JPH11137070A - Farm/marine product treatment system - Google Patents

Farm/marine product treatment system

Info

Publication number
JPH11137070A
JPH11137070A JP30384397A JP30384397A JPH11137070A JP H11137070 A JPH11137070 A JP H11137070A JP 30384397 A JP30384397 A JP 30384397A JP 30384397 A JP30384397 A JP 30384397A JP H11137070 A JPH11137070 A JP H11137070A
Authority
JP
Japan
Prior art keywords
air
shelf
suction
processing
agricultural
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
JP30384397A
Other languages
Japanese (ja)
Other versions
JP3596655B2 (en
Inventor
Kanji Abu
寛二 阿武
Shinji Imoto
進二 井本
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.)
Daifuku Co Ltd
Original Assignee
Daifuku Co Ltd
Priority date (The priority date is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the date listed.)
Filing date
Publication date
Application filed by Daifuku Co Ltd filed Critical Daifuku Co Ltd
Priority to JP30384397A priority Critical patent/JP3596655B2/en
Publication of JPH11137070A publication Critical patent/JPH11137070A/en
Application granted granted Critical
Publication of JP3596655B2 publication Critical patent/JP3596655B2/en
Anticipated expiration legal-status Critical
Expired - Fee Related legal-status Critical Current

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  • Storage Of Harvested Produce (AREA)
  • Warehouses Or Storage Devices (AREA)

Abstract

PROBLEM TO BE SOLVED: To provide a system designed to uniformly treat farm/marine products in high efficiency. SOLUTION: This system has such a scheme that a conditioned air SA is blown in such a way as to be diffused from an air feed duct 7 and fed to the front region of shelves 2 having a plurality of containment sections 2a, and owing to air suction from the respective containment sections 2a to the backside of the shelves by suction funs 9, the conditioned air is passed through the respective containment sections 2a to effect the treatment of contained products W to be treated, wherein an air RA sucked from the respective containment sections 2a by the suction funs 9 is guided via an air return duct 10 to air conditioning means 16, 17 where the air RA is conditioned, and a part of the air RA guided via the duct 10 is bypassed via a bypass route 13B, and a mixed air comprising the conditioned air afforded by the means 16, 17 and the bypass air afforded by the route 13B is sent out as the conditioned air SA into the air feed duct 7.

Description

【発明の詳細な説明】DETAILED DESCRIPTION OF THE INVENTION

【0001】[0001]

【発明の属する技術分野】本発明は農水産物処理システ
ムに関し、詳しくは、庫内において複数の収納部を有す
る棚の前面域へ調整空気を給気導風路から拡散させる状
態に吹き出し供給し、かつ、前記収納部の夫々から棚背
面側へ吸引ファンにより空気吸引することで、前記収納
部の夫々に調整空気を通過させてそれら収納部の収納処
理物を処理する農水産物処理システムに関する。
BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a system for treating agricultural and marine products, and more particularly to a system for supplying regulated air to a front area of a shelf having a plurality of storage sections in a refrigerator in a state of being diffused from an air supply and ventilation passage. In addition, the present invention relates to an agricultural and marine product processing system that processes adjusted storage products in each of the storage units by sucking air from each of the storage units to the rear side of the shelf with a suction fan, thereby passing regulated air through each of the storage units.

【0002】[0002]

【従来の技術】従来、この種の処理システムでは、棚の
各収納部から棚背面側に配備の吸引チャンバを介して吸
引ファンにより空気吸引するのに対し、その吸引空気
(すなわち使用済の調整空気)は、吸引ファンの送風機
能により庫内へ放出するようにしていた。また、庫内に
おいて給気導風路から棚の前面域へ拡散させる状態に吹
き出し供給する調整空気については、庫内における機体
周辺の空気を吸入して、この吸入空気を調整する空調機
を庫内に設け、そして、この空調機に給気導風路の基端
を接続した風路構成で、この空調機による調整空気を給
気導風路へ送出するようにしていた。
2. Description of the Related Art Conventionally, in this type of processing system, air is sucked from each storage section of a shelf by a suction fan through a suction chamber provided on the rear side of the shelf, while the suction air (ie, used adjustment) is used. (Air) was discharged into the refrigerator by the blowing function of the suction fan. In addition, as for the regulated air to be blown out in a state of being diffused from the air supply guideway to the front area of the shelf in the refrigerator, an air conditioner that adjusts the intake air by inhaling air around the body in the refrigerator. The air conditioner is provided in the air conditioner, and the air-conditioning device is connected to a base end of the air supply and air guide passage so that the air adjusted by the air conditioner is sent to the air supply and air guide passage.

【0003】[0003]

【発明が解決しようとする課題】しかし、上記の従来シ
ステムでは、庫内における機体周辺からの吸入空気を空
調機により調整して、その調整空気を空調機に接続の給
気導風路へ送出する風路構成上、給気導風路から棚の前
面域へ拡散させる状態に吹き出し供給する調整空気の風
量が空調機の許容通過風量に制限され、この為に、棚の
各収納部が臨む棚前面域に対し十分な風量の調整空気を
均一に供給することが難しかった。
However, in the above-mentioned conventional system, the air intake from the vicinity of the machine body in the refrigerator is adjusted by the air conditioner, and the adjusted air is sent to the air supply air passage connected to the air conditioner. Due to the wind path configuration, the amount of regulated air that is blown out from the air supply duct to the front area of the shelf is limited to the permissible passing air volume of the air conditioner. It was difficult to supply a sufficient amount of regulated air uniformly to the shelf front area.

【0004】また、この状況において、各収納部から吸
引ファンにより棚背面側へ吸引した使用済の調整空気を
庫内へ放出するため、この使用済の調整空気が放出後の
庫内拡散に伴い、棚における収納部位置によって量的に
差のある状態で棚前面域の調整空気とともに各収納部へ
短絡的に吸入されて、その為に各収納部における棚前面
域からの吸入空気に質的な差が生じ、これらのことが原
因で、棚における収納部どうしで収納処理物の処理品質
にバラツキが生じる問題があった。
Further, in this situation, since the used adjusted air sucked from each storage section toward the rear side of the shelf by the suction fan is discharged into the storage, the used adjusted air is diffused in the storage after the release. In a state where there is a quantitative difference depending on the position of the storage section on the shelf, the air is short-circuited into each storage section together with the adjusted air in the front area of the shelf, so that the intake air from the front area of the shelf in each storage section is qualitative. As a result, there is a problem in that the processing quality of the storage processing object varies among the storage units in the shelves.

【0005】この実情に対し、本発明の主たる課題は、
導風構成を合理化することにより、全体として簡略なシ
ステム構成を採りながら上記の問題を効果的に解消する
点にある。
[0005] In view of this situation, the main problems of the present invention are:
By streamlining the wind guide configuration, the above problem is effectively solved while adopting a simple system configuration as a whole.

