fertilizer in the cultivation tank is raised and lowered by air pressure, and the rise causes the growth of crops. This invention relates to a hydroponic cultivation device that supplies liquid fertilizer to the roots and exposes the roots to the air by lowering the liquid fertilizer to absorb oxygen.
従来技術と問題点
養液栽培装置の一例として第5図示のような構
成の装置がある。Prior Art and Problems As an example of a hydroponic cultivation apparatus, there is an apparatus having a structure as shown in FIG.
この装置は、液肥供給循環手段を採用した装置
で、液肥タンクハから栽培槽イへ送液ポンプロに
よつて液肥を供給し、空気混入器ニで気泡を発生
せしめ(溶存酸素)、作物の根を液肥に浸漬する。
又、果菜類においては、作物の根を空気中に晒し
て酸素を吸収せしめるため、排水バルプホを手動
又は自動的に開いて栽培槽イ内の液肥を液肥タン
クハへ排出せしめ、栽培槽イ内の液肥を定期的に
液肥タンクハとの間に循環せしめるものである。 This device uses liquid fertilizer supply circulation means, which supplies liquid fertilizer from the liquid fertilizer tank C to the cultivation tank A using a liquid pump, and generates air bubbles (dissolved oxygen) in the aerator D to stimulate the roots of the crops. Soak in liquid fertilizer.
In addition, in the case of fruits and vegetables, in order to expose the roots of crops to the air and absorb oxygen, the drain valve is opened manually or automatically to discharge the liquid fertilizer in the cultivation tank A to the liquid fertilizer tank C. The liquid fertilizer is periodically circulated between the liquid fertilizer tank and the liquid fertilizer tank.
この養液栽培装置は、上記構成よりなるため、
栽培槽の面積、装置の規模に合せ、大型の液肥タ
ンクを地下に設置する必要があること、地下の液
肥タンクから液肥を栽培槽へ供給し、又逆に抜
く、或いは液肥を定期的に循環せしめるため、配
管などと共に付帯設備が大変であること、一基の
液肥タンクから複数個の栽培槽に液肥を供給した
り、或いは循環せしめるため、疫病がひとつの栽
培槽で発生すれば、それが全槽に拡がり、作物を
枯死せしめることなどの問題点を有する。 Since this hydroponic cultivation device has the above configuration,
Depending on the area of the cultivation tank and the scale of the equipment, it is necessary to install a large liquid fertilizer tank underground, supply liquid fertilizer from the underground liquid fertilizer tank to the cultivation tank and drain it back, or circulate the liquid fertilizer regularly. In order to prevent the spread of blight, it is difficult to install piping and other incidental equipment, and liquid fertilizer must be supplied or circulated from one liquid fertilizer tank to multiple cultivation tanks. It has problems such as spreading to all tanks and causing crops to wither.
本考案は、上記問題点に着目してなしたもの
で、栽培槽内の液肥を簡単な構成で上昇下降せし
めるようにして、地下に液肥タンクを設置する必
要をなくし、疫病対策については、複数個の栽培
槽を分離構成せしめて管理を容易ならしめた有益
な養液栽培装置の提案を目的とする。 The present invention was developed by focusing on the above-mentioned problems.The liquid fertilizer in the cultivation tank is raised and lowered with a simple structure, eliminating the need for installing an underground liquid fertilizer tank, and preventing multiple epidemics. The purpose of the present invention is to propose a useful hydroponic cultivation device in which individual cultivation tanks are configured separately to facilitate management.
問題点解決のための手段
本考案は、上記目的を達成するため、複数個の
栽培槽内の下方に、通水路を下側に形成した空気
室を夫々設け、該各空気室の一側壁下方に送気パ
イプを設け、かつ他側壁上方に可撓性の排気パイ
プを夫々設け、これら各排気パイプの排気口側部
位に空気の流入による浮力で浮上し、空気の流入
停止によつて自重で沈む排気筐を夫々設け、それ
ら各排気筐を各栽培槽内の底部に静置せしめたと
いう手段を提案する。Means for Solving Problems In order to achieve the above-mentioned object, the present invention provides air chambers each having a water passageway formed on the lower side in the lower part of a plurality of cultivation tanks. An air supply pipe is provided on the wall, and a flexible exhaust pipe is provided above the other side wall, and the air floats up due to the buoyancy caused by the inflow of air into the exhaust port side portion of each of these exhaust pipes, and when the inflow of air is stopped, it becomes free from its own weight. We propose a method in which sinking exhaust cabinets are provided and each of these exhaust cabinets is left stationary at the bottom of each cultivation tank.
