JP2008012459A - Static charge imparting type spreader - Google Patents

Static charge imparting type spreader Download PDF

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JP2008012459A
JP2008012459A JP2006187434A JP2006187434A JP2008012459A JP 2008012459 A JP2008012459 A JP 2008012459A JP 2006187434 A JP2006187434 A JP 2006187434A JP 2006187434 A JP2006187434 A JP 2006187434A JP 2008012459 A JP2008012459 A JP 2008012459A
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electrode
plate
spray
spray nozzle
fan
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JP4816292B2 (en
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Daisuke Nakamura
大介 中村
Shoichi Yuki
正一 湯木
Toshio Tezuka
俊夫 手塚
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Kioritz Corp
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Kioritz Corp
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Abstract

<P>PROBLEM TO BE SOLVED: To provide a static charge imparting type spreader which uses spray nozzles each forming a fan-shaped spray pattern of chemical etc. and can uniformly impart charges to a sprayed liquid and has improved charging efficiency of the whole sprayed liquid. <P>SOLUTION: The static charge imparting type spreader has a plate like electrode 3 which is arranged near the distal end part of the spray nozzle forming the fan-shaped spray pattern of the chemical etc. and in parallel to the side face of the fan-shaped spray pattern A. It is preferable that the plate like electrode 3 has a shape expanding toward the spray direction of the chemical etc. and the static charge imparting type spreader is characterized in that the plate like electrode 3 is arranged parallel and opposed to both side face of the fan-shaped spray pattern A. <P>COPYRIGHT: (C)2008,JPO&amp;INPIT

Description

本発明は、噴霧した肥料、農薬等(以下「薬液等」という。)に電荷を付与して、該薬液等の栽培植物等に対する付着を効率的に行えるようした静電付与式散布機に関する。   The present invention relates to an electrostatic application type sprayer that imparts electric charges to sprayed fertilizers, agricultural chemicals, and the like (hereinafter referred to as “medical solution etc.”) so that the chemical solution can be efficiently attached to cultivated plants and the like.

従来から、噴霧ノズルの先端部近傍に静電付与電極を配置して、前記噴霧ノズルから噴霧した薬液等に電荷を付与する静電付与式散布機が提案されている(特開2001−232255号公報、特開2004−122091号公報等)。   2. Description of the Related Art Conventionally, there has been proposed an electrostatic application spreader in which an electrostatic application electrode is disposed in the vicinity of a tip portion of a spray nozzle and an electric charge is applied to a chemical solution or the like sprayed from the spray nozzle (Japanese Patent Laid-Open No. 2001-232255) Publication, Unexamined-Japanese-Patent No. 2004-122091, etc.).

前記静電付与式散布機では、噴霧すべき薬液等が霧化された状態で、前記静電付与電極によって電荷が付与されて自由空間に出ていくことにより、その霧化された薬液等の栽培植物等への付着性を向上させており、これにより前記栽培植物等の葉などに付いた害虫の駆除や殺菌などの効果を高めることができる。   In the electrostatic application type sprayer, in a state where the chemical liquid to be sprayed is atomized, an electric charge is applied by the electrostatic application electrode and comes out into a free space, so that the atomized chemical liquid etc. Adhesiveness to cultivated plants and the like is improved, whereby the effects of exterminating and sterilizing pests attached to the leaves of the cultivated plants and the like can be enhanced.

また、前記静電付与式散布機では、広大な農場等でも能率よく薬液等の散布が行えるように、走行可能な車体に、前記噴霧ノズルが所定間隔をあけて複数設けられた長大となる伸縮ブームを有し、前記車体の走行中にポンプの駆動によりタンクから前記伸縮ブーム内へ圧送される薬液等を、前記各噴霧ノズルから噴射させるように機能する。   Further, in the electrostatic application type spreader, the expansion and contraction that is a long and long, in which a plurality of spray nozzles are provided at predetermined intervals on a travelable vehicle body so that a chemical solution or the like can be efficiently sprayed on a large farm or the like. It has a boom and functions to inject chemicals and the like that are pumped from the tank into the telescopic boom by driving the pump while the vehicle body is running.