【0006】[0006]

【課題を解決するための手段】〔1〕請求項1記載の発
明では、棚の各収納部から吸引ファンにより棚背面側へ
吸引した空気を、還気導風路により空調手段へ導いて空
調手段で調整し、かつ、その還気導風路により導かれる
吸引空気の一部をバイパス風路により空調手段に対して
バイパスさせ、これら空調手段による調整空気とバイパ
ス風路によるバイパス空気との混合気を処理用調整空気
として給気導風路へ送出するから、吸引ファンによる各
収納部からの吸引空気(すなわち使用済の調整空気)が
庫内拡散により棚における収納部位置によって量的に差
のある状態で各収納部に短絡的に吸入されて各収納部の
吸入空気に質的な差が生じることを、還気導風路による
導風をもって確実に防止できる。
[1] According to the first aspect of the present invention, air suctioned from each storage section of the shelf to the rear side of the shelf by a suction fan is guided to air conditioning means by a return air guide passage to air-condition. Means, and a part of the suction air guided by the return air guide passage is bypassed to the air conditioning means by the bypass air passage, and the air adjusted by the air conditioning means and the bypass air by the bypass air passage are mixed. Since the air is sent out to the air supply duct as the conditioning air for processing, the suction air from the storage units by the suction fan (that is, the used adjusted air) is quantitatively different depending on the position of the storage unit on the shelf due to diffusion in the refrigerator. It is possible to reliably prevent the intake air in each of the storage sections from being qualitatively different by being short-circuited and sucked into each of the storage sections in a certain state with the return air guide path.

【0007】そして、バイパス風路によるバイパスによ
り給気導風路への送出風量を空調手段での許容通過風量
の制限を受けずに大きく確保した状態で、また、給気導
風路への混合状態での空気送出によりその送出空気を均
質化した状態で、空調手段による調整空気とバイパス風
路によるバイパス空気との混合気からなる均一で大きな
風量の処理用調整空気を、給気導風路から棚の前面域へ
拡散させる状態に吹き出し供給することができ、これら
のことから、従来システムに比べ、棚における収納部ど
うしで収納処理物の処理品質にバラツキが生じることを
効果的に防止できて、システムの処理物に対する均一処
理性を大きく向上できる。
[0007] Then, the air flow to the air supply / induction air passage is ensured by the bypass air flow path to be large without being limited by the allowable air flow amount in the air conditioning means. In a state where the delivered air is homogenized by air delivery in a state, a uniform and large air flow processing conditioning air consisting of a mixture of the conditioning air by the air conditioning means and the bypass air by the bypass air passage is supplied to the air supply air passage. Can be blown out and supplied to the front area of the shelves, which makes it possible to effectively prevent variations in the processing quality of stored products between storage units on the shelves compared to conventional systems. As a result, the uniform processing performance of the system with respect to the processed material can be greatly improved.

【0008】しかも、システムの基本構成として、空調
手段で調整した空気を給気導風路にから棚の前面域へ拡
散させる状態に吹き出し供給して、その調整空気を棚前
面域から棚の各収納部に吸入させる形式を採るから、棚
の各収納部に対し調整空気供給ダクトを個別に直接接続
する別形式に比べ、風路構成面でシステム構成を簡略に
することができて、システムコストを安価にすることが
できる。
Further, as a basic configuration of the system, the air adjusted by the air-conditioning means is blown out and supplied from the air supply duct to the front area of the shelf, and the adjusted air is supplied from the front area of the shelf to each of the shelves. Since the storage unit is inhaled, the system configuration can be simplified in terms of the air path compared to another type in which the adjusted air supply duct is directly connected individually to each storage unit on the shelf, and the system cost is reduced. Can be inexpensive.

【0009】〔2〕請求項2記載の発明では、棚におけ
る収納部の夫々から棚背面側に配備の吸引チャンバを介
して吸引ファンにより空気吸引する構成を採るにあた
り、これら吸引チャンバ及び吸引ファンを棚における収
納部の夫々に対し個別に配備して、これら個別の吸引チ
ャンバ及び吸引ファンにより収納部毎に独立に空気吸引
するから、これら収納部の通気抵抗(主に収納処理物に
よる通気抵抗)に多少の差があったとしても、その抵抗
差が原因で吸引ファンの吸引作用が通気抵抗の小さい収
納部の方に偏って集中作用する状態になって各収納部に
おける棚前面域からの調整空気通風量に大きな差が生じ
ることを効果的に抑止でき、これにより、システムの処
理物に対する均一処理性を一層効果的に向上できる。
[2] According to the second aspect of the present invention, in adopting a configuration in which air is suctioned from each of the storage sections of the shelf by a suction fan through a suction chamber provided on the rear side of the shelf, the suction chamber and the suction fan are separated from each other. Since the storage units on the shelves are individually provided and air is suctioned independently for each of the storage units by these individual suction chambers and suction fans, the airflow resistance of these storage units (mainly the airflow resistance due to the processed material). Even if there is some difference, the difference in resistance causes the suction action of the suction fan to concentrate on the storage section with low airflow resistance, and adjustment from the shelf front area in each storage section It is possible to effectively suppress a large difference in the amount of air flow, thereby more effectively improving the uniform processability of the system for processing.

【0010】〔3〕請求項3記載の発明では、吸引ファ
ンにより収納部の夫々から吸引した空気を還気導風路を
介して合流状態で受け入れる機械室を庫内に仕切形成す
るとともに、この機械室に前記空調手段として、その機
械室の室内気を調整する空調機を配備し、そして、この
構成において、機械室を前記空調手段に対する導風路と
前記バイパス風路とに兼用する状態で、この機械室の室
内気を給気導風路へ送出するから、空調手段に対する導
風路やバイパス風路を専用ダクトで形成するに比べ、風
路構成面でシステム構成を一層簡略にすることができ
る。
[3] According to the third aspect of the present invention, a machine room for receiving the air sucked from each of the storage portions by the suction fan in a merged state through the return air guide passage is formed in the compartment. In the machine room, an air conditioner for adjusting the room air of the machine room is provided as the air conditioner, and in this configuration, the machine room is used as both the air guide path for the air conditioner and the bypass air path. However, since the room air in the machine room is sent to the air supply and air introduction passage, the system configuration is further simplified in terms of the air passage configuration as compared with the case where the air passage and the bypass air passage for the air conditioning means are formed by dedicated ducts. Can be.

【0011】また、収納部の夫々から吸引ファンにより
吸引した空気を還気導風路を介し合流状態で機械室に受
け入れて処理するから、棚における複数の収納部に対し
て、空調手段としての配備空調機、及び、庫内仕切形成
の機械室を共用する形態になり、このことから、空調手
段の配備面や庫内における機械室の仕切形成面でもシス
テム構成を一層簡略にすることできて、システムコスト
をさらに安価し得るとともに、システムのメンテナンス
(特に空調機の点検保守)も容易にすることができる。
In addition, since the air sucked by the suction fan from each of the storage units is received and processed in the machine room in a merged state via the return air guide passage, the plurality of storage units on the shelf are provided as air conditioning means. The deployed air conditioner and the machine room for forming the partition in the refrigerator are shared, and this makes it possible to further simplify the system configuration also on the surface where the air-conditioning means is deployed and the partition surface of the machine room in the refrigerator. The system cost can be further reduced, and the maintenance of the system (particularly, the inspection and maintenance of the air conditioner) can be facilitated.

【0012】〔4〕請求項4記載の発明では、前記還気
導風路として、吸引ファンにより収納部の夫々から吸引
した空気を合流させる還気室を、前記機械室との隣接状
態で棚の背面側において庫内に仕切形成するとともに、
この還気室から機械室へ空気流入させる連通口を両室の
間の間仕切に形成し、そして、この連通口に、その連通
口における通過空気を浄化する空気浄化手段を配備する
から、収納部における収納処理物からの発塵等に対し、
この空気浄化手段による空気浄化をもって庫内環境を良
化できるとともに、機械室に配備した空調機の塵埃付着
等に原因するトラブルを効果的に防止できる。
[4] In the invention according to the fourth aspect, a return air chamber for joining air sucked from each of the storage sections by a suction fan by the suction fan is provided as a shelf in the state adjacent to the machine room. A partition is formed inside the refrigerator on the back side of the
A communication port for allowing air to flow from the return air chamber to the machine room is formed as a partition between the two chambers, and the communication port is provided with air purification means for purifying air passing through the communication port. For the generation of dust from stored products in
The air purification by the air purifying means can improve the environment inside the refrigerator, and can effectively prevent troubles caused by dust adhesion of an air conditioner disposed in the machine room.

