JP2007228907A - Device for removing fine noxious insect attaching to fruit - Google Patents

Device for removing fine noxious insect attaching to fruit Download PDF

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JP2007228907A
JP2007228907A JP2006056213A JP2006056213A JP2007228907A JP 2007228907 A JP2007228907 A JP 2007228907A JP 2006056213 A JP2006056213 A JP 2006056213A JP 2006056213 A JP2006056213 A JP 2006056213A JP 2007228907 A JP2007228907 A JP 2007228907A
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fruit
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fluid
pests
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JP4724846B2 (en
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Masahiro Miyazaki
昌宏 宮崎
Hidefumi Saito
秀文 齋藤
Kunio Tateishi
邦夫 建石
Toyoji Takatsuji
豊二 高辻
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National Agriculture and Food Research Organization
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Abstract

<P>PROBLEM TO BE SOLVED: To aim at the smooth promotion of exportation of domestic fruits by simply and surely removing fine noxious insects such as red spider mites attached to the fruits for exportation, before quarantine. <P>SOLUTION: This device for removing the fine noxious insects is equipped with a 2-fluid mix-ejecting nozzles 1A, 1B, 1C for spot-ejecting a mixed flow by mixing air with water by an energy capable of removing the fine noxious insects, to one part of the specific position F1 of the fruit F, a fruit-supporting means 2 for supporting the fruit so that the specific position F1 of the fruit F opposes to the ejecting direction of the 2-fluid mix-ejecting nozzles 1A to 1C and a movable means 3 for moving the fruit-supporting means 2 in one direction, and separately arranging a multiple number of 2-fluid mix-ejecting nozzles 1A to 1C so that the spot ejection of the mixed flow hits over the whole necessary area of treatment of the specific position F1 corresponding to the movement of the fruit F by the action of the movable means 3. <P>COPYRIGHT: (C)2007,JPO&INPIT

Description

本発明は、リンゴや梨等の果実に付着したハダニ等の微小害虫を除去する装置に関するものである。   The present invention relates to an apparatus for removing micro pests such as spider mites adhering to fruits such as apples and pears.

近年、日本産果実の海外輸出が増加傾向にある中で、果実に付着したハダニ等の微小害虫が輸出先の植物検疫で見つかり、検査不合格になって輸入が差し止められる問題が生じている。特に、日本産のリンゴや二十世紀梨等の果実は、経済発展が続くアジア諸国で高級品として高い消費ニーズがあり、我が国農産物の大幅な輸出増加に寄与するものとして期待されているが、これらの果実には、「ていあ部」或いは「こうあ部」と呼ばれる凹部があり、その凹部にハダニ等の微小害虫が付き易く、また、このような凹部に付着した微小害虫は除去することが難しいという問題がある。   In recent years, overseas exports of Japanese fruits have been on the rise, and there has been a problem that micro-pests such as spider mites adhering to fruits have been found in the plant quarantine at the export destination and the import has been suspended due to failure of the inspection. In particular, fruits such as Japanese apples and 20th century pears have high consumer needs as luxury goods in Asian countries where economic development continues and are expected to contribute to a significant increase in exports of Japanese agricultural products. These fruits have recesses called “deers” or “swells”, and micro-insects such as spider mites are easily attached to these recesses, and the micro-insects attached to these recesses should be removed. There is a problem that is difficult.

果実に微小害虫が付かないようにするためには、栽培中に薬剤散布等の防除を行うか、収穫後に駆除処理を行うことが必要になるが、前述したハダニ類は、成虫の体長が0.5mm前後で卵の大きさが0.1mm前後と小さいため、これを栽培中の薬剤散布で完全に除去しようとすると、丁寧で且つ複数回の散布作業が必要となり、多大な作業労力を要することになる。しかも、ハダニ類は薬剤抵抗性が付き易いため、栽培現場では散布回数の制限が設けられており、栽培中の防除のみで完全に果実に付着する微小害虫を駆除することはできない現状にある。このため、有効な収穫後の駆除処理が求められている。   In order to prevent the minute pests from sticking to the fruit, it is necessary to control with chemical spraying or the like during the cultivation, or to carry out the extermination treatment after harvesting. Since the egg size is as small as around 0.1 mm at around 5 mm, if it is attempted to completely remove this by spraying the chemicals during cultivation, it will require careful and multiple spraying operations, requiring a great deal of labor It will be. Moreover, since spider mites are likely to be resistant to drugs, the number of sprays is limited at the cultivation site, and it is not possible to completely control the micro pests that adhere to the fruits only by controlling during cultivation. For this reason, effective post-harvest extermination treatment is required.

従来技術としては、収穫したクリ果実の害虫を温湯に浸漬して果実内部に潜む害虫の幼虫や卵を死滅させる技術(下記特許文献1)や、作物上の空気を引き寄せて加熱することで作物上空を飛び交う害虫を死滅させる技術(下記特許文献2)等が提案されているが、前述したていあ部或いはこうあ部を有する果実の凹部に付着する微小害虫の除去に有効なものとは言い難い。   Conventional techniques include immersing the harvested chestnut fruit pests in warm water to kill the pest larvae and eggs hidden inside the fruit (Patent Document 1 below), or by attracting and heating the air on the crop. A technique for killing pests flying in the sky (Patent Document 2 below) has been proposed. However, it is said that it is effective for removing the fine pests adhering to the above-described ridges or fruit depressions having the ridges. hard.

このようなていあ部或いはこうあ部を有する果実に対して、収穫後に微小害虫の除去を行う方法としては、現状では、圧縮空気を用いて微小害虫を吹き飛ばす物理的方法か、或いは検疫で微小害虫が発見された場合に実施される臭化メチル等のくん蒸剤を用いる化学的方法が実施されている。   As for the method of removing micro pests after harvesting such fruits having a cut portion or a cut portion, at present, it is a physical method that blows off micro pests using compressed air, or a micro method by quarantine. A chemical method using a fumigant such as methyl bromide is carried out when a pest is found.