作用効果
本考案は、上記手段からなるので、使用する時
は、まず栽培槽1内に定量の液肥を入れる(第1
図及び第3図でW1の線まで入れる)。そして、空
気室2の上面に固形培地に定植した作物C又は定
植用パネルに定植した作物(不図示)を配置す
る。次に第3図において空気室2内に送気パイプ
4から空気を送入すると、気泡となつて上昇し、
空気室2の上部から溜り始めるので、空気の送入
を続けると、送入空気量と同量の液肥が通水路3
から栽培槽1内へ流出し、空気室2内の液面が第
3図、第4図に示す下降限界(A線)まで空気で
押下げられると、栽培槽1内の液面が第3図、第
4図に示す上昇限界(W2線)迄上昇し、作物C
の根が液肥に浸漬される。次に、排気筐6は、第
3図示の位置(第4図示では仮想線の位置)に静
置されているが、空気室2内の液面が第4図示の
如く排気嘴9の配置部位より低い下降限界(A
線)の位置まで下降すると、空気室2内の空気圧
が液圧をうわまわつて空気が排気筐6内へ流入し
てくるため、その排気筐に浮力が与えられ、液肥
中に排気しながら栽培槽1内の液面W2へ浮上し、
空気送入が続いている間は浮上したまま排気を行
なう(排気筐は第3図実線位置から第4図実線位
置へと変位する)。液面W2まで浮上した排気筐6
は、空気の送入が停止され、空気室2内の空気が
なくなり、空気を排出しなくなると浮力を失い、
自重によつて沈み原位置へ戻る(排気筐は第4図
実線位置から第3図の実線位置へと復帰する)。
そして、栽培槽1内の液肥が通水路3から空気室
2内へ流入し、栽培槽1内の液肥が下降し、液面
がW1という通常の位置まで下降する。Effects Since the present invention consists of the above-mentioned means, when using it, first put a fixed amount of liquid fertilizer into the cultivation tank 1 (first
Insert up to the W 1 line in Figures and Figure 3). Then, on the upper surface of the air chamber 2, a crop C planted on a solid medium or a crop (not shown) planted on a planting panel is placed. Next, as shown in FIG. 3, when air is introduced into the air chamber 2 from the air supply pipe 4, it becomes bubbles and rises.
The liquid fertilizer starts to accumulate from the top of the air chamber 2, so if you continue to supply air, the same amount of liquid fertilizer as the amount of air supplied will flow into the water passage 3.
When the liquid level in the air chamber 2 is pushed down by air to the lowering limit (line A) shown in FIGS. 3 and 4, the liquid level in the cultivation tank 1 reaches the third level. It has risen to the rising limit (W 2 line) shown in Figure 4, and Crop C
The roots of are soaked in liquid fertilizer. Next, the exhaust casing 6 is placed stationary at the position shown in the third figure (the position indicated by the imaginary line in the fourth figure), but the liquid level in the air chamber 2 is at the position where the exhaust beak 9 is arranged as shown in the fourth figure. Lower descending limit (A
When the air pressure in the air chamber 2 exceeds the liquid pressure and the air flows into the exhaust housing 6, buoyancy is given to the exhaust housing, allowing the cultivation to be carried out while being exhausted into the liquid fertilizer. It rises to the liquid level W2 in tank 1,
While the air supply continues, exhaust is performed while floating (the exhaust casing is displaced from the solid line position in Figure 3 to the solid line position in Figure 4). Exhaust case 6 floated to liquid level W2
loses its buoyancy when the air supply is stopped, the air in the air chamber 2 disappears, and the air is no longer exhausted.
It sinks under its own weight and returns to its original position (the exhaust casing returns from the solid line position in Figure 4 to the solid line position in Figure 3).
Then, the liquid fertilizer in the cultivation tank 1 flows into the air chamber 2 from the water passage 3, the liquid fertilizer in the cultivation tank 1 descends, and the liquid level descends to the normal position W1 .
従つて、頗る簡単な構成で栽培槽内の液肥を上
昇下降せしめ得ることが可能になり、従来技術が
必要とした地下の液肥タンクが不要になるばかり
でなく、疫病対策として、液肥循環手段を排し、
複数個の各栽培槽を分離せしめた構成にすると共
に、各栽培槽ごとに定量液肥を入れたことによ
り、ひとつの栽培槽で疫病が発生しても、他の栽
培槽の作物へ伝染することを防止でき、維持管理
が容易になる。 Therefore, it is possible to raise and lower the liquid fertilizer in the cultivation tank with an extremely simple configuration, which not only eliminates the need for an underground liquid fertilizer tank required by the conventional technology, but also allows liquid fertilizer circulation means to be used as a preventive measure against epidemics. Exclude,
By configuring multiple cultivation tanks separately and adding a fixed amount of liquid fertilizer to each cultivation tank, even if late blight occurs in one cultivation tank, it will not spread to crops in other cultivation tanks. can be prevented and maintenance management becomes easier.
