JP3610153B2 - Air conditioner and anpox making apparatus using the same - Google Patents

Air conditioner and anpox making apparatus using the same Download PDF

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JP3610153B2
JP3610153B2 JP6277296A JP6277296A JP3610153B2 JP 3610153 B2 JP3610153 B2 JP 3610153B2 JP 6277296 A JP6277296 A JP 6277296A JP 6277296 A JP6277296 A JP 6277296A JP 3610153 B2 JP3610153 B2 JP 3610153B2
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shelf
room
far
air
circulation device
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JPH09252714A (en
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精二 丸野
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有限会社丸野
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Description

【0001】
【産業上の利用分野】
本発明は、渋柿の水分を30%〜50%程度にしてあんぽ柿を製造するための加工方法と装置に関するものである。
【0002】
【従来の技術】
従来より、渋柿の加工方法としては、天日乾燥によって干し柿とする方法が主流であった。その産地としては寒冷な気候の地域しか適していなかった。
柿の水分が重量比換算で約20%以下で白い粉(蔗糖)が吹いた状態は干し柿(通称コロ柿)と呼ばれ、水分が30%〜50%程度残存している柿は通称あんぽ柿と呼ばれ、近年増加してきている。
【0003】
なお、あんぽ柿としては、下記の条件を満たす必要がある。
▲1▼ 柿の乾燥状態の水分が重量比換算で30%〜50%。
▲2▼ 柿の表面が熟した柿色(べっ甲色)であり、茶褐色や黒っぽい色でないこと。
▲3▼ 柿の中心部の水分が均一であり、ゼリー状態になっていること。
【0004】
ところが、このようなあんぽ柿はコロ柿に比して水分が多いため、カビ等が発生しやすく、天日による自然乾燥では、寒冷な地域でも特に夜の冷え込みの強くなる11月以降でなくては生産できないという、地域的及び季節的な制限が強いという問題があった。
また、天日乾燥では、製品として出来上がるまで3週間前後の日数を要するという問題もあった。
【0005】
そこで、発明者は、地域的及び季節的な制限がなく、何処でも何時でも、短期間であんぽ柿を生産することのできる方法と装置の実現に向けて研究を重ねたところ、以下の製造方法及び装置を特願平7−101213号として共同出願した。
即ち、特願平7−101213号の請求項1によるあんぽ柿の製造方法では、皮を剥いた柿を、アスコルビン酸の水溶液と糖の水溶液の混合液に30分以内浸漬した後に、残留水溶液成分を除去し、遠赤外線を照射しつつ乾燥空気にさらして柿の水分を30%〜50%程度に除去して、−15℃〜−20℃の低温で12時間以上の緩慢冷凍処理をするというものである。
【0006】
また、特願平7−101213号の請求項2によるあんぽ柿の製造装置では、外気が遮断された室内に、加工用の柿が並べられた乾燥用平型コンテナを多段支持する乾燥棚と、前記乾燥棚の側面から遠赤外線を照射する遠赤外線照射装置と、この遠赤外線照射装置を前記乾燥棚の側面に沿って巡回移動させる移動装置と、前記乾燥棚の各段の上方に備えられ、側面から照射される遠赤外線を下方に反射させる反射板と、室内の空気を除湿乾燥させる除湿装置と、室内の空気を0.6 m〜0.8 mの風速で循環させる循環装置と、を備えるという手段を講じたものである。
【0007】
【発明が解決しようとする課題】
前記発明によれば、確かに、好ましい色調で、水分の分布が均一化された高品質のあんぽ柿を、効率よく短期間で得ることができる。また、請求項2の発明のあんぽ柿の製造装置によれば、大量のあんぽ柿を安い設備費の装置で製造でき、効率のよい遠赤外線処理が可能となる。
【0008】
しかし、一度に多量のあんぽ柿を製造するために広い空間に用いると、空間の場所によっては乾燥が不十分な場所が発生することがあり、乾燥ムラが生じるという問題があった。
【0009】
そこで、本発明は、室内の空気を循環させることによって、ムラのない乾燥効果を得ることを目的としてなされたものである。