特開2005−185219号公報JP 2005-185219 A 特開平11−32646号公報JP 11-32646 A

しかしながら、前述した圧縮空気による物理的除去方法によると、果実を一個ずつ手で取ってエアガンで処理するため、作業が煩雑で多くの時間を要する問題があり、また、糸で卵網を作るハダニ類の卵は圧縮空気のみでは大抵の場合除去することが困難となる問題がある。更には、圧縮空気で吹き飛ばした微小害虫が死滅又は回収されず、他の果実に転移することも懸念される。また、温水等の水を直接当てる処理では、大量の処理水の取り扱いが面倒であり、過剰に果実を濡らした場合には、品質劣化や貯蔵性の低下によって果実の商品価値が低下する問題が生じる。   However, according to the above-described physical removal method using compressed air, the fruits are picked up one by one and processed with an air gun, so there is a problem that the operation is complicated and takes a lot of time. There is a problem that it is difficult to remove the eggs of the kind with compressed air alone. Furthermore, there is a concern that the micro pests blown off with compressed air are not killed or recovered and transferred to other fruits. In addition, in the treatment where water such as hot water is directly applied, handling of a large amount of treated water is troublesome, and there is a problem that when the fruit is wet excessively, the commercial value of the fruit is lowered due to deterioration in quality or storage stability. Arise.

また、前述した化学的な除去方法による場合には、果実に薬剤による痛みや変色が生じることがあり、やはり品質劣化や貯蔵性の劣化によって果実の商品価値が低下する問題が生じると共に、化学薬剤の使用によって、処理コストが嵩むだけでなく、食品安全性の問題が生じることにもなる。   In addition, in the case of the chemical removal method described above, pain and discoloration due to the medicine may occur in the fruit, and there is also a problem that the commercial value of the fruit is lowered due to deterioration of quality and storage, and the chemical agent The use of this not only increases processing costs but also raises food safety issues.

本発明は、このような事情に対処するものであって、ていあ部或いはこうあ部を有する果実に対して、作業性良く微小害虫の除去を行うことができること、ていあ部或いはこうあ部等の凹部に付着した卵を含む微小害虫を短い作業時間で確実に除去可能にすること、処理後の微小害虫が他の果実に転移することを避けること、化学薬剤を用いない安全で低コストの処理を実現すること、等を目的とするものであって、検疫前に輸出用果実に付着したハダニ類等の微小害虫を簡易且つ確実に除去することで、国内果実の円滑な輸出促進を図ることを目的とするものである。   The present invention copes with such a situation, and it is possible to remove micro pests with good workability on a fruit having a tail part or a claw part. It is possible to reliably remove the micro pests containing eggs attached to the recesses, etc. in a short working time, to avoid transfer of the micro pests after treatment to other fruits, safe and low cost without using chemical agents The purpose of this is to facilitate the smooth export promotion of domestic fruits by simply and reliably removing spider mites, etc. adhering to the fruits for export before quarantine. The purpose is to plan.

前記の目的を達成するために、本発明は、一つには、果実の特定箇所に付着している微小害虫を除去する装置であって、微小害虫を除去可能な勢力で空気と水を混合した混合流を前記果実の特定箇所の一部に向けてスポット噴射させる2流体混合噴射ノズルと、前記果実の特定箇所が2流体混合噴射ノズルの噴射方向に対向するように果実を支持する果実支持手段とを備え、前記果実支持手段を一方向に可動させる可動手段を具備し、前記可動手段の作動による果実の移動に対して、前記特定箇所の処理必要領域全域に前記混合流のスポット噴射が当たるように、前記特定箇所の移動軌跡に沿って複数台の前記2流体混合噴射ノズルを離散配置したことを特徴とする。   In order to achieve the above-mentioned object, the present invention, in part, is a device for removing micro pests adhering to a specific part of a fruit, wherein air and water are mixed with a force capable of removing the micro pests. A two-fluid mixing jet nozzle that spot-spouts the mixed flow toward a part of the specific part of the fruit, and a fruit support that supports the fruit so that the specific part of the fruit faces the jet direction of the two-fluid mixing jet nozzle And a moving means for moving the fruit supporting means in one direction, and spot injection of the mixed flow over the processing required area of the specific place with respect to the movement of the fruit by the operation of the moving means. As mentioned above, a plurality of the two-fluid mixing spray nozzles are discretely arranged along the movement locus of the specific portion.

また、一つには、前述の特徴に加えて、前記可動手段は、前記果実支持手段を直線的にスライドさせることを特徴とする。   In addition, in addition to the above-described features, the movable means slides the fruit support means linearly.

また、本発明は、果実の特定箇所に付着している微小害虫を除去する装置であって、微小害虫を除去可能な勢力で空気と水を混合した混合流を前記果実の特定箇所の一部に向けてスポット噴射させる2流体混合噴射ノズルと、前記果実の特定箇所が2流体混合噴射ノズルの噴射方向に対向するように果実を支持する果実支持手段とを備え、前記特定箇所の処理必要領域全域に前記混合流のスポット噴射が当たるように、複数台の前記2流体混合噴射ノズルを配置し、当該複数台の2流体混合噴射ノズルを個別に時差噴射させる制御手段を備えることを特徴とする。   In addition, the present invention is an apparatus for removing micro pests adhering to a specific part of a fruit, and a mixed flow in which air and water are mixed with a force capable of removing the micro pests is a part of the specific part of the fruit. A two-fluid mixed spray nozzle for spot spraying toward the head, and a fruit support means for supporting the fruit so that the specific portion of the fruit faces the spray direction of the two-fluid mixed spray nozzle, and the processing required area of the specific portion A plurality of the two-fluid mixed injection nozzles are arranged so that the mixed flow spot injection is applied to the entire area, and control means for individually jetting the plurality of two-fluid mixed injection nozzles with time difference is provided. .

また、前述の特徴に加えて、噴射された前記混合流の水を回収する回収手段を具備することを特徴とする。   Further, in addition to the above-described features, a collecting means for collecting the water of the jetted mixed stream is provided.

このような特徴によると、2流体混合噴射ノズルを用いて、空気と水を混合した混合流を果実の特定箇所の一部に向けてスポット噴射させることで、過剰に果実を濡らすことなく、圧縮空気のみによる場合と比較して、卵を含む微小害虫を確実に除去処理する勢力を簡易に得ることが可能になる。また、果実の特定箇所が2流体混合噴射ノズルの噴射方向に対向するように果実を支持する果実支持手段を備えるので、果実支持手段に果実を支持させた状態で作業性良く除去作業を進めることができる。   According to such a feature, using a two-fluid mixing jet nozzle, a mixed stream of air and water is spot-sprayed toward a part of a specific part of the fruit, so that it does not wet the fruit excessively. Compared with the case of using only air, it is possible to easily obtain a force that reliably removes micro-insects including eggs. Moreover, since the fruit support means which supports a fruit so that the specific location of a fruit may oppose the injection direction of a two-fluid mixing injection nozzle, it advances removal work with good workability in the state which supported the fruit on the fruit support means. Can do.