さらに、前記所定間隔をあけて設けられた噴霧ノズル付近には、前記静電付与電極がそれぞれ配設されて、該それぞれの静電付与電極に対して、高電圧直流電源に接続された高電圧線からそれぞれ高電圧(例えば、1.5〜2.0kV)が供給され、前記それぞれの噴霧ノズルからの薬液等の噴霧に電荷を付与して、前記のように霧化された前記薬液等の、栽培植物等への付着性を向上させている。
特開2001−232255号公報 特開2004−122091号公報
Further, in the vicinity of the spray nozzle provided at a predetermined interval, each of the electrostatic application electrodes is disposed, and a high voltage connected to a high voltage DC power source is connected to each of the electrostatic application electrodes. A high voltage (e.g., 1.5 to 2.0 kV) is supplied from each line, and charges are applied to the sprays of the chemicals from the respective spray nozzles, and the chemicals and the like atomized as described above The adhesion to cultivated plants is improved.
JP 2001-232255 A JP 2004-122091 A

従来、前記静電付与式散布機では、薬液等が扇形に噴霧される噴霧パターンが扇形の噴霧ノズルと、薬液等が円錐状に噴霧される噴霧パターンがコーン形の噴霧ノズルが使用されている。   Conventionally, the electrostatic application type sprayer uses a fan-shaped spray nozzle for spraying a chemical or the like in a fan shape, and a cone spray nozzle for spraying a chemical or the like in a conical shape. .

また、前記静電付与電極としては、噴霧液の回りを取り囲む環状電極(前記特許文献1)あるいは噴霧液の近傍に配置される棒状電極(前記特許文献2)が採用されている。   Further, as the electrostatic application electrode, an annular electrode (Patent Document 1) surrounding the spray liquid or a rod-shaped electrode (Patent Document 2) disposed in the vicinity of the spray liquid is employed.

しかしながら、前記噴霧パターンが扇形の噴霧ノズルに、前記環状電極あるいは棒状電極を使用した場合には、薬液等の噴霧パターンが扇形であることから、前記電極に近い噴霧液と前記電極から遠い噴霧液が生じ、噴霧液に対して電荷が均等に付与されず、したがって、噴霧液全体に対する帯電効率が悪いという問題が残されていた。   However, when the annular electrode or the rod-shaped electrode is used for a fan-shaped spray nozzle with a spray pattern, the spray pattern of a chemical solution or the like is fan-shaped, so that the spray liquid close to the electrode and the spray liquid far from the electrode As a result, the electric charge is not uniformly applied to the spray liquid, and therefore the charging efficiency of the entire spray liquid is poor.

本発明は、前記事情に鑑み、薬液等の噴霧パターンが扇形の噴霧ノズルを使用した場合に、噴霧液に対して電荷が均等に付与され、噴霧液全体の帯電効率が高められる静電付与式散布機を提供することを目的とする。   In the present invention, in view of the above circumstances, when a spray nozzle having a fan-shaped spray pattern such as a chemical solution is used, the charge is evenly applied to the spray solution, and the charging efficiency of the entire spray solution is increased. The purpose is to provide a spreader.

前記目的達成のために、本発明は、薬液等の噴霧パターンが扇形の噴霧ノズルの先端部近傍に、扇形の噴霧パターンの側面と平行に板状電極を配置したことを特徴とする(請求項1)。   In order to achieve the above object, the present invention is characterized in that a plate-like electrode is arranged in the vicinity of the tip of a spray nozzle of a fan-shaped spray pattern such as a chemical solution in parallel with the side surface of the fan-shaped spray pattern. 1).

この請求項1の発明によれば、扇形に噴霧される薬液等の側面と平行に板状電極が配置されるため、扇形に噴霧される薬液等と板状電極との間隔が一定に保たれ、噴霧液に対して電荷が均等に付与され、噴霧液全体の帯電効率が向上させられて薬液等の均等散布が行われる。なお、前記板状電極は、単なる矩形、すなわち、短冊状のものであってよい。   According to the first aspect of the present invention, since the plate electrode is arranged in parallel with the side surface of the chemical liquid sprayed in a fan shape, the distance between the chemical liquid sprayed in a fan shape and the plate electrode is kept constant. The electric charge is evenly applied to the spray liquid, the charging efficiency of the entire spray liquid is improved, and the chemical liquid or the like is uniformly sprayed. The plate electrode may be a simple rectangle, that is, a strip.

本発明の実施の一形態は、前記噴霧ノズルの前記噴霧パターンを複数種類切り替えて使用可能に構成し、前記板状電極及び該板状電極の支持部を、前記噴霧ノズルの移動軌跡から所定の離間位置に配設したことを特徴とする(請求項2)。   One embodiment of the present invention is configured to be able to use a plurality of types of spray patterns of the spray nozzle by switching, and the plate electrode and the support portion of the plate electrode are predetermined from the movement trajectory of the spray nozzle. It is characterized in that it is arranged at a separated position (claim 2).

この実施の一形態によれば、切り替えて使用可能な噴霧ノズルを切り替え操作する際に、前記板状電極やその支持部が前記噴霧ノズルの移動を妨げず、静電付与装置を有しない通常の切り替え式ノズルと同様の安定的な切り替え操作が可能となる。   According to this embodiment, when switching the spray nozzles that can be used by switching, the plate-like electrode and its support part do not hinder the movement of the spray nozzles and do not have an electrostatic applicator. A stable switching operation similar to that of the switchable nozzle is possible.