【0010】
【課題を解決するための手段】
本発明の請求項1では、外気が遮断された室内に、棚が設けられているとともに、室内の空気の湿度もしくは温度の少なくとも何れか一方を調節する空調装置と、室内に開口した取入口から取り入れた室内の空気を、少なくとも上向き及び前記棚に向かう水平方向の二方向に開口した吹き出し口から吹き出す循環装置と、この循環装置を上下移動させる第一の移動装置とを備えるという手段を講じた。
【0011】
請求項2では、
外気が遮断された室内に、
加工用の柿が並べられた乾燥用平型コンテナを多段支持する棚と、
室内の空気を除湿乾燥させる空調装置と、
室内に開口した取入口から取り入れた室内の空気を、少なくとも上向き及び前記棚に向かう水平方向の二方向に開口した吹き出し口から吹き出す循環装置と、
この循環装置を上下移動させる第一の移動装置と
前記棚の側面方向から棚へ向けて遠赤外線を照射する遠赤外線照射装置と、
この遠赤外線照射装置を前記棚の側面に沿って巡回移動させる第二の移動装置とを備えるという手段を講じた。
【0012】
請求項3では、請求項2における第一の移動装置と第二の移動装置とを一体化した移動装置としたものである。
【0013】
【発明の実施の形態】
以下に、本発明にかかるあんぽ柿の製造装置を、その実施例を示した図1に基づいて説明する。
1はあんぽ柿の製造装置であり、その室内は外気と遮断されている。室内には、加工用の柿aが乾燥用平型網式コンテナ2に数個ずつ並べられ、多数の乾燥用平型網式コンテナ2は所定の空間を保持して多段に形成された移動式の乾燥棚3に並べられている。
【0014】
なお、加工用の柿aは、特願平7−101213号の請求項1の方法で示したように、原料の渋柿の皮をむき、アスコルビン酸の水溶液と糖の水溶液の混合液に漬けて前処理を行い、乾燥用平型網式コンテナに並べて水滴をきった柿が好ましい。
【0015】
そして、前記乾燥棚3の左右の両側面に300 mm程離れた位置に立設された垂直ガイドレール41には移動フレーム42が上下移動自在に装着され、この移動フレーム42には遠赤外線ヒーター43と循環装置8とが備えられている。
この循環装置8は、モーターで回転するファンを内蔵しているとともに、図2に示したように、横長形状の筐体の棚に向いた面と上面とにそれぞれ吹き出し口81,82を備え、横面には吸気口83を備え、吸気口83から吸い込んだ室内の空気を、二つの吹き出し口81,82から、棚に向かった方向と、壁に沿った上方との両方に吹き出すものである。
【0016】
なお、このときの吹き出し速度を5m/sec 〜6m/sec の風速とすると、棚の中央部においては、好ましい0.5 m/sec 〜0.8m/secの風速が得られる。
吹き出し速度と吹き出し量とを調節するために、吹き出し口の開口率は整流板の交換によって調節可能に構成されている。
移動フレーム42は、駆動モータ5によって駆動されるチェーンを介して垂直ガイドレール41に沿って毎分1mの速度で上下移動しながら、各段に均等に遠赤外線を照射するとともに、循環装置8から空気を格段に均等に吹きつける。
【0017】
6は乾燥棚の各段の下面において下方に突出した状態で配設された断面が三角形状の遠赤外線反射板であり、側面から照射される遠赤外線を反射することによって、各段の柿aに対して、反射された遠赤外線を上方から照射し、奥の柿aにも遠赤外線が充分に照射されるとともに、側面から直接照射される遠赤外線と、反射して上方から照射される遠赤外線とによって、柿aの全面に充分に照射されるようにするものである。61は遠赤外線ヒーター43の裏側に設けられた反射板であり、裏側に照射される遠赤外線を乾燥棚3の方へ反射させるものである。
【0018】
7は冷凍機を備えて室内の空気を除湿乾燥させる除湿装置であり、除湿した水分は室外に排除する。
【0019】
乾燥棚3に並べる乾燥用平型網式コンテナ2には、断面が三角形状のリブを備えて、このリブに柿を載せると、柿aとの接触部分の面積が小さくなり、柿の残留水滴がリブの斜面を流れ落ち、柿aの底面を黒く変色させることはない。
なお、乾燥用平型コンテナとしては、網式に限定されるものではなく、スリット式や多数の突起を設けたコンテナでもよい。
【0020】
前記移動フレーム42に遠赤外線ヒーター43と共に殺菌灯を設けてもよい。それによって、遠赤外線灯43と共に上下移動しながら、紫外線を照射して、雑菌や黴の発生を防止する。多数の殺菌灯を配設する必要がなくなるとともに、高い殺菌効果が得られる。
このようにして、図1の製造装置の室内において4日〜5日後には水分が30%〜50%程度になり、一応のあんぽ柿が得られる。
【0021】
このようにして、一応のあんぽ柿とした後に、さらに、色調を整えるためと、柿の水分を均一にするために、特願平7−101213号の請求項1の方法で示したように、冷凍処理を行う。
この冷凍処理は、−18℃で12時間以上24時間程度の緩慢冷凍処理が好ましい。
【0022】