実施例
複数個の栽培槽1は、無蓋の箱体に構成し、内
部の下方に空気室2を設置する。空気室2は、栽
培槽1の底板上に無蓋の箱体を倒にして伏せ、固
定した構成のもので、栽培槽1の下方に構成す
る。空気室2は、無蓋箱体の周縁における複数個
所を逆U字形に切欠した形状に成形して複数個の
通水路3を予め構成し、一側壁下方に送気パイプ
4の吐出口側を予め固定し、かつ他側壁上方に排
気パイプ5の吸込口側を予め固定し、かくのよう
に構成してから栽培槽1の底板上に浮上しないよ
うに通水路側を下向にして固定する。空気室2の
寸法について言及すると、高さ寸法は栽培槽1の
高さ寸法の略1/2位として、作物Cの根が液肥に
浸漬しても液肥が栽培槽1から溢流しないように
し、平面寸法は栽培槽1よりも若干短寸にして、
液肥が栽培槽1内へ出入りできるようになし、形
状は栽培槽1と相似形に成形する。送気パイプ4
は、吐出口側を空気室2の一側壁下方に固定し、
吸込口側をエアーポンプ7に接続し、そのエアー
ポンプをタイマー8に電気的接続せしめ、エアー
ポンプ7の運転をタイマー8で自動制御して、空
気室2内への送気と送気停止とを自動的に行なう
ようにする。しかして、大型プラントにおいて
は、多量の空気を必要とする場合、エアーポンプ
に代えて高圧送風機を使用することが可能であ
り、僅かな圧力で液肥を上昇せしめ得る。排気パ
イプ5は、容易に撓曲し得る可撓性パイプ(たと
えば、ビニールパイプ)の吸込口側を空気室2の
他側壁上方に固定し、排気口側の部位に排気筐6
を設け、この排気筐を栽培槽1内の底板上に静置
せしめ、該栽培槽内の液肥の上昇下降に伴なつて
撓曲し、排気筐6を上下動する液面と共に変位せ
しめるようにする。排気筐6は、排気パイプ5よ
りも重い材質(たとえば、アルミニウム、その
他)で底部の一部に開口部が形成された筐体に構
成し、一側に排気パイプ5の排気口を固定して空
気の漏出を防ぎ、他側の上方に排気嘴9を突設す
る。排気筐6は、空気室2内の液肥が栽培槽1内
に流出されて、栽培槽1内の液肥が上昇したとき
に機能する強制排気用の部材である。Embodiment A plurality of cultivation tanks 1 are configured as open boxes, and an air chamber 2 is installed in the lower part of the inside. The air chamber 2 has a structure in which an open box is laid down and fixed on the bottom plate of the cultivation tank 1, and is configured below the cultivation tank 1. The air chamber 2 has a plurality of passageways 3 formed in advance by forming an inverted U-shaped notch at a plurality of places on the periphery of the open box body, and a discharge port side of the air supply pipe 4 is formed in advance at the lower part of one side wall. The suction port side of the exhaust pipe 5 is fixed in advance above the other side wall, and after being constructed in this manner, the cultivation tank 1 is fixed with the water passage side facing downward so as not to float above the bottom plate. Regarding the dimensions of the air chamber 2, the height is set to approximately 1/2 of the height of the cultivation tank 1, so that even if the roots of the crop C are immersed in the liquid fertilizer, the liquid fertilizer will not overflow from the cultivation tank 1. , the planar dimensions are slightly shorter than cultivation tank 1,
The liquid fertilizer is made to be able to go in and out of the cultivation tank 1, and the shape is formed to be similar to the cultivation tank 1. Air supply pipe 4
fixes the discharge port side below one side wall of the air chamber 2,
The suction port side is connected to the air pump 7, the air pump is electrically connected to the timer 8, and the operation of the air pump 7 is automatically controlled by the timer 8, and air is supplied into the air chamber 2 and air supply is stopped. to be performed automatically. Therefore, in large-scale plants that require a large amount of air, it is possible to use a high-pressure blower instead of an air pump, and the liquid fertilizer can be raised with a small amount of pressure. The exhaust pipe 5 is a flexible pipe (for example, a vinyl pipe) that can be easily bent, with the suction port side fixed above the other side wall of the air chamber 2, and an exhaust casing 6 attached to the part on the exhaust port side.