本発明の実施の一形態は、前記板状電極が、薬液等の噴霧方向に向けて拡げられた扇形であることを特徴とする(請求項3)。   One embodiment of the present invention is characterized in that the plate-like electrode has a fan shape that is expanded in a spraying direction of a chemical solution or the like (Claim 3).

この実施の一形態によれば、前記板状電極が、扇形に噴霧される薬液等の形態に適合させられているため、該板状電極の形状及び電荷の付与にロスが生じることがなく、噴霧液に対する電荷の付与を効率的に行うことができる。また、前記板状電極の無駄な部分を省いて小型化が可能である。   According to this embodiment, since the plate electrode is adapted to a form such as a chemical solution sprayed in a fan shape, there is no loss in shape and charge application of the plate electrode, Charge can be efficiently applied to the spray liquid. Further, it is possible to reduce the size of the plate electrode by omitting useless portions.

本発明の実施の一形態は、前記板状電極を、前記扇形の噴霧パターンの両側面に平行に、かつ対向させて配置したことを特徴とする(請求項4)。   One embodiment of the present invention is characterized in that the plate-like electrode is arranged in parallel to and opposite to both side surfaces of the fan-shaped spray pattern (claim 4).

この実施の一形態によれば、噴霧液に対する帯電効率をさらに高めることができる。その他、噴霧液の両端部を覆うごとく、前記板状電極の両端部を噴霧液側に折り曲げてもよい。   According to this embodiment, the charging efficiency for the spray liquid can be further increased. In addition, both ends of the plate electrode may be bent toward the spray liquid side so as to cover both ends of the spray liquid.

本発明の実施の一形態は、前記噴霧ノズル及び前記板状電極と、それらの取付部材との間に、電気絶縁部材を介在させたことを特徴とする(請求項5)。   One embodiment of the present invention is characterized in that an electrical insulating member is interposed between the spray nozzle and the plate-like electrode and their mounting members (Claim 5).

この実施の一形態によれば、前記高電圧が供給される前記板状電極から、それらの取付部材側への漏電を防止でき、さらに作業の安全が確保される。   According to one embodiment of the present invention, it is possible to prevent electric leakage from the plate-like electrodes to which the high voltage is supplied to the mounting member side, and further to ensure work safety.

前記板状電極は、予め、他部と電気絶縁を保って前記噴霧ノズルとともに、その取付部材、例えば、ブームスプレーヤを構成するブーム側等に取付けられて使用される。   The plate-like electrode is used by being attached to the attachment member, for example, the boom side constituting the boom sprayer together with the spray nozzle while maintaining electrical insulation from other parts.

しかしながら、薬液等の噴霧を長期間にわたって継続すると、噴霧された薬液等の一部が浮遊して前記板状電極の電気絶縁部及び前記噴霧ノズル、さらにそれらの前記取付部材を濡らして付着する。   However, if the spraying of the chemical liquid or the like is continued for a long period of time, a part of the sprayed chemical liquid or the like floats and wets and adheres to the electrical insulating portion of the plate electrode, the spray nozzle, and the mounting members thereof.

前記板状電極の前記電気絶縁部及び前記噴霧ノズル、さらにそれらの取付部材に付着した前記薬剤等が相互に連続させられると、前記薬剤等は導電性を有するため、前記板状電極と前記取付部材との間で短絡し、さらに、前記取付部材及び該取付部材が取付けられたブーム等がアースとなって、前記板状電極の高電圧出力が低下させられて噴霧液に対する帯電効率が低下させられる。さらに作業者が感電することが考えられる。   When the electrical insulation portion of the plate electrode and the spray nozzle, and the medicine attached to the attachment members thereof are made continuous with each other, the medicine etc. has conductivity, so the plate electrode and the attachment In addition, the mounting member and the boom to which the mounting member is mounted serve as a ground, and the high voltage output of the plate electrode is decreased to reduce the charging efficiency with respect to the spray liquid. It is done. Furthermore, it is conceivable that the operator is electrocuted.

そこで、この実施の一形態では、前記噴霧ノズル及び前記板状電極と、それらの取付部材との間に付着した薬剤等の相互の連続を防止し、前記取付部材側への漏電を防止するために電気絶縁部材を介在させたものである。なお、前記電気絶縁部材は、前記板状電極と前記取付部材との間の沿面距離の延長に役立つ形状であることが好ましい。   Therefore, in this embodiment, in order to prevent mutual continuation of medicines and the like adhering between the spray nozzle and the plate-like electrode and their attachment members, and to prevent leakage to the attachment member side. An electrical insulating member is interposed between the two. In addition, it is preferable that the said electrical insulation member is a shape useful for extension of the creeping distance between the said plate-shaped electrode and the said attachment member.