このようにして、冷凍処理したままで出荷しても包装内で自然解凍され、30日経過した後であっても、あんぽ柿の弱点であるところの、黴の発生や色調の変化等の品質的な問題は何ら発生しない。
【0023】
なお、移動フレーム42に遠赤外線ヒーター43と循環装置8の両方を設置したが、循環装置8を別の移動装置で上下移動させる構成としてもよい。
また、循環装置と遠赤外線ヒーターは横長のものとし、上下方向に移動することによって横幅一杯に照射する構成でもよいが、比較的小さな単体の循環装置と遠赤外線ヒーターを上下および左右に移動するように構成してもよい。
【0024】
また、反射板6は更に多数配設してもよい。
そして、室内空間の容積が増大しても、循環装置の風速・風量を適宜調整することによって対応可能である。一台の循環装置を高い位置まで上下移動させることによって、高い室内の攪拌も可能になる。
【0025】
本発明の空調装置は、循環装置を壁面、もしくは棚の側面に沿って上下移動させることによって、室内の空気の温度や湿度を均一にするものであるので、あんぽ柿の製造に限らず、種々の食品の加工もしくは栽培のための空調に供することができる。
例えば、図3に示したように、きのこ栽培ビン9を多数配列したきのこの人工栽培室の空調装置として利用することも可能である。
【0026】
きのこの人工栽培においては室内の温度を15℃、湿度を75%に保持するために、ユニットクーラー10を設けるとともに、棚の側面に沿って上下移動する本発明の循環装置11を設けた。
室内の空気を効率よく循環させることによって、温度や湿度の均一化ができるとともに、きのこの培養・発茸過程で発生する大量の炭酸ガスを攪拌して、歩留りよく栽培することが可能になった。
【0027】
また、一時的に温度を下げることによって、室内の全ての茸の生長をムラなく一時的に抑制して、出荷時期の調整も容易に行えるようになり、歩留りが向上した。
例えば、えのき茸の培養・生育過程は、培養基への接種、培養、発茸、生育、容器口への紙まき、刈り取り出荷の各過程からなっている。そして、生育過程においては、室温を15℃に保つことが通常であるが、正月、盆休み、連休等のように市場が休みの期間は出荷時期を遅らせるために、室温を3℃に下げて生長を抑制することが行われている。普通に生長すると、休み明けには伸びすぎてしまい、商品価値が下がるため、単価の安い加工用に回されてしまう。また、従来の装置で温度を下げても、室内の温度分布にムラが発生するので、伸びすぎて加工用に回されてしまう茸もあった。
【0028】
また、茸の人工栽培における空気の循環については、下向きの気流は雑菌の発生の原因になるので避けなければいけないので、床面から上向きに吹き出すように構成された循環装置が用いられていた。このような上向きの循環装置で循環効果を得るためには、棚の高さを抑えなければいけなかったが、本発明の循環装置によれば、そのような高さの制限が無くなるので、同じ床面積であっても大量に栽培することが可能となったのである。
【0029】
なお、循環装置は壁面に沿って上下動してもよいが、棚の近くに壁が存在しない場合には支柱を設けて、この支柱に支持されながら棚の側面の沿って上下動してもよい。
本発明によれば、室内のどの茸もムラなく抑制されるので、全て高い単価で出荷することが可能となったのである。
【0030】
【発明の効果】
請求項1の発明の空調装置によれば、循環装置を壁面又は棚の側面に沿って上下に移動させるので、室内の全領域をムラなく均一な温度条件および湿度条件に保つことができるという効果が得られる。
請求項2の発明のあんぽ柿の製造装置によれば、遠赤外線照射装置と循環装置とを移動させるので、室内の全領域をムラなく均一な温度条件および湿度条件に保つことができ、均質な大量のあんぽ柿を製造できるという効果が得られる。
【0031】
請求項3の発明によれば、遠赤外線照射装置と循環装置とを共通の移動装置で移送させるので、コンパクトにできるとともに設備費も抑制できるという効果が得られる。
【図面の簡単な説明】
【図1】本発明のあんぽ柿の製造装置の側面断面図である。
【図2】前記あんぽ柿の製造装置に用いる循環装置の斜視図である。
【図3】本発明の循環装置をきのこの人工栽培に利用した側面断面図である。ある。
【符号の説明】
a 柿
1 あんぽ柿の製造装置
2 乾燥用平型網式コンテナ
21 リブ
3 乾燥棚
41 垂直ガイドレール(移動装置)
42 移動フレーム(移動装置)
43 遠赤外線ヒーター(遠赤外線照射装置)
5 駆動モータ(移動装置)
6 遠赤外線反射板
7 除湿装置
8 循環装置
81 吹き出し口
82 吹き出し口
83 吸気口[0001]
[Industrial application fields]
The present invention relates to a processing method and apparatus for producing an anchovy with a moisture content of astringency of about 30% to 50%.