【0013】また、吸引ファンにより収納部の夫々から
吸引した空気を合流させる還気室を棚背面側で庫内に仕
切形成して、この還気室から機械室へ連通口を介し吸引
空気を合流状態で流入させるから、棚の各収納部から個
別の吸引ファンにより空気吸引する構成において、これ
ら吸引ファンによる吸引空気をダクト構造等の個別の還
気導風路を介して機械室に導入するに比べ、風路構成面
でシステム構成をさらに簡略にすることができる。
[0013] A return air chamber, into which the air sucked from each of the storage sections is merged by the suction fan, is formed in a compartment on the rear side of the shelf, and the suction air is supplied from the return air chamber to the machine room through a communication port. Since the air flows in a merged state, the air sucked by the suction fans is introduced into the machine room through an individual return air duct such as a duct structure in a configuration in which the air is sucked from each storage section of the shelf by individual suction fans. As compared with the above, the system configuration can be further simplified in terms of the air path configuration.

【0014】〔5〕請求項5記載の発明では、前記連通
口として、床寄り箇所に形成した下部連通口と、天井寄
り箇所に形成した上部連通口とを設け、これら連通口の
うち下部連通口にのみ空気浄化手段を配備するから、こ
の空気浄化手段の必要処理風量を軽減して空気浄化手段
を小型なものですませながらも、還気室での塵埃落下を
利用した形態で下部連通口における空気浄化手段により
効率的に空気浄化でき、かつ、機械室への流入風量(す
なわち機械室と棚との間での循環風量)を上下の連通口
をもって大きく確保できる。
[5] In the invention according to claim 5, as the communication port, a lower communication port formed near the floor and an upper communication port formed near the ceiling are provided, and the lower communication port among these communication ports is provided. Since the air purifying means is provided only at the mouth, the required amount of air to be processed by the air purifying means is reduced and the air purifying means is made smaller, but the lower communication port is formed by utilizing the dust fall in the return air chamber. The air purifying means can efficiently purify the air, and a large amount of air flowing into the machine room (that is, the amount of circulating air between the machine room and the shelf) can be secured with the upper and lower communication ports.

【0015】〔6〕請求項6記載の発明では、前記還気
室への受け入れ空気の一部を庫外へ排出する排塵用の導
風路を設けるから、この排塵用導風路による空気排出に
伴う塵埃排出により、また、空気循環系中で塵埃濃度が
最も高くなる還気室からの効率的な塵埃排出により、さ
らにまた、この空気排出による庫内換気により、前記空
気浄化手段による空気浄化と相まって庫内環境を一層効
果的に良化できる。
[6] In the invention according to claim 6, since a dust guide path for discharging a part of the air received into the return air chamber to the outside of the refrigerator is provided, the dust guide path is used. Due to the dust discharge accompanying the air discharge, the efficient dust discharge from the return air chamber where the dust concentration becomes highest in the air circulation system, and further, the ventilation in the refrigerator by the air discharge, Combined with air purification, the interior environment can be more effectively improved.

【0016】〔7〕請求項7記載の発明では、処理物収
容コンテナの搬入搬出部と棚との間を移動して、収納部
の夫々に対する処理物収容コンテナの出し入れを自動的
に行う移送機を設けるから、この移送機をもって棚の収
納部の夫々に対するコンテナの出し入れを容易にかつ能
率的に行うことができ、また、この能率化によりシステ
ムの単位期間当たりの処理能力を高めることができる。
[7] In the invention according to claim 7, the transfer machine which moves between the loading / unloading section of the processing container and the shelf and automatically puts the processing container into and out of each of the storage sections. Is provided, it is possible to easily and efficiently transfer containers into and out of each of the shelves using the transfer device, and the efficiency can increase the processing capacity of the system per unit period.

【0017】なお、処理物収容コンテナの搬入部と搬出
部とは、互いに近接させて配置する形態、あるいは、互
いに離間させて配置する形態、あるいはまた、搬入部と
搬出部とを一つの搬入搬出兼用部で兼ねる形態のいずれ
の形態を採ってもよい。
The carrying-in portion and the carrying-out portion of the processing object storage container may be arranged so as to be close to each other, or may be arranged so as to be separated from each other. Any of the forms that also serve as the dual-purpose part may be adopted.

【0018】〔8〕請求項8記載の発明では、前記空調
手段を還気導風路により導かれる空気の除湿処理が可能
な構成にするから、この空調手段で除湿した空気を棚の
各収納部に通過させて収納処理物の乾燥処理を効率良く
行うことができ、そして、この乾燥処理において、前記
の如く高い均一処理性を発揮できることで処理物を均一
に乾燥処理することができる。
[8] In the invention as set forth in claim 8, since the air conditioning means is configured to be capable of dehumidifying the air guided by the return air guide passage, the air dehumidified by the air conditioning means is stored in each of the shelves. In this drying process, the processed product can be uniformly dried by being able to exhibit the high uniform processability as described above.

【0019】[0019]

〔9〕請求項9記載の発明では、外気を加
熱する空気加熱手段を設け、この空気加熱手段による加
熱外気と前記空調手段により除湿した空気と前記バイパ
ス風路によるバイパス空気との混合気を、処理用調整空
気として給気導風路へ送出するから、これら加熱外気と
除湿空気との混合により処理用調整空気を乾燥温暖空気
にして、この乾燥温暖空気により収納処理物の乾燥処理
を一層効率良く行うことができる。
[9] In the invention according to claim 9, air heating means for heating the outside air is provided, and a mixture of the outside air heated by the air heating means, the air dehumidified by the air conditioning means, and the bypass air by the bypass air passage, Since the processing air is sent out to the air supply and ventilation path as processing air, the heated air and dehumidified air are mixed to turn the processing air into dry warm air. Can do well.

【0020】また、外気を加熱して処理用調整空気に混
入するから、外気導入による庫内換気も合わせ実施でき
て庫内環境の良化機能も得ることができる。
In addition, since the outside air is heated and mixed with the processing air, the inside air can be ventilated by introducing the outside air, and a function of improving the inside environment can be obtained.

【0021】[0021]

【発明の実施の形態】図1〜図3は乾燥処理システムを
示し、1は処理庫、2は前面どうしを対向させて処理庫
1の庫内に配備した2基の処理棚、3は同じく前面どう
しを対向させて処理庫1の庫外に配備した2基の待機棚
であり、これら処理棚2及び待機棚3は夫々、棚前面視
で行列配置の複数の収納部2a,3aを備えている。
DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS FIGS. 1 to 3 show a drying processing system, wherein 1 is a processing cabinet, 2 is two processing shelves arranged in a processing cabinet 1 with their front faces facing each other, and 3 is the same. Two standby shelves are provided outside the processing cabinet 1 with their fronts facing each other. The processing shelf 2 and the standby shelf 3 each include a plurality of storage units 2a, 3a arranged in a matrix when viewed from the front of the shelf. ing.