本発明の実施の一形態は、前記噴霧ノズル及び前記板状電極と、それらの取付部材との間に、該取付部材側への噴霧液の浮遊を阻止する仕切り部材を介在させたことを特徴とする(請求項6)。   One embodiment of the present invention is characterized in that a partition member that prevents floating of the spray liquid to the mounting member side is interposed between the spray nozzle and the plate-like electrode and their mounting members. (Claim 6).

この実施の一形態によれば、前記噴霧ノズル及び前記板状電極と、それらの取付部材との間が前記仕切り部材によって隔離され、前記取付部材側への噴霧液の浮遊が阻止させられ、同時に噴霧液が前記取付部材側へ濡れ広がること及びその付着が防止される。   According to this embodiment, the spray nozzle and the plate-like electrode and their attachment members are isolated by the partition member, and the floating of the spray liquid to the attachment member side is prevented at the same time. The spray liquid is prevented from spreading and adhering to the mounting member side.

なお、前記仕切り部材としては、単に遮蔽機能を有する鍔状のもの、前記取付部材を覆うように折り曲げ加工したものなど、その形状は問わないが、前記電気絶縁部材と同様に、前記板状電極と前記取付部材との間の沿面距離の延長に役立つ形状であることが好ましい。   The partition member may be of any shape, such as a bowl-shaped member having a shielding function, or a member that is bent so as to cover the mounting member, but the plate-like electrode is similar to the electric insulating member. It is preferable that the shape is useful for extending the creepage distance between the mounting member and the mounting member.

本発明の実施の一形態は、前記噴霧ノズル及び前記板状電極が、伸縮ブームを構成する各ブームに所定間隔をあけて配置され、前記各ブームにはそれぞれ昇圧ユニットが配置され、該それぞれの昇圧ユニットには電源ユニットからの低圧線が接続され、前記それぞれの昇圧ユニットから、該昇圧ユニットが設けられた各ブームの前記板状電極間に高圧線が直列に接続されてなることを特徴とする(請求項7)。   In one embodiment of the present invention, the spray nozzle and the plate-like electrode are arranged at predetermined intervals on each boom constituting the telescopic boom, and each boom is provided with a boosting unit, A low-voltage line from a power supply unit is connected to the booster unit, and a high-voltage line is connected in series between the plate-like electrodes of each boom provided with the booster unit. (Claim 7).

前記実施の一形態によれば、前記電源ユニットと前記昇圧ユニットとが別に構成されて、該昇圧ユニットが伸縮ブームを構成する各ブームにそれぞれ配置される。そして、それぞれの前記昇圧ユニットには、前記電源ユニットからの低圧線が接続される。   According to the embodiment, the power supply unit and the booster unit are configured separately, and the booster unit is disposed on each boom constituting the telescopic boom. A low voltage line from the power supply unit is connected to each boosting unit.

すなわち、前記電源ユニットから前記各ブームの前記昇圧ユニットに、低圧線が接続され、前記電源ユニットから高圧線が延長されることがないため、作業員の安全が確保されるとともに、さらに、前記各ブームの板状電極間に高圧線を直列接続したことにより、装置の簡易化が図られ、また、伸縮ブームの伸縮操作に支障をきたすことがないものである。   That is, since a low-voltage line is connected from the power supply unit to the boosting unit of each boom and the high-voltage line is not extended from the power supply unit, the safety of workers is ensured, and further, By connecting the high-voltage line in series between the plate electrodes of the boom, the apparatus can be simplified, and the telescopic boom can be operated without expansion or contraction.

本発明によれば、薬液等の噴霧パターンが扇形の噴霧ノズルを使用した場合に、噴霧液に対して電荷が均等に付与され、噴霧液全体の帯電効率を高めることができる、さらに作業員の安全とともに、装置の簡易化を図ることができる。   According to the present invention, when a fan-shaped spray nozzle with a spray pattern of a chemical solution or the like is used, electric charges are evenly applied to the spray solution, and the charging efficiency of the entire spray solution can be increased. In addition to safety, the device can be simplified.

以下、添付図面を参照して、本発明を実施するための一形態を説明する。図1は、噴霧ノズル及び板状電極のブームへの取付部を示す正面図、図2は、図1のX−X線矢視断面図、図3は、他の実施の一形態を示し前記図2に対応する断面図、図4は、ブームスプレーヤの伸縮ブーム部を示す正面図である。   Hereinafter, an embodiment for carrying out the present invention will be described with reference to the accompanying drawings. 1 is a front view showing a mounting portion of a spray nozzle and a plate electrode to a boom, FIG. 2 is a cross-sectional view taken along the line XX of FIG. 1, and FIG. FIG. 4 is a cross-sectional view corresponding to FIG. 2, and FIG. 4 is a front view showing the telescopic boom portion of the boom sprayer.