[0002]
[Prior art]
Conventionally, as a processing method for astringent persimmon, a method of drying dried persimmon by sun drying has been the mainstream. Its production area was only suitable for cold climates.
When the moisture of the cocoon is about 20% or less in terms of weight ratio and white powder (sucrose) is blown, it is called dried koji (commonly called koji koji), and koji with a moisture content of about 30% to 50% is commonly called anpo. It is called a spider and has been increasing in recent years.
[0003]
In addition, it is necessary for the anpo porridge to satisfy the following conditions.
(1) Moisture in a dry state of cocoon is 30% to 50% in terms of weight ratio.
(2) The surface of the cocoon should be ripe amber (tortoise) and not brown or blackish.
(3) The moisture in the center of the cocoon is uniform and in a jelly state.
[0004]
However, such annpo mochi has more water than colo mochi and is prone to mold, etc., and natural drying by the sun is not after November when the coldness of the night is particularly strong even in cold areas. There was a problem that there were strong regional and seasonal restrictions that could not be produced.
In addition, the sun drying has a problem that it takes about 3 weeks to complete the product.
[0005]
Therefore, the inventor conducted research for the realization of a method and an apparatus that can produce an anchovy in a short period of time and anywhere without any regional and seasonal restrictions. The method and apparatus were jointly filed as Japanese Patent Application No. 7-101213.
That is, in the method for producing an anchovy according to claim 1 of Japanese Patent Application No. 7-101213, the peeled cocoon is immersed in a mixed solution of an aqueous solution of ascorbic acid and an aqueous solution of sugar within 30 minutes, and then a residual aqueous solution. Remove components, expose to dry air while irradiating far-infrared rays, remove moisture of cocoons to about 30% to 50%, and perform slow freezing treatment at a low temperature of -15 ° C to -20 ° C for 12 hours or more That's it.
[0006]
Further, in the apparatus for manufacturing an anchovy according to claim 2 of Japanese Patent Application No. 7-101213, a drying shelf for supporting a drying flat container in which processing ridges are arranged in a room in which outside air is blocked, A far-infrared irradiation device that irradiates far-infrared rays from the side of the drying shelf, a moving device that cyclically moves the far-infrared irradiation device along the side of the drying shelf, and provided above each stage of the drying shelf. A reflector for reflecting far-infrared rays irradiated from the side downward, a dehumidifying device for dehumidifying and drying indoor air, and a circulating device for circulating indoor air at a wind speed of 0.6 m to 0.8 m; It is a measure that is equipped with.
[0007]
[Problems to be solved by the invention]
According to the invention, it is possible to efficiently obtain a high quality candy paste having a preferable color tone and a uniform moisture distribution in a short period of time. Further, according to the apparatus for manufacturing an anchovy of the invention of claim 2, a large amount of anpochi can be manufactured with an apparatus having a low equipment cost, and an efficient far-infrared ray processing can be performed.
[0008]
However, when it is used in a wide space to produce a large amount of anpochi at a time, there is a problem that an insufficiently dried place may occur depending on the place of the space, resulting in uneven drying.
[0009]
Therefore, the present invention has been made for the purpose of obtaining a uniform drying effect by circulating indoor air.