また、果実支持手段を一方向に可動させる可動手段を具備し、可動手段の作動による果実の移動に対して、特定箇所の処理必要領域全域に空気と水の混合流のスポット噴射が当たるように、特定箇所の移動軌跡に沿って複数台の2流体混合噴射ノズルを離散配置しているので、各ノズルから噴射される混合流が互いに干渉し合って勢力を弱めることなく、処理必要領域の全域をスポット噴射によって除去処理することができ、ていあ部或いはこうあ部といった凹部に付着した微小害虫に混合流のスポット噴射を確実に当てて、短時間で確実な除去処理を行うことが可能になる。   In addition, a moving means for moving the fruit supporting means in one direction is provided so that spot movement of a mixed flow of air and water is applied to the entire processing required area at a specific place with respect to the movement of the fruit by the operation of the moving means. Since a plurality of two-fluid mixed injection nozzles are discretely arranged along the movement locus of a specific location, the mixed flow injected from each nozzle interferes with each other and does not weaken the force, so that the entire area where processing is necessary is performed. Can be removed by spot spraying, and it is possible to perform reliable removal processing in a short time by reliably applying the spot spray of the mixed flow to the micro pests adhering to the concave portions such as the tail portion or the bottom portion. Become.

更には、空気と水の混合流のスポット噴射が当たった微小害虫又はその卵は、混合流内の水に浸かって死滅するか流されるので、大きく飛散して他の果実に移転することを避けることができる。   In addition, micro pests or their eggs that have been spot sprayed with a mixed stream of air and water will be killed or washed away by immersing in the water in the mixed stream, avoiding large splashes and transfer to other fruits. be able to.

そして、可動手段が果実支持手段を直線的にスライドさせるものでは、単純なスライド動作によって、ていあ部或いはこうあ部といった特定箇所の処理必要領域全域を確実に混合流のスポット噴射で処理することができる。   And when the movable means slides the fruit support means linearly, the entire processing required area such as the tail part or the foot part is surely processed by the mixed flow spot injection by a simple sliding operation. Can do.

また、前述した可動手段を設けることなく、果実支持手段を固定させて、特定箇所の処理必要領域全域に混合流のスポット噴射が当たるように、複数台の2流体混合噴射ノズルを配置し、当該複数台の2流体混合噴射ノズルを個別に時差噴射させる制御手段を備えるものでは、果実を移動させなくても、各ノズルから噴射される混合流が互いに干渉し合って勢力を弱めることなく、処理必要領域の全域をスポット噴射によって除去処理することができ、ていあ部或いはこうあ部といった凹部に付着した微小害虫に混合流のスポット噴射を確実に当てて、短時間で確実な除去処理を行うことが可能になる。   Further, without providing the movable means described above, the fruit supporting means is fixed, and a plurality of two-fluid mixed injection nozzles are arranged so that the mixed flow spot injection is applied to the entire processing required area of the specific location. With a control means for individually jetting a plurality of two-fluid mixed injection nozzles with a time difference, the mixed flow injected from each nozzle interferes with each other and does not weaken the force without moving the fruit. The entire necessary area can be removed by spot spraying, and the mixed stream spot spray is reliably applied to minute pests adhering to the recesses such as the upper part or the lower part, and the reliable removal process is performed in a short time. It becomes possible.

更に、噴射された混合流の水を回収する回収手段を有するものでは、除去された微小害虫を水と共に回収することができるので、除去した微小害虫が他の果実へ転移するのを確実に防止することができる。   Further, in the case of having a collecting means for collecting the water of the jetted mixed stream, the removed micro pests can be collected together with water, so that the removed micro pests are reliably prevented from transferring to other fruits. can do.

このような特徴を有する本発明によると、化学薬剤を用いない安全で低コストの処理を実現する微小害虫除去装置を実現することができ、国内果実の円滑な輸出促進を図ることができる。   According to the present invention having such characteristics, it is possible to realize a micro pest removal apparatus that realizes safe and low-cost processing without using a chemical agent, and facilitates smooth export promotion of domestic fruits.

以下、本発明の実施形態を図面に基づいて説明する。図1は、本発明の一実施形態に係る微小害虫除去装置の全体構成を示した説明図である。   Hereinafter, embodiments of the present invention will be described with reference to the drawings. FIG. 1 is an explanatory diagram showing the overall configuration of a micro pest removal apparatus according to an embodiment of the present invention.

この実施形態に係る微小害虫除去装置は、複数台配置された2流体混合噴射ノズル1A,1B,1C、果実Fを支持する果実支持手段2、果実支持手段2を可動する可動手段3を基本構成として備え、こうあ部或いはていあ部と言われる凹部を有するリンゴ,梨等の果実に対して、その凹部(その果実の特定箇所)に付着したハダニ類等の微小害虫の成虫又は卵を除去する装置である。   The micro pest removal apparatus according to this embodiment is basically composed of a plurality of two-fluid mixing spray nozzles 1A, 1B, 1C, a fruit support means 2 for supporting a fruit F, and a movable means 3 for moving the fruit support means 2. For removing fruits such as apples and pears that have recesses that are said to be ridges or tails, remove adult insects or eggs of spider mites that adhere to the recesses (specific locations of the fruits) It is a device to do.

2流体混合噴射ノズル1A,1B,1Cは、微小害虫を除去可能な勢力で空気と水を混合した混合流を果実の特定箇所の一部に向けてスポット噴射させるものであり、比較的小さいスポット噴射径に絞って、少ない混合流の流量で微小害虫が除去可能な所望の勢力を得ることができるように設定されたものである。ここでは2流体混合噴射ノズル1A,1B,1Cを3台設けた例を示しているが、その台数は適宜設定可能であって、対象とする特定箇所の処理必要領域の全域を設定されたスポット噴射径でカバーできる台数が設定されることになる。   The two-fluid mixing spray nozzles 1A, 1B, and 1C are for spraying a mixed flow, in which air and water are mixed with a force capable of removing minute pests, toward a specific part of a fruit, and are relatively small spots. It is set so as to obtain a desired force capable of removing micro pests with a small mixed flow rate by reducing the spray diameter. Here, an example in which three two-fluid mixing injection nozzles 1A, 1B, and 1C are provided is shown, but the number of the nozzles can be set as appropriate, and the spot is set over the entire processing required area of a specific target area. The number of units that can be covered by the injection diameter is set.