図1及び図2において、1は、ブームスプレーヤを構成するブーム、2は、噴霧ノズル、3は、板状電極である。前記ブーム1は、アルミニウム等の軽量素材によって構成され、一般に伸縮自在に構成される。   1 and 2, 1 is a boom constituting a boom sprayer, 2 is a spray nozzle, and 3 is a plate electrode. The boom 1 is made of a lightweight material such as aluminum, and is generally configured to be stretchable.

また、前記噴霧ノズル2は、薬液等の噴霧パターンが扇形のもので、図面実施例では、三種類切り替え可能に構成されている。すなわち、薬液等の種類により、あるいは噴霧を必要とする栽培植物の種類等に合わせて三種類の噴霧パターンを、機体前後方向の軸線O−O周りで噴霧ノズル2の外方から手指で回動させることにより切り替えて使用できるように構成されている。   Further, the spray nozzle 2 has a fan-shaped spray pattern of a chemical solution or the like, and is configured to be switchable in three types in the embodiment of the drawings. That is, three types of spray patterns are rotated with fingers from the outside of the spray nozzle 2 around the axis OO in the longitudinal direction of the aircraft depending on the type of chemical solution or the type of cultivated plant that requires spraying. So that it can be switched for use.

そして、前記噴霧パターンを切り替えても前記板状電極3は代えずに、同一の板状電極3から効率よく静電付与が行われるように、前記板状電極3は、切り替え対象となる全ての噴霧パターンに共用できる標準的な大きさと形状に設定されている。   And even if it changes the said spray pattern, the said plate-shaped electrode 3 does not change, but the said plate-shaped electrode 3 is all the switching object so that electrostatic provision may be efficiently performed from the same plate-shaped electrode 3. It is set to a standard size and shape that can be shared with spray patterns.

さらに、前記噴霧ノズル2を切り替え操作する際に、手指や回動される前記噴霧ノズル2の動きを妨げず、静電付与装置を有しない通常の切り替え式噴霧ノズルと同様の安定的な切り替え操作ができるように、前記板状電極3及び該板状電極3の支持部3aは、前記噴霧ノズル2の回動軌跡を避けて手指による回動操作側の反対側に配置させている。   Further, when the spray nozzle 2 is switched, a stable switching operation similar to that of a normal switchable spray nozzle that does not hinder the movement of the fingers or the rotated spray nozzle 2 and does not have an electrostatic applicator. The plate-like electrode 3 and the support portion 3a of the plate-like electrode 3 are disposed on the opposite side to the turning operation side by fingers while avoiding the turning locus of the spray nozzle 2.

また、前記板状電極3は、前記噴霧ノズル2の先端部近傍に配置され、図面実施例では薬液等の噴霧方向に向けて拡げられた扇形に形成されている。もっとも、前記板状電極3は、前記のごとく、単なる矩形、すなわち短冊状のものであってもよい。   The plate-like electrode 3 is disposed in the vicinity of the tip of the spray nozzle 2, and in the embodiment shown in the drawings, is formed in a fan shape that is expanded toward the spraying direction of a chemical solution or the like. However, as described above, the plate-like electrode 3 may be a simple rectangle, that is, a strip.

本発明では、前記板状電極3が、前記噴霧パターンが扇形の噴霧ノズル2から噴霧された噴霧パターンAの側面と平行になるように配置される(図2及び図3参照)。   In the present invention, the plate electrode 3 is arranged so that the spray pattern is parallel to the side surface of the spray pattern A sprayed from the fan-shaped spray nozzle 2 (see FIGS. 2 and 3).

なお、図2及び図3では、前記板状電極3が、少し傾けられた状態で表されている。このことは、前記噴霧ノズル2が当初から少し傾けて設けられていることに基づく。   2 and 3, the plate-like electrode 3 is shown in a slightly tilted state. This is based on the fact that the spray nozzle 2 is provided with a slight inclination from the beginning.

すなわち、噴霧パターンが扇形の前記噴霧ノズル2を、ブームスプレーヤの前記ブーム1に所定間隔をあけて設けるとき、薬液等の扇形の噴霧パターンAの噴霧方向を全て同じ(例えば、前記ブーム1方向)にすると、隣接する前記噴霧ノズル2からの噴霧された薬液等が、その広がり部分においてぶつかり合うことになり、均等散布を保つことができないため、当初からそれぞれの前記噴霧ノズル2を、薬液等の噴霧がぶつかり合わない方向にそれぞれ少し傾けて取付けていることに基づく。   That is, when the spray nozzle 2 having a fan-shaped spray pattern is provided at a predetermined interval on the boom 1 of the boom sprayer, all the spray directions of the fan-shaped spray pattern A such as a chemical solution are the same (for example, the boom 1 direction). Then, since the sprayed chemical liquids from the adjacent spray nozzles 2 collide with each other in the spreading portion, and uniform spraying cannot be maintained, each spray nozzle 2 is initially set to a chemical liquid or the like. It is based on the fact that it is installed at a slight angle in the direction where the sprays do not collide.