【0022】4A,4Bは処理物W(例えば玉葱など)
を収容したコンテナ5の搬入部及び搬出部、6はその搬
入搬出部4A,4Bと処理庫1内の処理棚2との間を移
動して処理棚2の各収納部2aに対する処理物収容コン
テナ5の出し入れを自動的に行う移送機であり、処理棚
2と待機棚3とは、処理庫1の出入口1aを通る移送機
6の一連の移動経路を前面対向する棚2,3どうしの間
に直線的に形成するように棚巾方向に並べて配置し、こ
れにより、移送機6によるコンテナ移送を能率化する。
4A and 4B are processed products W (for example, onions)
The loading / unloading unit and the unloading unit 6 of the container 5 in which the container 5 is stored move between the loading / unloading units 4A and 4B and the processing shelf 2 in the processing cabinet 1, and the processing object storage container for each storage unit 2a of the processing shelf 2 The processing shelf 2 and the standby shelf 3 are used to transfer a series of moving paths of the transfer machine 6 passing through the entrance 1a of the processing chamber 1 between the shelves 2 and 3 facing each other. Are arranged side by side in the shelf width direction so as to be formed linearly, thereby efficiently transporting containers by the transporter 6.

【0023】処理物収容コンテナ5の出し入れ作業につ
いては、具体的には、処理棚2においてコンテナ収容処
理物Wの処理を行っている間に、移送機6を待機棚3と
搬入搬出部4A,4Bとの間で往復させて、処理棚2で
の先の処理の後に待機棚3の各収納部3aに預けてある
処理済コンテナ5を順次、移送機6により搬出部4Bへ
取り出すとともに、その順次取り出しにおける搬出部4
Bから待機棚3への移送機戻り移動の都度、搬入部4A
に搬入された未処理のコンテナ5を移送機6により待機
棚3へ運んで待機棚3の空き収納部3aに預ける入出荷
作業を自動的に実施する。
More specifically, with regard to the work of loading and unloading the processing object storage container 5, while the processing of the container storage processing object W is being performed in the processing shelf 2, the transfer device 6 is moved to the standby shelf 3 and the loading / unloading section 4A, 4B, the processed containers 5 deposited in the respective storage sections 3a of the standby shelf 3 after the previous processing on the processing shelf 2 are sequentially taken out to the unloading section 4B by the transfer device 6, and the Unloading unit 4 for sequential removal
Each time the transfer machine returns from B to the standby shelf 3, the loading section 4A
The unprocessed container 5 carried into the storage shelf 3 is automatically transferred to the standby shelf 3 by the transfer device 6 and deposited in the empty storage section 3a of the standby shelf 3 to automatically carry out the receiving and shipping operation.

【0024】そして、処理棚2でのコンテナ収容処理物
Wの処理が完了すると、移送機6を処理棚2と待機棚3
との間で往復させて、処理棚2の各収納部2aにおける
処理済コンテナ5を順次、移送機6により待機棚3へ運
んで待機棚3の空き収納部3aに預けるとともに、その
順次運搬における待機棚3から処理棚2への移送機戻り
移動の都度、先に待機棚3に預けてある未処理のコンテ
ナ5を移送機6により処理棚2へ運んで処理棚2の空き
収納部2aに収納する入出庫作業を自動的に実施し、こ
れら入出荷作業と入出庫作業を交互に繰り返し実施す
る。
When the processing of the container-accommodated product W on the processing shelf 2 is completed, the transfer device 6 is moved to the processing shelf 2 and the standby shelf 3.
The transported containers 5 in each storage section 2a of the processing shelf 2 are sequentially transported to the standby shelf 3 by the transfer device 6 and deposited in the empty storage section 3a of the standby shelf 3 while being moved back and forth. Each time the transfer device returns from the standby shelf 3 to the processing shelf 2, the unprocessed container 5 previously deposited in the standby shelf 3 is transported to the processing shelf 2 by the transfer device 6 and is transferred to the empty storage section 2 a of the processing shelf 2. The storage / reception work to be stored is automatically performed, and the storage / shipment work and the storage / reception work are alternately repeated.

【0025】処理棚2でのコンテナ収容処理物Wの処理
については、棚巾方向に並べて形成した複数の吹出口7
aから処理棚2どうしの間の移送機経路へ向けて調整空
気SAを吹き出すことで、各処理棚2の前面域(本例で
は処理棚2どうしの間の移送機移動空間)へ調整空気S
Aを拡散させる状態に供給する給気導風路としての給気
ダクト7を各処理棚2の下に配設し、また、各処理棚2
の収納部2aから棚背面側に配備の吸引チャンバ8を介
して吸引ファン9により空気吸引する構成として、これ
ら吸引チャンバ8及び吸引ファン9を各処理棚2におけ
る収納部2aの夫々に対し個別に配備し、これにより、
個別吸引ファン9の吸引作用により各処理棚2の収納部
2aに棚前面域から調整空気SAを吸入させて各収納部
2aに調整空気SAを強制通過させることで、これら収
納部2aにおける収納処理物W(すなわち収納コンテナ
5の収容処理物)を処理する。
The processing of the container-accommodated processed material W on the processing shelf 2 includes a plurality of outlets 7 formed side by side in the width direction of the shelf.
a, the conditioning air SA is blown out toward the transfer device path between the processing shelves 2 so that the adjustment air S flows to the front area of each processing shelf 2 (in this example, the transfer device moving space between the processing shelves 2).
An air supply duct 7 is provided below each processing shelf 2 as an air supply duct for supplying A in a diffused state.
The suction chamber 8 and the suction fan 9 are individually supplied to the storage sections 2a of the respective processing shelves 2 by suctioning air from the storage section 2a through the suction chamber 8 provided on the rear side of the shelf. Deploy, which allows
The suction operation of the individual suction fan 9 causes the storage section 2a of each processing shelf 2 to suck the adjusted air SA from the front surface area of the shelf and force the adjusted air SA to pass through each storage section 2a, so that the storage processing in these storage sections 2a is performed. The material W (that is, the processed material stored in the storage container 5) is processed.

【0026】処理庫1の庫内において各処理棚2の背面
側には、対応処理棚2の各収納部2aから個別の吸引チ
ャンバ8及び吸引ファン9により吸引した空気RAを受
け入れて合流させる還気導風路としての還気室10と、
さらにその外側に配置して還気室10から連通口11,
12を介し空気流入させる機械室13とを間仕切14,
15により仕切形成し、各機械室13には空調手段とし
て機械室13の室内気を除湿処理する除湿機16,17
を配備してある。
On the back side of each processing shelf 2 in the processing cabinet 1, the air RA sucked by the individual suction chamber 8 and the suction fan 9 from each storage section 2 a of the corresponding processing shelf 2 is received and merged. A return air chamber 10 as an air guide passage,
Further, it is arranged outside the air return chamber 10 to the communication port 11,
A machine room 13 through which air flows in through a partition 12,
And dehumidifiers 16 and 17 for dehumidifying room air in the machine room 13 as air conditioning means in each machine room 13.
Has been deployed.