2流体混合噴射ノズル1A,1B,1Cには、分岐部4,5をそれぞれ介して給水部6と加圧空気供給部7が接続されている。ここで、給水部6は給水タンク6Aと給水用低圧ポンプ6Bと調整バルブ6Cとを備え、所要量の水を分岐部4に供給するためのものであり、加圧空気供給部7はコンプレッサ7Aと調整バルブ7Bとを備え、所定圧の加圧空気を分岐部5に供給するためのものである。また、2流体混合噴射ノズル1A,1B,1Cには、噴射制御部1As,1Bs,1Csを備えており、所定のタイミングで各2流体混合噴射ノズル1A,1B,1Cから所望の勢力を有する混合流を噴射させることができる。   A water supply unit 6 and a pressurized air supply unit 7 are connected to the two-fluid mixing injection nozzles 1A, 1B, and 1C through branch portions 4 and 5, respectively. Here, the water supply unit 6 includes a water supply tank 6A, a low-pressure pump 6B for supply water, and a regulating valve 6C, and supplies a required amount of water to the branch unit 4. The pressurized air supply unit 7 is a compressor 7A. And a regulating valve 7B for supplying pressurized air having a predetermined pressure to the branching section 5. In addition, the two-fluid mixing injection nozzles 1A, 1B, and 1C are provided with injection control units 1As, 1Bs, and 1Cs, and a mixture having a desired force from each of the two-fluid mixing injection nozzles 1A, 1B, and 1C at a predetermined timing. A stream can be injected.

果実支持手段2は、果実Fの特定箇所である凹部F1が2流体混合噴射ノズル1A,1B,1Cの噴射方向に対向するように、果実Fを支持するものであり、その形態はどのようなものでも良いが、図示の例では、コンベヤベルトに支持孔2Aを形成したものを示している。この支持孔2Aにこうあ部を下に向けて果実Fを置くことで、下方に向けた2流体混合噴射ノズル1A,1B,1Cの噴射方向に果実Fのていあ部を対向させることができる。   The fruit support means 2 supports the fruit F so that the recessed part F1 which is the specific location of the fruit F opposes the injection direction of the two-fluid mixing injection nozzles 1A, 1B, and 1C. Although the thing may be sufficient, in the example of illustration, what formed support hole 2A in the conveyor belt is shown. By placing the fruit F in the support hole 2A with the ridge facing downward, the lower part of the fruit F can be made to face the spray direction of the two-fluid mixing spray nozzles 1A, 1B, 1C directed downward. .

可動手段3は、果実支持手段2を一方向に可動させるものであり、ここでは、可動手段3となる駆動モータによって果実支持手段2のコンベヤベルトを直線的にスライド移動させる例を示しているが、これに限らず、果実を支持して回転させるもの等であっても良い。また、可動手段3は電動等の動力によって作動するものだけでなく、手動によって作動するものであっても良く、果実F自体を手でもってスライドさせる機構等も含む。   The movable means 3 moves the fruit support means 2 in one direction. Here, an example is shown in which the conveyor belt of the fruit support means 2 is slid linearly by a drive motor that becomes the movable means 3. Not limited to this, it may be one that supports and rotates the fruit. Moreover, the movable means 3 may be operated not only by means of power such as electric power but also manually, and includes a mechanism for sliding the fruit F itself by hand.

図1の実施形態では、2流体混合噴射ノズル1A,1B,1Cの噴射制御部1As,1Bs,1Csの作動と可動手段3の可動タイミングを果実支持手段2の所定位置に設置された位置センサ8A,8B,8Cの検出結果に基づいて制御する制御部9を備え、また、2流体混合噴射ノズル1A,1B,1Cによる処理領域を覆い混合流の飛散を防止する飛散防止容器10を備えている。更には、飛散防止容器10内に溜まった水を回収する回収手段11を備えている。この回収手段11は、吸引ポンプ11Aと回収タンク11Bを具備するものである。   In the embodiment of FIG. 1, a position sensor 8A in which the operation of the injection control units 1As, 1Bs, 1Cs of the two-fluid mixing injection nozzles 1A, 1B, 1C and the movable timing of the movable means 3 are installed at a predetermined position of the fruit support means 2. , 8B, 8C, and a control unit 9 that controls based on the detection results, and a scattering prevention container 10 that covers the processing area by the two-fluid mixing jet nozzles 1A, 1B, 1C and prevents scattering of the mixed flow. . Furthermore, a recovery means 11 for recovering water accumulated in the scattering prevention container 10 is provided. The recovery means 11 includes a suction pump 11A and a recovery tank 11B.

ここで、2流体混合噴射ノズル1A,1B,1Cの配置は、可動手段3の作動による果実Fの移動に対して、果実の特定箇所である凹部F1の処理必要領域全域に混合流のスポット噴射が当たるように、特定箇所の移動軌跡に沿って複数台が離散配置されている。   Here, the arrangement of the two-fluid mixing injection nozzles 1A, 1B, and 1C is such that the mixed flow spot injection is performed over the entire processing required area of the concave portion F1, which is a specific part of the fruit, with respect to the movement of the fruit F by the operation of the movable means 3. Are arranged in a discrete manner along the movement locus of a specific location.

