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JPS6354535A - Cooling apparatus - Google Patents

Cooling apparatus

Info

Publication number
JPS6354535A
JPS6354535A JP61195237A JP19523786A JPS6354535A JP S6354535 A JPS6354535 A JP S6354535A JP 61195237 A JP61195237 A JP 61195237A JP 19523786 A JP19523786 A JP 19523786A JP S6354535 A JPS6354535 A JP S6354535A
Authority
JP
Japan
Prior art keywords
air
water
screen
cooling
trapping
Prior art date
Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
Granted
Application number
JP61195237A
Other languages
Japanese (ja)
Other versions
JPH0348415B2 (en
Inventor
Chizuko Ozawa
小澤 千鶴子
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.)
Individual
Original Assignee
Individual
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 Individual filed Critical Individual
Priority to JP61195237A priority Critical patent/JPS6354535A/en
Publication of JPS6354535A publication Critical patent/JPS6354535A/en
Publication of JPH0348415B2 publication Critical patent/JPH0348415B2/ja
Granted legal-status Critical Current

Links

Landscapes

  • Devices For Blowing Cold Air, Devices For Blowing Warm Air, And Means For Preventing Water Condensation In Air Conditioning Units (AREA)
  • Air Filters, Heat-Exchange Apparatuses, And Housings Of Air-Conditioning Units (AREA)
  • Air Humidification (AREA)

Abstract

PURPOSE:To reduce the installation and operating costs and effectively cooling the air passing a screen by trapping most of water particles by interposing the particle-trapping, cooling screen comprising fibrous material between atomizing nozzles and air blowing outlets. CONSTITUTION:A water particle-trapping, cooling screen comprising a fibrous material in which numerous fibers are alternatingly intersecting each other with a minute space between the fibers is interposed between atomizing nozzles 10 and air blowing outlets 8 inside an atomizing box 4. Since atomization can be performed under a low pressure with no need for water particles to be extremely small, atomizing nozzles using household utility water and a water pump can be used for atomization, and so, the installation and operating costs can be reduced. Further, most of water particles, particularly large size particles, are trapped by the water particle-trapping, cooling screen 11 and prevented from being discharged out of the outlet 8, and, the air passing the screen 11 can effectively be cooled on account of the latent heat of vaporization of trapped water particles.

Description

【発明の詳細な説明】 (産業上の利用分野) 本発明は、温室、畜舎のほか、住居、ビル等にも利用す
ることのできる気化熱利用による冷房装置に関する。
DETAILED DESCRIPTION OF THE INVENTION (Field of Industrial Application) The present invention relates to a cooling device that utilizes heat of vaporization and can be used not only in greenhouses and livestock barns, but also in residences, buildings, and the like.

(従来の技術) 本発明者は、さきに、温室の冷房装置として、送風機と
、上記送風機の送風方向に接続された噴震室と、上記噴
霧室と接続されて温室内に延長する冷風ダクトとを備え
、上記噴霧室内に噴霧された霧滴を送風機からの送風に
より攪拌してダクト内に送り、その間に霧滴を気化させ
、気化潜熱により空気の冷却を行うように構成したもの
を提案した(特願昭61.−151805 )。 しか
し、さきに提案した冷房装置は、都市水道、井戸揚水ポ
ンプ等の比較的低水圧を利用した噴霧ノズルを使用した
場合、霧滴の微粒化が十分に行われないため気化が促進
されず、冷却作用が弱いものとなり、しかも大粒の霧滴
がそのまま冷風ダクト内に入って相当量残留することが
多く、さらに冷風ダクトに合成樹脂フィルム製チューブ
を使用したときは、送風機から送られるらせん状気流に
より該冷風ダクトがはためき、これが温室内の植物に打
撃や振動を与えてその成長を阻害する等の欠点があり、
一方霧滴の微粒化を行うため噴霧ノズルとして、高圧ポ
ンプにより高圧水をノズルから噴霧させるもの、高圧空
気によりノズルから噴霧させるもの、超音波噴霧ノズル
等を使用した場合は、冷却作用の向上及び冷風ダクト内
での残留水の減少を実現できるが、設備費、運転費が高
くつき、しかも上記冷風ダクトがはためく欠点が未解決
のまま残される難点があった。
(Prior Art) The present inventor has previously proposed a cooling device for a greenhouse, including a blower, a spray chamber connected in the direction of the blowing air of the blower, and a cold air duct connected to the spray chamber and extending into the greenhouse. We propose a system that is equipped with the above-mentioned spray chamber, and is configured to agitate the mist droplets sprayed into the spray chamber using air from a blower and send them into the duct, vaporize the mist droplets during this time, and cool the air using the latent heat of vaporization. (Patent application No. 61.-151805). However, in the cooling system proposed earlier, when using a spray nozzle that utilizes relatively low water pressure, such as from a city water supply or a well pump, vaporization is not promoted because the atomization of the mist droplets is not sufficient. The cooling effect is weak, and large mist droplets often enter the cold air duct and remain in a considerable amount.Furthermore, when synthetic resin film tubes are used in the cold air duct, the spiral airflow sent from the blower This has disadvantages such as the cold air duct flapping, which gives blows and vibrations to the plants in the greenhouse and inhibits their growth.
On the other hand, when using a spray nozzle that uses a high-pressure pump to spray high-pressure water from the nozzle, a sprayer that uses high-pressure air to spray from the nozzle, or an ultrasonic spray nozzle to atomize the mist droplets, the cooling effect can be improved and Although it is possible to reduce residual water in the cold air duct, the equipment cost and operating cost are high, and the problem of the cold air duct fluttering still remains unresolved.