したがって、本発明の場合には、前記噴霧ノズル2による薬液等の傾けられた噴霧方向と平行になるように、前記板状電極3が配置される。なお、前記板状電極3は、前記三種類切り替えの噴霧ノズル2の切り替え操作に支障をきたさない状態で、前記噴霧ノズル2の先端部近傍の両側面に対向させて配置してもよいものである。図中、4は、高圧線の接続部、5a、5bは、高圧線、6は、薬液等の通路である。   Therefore, in the case of the present invention, the plate-like electrode 3 is disposed so as to be parallel to the inclined spraying direction of the chemical solution or the like by the spray nozzle 2. The plate electrode 3 may be arranged to face both side surfaces near the tip of the spray nozzle 2 in a state that does not hinder the switching operation of the three types of spray nozzles 2. is there. In the figure, reference numeral 4 is a high-voltage line connecting portion, 5a and 5b are high-pressure lines, and 6 is a passage for a chemical solution or the like.

図3には、他の実施の一形態が示されている。この実施の一形態では、前記噴霧ノズル2及び前記板状電極3と、それらの取付部材との間、具体的には、前記ブーム1に形成された取付部材7側との間に、該取付部材7及び前記ブーム1側への漏電を防止する絶縁部材8として、また、前記板状電極3と前記取付部材7との間の沿面距離を確保するためのガイシが介在させられている。   FIG. 3 shows another embodiment. In this embodiment, the attachment between the spray nozzle 2 and the plate-like electrode 3 and their attachment members, specifically between the attachment member 7 side formed on the boom 1. As an insulating member 8 for preventing leakage of electric current to the member 7 and the boom 1 side, a insulator for securing a creepage distance between the plate electrode 3 and the mounting member 7 is interposed.

さらに、図3の実施の一形態には、前記絶縁部材8とともに、仕切り部材9が設けられている。該仕切り部材9は、前記取付部材7、具体的には、前記取付部材7側への噴霧液の浮遊を阻止するためのもので、図面実施例では、前記噴霧ノズル2及び前記板状電極3と、前記取付部材7との間を遮断するように設けられる。なお、図面実施例では、カップ状に形成されているが、その形状は問わない。しかし、前記板状電極2と前記取付部材7との間の沿面距離の延長に役立つ形状であることが好ましい。   Further, in the embodiment of FIG. 3, a partition member 9 is provided together with the insulating member 8. The partition member 9 is for preventing the spray liquid from floating on the mounting member 7, specifically, the mounting member 7 side. In the embodiment of the drawings, the spray nozzle 2 and the plate electrode 3 are used. And the mounting member 7 are provided so as to be blocked. In addition, in the drawing embodiment, although formed in the cup shape, the shape is not ask | required. However, it is preferable that the shape is useful for extending the creeping distance between the plate electrode 2 and the mounting member 7.

図4には、他の実施の一形態が示されている。この実施の一形態は、ブームスプレーヤであり、前記ブーム1が、機体10側の元ブーム1aと、先ブーム1bからなる伸縮ブームとされている。もっとも、中間ブームが介在させられる場合もある。   FIG. 4 shows another embodiment. One embodiment of the present invention is a boom sprayer, and the boom 1 is an extendable boom including an original boom 1a on the airframe 10 side and a front boom 1b. Of course, an intermediate boom may be interposed.

前記実施の一形態では、前記噴霧ノズル2及び前記板状電極3が、前記元ブーム1a及び先ブーム1bにそれぞれ所定間隔をあけて設けられる。さらに、前記元ブーム1a及び先ブーム1bにはそれぞれ昇圧ユニット11a及び11bが配置される。   In the embodiment, the spray nozzle 2 and the plate electrode 3 are provided at predetermined intervals on the original boom 1a and the tip boom 1b, respectively. Further, boosting units 11a and 11b are arranged on the former boom 1a and the leading boom 1b, respectively.