図2は、この2流体混合噴射ノズル1A,1B,1Cの配置例を示した説明図である。果実支持手段2に支持された一つの果実Fは、可動手段3による果実支持手段2の移動によって図示の矢印方向に直線的なスライド移動を行うことになり、それによって凹部F1は破線で示す移動軌跡F10を形成することになる。この移動軌跡F10に沿って、2流体混合噴射ノズル1A,1B,1Cを配置するが、混合流の噴射流量を少なくして微小害虫を除去可能な噴射勢力を得ようとすると、2流体混合噴射ノズル1A,1B,1Cのスポット噴射径1A0,1B0,1C0を絞った方が高い効果が得られる。そうすると、1つの2流体混合噴射ノズル1A(1B,1C)では特定箇所となる凹部F1の広さより狭い範囲にしかスポット噴射が照射されないことになる。そこで、特定箇所の処理必要領域全域に混合流のスポット噴射が当たるように、複数台の2流体混合噴射ノズル1A,1B,1Cを用いて噴射位置をずらして配置するが、スポット噴射径1A0,1B0,1C0が近接しすぎると、それらが互いに干渉してスポット噴射の勢力が殺がれることになるので、図示のように、2流体混合噴射ノズル1A,1B,1Cを移動軌跡F10に沿って離散配置している。 FIG. 2 is an explanatory view showing an arrangement example of the two-fluid mixed injection nozzles 1A, 1B, and 1C. One fruit F supported by the fruit support means 2 is linearly moved in the direction of the arrow in the figure by the movement of the fruit support means 2 by the movable means 3, whereby the recess F1 is moved by a broken line. A trajectory F10 is formed. The two-fluid mixed injection nozzles 1A, 1B, and 1C are arranged along the movement trajectory F10. However, if an injection force capable of removing micro pests is obtained by reducing the injection flow rate of the mixed flow, the two-fluid mixed injection is performed. A higher effect can be obtained by narrowing the spot spray diameters 1A 0 , 1B 0 , 1C 0 of the nozzles 1A, 1B, 1C. If it does so, spot injection will be irradiated only to the range narrower than the width | variety of the recessed part F1 used as a specific location in one 2 fluid mixing injection nozzle 1A (1B, 1C). Therefore, the spray position is shifted by using a plurality of two-fluid mixed spray nozzles 1A, 1B, and 1C so that the mixed flow spot spray is applied to the entire processing required region at a specific location, but the spot spray diameter 1A 0 is set. , 1B 0 , 1C 0 are too close to each other and the forces of spot injection are killed, so that the two-fluid mixing injection nozzles 1A, 1B, 1C are moved along the trajectory F10 as shown in the figure. Are arranged along the line.

図3は、2流体混合噴射ノズル1A,1B,1Cの噴射方向を示す説明図である。この例では、2流体混合噴射ノズル1A,1B,1Cを垂直に近い角度で凹部(ていあ部)F1に向けて噴射している。これによると、ていあ部或いはこうあ部は、一般に角度30〜60°程度の斜面を有するので、垂直方向からスポット噴射径1A0,1B0,1C0を照射することで、スポット噴射径1A0,1B0,1C0の巾Lに対して、W=L/cosθの照射巾(W>L)を得ることができ、より有効に特定箇所の処理必要領域全域をスポット噴射で処理することができる。 FIG. 3 is an explanatory diagram showing the injection directions of the two-fluid mixing injection nozzles 1A, 1B, and 1C. In this example, the two-fluid mixing injection nozzles 1A, 1B, and 1C are injected toward the concave portion F1 at an angle close to vertical. According to this, since the lower part or the lower part generally has an inclined surface with an angle of about 30 to 60 °, by irradiating the spot injection diameters 1A 0 , 1B 0 , 1C 0 from the vertical direction, the spot injection diameter 1A An irradiation width (W> L) of W = L / cos θ can be obtained with respect to the width L of 0 , 1B 0 , 1C 0, and the entire processing necessary area at a specific location is more effectively processed by spot injection. Can do.

次に、このような実施形態に係る微小害虫除去装置の動作を説明する。   Next, the operation of the micro pest removal apparatus according to such an embodiment will be described.

給水部6と加圧空気供給部7を作動させた後、リンゴ,梨等の果実Fを果実支持手段2の一体側から支持孔2Aに支持させ、この支持を果実支持手段2上に設けた近接センサ12で検知するか、或いは手動の始動スイッチ(図示省略)が投入されると、制御部9が可動手段3を作動させる。制御部9からの信号によって、可動手段3は、果実支持手段2をスライドさせて果実Fの位置を移動させ、果実Fの位置が飛散防止容器10内に配備された2流体混合噴射ノズル1Aの真下に来たことを位置センサ8Aが検知すると停止する。そして、制御部9は、位置センサ8Aの検知信号によって噴射制御部1Asを開放し、2流体混合噴射ノズル1Aから空気と水の混合流が凹部F1の一部に向けてスポット噴射される。   After operating the water supply unit 6 and the pressurized air supply unit 7, fruits F such as apples and pears are supported on the support holes 2 </ b> A from the integral side of the fruit support means 2, and this support is provided on the fruit support means 2. When it is detected by the proximity sensor 12 or when a manual start switch (not shown) is turned on, the control unit 9 operates the movable means 3. In response to a signal from the control unit 9, the movable means 3 slides the fruit support means 2 to move the position of the fruit F, and the position of the fruit F of the two-fluid mixing injection nozzle 1A provided in the scattering prevention container 10 When the position sensor 8A detects that it has come directly below, it stops. And the control part 9 opens the injection control part 1As by the detection signal of the position sensor 8A, and the mixed flow of air and water is spot-injected toward a part of the recess F1 from the two-fluid mixing injection nozzle 1A.

制御部9は、設定時間だけ噴射制御部1Asを開放した後、これを閉止し、再度可動手段3を作動させて果実Fを矢印方向にスライドさせる。以下前述の動作と同様に、果実Fの位置が2流体混合噴射ノズル1Bの真下に来たことを位置センサ8Bが検知すると可動手段3を停止させ、位置センサ8Bの検知信号によって噴射制御部1Bsを開放し、2流体混合噴射ノズル1Bから混合流のスポット噴射がなされる。その後は、設定時間だけ噴射制御部1Bsを開放した後、これを閉止し、再度可動手段3を作動させて果実Fを矢印方向にスライドさせ、果実Fの位置が2流体混合噴射ノズル1Cの真下に来たことを位置センサ8Cが検知すると可動手段3を停止させ、位置センサ8Cの検知信号によって噴射制御部1Csを開放し、2流体混合噴射ノズル1Cから混合流のスポット噴射がなされる。   The control unit 9 opens the injection control unit 1As for a set time, then closes it, operates the movable means 3 again, and slides the fruit F in the direction of the arrow. Thereafter, similarly to the above-described operation, when the position sensor 8B detects that the position of the fruit F has come directly below the two-fluid mixing injection nozzle 1B, the movable means 3 is stopped, and the injection control unit 1Bs is detected by the detection signal of the position sensor 8B. And the mixed flow spot spray is performed from the two-fluid mixed spray nozzle 1B. After that, after opening the injection control unit 1Bs for a set time, the injection control unit 1Bs is closed, the movable means 3 is operated again, the fruit F is slid in the direction of the arrow, and the position of the fruit F is directly below the two-fluid mixing injection nozzle 1C. When the position sensor 8C detects that it has come to, the movable means 3 is stopped, the injection control unit 1Cs is opened by the detection signal of the position sensor 8C, and the mixed fluid spot injection is performed from the two-fluid mixed injection nozzle 1C.