(発明が解決しようとする問題点) 本発明は、都市水道や井戸揚水ポンプ等の比較的低水圧
による噴霧ノズルを用いながら、それに基づく上述のよ
うな欠点を除くことができ、しかも構成が簡単で安価に
得られる冷房装置を提供することを目的とする。
(Problems to be Solved by the Invention) The present invention uses a spray nozzle with relatively low water pressure such as that of a city water supply or a well pump, and can eliminate the above-mentioned drawbacks caused by the spray nozzle, and has a simple configuration. The purpose is to provide a cooling device that can be obtained at low cost.

(問題点を解決するための手段) 上記目的を達成するため、本発明の冷房装置は、噴震室
の一側面に開けた吹込口に該噴霧室内に送風すべき送風
機を接続すると共に、他側面に吹出口を開設し、 上記噴震室内に、該噴霧室内に噴霧すべき噴霧ノズルを
設置すると共に上記噴霧ノズルと上記吹出口との間に、
多数繊維を繊維相互間に小空隙をあけて互に交叉結合し
てなる繊維結合体からなる除滴冷却スクリーンを介在さ
せた、 構成としである。
(Means for Solving the Problems) In order to achieve the above object, the cooling device of the present invention connects an air blower to blow air into the spray chamber to an air inlet opened on one side of the spray chamber, and also connects a blower to blow air into the spray chamber. An air outlet is opened on the side, and a spray nozzle to spray is installed in the spray chamber, and between the spray nozzle and the air outlet,
It has a structure in which a drip-removing cooling screen is interposed, which is made of a fiber bonded body formed by cross-linking a large number of fibers with each other with small gaps between the fibers.

本発明における除滴冷却スクリーンの繊維結合体として
は、合成繊維、天然繊維等を互に小空隙をあけてアトラ
ンダムにてん結し、各繊維の交叉部分を接着剤により結
合してなる繊維マット、あるいは荒目布、ネット、又は
それらの複数枚を重ね合わせたもの、その他種々のもの
が選択的に使用される。
The fiber composite of the drip-removing cooling screen in the present invention is a fiber mat made by randomly twisting synthetic fibers, natural fibers, etc. with small gaps between each other, and bonding the intersecting portions of each fiber with an adhesive. , coarse cloth, net, or a combination of multiple layers thereof, and various other materials are selectively used.

以下温室の冷房装置に実施した例について図面を参照し
て説明する。
An example implemented in a greenhouse cooling device will be described below with reference to the drawings.

第1図において、温室の側壁(1)上部に設けた開口部
(2)に送風ボックス(3)を支持させ、該送風ボック
ス(3)の室内側前面に噴霧ボックス(4)を連設し、
該噴霧ボックス(4)の前面に接続ダクト(5)・・・
を介して長短複数本(本例では4本)の冷風ダクト(6
)・・・を接続し、該冷風ダクト(6)・・・を低い位
置に水平状態で温室内に放射状に延長して吊支しである
In Fig. 1, a ventilation box (3) is supported by an opening (2) provided in the upper part of the side wall (1) of the greenhouse, and a spray box (4) is connected to the front of the ventilation box (3) on the indoor side. ,
A connecting duct (5) is connected to the front of the spray box (4).
Multiple long and short (four in this example) cold air ducts (6
)..., and the cold air duct (6)... is extended radially into the greenhouse in a horizontal position at a low level and suspended.