さらに、前記それぞれの昇圧ユニット11a及び11bには、機体10に設けられた電源ユニット12からの低圧線13a及び13bが接続される。さらに前記それぞれの昇圧ユニット11a及び11bから、該昇圧ユニット11a及び11bが設けられた前記元ブーム1a及び先ブーム1bの前記板状電極3間に高圧線5a及び5bが直列に接続されている。   Further, low voltage lines 13a and 13b from a power supply unit 12 provided in the airframe 10 are connected to the respective boosting units 11a and 11b. Furthermore, high-voltage lines 5a and 5b are connected in series between the plate-like electrodes 3 of the former boom 1a and the tip boom 1b provided with the boosting units 11a and 11b.

なお、前記電源ユニット12から前記先ブーム1bの昇圧ユニット11bへの前記低圧線13bは、伸縮自在のカールコードとされている。図中、14は、前記カールコード13bの支持及びガイドワイヤである。   Note that the low-voltage line 13b from the power supply unit 12 to the booster unit 11b of the tip boom 1b is an elastic curl cord. In the figure, reference numeral 14 denotes a support and guide wire for the curl cord 13b.

前記構成によれば、前記電源ユニット12から、前記元ブーム1a及び先ブーム1bにそれぞれ高圧線を接続する必要がなく、作業員の安全が確保されるとともに、前記元ブーム1a及び先ブーム1bの前記板状電極3間に高圧線を直列接続したことにより、装置の簡易化が図られ、また、伸縮ブームの伸縮操作に支障をきたすことがないものである。   According to the said structure, it is not necessary to connect a high voltage | pressure line from the said power supply unit 12 to the said original boom 1a and the front boom 1b, respectively, and while ensuring the safety | security of an operator, the said original boom 1a and the front boom 1b By connecting a high voltage line in series between the plate-like electrodes 3, the apparatus can be simplified, and the telescopic boom can be operated without extension.

本発明の一実施の形態を示し、噴霧ノズル及び板状電極のブームへの取付部を示す正面図である。It is a front view which shows one Embodiment of this invention and shows the attachment part to the boom of a spray nozzle and a plate-shaped electrode. 図1のX−X線矢視断面図である。FIG. 2 is a cross-sectional view taken along line XX in FIG. 1. 他の実施の一形態を示し、前記図2に対応する断面図である。FIG. 3 is a cross-sectional view showing another embodiment and corresponding to FIG. 2. ブームスプレーヤの伸縮ブーム部を示す正面図である。It is a front view which shows the telescopic boom part of a boom sprayer.

符号の説明Explanation of symbols

1 (伸縮)ブーム
1a 元ブーム
1b 先ブーム
2 噴霧ノズル
3 板状電極
3a 板状電極に支持部
5(5a、5b) 高圧線
7 (噴霧ノズル及び板状電極の)取付部材
8 絶縁部材
9 仕切り部材
11a、11b 昇圧ユニット
12 電源ユニット
13a、13b 低圧線
DESCRIPTION OF SYMBOLS 1 (Extension | expansion) boom 1a Former boom 1b Former boom 2 Spray nozzle 3 Plate-like electrode 3a Support part to plate-like electrode 5 (5a, 5b) High voltage line 7 Attachment member (for spray nozzle and plate-like electrode) 8 Insulating member 9 Partition Member 11a, 11b Booster unit 12 Power supply unit 13a, 13b Low voltage line

Claims (7)