is provided, and this exhaust housing is placed stationary on the bottom plate in the cultivation tank 1, and is bent as the liquid fertilizer in the cultivation tank rises and falls, so that the exhaust housing 6 is displaced along with the liquid level moving up and down. do. The exhaust casing 6 is made of a material heavier than the exhaust pipe 5 (for example, aluminum, etc.) and has an opening formed in a part of the bottom, and the exhaust port of the exhaust pipe 5 is fixed to one side. To prevent air leakage, an exhaust beak 9 is provided to protrude above the other side. The exhaust housing 6 is a member for forced exhaust that functions when the liquid fertilizer in the air chamber 2 flows out into the cultivation tank 1 and the liquid fertilizer in the cultivation tank 1 rises.
排気筐6の作用を第3図、第4図で説明すれ
ば、第3図の低位置において、送気パイプ4から
空気室2内へ空気を送入すると、その送入空気は
液肥中を気泡となつて上昇し、空気室2内の上部
に溜り始めるが、排気パイプ5→排気筐6→排気
嘴9と流れて栽培槽1内の液肥中に流出しない。
栽培槽1内の液圧が空気室2内の空気圧より高い
ためである。空気の送入を続けると、送入空気量
と同量の液肥が空気室2から通水路3を通つて栽
培槽1内へ流出し始め、空気室2内の液肥が下降
し始めると同時に、栽培槽1内の液肥が上昇し始
める。送気の継続によつて、空気室2内の液肥が
下降し、液面が第4図示の排気嘴9よりも低位置
の下降限界A線まで空気で押下げられると(換言
すれば、空気室2内の空気がA線迄溜れば)、排
気嘴9にかかつていた栽培槽1内の液圧よりも、
空気室2内の空気圧が高くなり、その空気室内の
空気が排気パイプ5を経て排気筐6内に流入し始
める。排気筐6は、排気パイプ5よりも重いた
め、通常は栽培槽1の槽底に沈んでいるが、空気
が流入してくると浮力が与えられ、栽培槽1内の
液肥中に気泡を排出しながら液面W2迄浮上し、
第4図の実線位置になる。排気筐6による空気の
排出は、大部分が底部の開口部から下方に向つて
行なわれ、残りの僅少部分が排気嘴9から排出さ
れる。液面W2まで上昇した排気筐6は、送気パ
イプ4から空気が送入されている間は、液面W2
にあつて浮上しながら排気を続けているが、タイ
マー8によつて送気が停止され、空気室2内の空
気がなくなり、排気筐6から空気が排出されなく
なると、その排気筐は浮力を失ない、自重によつ
て槽底へ沈み第3図示の原位置へ戻る。そして、
栽培槽1内の液肥は、通水路3から空気室2内へ
流入し、栽培槽1内の液肥が下降し、液面がW1
という通常の位置まで下降する。 To explain the function of the exhaust casing 6 with reference to FIGS. 3 and 4, when air is introduced into the air chamber 2 from the air supply pipe 4 at the low position shown in FIG. The air bubbles rise and begin to accumulate in the upper part of the air chamber 2, but they flow from the exhaust pipe 5 to the exhaust housing 6 to the exhaust beak 9 and do not flow into the liquid fertilizer in the cultivation tank 1.
This is because the liquid pressure in the cultivation tank 1 is higher than the air pressure in the air chamber 2. When air continues to be supplied, liquid fertilizer in an amount equal to the amount of supplied air begins to flow from the air chamber 2 through the water passage 3 into the cultivation tank 1, and at the same time, the liquid fertilizer in the air chamber 2 begins to descend. The liquid fertilizer in the cultivation tank 1 begins to rise. As the air supply continues, the liquid fertilizer in the air chamber 2 descends, and when the liquid level is pushed down by the air to the descending limit line A, which is lower than the exhaust beak 9 shown in Figure 4 (in other words, If the air in the chamber 2 accumulates up to line A), the pressure of the liquid in the cultivation tank 1, which was in the exhaust beak 9,
The air pressure in the air chamber 2 increases, and the air in the air chamber begins to flow into the exhaust casing 6 through the exhaust pipe 5. Since the exhaust housing 6 is heavier than the exhaust pipe 5, it normally sinks to the bottom of the cultivation tank 1, but when air flows in, it becomes buoyant and discharges air bubbles into the liquid fertilizer in the cultivation tank 1. while floating up to the liquid level W 2 ,
The position is the solid line in Figure 4. Most of the air is exhausted by the exhaust housing 6 downward from the opening at the bottom, and the remaining small portion is exhausted from the exhaust beak 9. The exhaust casing 6, which has risen to the liquid level W2 , remains at the liquid level W2 while air is being supplied from the air supply pipe 4.