上記噴霧ボックス(4)は第2図示のようにほぼ立方体
状室内を有し、その後側面に上記送風ボックス(3)内
に開放する吹込口(7)を、それと相対する前側面に4
個の吹出口(8)・・・をそれぞれ開口し、該吹出口(
8)・・・にそれぞれ接続した接続ダクト(5)・・・
に上記冷風ダクト(6)・・・の各一端部をそれぞれ接
続したもので、このボックス(4)の側壁から給水分岐
管(9)、(9)をボックス(4)内の吹込口(7)寄
りの位置に挿入し、両分枝管(9)、(9)の挿入部分
に噴霧ノズル(]0)を2個づつ噴出口を前方へ向けて
それぞれ取付け、各噴霧ノズル(10)・・・と吹出口
(8)・・・どの中間位置に除滴冷却スクリーン(11
)を垂直に取付けである。
The spray box (4) has an almost cubic-shaped chamber as shown in the second figure, and has an air inlet (7) that opens into the air blowing box (3) on the rear side, and an air inlet (7) on the front side opposite to the air outlet (7).
Open the air outlet (8)... respectively, and open the air outlet (8)...
8) Connecting ducts (5) connected to...
One end of each of the cold air ducts (6) is connected to the box (4), and the water supply branch pipes (9) are connected to the air inlet (7) in the box (4) from the side wall of the box (4). ), and attach two spray nozzles (]0) to the inserted portions of both branch pipes (9) and (9) with their spout ports facing forward, and each spray nozzle (10). ...and the air outlet (8)... At which intermediate position is the drip removal cooling screen (11
) is installed vertically.

上記除滴冷却スクリーン(11)は、本例ではナイロン
繊維を互に小空隙をあけてアトランダムにてん結し、各
繊維の交叉部分を接着剤で結合してなる適宜厚さの繊維
マットで、上記ボックス(4)の内面に取付けられた合
成繊維網からなる多孔支持枠(12)に支持させである
In this example, the drip-removing cooling screen (11) is a fiber mat of an appropriate thickness, which is made by randomly twisting nylon fibers with small gaps between them, and bonding the intersections of each fiber with an adhesive. , and is supported by a porous support frame (12) made of a synthetic fiber network attached to the inner surface of the box (4).

上記給水分岐管(9)、(9)はボックス(4)外にお
いて、第1図示のように給水基管(13)に接続され、
該基管(13)は−例として都市水道管に弁を介して接
続されている。なお、上記噴霧ボックス(4)の底面は
やや後事りに傾斜し、その傾斜底面の後端部に排水口(
14)を開設しである。(]5)は排水管である。
The water supply branch pipes (9), (9) are connected to the water supply base pipe (13) outside the box (4) as shown in the first diagram,
The base pipe (13) is connected to, for example, a city water pipe via a valve. The bottom of the spray box (4) is slightly inclined laterally, and there is a drain port (
14) was established. (]5) is a drain pipe.

上記送風ボックス(3)は、第2図示のように後側面に
直接屋外に開口する外気取り入れ口(16)を、上側面
にフード(18)を介して屋内に開口する内気取り入れ
口(17)をそれぞれ設けると共に、各取り入れ口を開
閉する蓋(19)、(20)をそれぞれヒンジ(21)
、(22)により揺動自在に取付け、ボックス(3)内
には上記吹込口(7)にのぞむ位置に噴霧ボックス(4
)内に送風すべき送風機(23)を取付けである。(2
4)は上記蓋(19)、(20)を連結するリンクで、
一方の開閉に伴い他方を開開させる。
As shown in the second figure, the ventilation box (3) has an outside air intake (16) that opens directly to the outdoors on the rear side, and an inside air intake (17) that opens indoors through the hood (18) on the top side. In addition, the lids (19) and (20) for opening and closing each intake are provided with hinges (21), respectively.
, (22), and a spray box (4) is installed in the box (3) at a position facing the above-mentioned air inlet (7).
) The blower (23) to blow air is installed. (2
4) is a link connecting the lids (19) and (20),
When one opens and closes, the other opens and closes.