【0027】また、処理庫1の庫外には、外気を加熱し
てその加熱外気OAを温風ダクト18により各機械室1
3へ各別に供給する空気加熱手段としての2基の燃焼式
温風機19を配備してあり、この空調構成において、各
機械室13の室内気を処理用調整空気SAとして各機械
室13の一端部から給気ファン20により各給気ダクト
7へ各別に送出することで、処理棚2の各収納部2aに
おける収納処理物Wを前記の如き処理形態をもって乾燥
処理する。
Outside the processing chamber 1, outside air is heated and the heated outside air OA is supplied to each machine room 1 by a hot air duct 18.
In this air-conditioning configuration, the room air in each machine room 13 is used as processing-adjusted air SA and one end of each machine room 13 is provided. By sending the air to the respective air supply ducts 7 by the air supply fan 20 from the section, the stored processed products W in the respective storage sections 2a of the processing shelf 2 are dried in the above-described processing mode.

【0028】すなわち、基本的には、処理棚2の各収納
部2aから個別の吸引チャンバ8及び吸引ファン9によ
り吸引した空気RA(すなわち使用済の調整空気)を還
気導風路としての還気室10を介し合流状態で機械室1
3へ導いて、空調手段としての除湿機16,17により
調整し、この調整空気SAを給気導風路としての給気ダ
クト7へ送出する構成にしてある。
That is, basically, the air RA (ie, used adjusted air) sucked from the respective storage sections 2a of the processing shelf 2 by the individual suction chambers 8 and the suction fans 9 is returned as a return air guide passage. Machine room 1 in a merged state via air chamber 10
3, the air is adjusted by dehumidifiers 16 and 17 as air conditioning means, and the adjusted air SA is sent to an air supply duct 7 as an air supply and air flow path.

【0029】そして、この処理システムでは、個別の吸
引チャンバ8及び吸引ファン9による吸引空気RAを還
気導風路としての還気室10を介し合流状態で機械室1
3へ導くのに対し、この機械室13を、空調手段として
の除湿機16,17へ還気室10からの導入空気RAを
導く導風路13Aと、それら除湿機16,17に対し還
気室10からの導入空気RAの一部をバイパスさせるバ
イパス風路13Bとに兼用し、かつ、空気加熱手段とし
ての燃焼式温風機19から供給される加熱外気OAの混
合室に兼用する形態で、除湿機16,17により除湿処
理した空気とバイパス風路13Bによるバイパス空気と
燃焼式温風機19による加熱外気OAとの混合気を、処
理用調整空気SAとして給気導風路としての給気ダクト
7へ送出する構成にしてある。
In this processing system, the suction air RA from the individual suction chambers 8 and the suction fans 9 is merged through the return air chamber 10 as a return air guide passage in the machine room 1.
In contrast to this, the machine room 13 is provided with an air guide path 13A for introducing the air RA introduced from the return air chamber 10 to dehumidifiers 16 and 17 as air conditioning means, and a return air is supplied to the dehumidifiers 16 and 17. In a form used also as a bypass air passage 13B for bypassing a part of the introduced air RA from the chamber 10, and also used as a mixing chamber of the heated outside air OA supplied from a combustion type hot air blower 19 as air heating means, A mixture of the air dehumidified by the dehumidifiers 16 and 17, the bypass air by the bypass air passage 13 B, and the heated outside air OA by the combustion type hot air fan 19 is supplied as an air supply duct as a supply air guide passage as a processing adjustment air SA. 7 is transmitted.

【0030】除湿機については、室外機不要の一体型除
湿機16、及び、庫外に配置した室外機17aとの冷媒
配管接続が必要なセパレート型除湿機17の2種を機械
室13に配備してあり、一体型除湿機16では、機体周
辺から機内に取り入れた空気を冷媒蒸発コイルにより冷
却除湿し、これに続き、その冷却除湿空気を冷媒凝縮コ
イルにより再熱して機外へ送出する。一方、セパレート
型除湿機17では、機体周辺から機内(室内機)に取り
入れた空気を冷媒蒸発コイルにより冷却除湿し、これに
続き、その冷却除湿空気を冷媒凝縮コイルにより再熱し
て機外へ送出することにおいて、室外機17aの冷媒凝
縮コイルによる庫外へ放熱量を調整することで再熱量の
調整が可能になっている。
Two types of dehumidifiers are provided in the machine room 13, an integrated dehumidifier 16 which does not require an outdoor unit, and a separate type dehumidifier 17 which requires a refrigerant pipe connection to an outdoor unit 17a disposed outside the refrigerator. The integrated dehumidifier 16 cools and dehumidifies the air taken into the machine from the periphery of the machine by a refrigerant evaporating coil, and subsequently reheats the cooled dehumidified air by a refrigerant condensing coil and sends it out of the machine. On the other hand, in the separate type dehumidifier 17, the air taken into the inside of the machine (indoor unit) from the periphery of the machine is cooled and dehumidified by the refrigerant evaporation coil, and subsequently, the cooled dehumidified air is reheated by the refrigerant condensing coil and sent out of the machine. In doing so, it is possible to adjust the amount of reheat by adjusting the amount of heat released to the outside by the refrigerant condensing coil of the outdoor unit 17a.

【0031】還気室10から機械室13への空気流入に
ついて、それら還気室10と機械室13との間の間仕切
14には、床近傍箇所に形成の下部連通口11と天井近
傍箇所に形成の上部連通口12とを設けてあり、そし
て、下部連通口11には、その下部連通口11における
通過空気RAを浄化する空気浄化手段としてオートロー
ル式の除塵フィルタ21を配備し、また、上部連通口1
2には、吸引ファン9及び給気ファン20とともに空気
循環用ファンとして機能させる連通口ファン22を配備
してある。
With respect to the inflow of air from the return air chamber 10 to the machine room 13, the partition 14 between the return air chamber 10 and the machine room 13 has a lower communication port 11 formed near the floor and a lower communication port 11 near the ceiling. The upper communication port 12 is formed, and the lower communication port 11 is provided with an auto-roll type dust filter 21 as air purification means for purifying the passing air RA in the lower communication port 11. Upper communication port 1
2, a communication port fan 22 that functions as an air circulation fan together with the suction fan 9 and the air supply fan 20 is provided.

【0032】つまり、この連通口構成により、空気浄化
手段としてのオートロール式除塵フィルタ21の必要処
理風量を軽減しながらも、還気室10での塵埃降下を利
用して機械室13への流入空気RAに対する除塵処理を
効率良く行い、かつ、上下の連通口11,12をもって
機械室13への流入風量(すなわち機械室13と棚2と
の間での循環風量)を大きく確保する。
In other words, this communication port structure reduces the required processing air volume of the auto-roll type dust removing filter 21 as the air purifying means, while flowing into the machine room 13 by utilizing the dust fall in the return air chamber 10. The dust removal processing for the air RA is performed efficiently, and the flow rate of the air flowing into the machine room 13 (that is, the circulating air flow between the machine room 13 and the shelf 2) is ensured by the upper and lower communication ports 11 and 12.

【0033】また、各還気室10の受け入れ空気RAの
一部は、庫内換気を兼ねて、排塵用導風路としての排気
ダクト23を通じ排気ファン24により処理庫1の庫外
へ排出するようにし、この排気と前記除塵フィルタ21
による除塵とをもって、収納処理物Wからの発塵に対し
処理庫1の庫内塵埃濃度を許容レベルに保つ。
Further, a part of the received air RA in each return air chamber 10 is discharged to the outside of the processing chamber 1 by an exhaust fan 24 through an exhaust duct 23 serving as a dust exhaust passage, also serving as ventilation in the chamber. This exhaust and the dust filter 21
The dust concentration in the processing chamber 1 is kept at an allowable level with respect to the generation of dust from the stored processing object W.