2流体混合噴射ノズル1A,1B,1Cの各スポット噴射位置は、図2に示すように凹部F1内でずらしているので、3台の2流体混合噴射ノズル1A,1B,1Cからのスポット噴射が順次なされることで、特定箇所の処理必要領域の全域を混合流のスポット噴射で除去処理することができる。除去処理が終了した果実Fは、更なる可動手段3の作動によって果実支持手段2の他端側に移動されて飛散防止容器10から排出され、果実支持手段2は次の果実の支持を待つ。   Since the spot injection positions of the two-fluid mixing injection nozzles 1A, 1B, and 1C are shifted in the recess F1 as shown in FIG. 2, spot injection from the three two-fluid mixing injection nozzles 1A, 1B, and 1C is performed. By carrying out sequentially, the whole process required area | region of a specific location can be removed by the spot injection of a mixed flow. The fruit F that has undergone the removal process is moved to the other end of the fruit support means 2 by the further operation of the movable means 3 and discharged from the scattering prevention container 10, and the fruit support means 2 waits for the support of the next fruit.

2流体混合噴射ノズル1A,1B,1Cから噴射された水は、飛散防止容器10内に溜められることになり、所定のタイミングで吸引ポンプ11Aを作動させて溜まった水を回収タンク11B内に回収する。   The water jetted from the two-fluid mixing jet nozzles 1A, 1B, and 1C is stored in the scattering prevention container 10, and the collected water is recovered in the recovery tank 11B by operating the suction pump 11A at a predetermined timing. To do.

なお、ここでは、可動手段3の作動を自動で行っているが、前述したように可動手段3は手動によって果実支持手段2を移動・停止させるものであってもよい。また、2流体混合噴射ノズル1A,1B,1Cの噴射タイミングを制御部9で制御しているが、これも、果実Fの位置を目視確認しながら手動のスイッチ等で順次噴射させるようにしてもよい。   Here, the operation of the movable means 3 is performed automatically, but as described above, the movable means 3 may be one that moves and stops the fruit support means 2 manually. In addition, the injection timing of the two-fluid mixing injection nozzles 1A, 1B, and 1C is controlled by the control unit 9, but this may also be sequentially performed by a manual switch or the like while visually confirming the position of the fruit F. Good.

図4は、本発明の他の実施形態を示す説明図である。前述した実施形態と同一の機能を有する部位は、同一の符号を付して重複説明を一部省略する。   FIG. 4 is an explanatory view showing another embodiment of the present invention. Parts having the same functions as those of the above-described embodiment are denoted by the same reference numerals, and a part of description thereof is omitted.

この実施形態では、固定の果実支持手段22を備えており、果実支持手段22が飛散防止容器23を兼用している。そして、飛散防止容器23内に2流体混合噴射ノズル21A,21B,21Cの噴射口を配置している。ここでは、果実支持手段22の支持孔22Aに処理対象となる凹部F1を下に向けて果実Fを支持させ、その凹部F1の処理必要領域全域に混合流のスポット噴射が当たるように、2流体混合噴射ノズル21A,21B,21Cの噴射方向が設置されている。   In this embodiment, a fixed fruit support means 22 is provided, and the fruit support means 22 also serves as the scattering prevention container 23. In addition, the two-fluid mixing injection nozzles 21 </ b> A, 21 </ b> B, and 21 </ b> C are arranged in the scattering prevention container 23. Here, two fluids are used so that the fruit F is supported by the support hole 22A of the fruit support means 22 with the concave portion F1 to be processed facing downward, and the mixed flow spot spray is applied to the entire processing required region of the concave portion F1. The injection directions of the mixed injection nozzles 21A, 21B, and 21C are installed.

そして、給水部6と加圧空気供給部7は噴射制御バルブ24,25を介して2流体混合噴射ノズル21A,21B,21Cにそれぞれ接続されており、制御部9によって噴射制御バルブ24,25の噴出タイミングが制御される。   The water supply unit 6 and the pressurized air supply unit 7 are connected to the two-fluid mixing injection nozzles 21A, 21B, and 21C via the injection control valves 24 and 25, respectively, and the control unit 9 controls the injection control valves 24 and 25. The ejection timing is controlled.

この実施形態に係る微小害虫除去装置の動作を説明すると、給水部6と加圧空気供給部7とをそれぞれ作動させた状態で、支持孔22Aに果実Fを支持させると、近接センサ26が果実Fの支持を検知し、この検知信号によって制御部9は噴射制御バルブ24,25の作動を制御する。噴射制御バルブ24,25は、2流体混合噴射ノズル21Aに水を供給する電磁バルブ24Aと加圧空気を供給する電磁バルブ25A、2流体混合噴射ノズル21Bに水を供給する電磁バルブ24Bと加圧空気を供給する電磁バルブ25B、2流体混合噴射ノズル21Cに水を供給する電磁バルブ24Cと加圧空気を供給する電磁バルブ25C、がそれぞれ同期して開放・閉止され、電磁バルブ24A,25Aが所定時間開放された後に時間差を持って電磁バルブ24B,25Bが所定時間開放され、更にその後に時間差を持って電磁バルブ24C,25Cが所定時間開放される。   The operation of the micro pest removal apparatus according to this embodiment will be described. When the fruit F is supported by the support hole 22A while the water supply unit 6 and the pressurized air supply unit 7 are operated, the proximity sensor 26 causes the fruit to move. The support of F is detected, and the control unit 9 controls the operation of the injection control valves 24 and 25 by this detection signal. The injection control valves 24 and 25 are an electromagnetic valve 24A that supplies water to the two-fluid mixing injection nozzle 21A, an electromagnetic valve 25A that supplies pressurized air, and an electromagnetic valve 24B that supplies water to the two-fluid mixing injection nozzle 21B and pressurization The electromagnetic valve 25B for supplying air and the electromagnetic valve 24C for supplying water to the two-fluid mixing injection nozzle 21C and the electromagnetic valve 25C for supplying pressurized air are opened and closed in synchronization with each other, and the electromagnetic valves 24A and 25A are predetermined. After the time is opened, the electromagnetic valves 24B and 25B are opened for a predetermined time with a time difference, and thereafter, the electromagnetic valves 24C and 25C are opened for a predetermined time with a time difference.