[0010]
[Means for Solving the Problems]
According to claim 1 of the present invention, a shelf is provided in a room in which outside air is blocked, and an air conditioner that adjusts at least one of humidity and temperature of indoor air, and an intake opening that opens into the room A measure is provided that includes a circulation device that blows out the air in the room that has been taken in from a blowout opening that opens at least in two directions, upward and horizontally toward the shelf, and a first moving device that moves the circulation device up and down. .
[0011]
In claim 2,
In a room where outside air is blocked,
A shelf that supports multiple stages of flat containers for drying on which processing baskets are arranged;
An air conditioner for dehumidifying and drying indoor air;
A circulation device that blows out indoor air taken in from an intake opening that opens into the room from at least a blow-out opening that opens upward and in two horizontal directions toward the shelf;
A first moving device that moves the circulation device up and down, and a far infrared irradiation device that irradiates far infrared rays toward the shelf from the side of the shelf;
The far infrared irradiation device is provided with a second moving device that cyclically moves the side of the shelf.
[0012]
According to a third aspect of the present invention, there is provided a moving device in which the first moving device and the second moving device according to the second aspect are integrated.
[0013]
DETAILED DESCRIPTION OF THE INVENTION
Below, the manufacturing apparatus of an anchovy concerning this invention is demonstrated based on FIG. 1 which showed the Example.
Reference numeral 1 is an anchovy manufacturing apparatus, the interior of which is shut off from the outside air. Inside the room, several baskets a for processing are arranged in a drying flat net-type container 2, and a large number of drying flat net-type containers 2 are formed in multiple stages while holding a predetermined space. Are arranged on the drying shelf 3.
[0014]
In addition, as shown in the method of claim 1 of Japanese Patent Application No. 7-101213, the processing cocoon a is peeled off as raw material astringent and immersed in a mixed solution of an aqueous solution of ascorbic acid and an aqueous solution of sugar. It is preferable to use a cocoon that has been pretreated and placed in a drying flat net type container to remove water droplets.
[0015]
A moving frame 42 is mounted on the vertical guide rail 41 erected on the left and right side surfaces of the drying shelf 3 so as to be movable up and down, and a far infrared heater 43 is mounted on the moving frame 42. And a circulation device 8 are provided.
The circulation device 8 incorporates a fan that is rotated by a motor, and as shown in FIG. 2, the circulation device 8 includes blowout ports 81 and 82 on a surface and an upper surface of the horizontally long casing, respectively. An air inlet 83 is provided on the side surface, and the indoor air sucked from the air inlet 83 is blown out from the two air outlets 81 and 82 both in the direction toward the shelf and along the wall. .
[0016]
If the blowing speed at this time is 5 m / sec to 6 m / sec, a preferable wind speed of 0.5 m / sec to 0.8 m / sec is obtained at the center of the shelf.
In order to adjust the blowout speed and the blowout amount, the opening ratio of the blowout opening is configured to be adjustable by replacing the rectifying plate.
The moving frame 42 moves up and down along the vertical guide rail 41 through the chain driven by the drive motor 5 at a speed of 1 m / min. Blow air evenly.
[0017]
6 is a far-infrared reflector having a triangular cross section disposed in a state of projecting downward on the lower surface of each stage of the drying shelf, and by reflecting the far-infrared rays radiated from the side surface, On the other hand, the far-infrared ray reflected is irradiated from above, and the far-infrared ray a is sufficiently irradiated to the far-infrared ray a. The whole surface of the eyelid a is sufficiently irradiated by infrared rays. 61 is a reflector provided on the back side of the far-infrared heater 43, and reflects far-infrared rays irradiated on the back side toward the drying shelf 3.
[0018]
Reference numeral 7 denotes a dehumidifying device that includes a refrigerator and dehumidifies and dries indoor air, and removes the dehumidified water outside the room.
[0019]
The drying flat net type container 2 arranged on the drying shelf 3 is provided with a rib having a triangular cross section, and when a ridge is placed on this rib, the area of the contact portion with the ridge a becomes small, and the residual water droplets of the ridge Will flow down the slope of the ribs and will not discolor the bottom surface of the heel a.
The drying flat container is not limited to the net type, and may be a slit type or a container provided with a number of protrusions.
[0020]
A germicidal lamp may be provided on the moving frame 42 together with the far infrared heater 43. Thereby, ultraviolet rays are irradiated while moving up and down together with the far-infrared lamp 43 to prevent generation of germs and sputum. It is not necessary to provide a large number of germicidal lamps, and a high sterilizing effect can be obtained.