【0034】処理物Wを集積状態で収容するコンテナ5
は、調整空気SAを内部通過させるように前面と背面の
2面(場合によっては両横面を含む4面、さらにまた、
場合によっては底面を含む5面)を網状体で形成した通
気構造にしてあり、一方、各処理棚2においては、図4
及び図5に示す如く、棚前面域から収納部2aに吸入し
た調整空気SAが隣の収納部2aへ移流することを防止
する為に、上下左右に隣合う収納部2aどうしを遮風壁
25,26により仕切ってある。
Container 5 for accommodating processed materials W in an accumulated state
Is a front surface and a rear surface (in some cases, four surfaces including both lateral surfaces, and furthermore,
In some cases, five surfaces including the bottom surface) are formed in a ventilation structure formed of a net-like body.
As shown in FIG. 5, in order to prevent the adjusted air SA sucked into the storage section 2a from the shelf front area from flowing to the adjacent storage section 2a, the storage sections 2a adjacent vertically and horizontally are separated from each other by the wind shield wall 25. , 26.

【0035】また、吸入調整空気SAが収納コンテナ5
の周囲を迂回する状態でコンテナ背面部と吸引チャンバ
8の口縁との間の隙間から吸引チャンバ8に吸引される
ことを防止する為に、コンテナ5を収納部2aに収納し
た状態で上記隙間を塞ぐシール手段として、コンテナ5
の収納に伴いコンテナ5の背面部を当接させてコンテナ
背面部と吸引チャンバ8の口縁との間を弾性により気密
にするゴム製などの弾性パッキン27を吸引チャンバ8
の口縁部に貼設してある。
In addition, the suction adjusted air SA is stored in the storage container 5.
In order to prevent the suction chamber 8 from being sucked into the suction chamber 8 from the gap between the back surface of the container and the edge of the suction chamber 8 while bypassing the periphery of the container 5, the above-mentioned gap is stored in the storage section 2 a. Container 5 as a sealing means for closing
The elastic packing 27 made of rubber or the like is brought into contact with the rear part of the container 5 to make the space between the container rear part and the edge of the suction chamber 8 elastically airtight.
It is stuck on the rim of the.

【0036】さらにまた、各収納棚2の前面には、各収
納部2aの前面開口部を閉じる開閉自在なカーテン状体
28を設け、そして、このカーテン状体28には、コン
テナ5を各収納部2aに収納してカーテン状体28を閉
じた状態において各コンテナ5の前面部に対向位置させ
る多孔構造の通気口29を形成し、これにより、カーテ
ン状体28を閉じた状態において棚前面域の調整空気S
Aを各収納コンテナ5の前面部に集中させるように上記
通気口29から各収納部2aへ吸入する。
Further, on the front surface of each storage shelf 2, there is provided a curtain-like body 28 which can be opened and closed to close the front opening of each storage portion 2a. A vent hole 29 having a porous structure is formed so as to be opposed to the front part of each container 5 when the curtain-shaped body 28 is closed in a state where the curtain-shaped body 28 is closed. Adjustment air S
A is sucked into each storage section 2a from the vent hole 29 so that A is concentrated on the front surface of each storage container 5.

【0037】つまり、調整空気SAの強制通風により高
い処理能率を確保しながらも、これら遮風壁25,2
6、弾性パッキン27、通気口形成カーテン状体28の
機能により、各収納部2aに対する吸引チャンバ8及び
吸引ファン9の個別配備と相まって、また、還気室10
による導風で使用済調整空気RAの庫内拡散を阻止する
ことと相まって、処理棚1における収納処理物Wを均一
に処理できるようにしてある。
That is, while the high processing efficiency is ensured by the forced ventilation of the conditioned air SA, the air shielding walls 25, 2
6, the function of the elastic packing 27 and the curtain-shaped body 28 forming the vent hole, coupled with the individual arrangement of the suction chamber 8 and the suction fan 9 for each storage portion 2a,
In addition to preventing the used adjusted air RA from diffusing in the refrigerator by the airflow, the processing object W stored in the processing shelf 1 can be uniformly processed.

【0038】カーテン状体28については、図6に示す
如く、その閉じ状態において棚前面部の全面にわたらせ
る主体シート材28a(通気口29を形成したシート
材)に上下適当間隔で横向き芯材30を取り付け、そし
て、開閉操作用の索具31を各芯材30に付設の案内環
32に通して最下端の芯材30に連結した構造にし、こ
の索具31を処理棚上部の動力巻取機33により上方へ
巻き取ることで、図6(ロ)に示す如く、カーテン状体
28を芯材間が折目部となる折り畳み状態に開いて、そ
の折り畳み状態で処理棚2の上端部に格納し、この開き
状態において処理棚2の各収納部2aに対する処理物収
容コンテン5の出し入れ作業を行うようにしてある。
As shown in FIG. 6, the curtain-like member 28 is provided with a main sheet member 28a (a sheet member having a vent hole 29) extending over the entire front surface of the shelf in the closed state and a horizontal core member at appropriate intervals in the vertical direction. Then, a cable 31 for opening and closing operation is connected to the lowermost core member 30 through a guide ring 32 attached to each core member 30. As shown in FIG. 6 (b), the curtain-shaped body 28 is opened in a folded state in which the core material becomes a fold, and the upper end of the processing shelf 2 is folded in the folded state. In this open state, the processing object storage content 5 is inserted into and removed from each storage section 2a of the processing shelf 2.

【0039】また、各吸引チャンバ8及び吸引ファン9
による吸引空気RAは、各吸引ファン9の吐出側に接続
のエルボダクト34により下向きで還気室10の室内へ
吐出させ、これにより、吐出風による間仕切14のバタ
ツキを防止するとともに、吐出風に含まれる塵埃の舞い
上がり抑制する。
Each suction chamber 8 and suction fan 9
Is discharged downward into the return air chamber 10 by the elbow duct 34 connected to the discharge side of each suction fan 9, thereby preventing the partition 14 from flapping due to the discharge air and being included in the discharge air. Suppress the rising dust.

【0040】〔別の実施形態〕次に別の実施形態を列記
する。
[Another Embodiment] Next, another embodiment will be described.

【0041】棚前面域へ調整空気SAを拡散させる状態
に吹き出し供給する給気導風路は、前述の実施形態の如
きダクト構造(給気ダクト7)に代えてチャンバ構造に
してもよく、また、対応する棚2の下部に配置するに代
え、対応棚2の側部や上部あるいは対応棚2の上下中間
部や対応棚2の前面対向箇所に配置するなどしてもよ
い。さらにまた、調整空気SAを吹き出す吹出口7aの
口数や形状・構造も種々の構成変更が可能である。
The air supply airflow path that blows out and supplies the adjusted air SA to the front surface area of the shelf may be a chamber structure instead of the duct structure (air supply duct 7) as in the above-described embodiment. Instead of being arranged at the lower part of the corresponding shelf 2, it may be arranged at the side or upper part of the corresponding shelf 2, the upper and lower middle part of the corresponding shelf 2, or the front facing portion of the corresponding shelf 2. Furthermore, the number, shape, and structure of the outlet 7a that blows out the adjusted air SA can be variously changed.

【0042】吸引ファン9による吸引空気RAを空調手
段に導く還気導風路は、前述の実施形態の如き仕切室構
造(還気室10)に代え、場合によってはダクト構造や
ボックスチャンバ構造にしてもよい。
The return air guide path for guiding the suction air RA by the suction fan 9 to the air conditioning means may be replaced with the partition chamber structure (return air chamber 10) as in the above-described embodiment, and may be replaced with a duct structure or a box chamber structure in some cases. You may.