However, when the air supply is stopped by the timer 8, the air in the air chamber 2 disappears, and the air is no longer exhausted from the exhaust housing 6, the exhaust housing loses its buoyancy. It sinks to the bottom of the tank due to its own weight and returns to its original position as shown in Figure 3. and,
The liquid fertilizer in the cultivation tank 1 flows into the air chamber 2 from the water passage 3, and the liquid fertilizer in the cultivation tank 1 descends until the liquid level reaches W 1
descend to its normal position.
以上のように本考案装置は、空気室2へ空気を
送入し、その空気圧を利用して、空気室2内に流
通している栽培槽1内の液肥を押上げ、これと同
時に空気室2に取付けた排気パイプ5に排気筐6
を設け、栽培槽1内の液圧と、空気室2内の空気
圧との差を利用して強制排気を行ない、栽培槽1
内の液肥を下げるというシステムに構成したもの
であるが、上記実施例において、空気室2の空気
を自動排出するために、電磁バルブ、その他の自
動開閉弁などを排気パイプ5の適所に具備せしめ
て強制排気を行なうように構成してもよい。 As described above, the device of the present invention sends air into the air chamber 2, uses the air pressure to push up the liquid fertilizer in the cultivation tank 1 flowing into the air chamber 2, and at the same time Exhaust pipe 5 attached to exhaust housing 6
is installed, and the difference between the liquid pressure in cultivation tank 1 and the air pressure in air chamber 2 is used to perform forced exhaust,
In the above embodiment, in order to automatically discharge the air from the air chamber 2, a solenoid valve or other automatic opening/closing valve is provided at an appropriate position on the exhaust pipe 5. It may also be configured to perform forced exhaust.
第1図は本考案栽培装置の一部縦断正面図、第
2図はその平面図で一部横断して表わす。第3図
及び第4図は作用の説明図、第5図は従来技術の
概略正面図である。
図中、1……栽培槽、2……空気室、3……通
水路、4……送気パイプ、5……排気パイプ、6
……排気筐。
FIG. 1 is a partially longitudinal front view of the cultivation device of the present invention, and FIG. 2 is a partially cross-sectional plan view thereof. 3 and 4 are explanatory diagrams of the operation, and FIG. 5 is a schematic front view of the prior art. In the figure, 1... Cultivation tank, 2... Air chamber, 3... Water passage, 4... Air supply pipe, 5... Exhaust pipe, 6
...Exhaust casing.
Claims (1)
成した空気室を夫々設け、該各空気室の一側壁下
方に送気パイプを設け、かつ他側壁上方に可撓性
の排気パイプを夫々設け、これら各排気パイプの
排気口側部位に空気の流入による浮力で浮上し、
空気の流入停止によつて自重で沈む排気筐を夫々
設け、それら各排気筐を各栽培槽内の底部に静置
せしめた養液栽培装置。 Each of the plurality of cultivation tanks is provided with an air chamber having a water passageway formed on the lower side thereof, an air supply pipe is provided below one side wall of each air chamber, and a flexible exhaust pipe is provided above the other side wall. are provided respectively, and float due to the buoyancy caused by the inflow of air to the exhaust port side part of each of these exhaust pipes,
A hydroponic cultivation device in which each exhaust cabinet is provided with an exhaust cabinet that sinks under its own weight when the inflow of air is stopped, and each exhaust cabinet is left stationary at the bottom of each cultivation tank.
Priority Applications (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| JP1986094445U JPH0246681Y2 (en) | 1986-06-19 | 1986-06-19 |
Applications Claiming Priority (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| JP1986094445U JPH0246681Y2 (en) | 1986-06-19 | 1986-06-19 |
Publications (2)
| Publication Number | Publication Date |
|---|---|
| JPS62204464U JPS62204464U (en) | 1987-12-26 |
| JPH0246681Y2 true JPH0246681Y2 (en) | 1990-12-10 |
Family
ID=30957916
Family Applications (1)
| Application Number | Title | Priority Date | Filing Date |
|---|---|---|---|
| JP1986094445U Expired JPH0246681Y2 (en) | 1986-06-19 | 1986-06-19 |
Country Status (1)
| Country | Link |
|---|---|
| JP (1) | JPH0246681Y2 (en) |
-
1986
- 1986-06-19 JP JP1986094445U patent/JPH0246681Y2/ja not_active Expired
Also Published As
| Publication number | Publication date |
|---|---|
| JPS62204464U (en) | 1987-12-26 |
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