上記冷風ダクト(6)は、本例ではポリビニールアルコ
ール系(例えばビニロン)等の吸湿性合成樹脂又は非吸
湿性合成樹脂のフィルムに多数の細い割れ目を平行に入
れ、これを割れ目方向に高倍率に延伸して割り繊維を形
成し、該割り繊維をりテ、ヨコに交叉積層して互に融着
してなる、各タテ、ヨコ割り繊維間に小空隙を有する割
り繊維不織布、合成樹脂のテープ、紐、フィラメントを
タテ、ヨコに交叉して互に融着した小空隙を有する網状
シート、合成繊維もしくは天然繊維で織った小空隙を有
する織布、その他各種の小空隙を有する吸湿性又は非吸
湿性シートによりつくられたもので、−例として小空隙
を有するビニロンの吸湿性割り繊維不織布を円筒状に丸
めて両側端のシール代を互に熱融着によりシール(25
) t、たちのを使用し、該ダクト(6)の開口先端部
を紐によりきんちゃく口のように狭拡自在に絞って若干
上向きの狭搾口(26)に形成すると共に、各ダクト(
6)・・・を、支持枠(27)、(27)間に水平に張
設したワイヤ等の支持線(28)に、ダクト(6)の上
記シール代に取付けた吊り環(29)・・・を介して水
平に吊支しである。
In this example, the cold air duct (6) is constructed by inserting a large number of narrow cracks in parallel into a film of hygroscopic synthetic resin or non-hygroscopic synthetic resin such as polyvinyl alcohol-based (e.g. vinylon), and applying high magnification in the direction of the cracks. Split fiber non-woven fabrics, synthetic resins, which are formed by stretching the split fibers to form split fibers, and then stacking the split fibers crosswise and horizontally and fusing them to each other. Tapes, strings, net-like sheets with small voids made of filaments crossed vertically and horizontally and fused together, woven fabrics with small voids woven from synthetic fibers or natural fibers, and various other types of hygroscopic or hygroscopic sheets with small voids. It is made of a non-hygroscopic sheet, for example, a hygroscopic split fiber non-woven fabric of Vinylon with small voids is rolled into a cylindrical shape and the sealing areas on both sides are sealed together by heat fusion (25
) T, Tachino is used to squeeze the opening tip of the duct (6) with a string so that it can be narrowed and expanded like a narrow opening (26), and each duct (
6) ... is attached to the support line (28) such as a wire stretched horizontally between the support frames (27) and (27), and the hanging ring (29) attached to the sealing area of the duct (6). It is suspended horizontally through...

上例の作用は次のようである。送風ボックス(3)の蓋
(19)を開いて外気取り入れ口(]6)を開き、送風
機(23)を始動すると共に、弁を開いて都市水道管の
水を給水基管(13)に供給し、各噴霧ノズル(10)
・・・から水道圧による噴霧を行うと、まず送風機(2
3)から送られる風が噴霧ボックス(4)内に吹き込ん
で、噴出される霧を除滴冷却スクリーン(11)に吹き
つけ、そこで大部分の霧滴、特に大粒の霧滴を該スクリ
ーン(11)の繊維で捕捉し、(除滴作用)、一部の微
粒霧滴のみをスクリーン(11)の繊維間空隙を通過さ
せ、そのうちスクリーン(11)を通過した微粒霧滴は
吹出口(8)・・・、接続ダクト(5)・・・を経て冷
風ダクト(6)・・・内に吹きこまれ、その間に気化し
てその潜熱により空気の冷却を行い、一方スクリーン(
11)に捕捉された霧滴は繊維間を激しく流通する空気
に接して気化しつつその潜熱により流通空気を冷却しく
冷却作用)、冷却された空気は吹出口(8)・・・、接
続ダクト(5)・・・を経て冷風ダクト(6)・・・内
に吹きこまれる。ダクト(6)・・・内の冷気はダクト
周面の小空隙から温室内に放出されつつ先端の狭搾口(
26)から上向きに放出される。この場合、各ダクト(
6)・・・の小空隙から放出される冷気は微風となって
植物の葉に当り、植物の成育に有効である。
The effect of the above example is as follows. Open the lid (19) of the blower box (3), open the outside air intake (]6), start the blower (23), and open the valve to supply water from the city water pipe to the water supply base pipe (13). and each spray nozzle (10)
When spraying using water pressure from ..., first the blower (2
3) blows into the spray box (4) and blows the ejected mist onto the drip-removing cooling screen (11), where most of the mist droplets, especially large mist droplets, are removed from the screen (11). ), and only some of the fine mist droplets are allowed to pass through the interfiber gaps of the screen (11), and the fine mist droplets that have passed through the screen (11) are captured by the air outlet (8). The air is blown into the cold air duct (6) through the connecting duct (5), during which time it vaporizes and its latent heat cools the air, while the screen (
The mist droplets captured by 11) vaporize as they come into contact with the air that circulates vigorously between the fibers, and their latent heat cools the circulating air. It is blown into the cold air duct (6) through (5).... The cold air inside the duct (6) is released into the greenhouse through small gaps around the duct, and the narrow opening at the tip (
26). In this case, each duct (
6) The cold air released from the small gaps becomes a breeze that hits the leaves of plants, which is effective for plant growth.