In this way, after 4 to 5 days in the room of the manufacturing apparatus of FIG. 1, the water content is about 30% to 50%, and a temporary soup is obtained.
[0021]
In this way, after making an anchovy, as shown in the method of claim 1 of Japanese Patent Application No. 7-101213, in order to further adjust the color tone and make the moisture of the cocoon uniform. , Freeze treatment.
The freezing treatment is preferably a slow freezing treatment at −18 ° C. for about 12 hours to 24 hours.
[0022]
In this way, even if shipped in a frozen state, it is naturally thawed in the package, and even after 30 days have passed, such as the occurrence of wrinkles and changes in color tone, etc. There is no quality problem.
[0023]
Although both the far-infrared heater 43 and the circulation device 8 are installed on the moving frame 42, the circulation device 8 may be moved up and down by another moving device.
In addition, the circulation device and the far infrared heater may be horizontally long and may be configured to irradiate the full width by moving in the vertical direction, but the relatively small single circulation device and the far infrared heater are moved up and down and left and right. You may comprise.
[0024]
Further, a larger number of reflectors 6 may be provided.
And even if the volume of indoor space increases, it can respond by adjusting the wind speed and the air volume of a circulation device suitably. By moving one circulating device up and down to a high position, high room agitation is also possible.
[0025]
The air conditioner of the present invention makes the temperature and humidity of the indoor air uniform by moving the circulation device up and down along the wall surface or the side surface of the shelf. It can be used for air conditioning for processing or cultivation of various foods.
For example, as shown in FIG. 3, it can also be used as an air conditioner for an artificial cultivation room for mushrooms in which a large number of mushroom cultivation bottles 9 are arranged.
[0026]
In the artificial cultivation of mushrooms, in order to keep the indoor temperature at 15 ° C. and the humidity at 75%, the unit cooler 10 is provided and the circulation device 11 of the present invention that moves up and down along the side of the shelf is provided.
By circulating indoor air efficiently, the temperature and humidity can be made uniform, and a large amount of carbon dioxide generated during the mushroom cultivation and ripening process can be stirred and cultivated with good yield. .
[0027]
In addition, by temporarily lowering the temperature, the growth of all cocoons in the room can be temporarily suppressed uniformly, and the shipping time can be easily adjusted, thereby improving the yield.
For example, the cultivation and growth process of enoki mushrooms includes each process of inoculation to the culture medium, culture, germination, growth, paper cutting to the container mouth, and cutting and shipping. During the growing process, it is normal to keep the room temperature at 15 ° C. However, the room temperature is lowered to 3 ° C in order to delay the shipping time during the market holidays such as New Year, Bon holidays, and consecutive holidays. Suppression of growth is performed. If it grows normally, it will grow too much at the end of the holidays and the value of the product will fall, so it will be used for processing at a low unit price. Further, even if the temperature is lowered with a conventional apparatus, the temperature distribution in the room is uneven, so that it may be excessively stretched and used for processing.
[0028]
In addition, air circulation in artificial cultivation of straw has to be avoided because a downward air flow causes generation of germs. Therefore, a circulation device configured to blow upward from the floor surface has been used. In order to obtain a circulation effect with such an upward circulation device, the height of the shelf had to be suppressed, but according to the circulation device of the present invention, there is no such height limitation, so the same It became possible to cultivate in large quantities even with a floor area.
[0029]
The circulation device may move up and down along the wall surface, but if there is no wall near the shelf, a support column is provided, and it can be moved up and down along the side surface of the shelf while being supported by this column. Good.
According to the present invention, since any wrinkles in the room are suppressed evenly, all can be shipped at a high unit price.
[0030]
【The invention's effect】
According to the air conditioner of the first aspect of the invention, since the circulation device is moved up and down along the wall surface or the side surface of the shelf, it is possible to maintain the uniform temperature and humidity conditions in the entire room without unevenness. Is obtained.
According to the apparatus for manufacturing an anchovy of the invention of claim 2, since the far-infrared irradiation device and the circulation device are moved, the entire indoor area can be kept in uniform temperature conditions and humidity conditions without unevenness. The effect of being able to manufacture a large amount of anpo rice cake is obtained.