【0043】還気導風路により導かれる吸引空気RAを
空調手段に通過させる導風路や、還気導風路により導か
れる吸引空気RAの一部を空調手段に対してバイパスさ
せるバイパス風路は、前述の実施形態の如く庫内に仕切
形成した機械室13をこれら空調手段用導風路及びバイ
パス風路に兼用する構成に代え、場合によっては専用ダ
クト構造にしてもよい。
An air guide passage for passing the suction air RA guided by the return air guide passage to the air conditioner, and a bypass air passage for bypassing a part of the suction air RA guided by the return air guide passage to the air conditioner. Instead of the configuration in which the machine room 13 partitioned and formed in the storage as in the above-described embodiment is used also as the airflow passage for the air conditioning means and the bypass airflow, a dedicated duct structure may be used in some cases.

【0044】前述の実施形態の如き還気室10及び機械
室13を庫内に仕切形成する場合、棚背面側に形成する
還気室10と機械室13との相対的配置関係は種々の構
成変更が可能であり、例えば、図7に示す如く、2基の
処理棚2の背面側夫々に還気室10を形成するのに対
し、これら処理棚2の棚巾方向一端側において一つの機
械室13を両還気室10にわたらせる状態に形成しても
よい。
When the return air chamber 10 and the machine room 13 are partitioned and formed in the storage as in the above-described embodiment, the relative arrangement relationship between the return air chamber 10 and the machine room 13 formed on the back side of the shelf is variously configured. For example, as shown in FIG. 7, a return air chamber 10 is formed on each of the back sides of the two processing shelves 2, whereas one machine is provided at one end of the processing shelves 2 in the shelf width direction. The chamber 13 may be formed so as to extend over both return air chambers 10.

【0045】還気室10から機械室13へ空気流入させ
る連通口に空気浄化手段を配備する場合、その空気浄化
手段には、除塵フィルタ21に限らず電気集塵機など種
々の浄化方式のものを採用でき、また、還気室10から
機械室13への流入空気RAのうちの一部のみを空気浄
化手段により浄化するに代え、機械室13への流入空気
RAの全量を空気浄化手段により浄化してもよい。
In the case where air purifying means is provided at a communication port through which air flows from the return air chamber 10 into the machine chamber 13, not only the dust filter 21 but also various purifying methods such as an electric dust collector are employed as the air purifying means. In addition, instead of purifying only a part of the air RA flowing into the machine room 13 from the return air chamber 10 by the air purifying means, the entire amount of the air RA flowing into the machine chamber 13 is purified by the air purifying means. You may.

【0046】個別の吸引チャンバ8及び吸引ファン9に
より処理棚2の各収納部2aにおける収納コンテナ5
(処理物Wを収容したコンテナ)の内部にコンテナ前面
側から調整空気SAを強制通過させるのに、これらコン
テナ5における収容処理物群の上面部をシート材や板材
などからなる落とし蓋的な遮風手段で覆い、これによ
り、コンテナ内部へのコンテナ前面部からの調整空気吸
入を一層的確にして処理の一層の効率化を図ってもよ
い。
The storage containers 5 in the respective storage sections 2 a of the processing shelf 2 are operated by the individual suction chambers 8 and the suction fans 9.
In order to force the regulated air SA to pass through the inside of the container (container containing the processed product W) from the front side of the container, the upper surface of the group of stored processed products in the container 5 is formed by a dropping cover made of a sheet material, a plate material, or the like. It may be covered with a wind means, so that the regulated air can be more appropriately sucked into the container from the front surface of the container, and the processing efficiency can be further improved.

【0047】また、吸引チャンバ8を収納コンテナ5の
背面部のほぼ全面に対して空気吸引機能させるに代え、
収納コンテナ5の背面部のうち上縁から下方へある程度
の寸法の間の部分に対しては吸引チャンバ8を吸引機能
させない構造にし、これにより、コンテナ5における処
理物Wの収容量が少なくてコンテナ内部で収容処理物群
の上方に空きスペースが生じるような場合でも、この空
きスペースを介して調整空気SAが短絡的に吸引チャン
バ8に吸引されることを防止して、処理物Wの効率的か
つ均一な処理を維持できるようにしてもよい。
Further, instead of causing the suction chamber 8 to function as an air suction for almost the entire back surface of the storage container 5,
The suction chamber 8 is made not to function as a suction function for a portion of the back surface of the storage container 5 between the upper edge and a certain dimension downward, thereby reducing the amount of the processed material W stored in the container 5 and Even in the case where an empty space is generated inside the group of processed objects inside, the adjusted air SA is prevented from being short-circuited and sucked into the suction chamber 8 via the empty space, so that the processed object W can be efficiently stored. In addition, uniform processing may be maintained.

【0048】処理物Wは玉葱や馬鈴薯、あるいは果実、
あるいはまた海草類や魚介類など、どのような農水産物
であってもよく、また、処理物Wの処理内容も乾燥に限
定されるものではなく、冷却や加熱あるいは加湿、ある
いはまた、それらの組み合わせであってもよい。そし
て、還気導風路により導かれる吸引空気RAを調整する
空調手段、また、その空調手段として機械室13に配備
する空調機は、除湿機に限らず、空気冷却機や空気加熱
機あるいは加湿機、あるいはまた、それらの組み合わせ
等、処理物Wの処理内容に応じて選定すればよい。
The processed product W is onion, potato, fruit,
Alternatively, any agricultural or marine product such as seaweed or seafood may be used, and the processing content of the processed material W is not limited to drying, but may be cooling, heating, humidifying, or a combination thereof. There may be. The air-conditioning means for adjusting the suction air RA guided by the return air guide passage and the air-conditioner provided in the machine room 13 as the air-conditioning means are not limited to dehumidifiers, but may be air coolers, air heaters, or humidifiers. What is necessary is just to select according to the processing content of the processing object W, such as a machine or a combination thereof.

【0049】その他、各請求項に記載の発明の実施にあ
たっては、各請求項に記載の範囲内において、構造面及
び方式面で種々の構成変更が可能である。
In carrying out the invention described in each claim, various structural changes can be made in terms of structure and method within the scope of each claim.

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

【図1】平面図FIG. 1 is a plan view

【図2】側面図FIG. 2 is a side view

【図3】正面図FIG. 3 is a front view

【図4】収納部の側面図FIG. 4 is a side view of a storage unit.

【図5】収納部の正面図FIG. 5 is a front view of a storage unit.

【図6】カーテン状体の開閉構造を示す棚側面図FIG. 6 is a side view of the shelf showing the opening / closing structure of the curtain.

【図7】別実施形態を示す平面図FIG. 7 is a plan view showing another embodiment.