なお、冷風ダクト(6)内に未気化の霧滴が浮遊する場
合、これら霧滴がダクト(6)を構成する吸湿性シート
に吸収され、この吸収水分がダクトの小空隙から放出さ
れる空気によって気化され、その潜熱により上記放出空
気をさらに冷却する。
In addition, when unvaporized mist droplets float in the cold air duct (6), these mist droplets are absorbed by the hygroscopic sheet that constitutes the duct (6), and this absorbed moisture is released into the air from the small gaps in the duct. , and its latent heat further cools the discharged air.

上記送風機(23)から送られる風は通常らせん状に旋
回して流れるが、除滴スクリーン(11)を通過するこ
とによりそのらせん状気流をほぼ定常流に整流され(整
流作用)、それにより冷風ダクト(6)・・・がはため
くのを防止する。
The air sent from the blower (23) usually flows in a spiral manner, but by passing through the drip removal screen (11), the spiral airflow is rectified into an almost steady flow (rectification effect), thereby creating a cool breeze. Prevents the duct (6) from flapping.

又、上記送風機(23)によりじんあい、虫等を含んだ
外気が直接吹きこまれるが、この外気が除滴スクリーン
(11)を通過する間に空気中のじんあい等を該スクリ
ーン(11)の繊維で捕捉され、しかもスクリーン(1
1)の各繊維には上述のように霧滴が連続的に吹きつけ
られているから、これらの水滴がじんあい等の捕捉をさ
らに促進しく除しん作用)、それと共に各繊維に付着し
た未気化の水滴が増量するに伴い繊維を伝って噴霧ボッ
クス(4)底面に流れ落ちるが、これら流れ落ちる水に
よって一8= 繊維に付着したじんあい等を洗い落す(洗浄作用)ので
ある。ボックス(4)底面に落ちたじんあい等を含む水
は排水口(14)から排出される。
In addition, outside air containing dust, insects, etc. is directly blown in by the blower (23), and while this outside air passes through the drip removal screen (11), the dust, etc. in the air is removed from the screen (11). is captured by the fibers of the screen (1
As mentioned above, each fiber in 1) is continuously sprayed with mist droplets, so these water droplets further promote the capture of dust, etc. (removal action), and at the same time, remove the dirt attached to each fiber. As the amount of vaporized water droplets increases, they flow down the fibers to the bottom of the spray box (4), and these falling water wash away dust and other substances adhering to the fibers (cleaning action). Water containing dust and the like that has fallen to the bottom of the box (4) is discharged from the drain port (14).

上例において、噴霧ボックス(4)が低い位置にある場
合は、冷風ダクト(6)を直接噴霧ボックス(4)に接
続してもよい。
In the above example, if the spray box (4) is in a low position, the cold air duct (6) may be directly connected to the spray box (4).

(発明の効果) 本発明の冷房装置によれば、噴霧は低圧でよく、しかも
超微粒化する必要がないから、都市水道、井戸揚水ポン
プ等を利用した噴霧ノズルを用いることが可能となり、
それにより設備費、運転費を安価におさえることができ
、しかも除滴冷却スクリーンにより大部分の霧滴、特に
大粒の霧滴を捕捉して吹出口から送出するのを防止する
ことができ、それにより吹出口に接続されたダグ1〜内
等に残留水をつくることが殆んどなくなると共に、除滴
スクリーンに捕捉された水滴の気化潜熱により該スクリ
ーンを通過する空気の有効な冷却を行うことができるの
であり、又除滴冷却スクリーンによりじんあい等を含む
空気の有効な除じんと共に、該スクリーンを流れ落ちる
水滴によりスクリーンに付着したじんあい等の洗浄を兼
ね行うことができ、さらには除滴冷却スクリーンにより
送風機から送られるらせん状気流を整流する効果をも兼
ね行うことができ、それにより吹出口にシートからなる
ダクトを接続した場合等に、該ダクトのはためきを防止
することができる等の利点もえられるのである。
(Effects of the Invention) According to the air conditioner of the present invention, the spray can be applied at low pressure and does not need to be ultra-atomized, so it is possible to use a spray nozzle using a city water supply, well pump, etc.
As a result, equipment costs and operating costs can be kept low, and the drip removal cooling screen can capture most of the mist droplets, especially large mist droplets, and prevent them from being sent out from the outlet. As a result, it is almost impossible to form residual water inside the dug 1 connected to the air outlet, and the air passing through the screen is effectively cooled by the latent heat of vaporization of the water droplets captured by the drip removal screen. In addition, the drip removal cooling screen can effectively remove air containing dust, etc., and the water droplets flowing down the screen can also clean dust adhering to the screen. The cooling screen can also have the effect of rectifying the spiral airflow sent from the blower, thereby preventing the duct from flapping when a duct made of a sheet is connected to the air outlet. There are also benefits.