これによると、2流体混合噴射ノズル21A,21B,21Cからそれぞれ混合流のスポット噴射が個別に時間差を持って噴射されることになるので、それぞれのスポット噴射が干渉して勢力が弱まることがない。そして、処理後の水が飛散防止容器23内に溜まることになるので、前述した実施形態と同様に回収手段11によって回収タンク11B内に処理水を回収する。   According to this, since the spot injection of the mixed flow is individually injected with a time difference from the two-fluid mixing injection nozzles 21A, 21B, and 21C, the respective spot injections do not interfere with each other and the power is not weakened. . Then, since the treated water is accumulated in the scattering prevention container 23, the treated water is recovered in the recovery tank 11B by the recovery means 11 as in the above-described embodiment.

このような実施形態によると、2流体体混合噴射ノズル1A〜1C,21A〜21Cを用いて、空気と水を混合した混合流を果実Fの特定箇所の一部に向けてスポット噴射させることで、過剰に果実を濡らすことなく、圧縮空気のみによる場合と比較して、卵を含む微小害虫を確実に除去処理する勢力を簡易に得ることが可能になる。また、果実Fの特定箇所が2流体混合噴射ノズル1A〜1C,21A〜21Cの噴射方向に対向するように果実Fを支持する果実支持手段2,22を備えるので、果実支持手段2,22に果実を支持させた状態で作業性良く除去作業を進めることができる。   According to such an embodiment, by using the two-fluid mixed injection nozzles 1A to 1C and 21A to 21C, a mixed flow in which air and water are mixed is spot-injected toward a part of a specific portion of the fruit F. Compared with the case of using only compressed air without excessively wetting the fruit, it is possible to easily obtain a force that reliably removes micro-insects including eggs. Moreover, since it has the fruit support means 2 and 22 which support the fruit F so that the specific location of the fruit F may oppose the injection direction of 2 fluid mixing injection nozzles 1A-1C and 21A-21C, The removal operation can be performed with good workability in a state where the fruit is supported.

果実支持手段2を一方向に可動させる可動手段3を具備し、可動手段3の作動による果実Fの移動に対して、特定箇所の処理必要領域全域に空気と水の混合流のスポット噴射が当たるように、特定箇所の移動軌跡F10に沿って複数台の2流体混合噴射ノズル1A〜1Cを離散配置しているので、各ノズルから噴射される混合流が互いに干渉し合って勢力を弱めることなく、処理必要領域の全域をスポット噴射によって除去処理することができ、ていあ部或いはこうあ部といった凹部F1に付着した微小害虫に混合流のスポット噴射を確実に当てて、短時間で確実な除去処理を行うことが可能になる。   A movable means 3 for moving the fruit supporting means 2 in one direction is provided, and spot movement of a mixed flow of air and water hits the entire processing required area at a specific location with respect to the movement of the fruit F by the operation of the movable means 3. As described above, since the plurality of two-fluid mixed injection nozzles 1A to 1C are discretely arranged along the movement locus F10 at a specific location, the mixed flows injected from the nozzles interfere with each other and do not weaken the force. The entire treatment required area can be removed by spot spraying, and the mixed stream spot spray is reliably applied to the minute pests adhering to the concave part F1 such as the upper part or the lower part, so that the removal can be performed in a short time. Processing can be performed.

更には、空気と水の混合流のスポット噴射が当たった微小害虫又はその卵は、混合流内の水に浸かって死滅するか流されるので、大きく飛散して他の果実に移転することを避けることができる。   In addition, micro pests or their eggs that have been spot sprayed with a mixed stream of air and water will be killed or washed away by immersing in the water in the mixed stream, avoiding large splashes and transfer to other fruits. be able to.

可動手段3が果実支持手段2を直線的にスライドさせるので、単純なスライド動作によって、ていあ部或いはこうあ部といった特定箇所の処理必要領域全域を確実に混合流のスポット噴射で処理することができる。   Since the movable means 3 slides the fruit supporting means 2 linearly, it is possible to reliably process the entire processing required area of a specific location such as a tail portion or a foot portion by a simple slide operation by spot injection of a mixed flow. it can.

固定の果実支持手段22を設けたものでは、果実Fを移動させなくても、2流体混合噴射ノズル21A,21B,21Cの噴出タイミングに時差を設けることで、各ノズルから噴射される混合流が互いに干渉し合って勢力を弱めることなく、処理必要領域の全域をスポット噴射によって除去処理することができ、ていあ部或いはこうあ部といった凹部F1に付着した微小害虫に混合流のスポット噴射を確実に当てて、短時間で確実な除去処理を行うことが可能になる。   In the case where the fixed fruit supporting means 22 is provided, even if the fruit F is not moved, the mixed flow injected from each nozzle can be made by providing a time difference in the jet timing of the two-fluid mixing jet nozzles 21A, 21B, and 21C. The entire processing required area can be removed by spot injection without interfering with each other and weakening the force, and the mixed flow spot injection is reliably applied to the micro pests adhering to the concave portion F1 such as the upper part or the lower part. It is possible to perform reliable removal processing in a short time.

更に、混合流の水を回収する回収手段11を有するので、除去された微小害虫を水と共に回収することができ、除去した微小害虫が他の果実へ転移するのを確実に防止することができる。   Furthermore, since it has the collection means 11 which collect | recovers the water of a mixed flow, the removed micro pest can be collect | recovered with water, and it can prevent reliably that the removed micro pest transfers to another fruit. .

そして、本発明の実施形態では、果実Fの品質劣化や貯蔵性の低下を生じることなく、確実に果実Fの凹部に付着した微小害虫とその卵を除去することができるので、化学薬剤を用いない安全で低コストの除去処理を実現することができ、国内果実の円滑な輸出促進を図ることができる。   And in embodiment of this invention, since it does not produce the quality deterioration of fruit F, or the fall of storage property, the micro pest and its egg which adhered to the recessed part of the fruit F can be removed reliably, a chemical agent is used. It is possible to achieve a safe and low-cost removal process and promote smooth export of domestic fruits.

本発明の一実施形態に係る微小害虫除去装置の全体構成を示した説明図である。It is explanatory drawing which showed the whole structure of the micro pest removal apparatus which concerns on one Embodiment of this invention. 本発明の一実施形態における2流体混合噴射ノズルの配置例を示した説明図である。It is explanatory drawing which showed the example of arrangement | positioning of the 2 fluid mixing injection nozzle in one Embodiment of this invention. 本発明の一実施形態における2流体混合噴射ノズルの噴射方向を示す説明図である。It is explanatory drawing which shows the injection direction of the 2 fluid mixing injection nozzle in one Embodiment of this invention. 本発明の他の実施形態に係る微小害虫除去装置の全体構成を示した説明図である。It is explanatory drawing which showed the whole structure of the micro pest removal apparatus which concerns on other embodiment of this invention.