薬液等の噴霧パターンが扇形の噴霧ノズル(2)の先端部近傍に、扇形の噴霧パターン(A)の側面と平行に板状電極(3)を配置したことを特徴とする静電付与式散布機。 Electrostatically applied spraying characterized in that a plate-like electrode (3) is arranged in the vicinity of the tip of the fan-shaped spray nozzle (2) with a spray pattern of a chemical solution or the like parallel to the side surface of the fan-shaped spray pattern (A). Machine. 前記噴霧ノズル(2)は、前記噴霧パターン(A)を複数種類切り替えて使用可能に構成し、前記板状電極(3)及び該板状電極(3)の支持部(3a)を、前記噴霧ノズル(2)の移動軌跡から所定の離間位置に配設したことを特徴とする、請求項1に記載の静電付与式散布機。 The spray nozzle (2) can be used by switching a plurality of types of spray patterns (A), and the plate electrode (3) and the support (3a) of the plate electrode (3) are connected to the spray nozzle. 2. The electrostatic spraying device according to claim 1, wherein the electrostatic spraying device is disposed at a predetermined distance from a movement locus of the nozzle (2). 前記板状電極(3)が、薬液等の噴霧方向に向けて拡げられた扇形であることを特徴とする請求項1又は2に記載の静電付与式散布機。 The electrostatic application spreader according to claim 1 or 2, wherein the plate-like electrode (3) has a fan shape that is expanded in a spraying direction of a chemical solution or the like. 前記板状電極(3)を、前記扇形の噴霧パターン(A)の両側面に平行に、かつ対向させて配置したことを特徴とする請求項1、2又は3に記載の静電付与式散布機。 4. The electrostatic application type spray according to claim 1, wherein the plate-like electrode (3) is arranged in parallel and opposite to both side surfaces of the fan-shaped spray pattern (A). 5. Machine. 前記噴霧ノズル(2)及び前記板状電極(3)と、それらの取付部材(7)との間に、電気絶縁部材(8)を介在させたことを特徴とする請求項1、2、3又は4に記載の静電付与式散布機。 An electric insulating member (8) is interposed between the spray nozzle (2) and the plate electrode (3) and their mounting members (7). Alternatively, the electrostatic application spreader according to 4. 前記噴霧ノズル(2)及び前記板状電極(3)と、それらの取付部材(7)との間に、該取付部材(7)側への噴霧液の浮遊を阻止する仕切り部材(9)を介在させたことを特徴とする請求項1、2、3、4又は5に記載の静電付与式散布機。 Between the spray nozzle (2) and the plate electrode (3) and their mounting member (7), a partition member (9) for preventing the spray liquid from floating toward the mounting member (7) is provided. The electrostatic application type sprayer according to claim 1, 2, 3, 4 or 5, wherein the electrostatic application type sprayer is interposed. 前記噴霧ノズル(2)及び前記板状電極(3)が、伸縮ブーム(1)を構成する各ブーム(1a、1b)に所定間隔をあけて設けられ、前記各ブーム(1a、1b)にはそれぞれ昇圧ユニット(11a、11b)が配置され、該それぞれの昇圧ユニット(11a、11b)には電源ユニット(12)からの低圧線(13a、13b)が接続され、前記それぞれの昇圧ユニット(11a、11b)から、該昇圧ユニット(11a、11b)が設けられた各ブーム(1a、1b)の前記板状電極(3)間に高圧線(14a、14b)が直列に接続されてなることを特徴とする静電付与式散布機。 The spray nozzle (2) and the plate electrode (3) are provided at predetermined intervals on each boom (1a, 1b) constituting the telescopic boom (1). Each booster unit (11a, 11b) is arranged, and the respective booster unit (11a, 11b) is connected to a low voltage line (13a, 13b) from the power supply unit (12), and the respective booster unit (11a, 11b) is connected. 11b), high voltage lines (14a, 14b) are connected in series between the plate electrodes (3) of the booms (1a, 1b) provided with the boosting units (11a, 11b). An electrostatic application spreader.
JP2006187434A 2006-07-07 2006-07-07 Electrostatic application spreader Expired - Fee Related JP4816292B2 (en)

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Publication number Priority date Publication date Assignee Title
JP2009240896A (en) * 2008-03-31 2009-10-22 Marunaka:Kk Electrostatic nozzle
JP2010064006A (en) * 2008-09-11 2010-03-25 Yamabiko Corp Electrode member for electrostatic spraying
JP2011104497A (en) * 2009-11-16 2011-06-02 Fulta Electric Machinery Co Ltd Electrostatic nozzle device and electrode structure thereof
JP2012005432A (en) * 2010-06-25 2012-01-12 Iseki & Co Ltd Chemical spraying machine
CN106794478A (en) * 2015-04-14 2017-05-31 金章焕 Long range electrostatic spraying device
WO2023042586A1 (en) * 2021-09-16 2023-03-23 有光工業株式会社 Electrostatic spraying device

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JP2005087067A (en) * 2003-09-16 2005-04-07 Kioritz Corp Electrostatic application type applicator
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JP2006136814A (en) * 2004-11-12 2006-06-01 Minoru Industrial Co Ltd Electrical leak prevention member

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JPH08229450A (en) * 1995-02-24 1996-09-10 Trinity Ind Corp System for electric voltage applying coating on work
JP2001087679A (en) * 1999-09-27 2001-04-03 Kioritz Corp Switching nozzle
JP2004122091A (en) * 2002-08-05 2004-04-22 Minoru Industrial Co Ltd Electrostatic spraying device
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* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
JP2009240896A (en) * 2008-03-31 2009-10-22 Marunaka:Kk Electrostatic nozzle
JP2010064006A (en) * 2008-09-11 2010-03-25 Yamabiko Corp Electrode member for electrostatic spraying
JP2011104497A (en) * 2009-11-16 2011-06-02 Fulta Electric Machinery Co Ltd Electrostatic nozzle device and electrode structure thereof
JP2012005432A (en) * 2010-06-25 2012-01-12 Iseki & Co Ltd Chemical spraying machine
CN106794478A (en) * 2015-04-14 2017-05-31 金章焕 Long range electrostatic spraying device
WO2023042586A1 (en) * 2021-09-16 2023-03-23 有光工業株式会社 Electrostatic spraying device

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