【符号の説明】[Explanation of symbols]

2 棚 2a 収納部 4A,4B 搬入搬出部 6 移送機 7 給気導風路 8 吸引チャンバ 9 吸引ファン 10 還気導風路,還気室 11 連通口,下部連通口 12 連通口,上部連通口 13 機械室 16,17 空調手段,空調機 19 空気加熱手段 21 空気浄化手段 23 排塵用導風路 OA 加熱外気 SA 調整空気 RA 吸引空気 W 処理物 2 Shelf 2a Storage section 4A, 4B Carry-in / out section 6 Transfer machine 7 Supply air guide path 8 Suction chamber 9 Suction fan 10 Return air guide path, return air chamber 11 Communication port, lower communication port 12 Communication port, upper communication port Reference Signs List 13 machine room 16, 17 air-conditioning means, air conditioner 19 air heating means 21 air purification means 23 air exhaust duct OA heated outside air SA conditioned air RA suction air W

Claims (9)

【特許請求の範囲】[Claims] 【請求項1】 庫内において複数の収納部を有する棚の
前面域へ調整空気を給気導風路から拡散させる状態に吹
き出し供給し、かつ、前記収納部の夫々から棚背面側へ
吸引ファンにより空気吸引することで、前記収納部の夫
々に調整空気を通過させてそれら収納部の収納処理物を
処理する農水産物処理システムであって、 前記吸引ファンにより前記収納部の夫々から吸引した空
気を還気導風路により空調手段へ導いてその空調手段で
調整し、かつ、前記還気導風路により導かれる吸引空気
の一部をバイパス風路により前記空調手段に対してバイ
パスさせ、これら空調手段による調整空気とバイパス風
路によるバイパス空気との混合気を処理用調整空気とし
て前記給気導風路へ送出する構成にしてある農水産物処
理システム。
1. An air blower which blows out and supplies regulated air to a front area of a shelf having a plurality of storage sections in a refrigerator in a state of being diffused from an air supply and air guide path, and a suction fan from each of the storage sections to the rear side of the shelf. Agricultural and marine products processing system for processing the stored products in the storage sections by passing the adjusted air through each of the storage sections by sucking the air, wherein the air sucked from each of the storage sections by the suction fan. Is guided to the air conditioning means by the return air guide passage, and adjusted by the air conditioning means, and a part of the suction air guided by the return air guide passage is bypassed to the air conditioning means by the bypass air passage. An agricultural and marine product processing system configured to send a mixture of the conditioned air from the air conditioning unit and the bypass air from the bypass air path to the supply air guide path as processing air.
【請求項2】 前記収納部の夫々から棚背面側に配備の
吸引チャンバを介して前記吸引ファンにより空気吸引す
る構成において、これら吸引チャンバ及び吸引ファンを
前記収納部の夫々に対して個別に配備してある請求項1
記載の農水産物処理システム。
2. A configuration in which air is suctioned from each of said storage units by said suction fan via suction chambers provided on the back side of a shelf, wherein said suction chamber and said suction fan are separately provided for each of said storage units. Claim 1
Agricultural and marine product processing system as described.
【請求項3】 前記吸引ファンにより前記収納部の夫々
から吸引した空気を前記還気導風路を介して合流状態で
受け入れる機械室を庫内に仕切形成し、 この機械室に前記空調手段として、その機械室の室内気
を調整する空調機を配備し、 この機械室を前記空調手段に対する導風路と前記バイパ
ス風路とに兼用する状態で、この機械室の室内気を前記
給気導風路へ送出する構成にしてある請求項1又は2記
載の農水産物処理システム。
3. A machine room for receiving the air sucked from each of the storage portions by the suction fan in a merged state through the return air guide passage is formed in a compartment, and the machine room serves as the air conditioning means. An air conditioner for adjusting the room air in the machine room is provided, and the room air in the machine room is supplied to the air supply / conduction system in a state where the machine room is also used as an air guide path for the air conditioning means and the bypass air path. The agricultural and marine product treatment system according to claim 1 or 2, wherein the system is configured to send out to an air passage.
【請求項4】 前記還気導風路として、前記吸引ファン
により前記収納部の夫々から吸引した空気を合流させる
還気室を、前記機械室との隣接状態で前記棚の背面側に
おいて庫内に仕切形成するとともに、 この還気室から前記機械室へ空気流入させる連通口を両
室の間の間仕切に形成し、 この連通口に、その連通口における通過空気を浄化する
空気浄化手段を配備してある請求項3記載の農水産物処
理システム。
4. A return air chamber, in which air sucked from each of the storage sections by the suction fan is merged, as a return air guide air passage, is provided in a refrigerator on a rear side of the shelf adjacent to the machine room. And a communication port for allowing air to flow from the return air chamber to the machine chamber is formed as a partition between the two chambers, and an air purification means for purifying air passing through the communication port is provided in the communication port. The agricultural and marine product treatment system according to claim 3, wherein the system is provided.
【請求項5】 前記連通口として、床寄り箇所に形成し
た下部連通口と、天井寄り箇所に形成した上部連通口と
を設け、 これら連通口のうち前記下部連通口にのみ前記空気浄化
手段を配備してある請求項4記載の農水産物処理システ
ム。
5. A communication port comprising: a lower communication port formed at a location closer to the floor; and an upper communication port formed at a location closer to the ceiling, wherein the air purifying means is provided only at the lower communication port among the communication ports. The agricultural and marine product processing system according to claim 4, which is provided.
【請求項6】 前記還気室への受け入れ空気の一部を庫
外へ排出する排塵用の導風路を設けてある請求項4又は
5記載の農水産物処理システム。
6. The agricultural and marine product treatment system according to claim 4, further comprising a dust guide path for discharging a part of the air received into the return air chamber to the outside of the refrigerator.
【請求項7】 処理物収容コンテナの搬入搬出部と前記
棚との間を移動して、前記収納部の夫々に対する処理物
収容コンテナの出し入れを自動的に行う移送機を設けて
ある請求項1〜6のいずれか1項に記載の農水産物処理
システム。
7. A transfer machine is provided for moving between a loading / unloading section of a processing object storage container and the shelf and automatically moving a processing object storage container into and out of each of the storage sections. The agricultural and marine product processing system according to any one of claims 6 to 6.
【請求項8】 前記空調手段を、前記還気導風路により
導かれる空気の除湿処理が可能な構成にしてある請求項
1〜7のいずれか1項に記載の農水産物処理システム。
8. The agricultural and marine product processing system according to claim 1, wherein the air-conditioning unit is configured to be capable of dehumidifying the air guided by the return air guide passage.
【請求項9】 外気を加熱する空気加熱手段を設け、 この空気加熱手段による加熱外気と前記空調手段により
除湿した空気と前記バイパス風路によるバイパス空気と
の混合気を、処理用調整空気として前記給気導風路へ送
出する構成にしてある請求項8記載の農水産物処理シス
テム。
9. An air heating means for heating the outside air, wherein a mixture of the outside air heated by the air heating means, the air dehumidified by the air conditioning means, and the bypass air by the bypass air passage is used as the processing adjustment air. 9. The agricultural and marine product processing system according to claim 8, wherein the system is configured to send out the air to the air supply and ventilation passage.
JP30384397A 1997-11-06 1997-11-06 Agriculture and marine products processing system Expired - Fee Related JP3596655B2 (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
JP30384397A JP3596655B2 (en) 1997-11-06 1997-11-06 Agriculture and marine products processing system

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
JP30384397A JP3596655B2 (en) 1997-11-06 1997-11-06 Agriculture and marine products processing system

Publications (2)

Publication Number Publication Date
JPH11137070A true JPH11137070A (en) 1999-05-25
JP3596655B2 JP3596655B2 (en) 2004-12-02

Family

ID=17925980

Family Applications (1)

Application Number Title Priority Date Filing Date
JP30384397A Expired - Fee Related JP3596655B2 (en) 1997-11-06 1997-11-06 Agriculture and marine products processing system

Country Status (1)

Country Link
JP (1) JP3596655B2 (en)

Also Published As

Publication number Publication date
JP3596655B2 (en) 2004-12-02

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