[0031]
According to the invention of claim 3, since the far-infrared irradiation device and the circulation device are transferred by a common moving device, it is possible to obtain an effect that the apparatus can be made compact and the facility cost can be suppressed.
[Brief description of the drawings]
FIG. 1 is a side sectional view of an apparatus for producing an anchovy according to the present invention.
FIG. 2 is a perspective view of a circulation device used in the apparatus for manufacturing an anchovy.
FIG. 3 is a side cross-sectional view of the circulation device of the present invention used for artificial cultivation of mushrooms. is there.
[Explanation of symbols]
a 柿 1 Anpo-potato manufacturing device 2 Flat net container 21 for drying Rib 3 Drying shelf 41 Vertical guide rail (moving device)
42 Moving frame (moving device)
43 Far infrared heater (far infrared irradiation device)
5 Drive motor (moving device)
6 Far-infrared reflector 7 Dehumidifier 8 Circulator 81 Air outlet 82 Air outlet 83 Air inlet

Claims (3)

外気が遮断された室内に、
棚が設けられているとともに、
室内の空気の湿度もしくは温度の少なくとも何れか一方を調節する空調装置と、室内に開口した取入口から取り入れた室内の空気を、少なくとも上向き及び前記棚に向かう水平方向の二方向に開口した吹き出し口から吹き出す循環装置と、
この循環装置を上下移動させる第一の移動装置と
を備えたことを特徴とする空調装置。In a room where outside air is blocked,
With shelves,
An air conditioner that adjusts at least one of the humidity and temperature of indoor air, and an air outlet that opens indoor air taken from an intake opening that opens in the room in at least two directions, upward and horizontally toward the shelf. A circulation device that blows out from,
An air conditioner comprising: a first moving device that vertically moves the circulation device. 外気が遮断された室内に、
加工用の柿が並べられた乾燥用平型コンテナを多段支持する棚と、
室内の空気を除湿乾燥させる空調装置と、
室内に開口した取入口から取り入れた室内の空気を、少なくとも上向き及び前記棚に向かう水平方向の二方向に開口した吹き出し口から吹き出す循環装置と、
この循環装置を上下移動させる第一の移動装置と
前記棚の側面方向から棚へ向けて遠赤外線を照射する遠赤外線照射装置と、
この遠赤外線照射装置を前記棚の側面に沿って巡回移動させる第二の移動装置と、
を備えたことを特徴とするあんぽ柿製造装置。In a room where outside air is blocked,
A shelf that supports multi-stage drying flat containers with processing baskets arranged;
An air conditioner for dehumidifying and drying indoor air;
A circulation device that blows out indoor air taken in from an intake opening that is open in the room from at least an upward direction and a horizontal opening that opens in two directions toward the shelf;
A first moving device that moves the circulation device up and down, and a far-infrared irradiation device that irradiates far-infrared rays toward the shelf from the side surface direction of the shelf,
A second moving device that cyclically moves the far infrared irradiation device along the side surface of the shelf;
An anchovy manufacturing apparatus characterized by comprising: 請求項2における第一の移動装置と第二の移動装置とを一体化した移動装置としたことを特徴とするあんぽ柿製造装置。An apparatus for producing an anchovy, wherein the first moving device and the second moving device according to claim 2 are integrated.
JP6277296A 1996-03-19 1996-03-19 Air conditioner and anpox making apparatus using the same Expired - Lifetime JP3610153B2 (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
JP6277296A JP3610153B2 (en) 1996-03-19 1996-03-19 Air conditioner and anpox making apparatus using the same

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
JP6277296A JP3610153B2 (en) 1996-03-19 1996-03-19 Air conditioner and anpox making apparatus using the same

Publications (2)

Publication Number Publication Date
JPH09252714A JPH09252714A (en) 1997-09-30
JP3610153B2 true JP3610153B2 (en) 2005-01-12

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Publication number Priority date Publication date Assignee Title
JP5839570B2 (en) * 2012-02-27 2016-01-06 タチバナペーパーウェアー株式会社 Method for producing bagged half-dried dried persimmon
JP6934643B2 (en) * 2014-08-08 2021-09-15 株式会社ベジア Room temperature drying device for food
JP6651047B1 (en) * 2019-10-11 2020-02-19 株式会社日立パワーソリューションズ Arrangement status presentation device
JP7185349B2 (en) * 2020-02-17 2022-12-07 株式会社ベジア Room temperature drying equipment for food

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