符号の説明Explanation of symbols

1A,1B,1C,21A,21B,21C 2流体混合噴射ノズル
2,22 果実支持手段
3 可動手段
4,5 分岐部
6 給水部
6A 給水タンク
6B 給水用低圧ポンプ
6C 調整バルブ
7 加圧空気供給部
7A コンプレッサ
7B 調整バルブ
8A,8B,8C 位置センサ
9 制御部
10,23 飛散防止容器
11 回収手段
11A 吸引ポンプ
11B 回収タンク
12,26 近接センサ
24,25 噴射制御バルブ
24A,24B,24C,25A,25B,25C 電磁バルブ
F 果実
F1 凹部(特定箇所)
F10 移動軌跡
1A, 1B, 1C, 21A, 21B, 21C 2 fluid mixing injection nozzles 2, 22 Fruit support means 3 Movable means 4, 5 Branching part 6 Water supply part 6A Water supply tank 6B Water supply low pressure pump 6C Adjustment valve 7 Pressurized air supply part 7A Compressor 7B Adjustment valve 8A, 8B, 8C Position sensor 9 Control unit 10, 23 Anti-scattering container 11 Recovery means 11A Suction pump 11B Recovery tank 12, 26 Proximity sensor 24, 25 Injection control valves 24A, 24B, 24C, 25A, 25B , 25C Solenoid valve F Fruit F1 Recessed part (specific location)
F10 movement trajectory

Claims (4)

果実の特定箇所に付着している微小害虫を除去する装置であって、
微小害虫を除去可能な勢力で空気と水を混合した混合流を前記果実の特定箇所の一部に向けてスポット噴射させる2流体混合噴射ノズルと、
前記果実の特定箇所が2流体混合噴射ノズルの噴射方向に対向するように果実を支持する果実支持手段とを備え、
前記果実支持手段を一方向に可動させる可動手段を具備し、
前記可動手段の作動による果実の移動に対して、前記特定箇所の処理必要領域全域に前記混合流のスポット噴射が当たるように、前記特定箇所の移動軌跡に沿って複数台の前記2流体混合噴射ノズルを離散配置したことを特徴とする果実に付着した微小害虫除去装置。
An apparatus for removing micro pests adhering to a specific part of a fruit,
A two-fluid mixed injection nozzle for spot-injecting a mixed flow in which air and water are mixed with a force capable of removing minute pests toward a specific part of the fruit;
Fruit supporting means for supporting the fruit so that the specific part of the fruit is opposed to the jet direction of the two-fluid mixing jet nozzle;
Comprising movable means for moving the fruit support means in one direction;
A plurality of the two-fluid mixed injections along the movement locus of the specific part so that spot movement of the mixed flow hits the entire processing required region of the specific part with respect to the movement of the fruit by the operation of the movable means. A device for removing minute pests attached to fruit, characterized by disposing nozzles discretely.
前記可動手段は、前記果実支持手段を直線的にスライドさせることを特徴とする請求項1に記載された果実に付着した微小害虫除去装置。   The apparatus for removing micro pests attached to a fruit according to claim 1, wherein the movable means slides the fruit support means linearly. 果実の特定箇所に付着している微小害虫を除去する装置であって、
微小害虫を除去可能な勢力で空気と水を混合した混合流を前記果実の特定箇所の一部に向けてスポット噴射させる2流体混合噴射ノズルと、
前記果実の特定箇所が2流体混合噴射ノズルの噴射方向に対向するように果実を支持する果実支持手段とを備え、
前記特定箇所の処理必要領域全域に前記混合流のスポット噴射が当たるように、複数台の前記2流体混合噴射ノズルを配置し、
当該複数台の2流体混合噴射ノズルを個別に時差噴射させる制御手段を備えることを特徴とする果実に付着した微小害虫除去装置。
An apparatus for removing micro pests adhering to a specific part of a fruit,
A two-fluid mixed injection nozzle for spot-injecting a mixed flow in which air and water are mixed with a force capable of removing minute pests toward a specific part of the fruit;
Fruit supporting means for supporting the fruit so that the specific part of the fruit is opposed to the jet direction of the two-fluid mixing jet nozzle;
A plurality of the two-fluid mixed spray nozzles are arranged so that the mixed flow spot spray hits the entire processing required area of the specific location,
A device for removing micro pests attached to fruit, comprising a control means for jetting the plurality of two-fluid mixed jet nozzles individually with a time difference.
噴射された前記混合流の水を回収する回収手段を具備することを特徴とする請求項1〜3のいずれかに記載の果実に付着した微小害虫除去装置。
The apparatus for removing micro pests attached to a fruit according to any one of claims 1 to 3, further comprising recovery means for recovering the water of the jetted mixed stream.
JP2006056213A 2006-03-02 2006-03-02 Device for removing micro pests attached to fruits Expired - Fee Related JP4724846B2 (en)

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* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN101756342A (en) * 2010-03-26 2010-06-30 陕西农产品加工技术研究院 Fruit sleeve separation method

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CN107373701B (en) * 2015-12-14 2019-09-27 安徽伯希和户外装备用品有限公司 The water-saving drop of one kind washes formula turntable apple cleaning machine

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Publication number Priority date Publication date Assignee Title
JPH02174662A (en) * 1988-12-27 1990-07-06 Family Kk Device for washing vegetable, fruit or the like
JPH02268633A (en) * 1989-04-07 1990-11-02 K U:Kk Repelling method of coming flying injurious insect and device therefor
JPH0340047U (en) * 1989-08-30 1991-04-17

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Publication number Priority date Publication date Assignee Title
JPH02174662A (en) * 1988-12-27 1990-07-06 Family Kk Device for washing vegetable, fruit or the like
JPH02268633A (en) * 1989-04-07 1990-11-02 K U:Kk Repelling method of coming flying injurious insect and device therefor
JPH0340047U (en) * 1989-08-30 1991-04-17

Cited By (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN101756342A (en) * 2010-03-26 2010-06-30 陕西农产品加工技术研究院 Fruit sleeve separation method

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