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

図面は本発明の実施例を示し、第1図は温室冷房構造の
一部省略側面図、第2図は冷房装置部分の拡大縦断側面
図である。 4・・・噴霧ボックス、7・・・吹込口、8・・・吹出
口、10・・・噴霧ノズル、11・・・除滴冷却スクリ
ーン、23・・・送風機。
The drawings show an embodiment of the present invention, and FIG. 1 is a partially omitted side view of a greenhouse cooling structure, and FIG. 2 is an enlarged longitudinal sectional side view of a cooling device portion. 4... Spray box, 7... Inlet, 8... Outlet, 10... Spray nozzle, 11... Drip removal cooling screen, 23... Air blower.

Claims (1)

【特許請求の範囲】 噴霧室の一側面に開けた吹込口に該噴霧室内に送風すべ
き送風機を接続すると共に、他側面に吹出口を開設し、 上記噴霧室内に、該噴霧室内に噴霧すべき噴霧ノズルを
設置すると共に上記噴霧ノズルと上記吹出口との間に、
多数繊維を繊維相互間に小空隙をあけて互に交叉結合し
てなる繊維結合体からなる除滴冷却スクリーンを介在さ
せた、冷房装置。
[Scope of Claims] A blower for blowing air into the spray chamber is connected to an air outlet opened on one side of the spray chamber, and an air blower is opened on the other side, and the air blower is connected to an air blower opening on one side of the spray chamber, and a blower for blowing air into the spray chamber is connected. A spray nozzle is installed between the spray nozzle and the outlet,
A cooling device in which a drip-removing cooling screen is interposed, which is made up of a fiber assembly made by cross-linking a large number of fibers with small gaps between them.
JP61195237A 1986-08-22 1986-08-22 Cooling apparatus Granted JPS6354535A (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
JP61195237A JPS6354535A (en) 1986-08-22 1986-08-22 Cooling apparatus

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
JP61195237A JPS6354535A (en) 1986-08-22 1986-08-22 Cooling apparatus

Publications (2)

Publication Number Publication Date
JPS6354535A true JPS6354535A (en) 1988-03-08
JPH0348415B2 JPH0348415B2 (en) 1991-07-24

Family

ID=16337764

Family Applications (1)

Application Number Title Priority Date Filing Date
JP61195237A Granted JPS6354535A (en) 1986-08-22 1986-08-22 Cooling apparatus

Country Status (1)

Country Link
JP (1) JPS6354535A (en)

Cited By (4)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
JP2008175520A (en) * 2006-12-19 2008-07-31 Sanki Eng Co Ltd Cooler
JP2008281288A (en) * 2007-05-11 2008-11-20 Chubu Electric Power Co Inc Mist cooler
JP2012073355A (en) * 2010-09-28 2012-04-12 Ohbayashi Corp Screen device
WO2021024857A1 (en) * 2019-08-05 2021-02-11 株式会社大気社 Air-conditioning device for paint booth

Citations (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
JPS5712937A (en) * 1980-06-28 1982-01-22 Oriental Yeast Co Ltd Culturing of fine animal

Patent Citations (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
JPS5712937A (en) * 1980-06-28 1982-01-22 Oriental Yeast Co Ltd Culturing of fine animal

Cited By (4)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
JP2008175520A (en) * 2006-12-19 2008-07-31 Sanki Eng Co Ltd Cooler
JP2008281288A (en) * 2007-05-11 2008-11-20 Chubu Electric Power Co Inc Mist cooler
JP2012073355A (en) * 2010-09-28 2012-04-12 Ohbayashi Corp Screen device
WO2021024857A1 (en) * 2019-08-05 2021-02-11 株式会社大気社 Air-conditioning device for paint booth

Also Published As

Publication number Publication date
JPH0348415B2 (en) 1991-07-24

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