JPH09192546A - Cleaning of rotary atomizing head rear face of rotary atomization electrostatic coating device - Google Patents
Cleaning of rotary atomizing head rear face of rotary atomization electrostatic coating deviceInfo
- Publication number
- JPH09192546A JPH09192546A JP8009668A JP966896A JPH09192546A JP H09192546 A JPH09192546 A JP H09192546A JP 8009668 A JP8009668 A JP 8009668A JP 966896 A JP966896 A JP 966896A JP H09192546 A JPH09192546 A JP H09192546A
- Authority
- JP
- Japan
- Prior art keywords
- cleaning
- atomizing head
- shaping air
- nozzle
- back surface
- 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
Links
Classifications
-
- B—PERFORMING OPERATIONS; TRANSPORTING
- B05—SPRAYING OR ATOMISING IN GENERAL; APPLYING FLUENT MATERIALS TO SURFACES, IN GENERAL
- B05B—SPRAYING APPARATUS; ATOMISING APPARATUS; NOZZLES
- B05B5/00—Electrostatic spraying apparatus; Spraying apparatus with means for charging the spray electrically; Apparatus for spraying liquids or other fluent materials by other electric means
- B05B5/025—Discharge apparatus, e.g. electrostatic spray guns
- B05B5/04—Discharge apparatus, e.g. electrostatic spray guns characterised by having rotary outlet or deflecting elements, i.e. spraying being also effected by centrifugal forces
- B05B5/0403—Discharge apparatus, e.g. electrostatic spray guns characterised by having rotary outlet or deflecting elements, i.e. spraying being also effected by centrifugal forces characterised by the rotating member
- B05B5/0407—Discharge apparatus, e.g. electrostatic spray guns characterised by having rotary outlet or deflecting elements, i.e. spraying being also effected by centrifugal forces characterised by the rotating member with a spraying edge, e.g. like a cup or a bell
-
- B—PERFORMING OPERATIONS; TRANSPORTING
- B05—SPRAYING OR ATOMISING IN GENERAL; APPLYING FLUENT MATERIALS TO SURFACES, IN GENERAL
- B05B—SPRAYING APPARATUS; ATOMISING APPARATUS; NOZZLES
- B05B5/00—Electrostatic spraying apparatus; Spraying apparatus with means for charging the spray electrically; Apparatus for spraying liquids or other fluent materials by other electric means
- B05B5/025—Discharge apparatus, e.g. electrostatic spray guns
- B05B5/04—Discharge apparatus, e.g. electrostatic spray guns characterised by having rotary outlet or deflecting elements, i.e. spraying being also effected by centrifugal forces
- B05B5/0426—Means for supplying shaping gas
Landscapes
- Application Of Or Painting With Fluid Materials (AREA)
- Electrostatic Spraying Apparatus (AREA)
Abstract
Description
【0001】[0001]
【発明の属する技術分野】本発明は、回転霧化静電塗装
装置の回転霧化頭裏面洗浄方法に関する。BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a rotary atomizing head back surface cleaning method for a rotary atomizing electrostatic coating apparatus.
【0002】[0002]
【従来の技術】実開昭62−48458号公報は、回転
霧化静電塗装装置を開示している。そこでは、図7に示
すように、回転霧化頭51の裏面に対向して霧化頭裏面
洗浄ノズル52が設けられており、被塗装物の塗装間の
塗装停止時に、回転霧化頭51を回転させながら、霧化
頭裏面洗浄ノズル52から洗浄剤53を噴射させるとと
もにエアキャップ54に形成したシェーピングエアノズ
ル55からシェーピングエア56を噴射させて、回転霧
化頭裏面の洗浄が行われる。2. Description of the Related Art Japanese Utility Model Laid-Open No. 62-48458 discloses a rotary atomizing electrostatic coating device. As shown in FIG. 7, the atomizing head back surface cleaning nozzle 52 is provided so as to face the back surface of the rotating atomizing head 51, and the rotary atomizing head 51 is stopped when coating is stopped during coating of the object to be coated. While rotating, the cleaning agent 53 is sprayed from the atomizing head back surface cleaning nozzle 52 and the shaping air 56 is sprayed from the shaping air nozzle 55 formed in the air cap 54 to clean the rotating atomizing head back surface.
【0003】[0003]
【発明が解決しようとする課題】しかし、従来の回転霧
化頭裏面の洗浄にはつぎの問題がある。第1に、図7に
示すように、洗浄中にも噴射されるシェーピングエアに
よって、霧化頭裏面洗浄ノズルから噴出した洗浄溶剤が
霧化頭後方に巻き込まれてしまい、エアキャップに洗浄
溶剤が多量に付着してしまう。付着した洗浄溶剤は塗装
中に徐徐に自動車ボデー面に落下し、塗装不具合を発生
する。第2に、図8に示すように、霧化頭裏面洗浄ノズ
ルが細い円筒状ノズルからなるため、噴出された洗浄溶
剤が霧化頭外面全体には当たらず、狭い範囲しか洗浄す
ることができない。その結果、洗いきれずに蓄積された
塗料が、塗装中に回転霧化頭からはがれ落ちて、ブツや
色混じりなど塗装品質不良の原因となっている。それを
抑制するため、霧化頭裏面洗浄ノズルから噴出された洗
浄溶剤ができるだけ回転霧化頭外面に沿って流れるよう
に、霧化頭裏面洗浄ノズル角度や回転霧化頭回転速度を
調節しているが、設定が微妙で難しく、設備導入やメン
テナンスの際に多大の工数を必要としている。第3に、
洗浄溶剤は、常時、霧化頭裏面洗浄ノズルに充填されて
いるため、塗装中に、振動等によって、容易に洗浄溶剤
がボデー表面に落下してしまい、塗装不具合を引き起こ
す。本発明の目的は、上記の問題を解決できる、とくに
洗浄中における洗浄溶剤のエアキャップへの付着を防止
できる、回転霧化静電塗装装置の回転霧化頭裏面洗浄方
法を提供することにある。However, the conventional cleaning of the back surface of the rotary atomizing head has the following problems. Firstly, as shown in FIG. 7, the cleaning solvent ejected from the atomizing head back surface cleaning nozzle is caught up behind the atomizing head by the shaping air that is sprayed during cleaning, and the cleaning solvent is trapped in the air cap. A large amount will adhere. The adhered cleaning solvent gradually drops onto the body surface of the automobile during coating, causing a coating failure. Secondly, as shown in FIG. 8, since the atomizing head back surface cleaning nozzle is composed of a thin cylindrical nozzle, the sprayed cleaning solvent does not contact the entire outer surface of the atomizing head, and only a narrow area can be cleaned. . As a result, the paint accumulated without being washed off comes off from the rotary atomizing head during painting, which causes poor coating quality such as spots and color mixture. In order to prevent this, the atomizing head back surface cleaning nozzle angle and the rotating atomizing head rotation speed are adjusted so that the cleaning solvent ejected from the atomizing head back surface cleaning nozzle flows along the outer surface of the rotating atomizing head as much as possible. However, the setting is delicate and difficult, and a lot of man-hours are required for equipment installation and maintenance. Third,
Since the cleaning solvent is always filled in the atomizing head back surface cleaning nozzle, the cleaning solvent easily drops onto the body surface due to vibration during coating, causing a coating failure. An object of the present invention is to provide a method for cleaning the back surface of a rotary atomizing head of a rotary atomizing electrostatic coating apparatus, which can solve the above-mentioned problems, and particularly prevent the cleaning solvent from adhering to the air cap during cleaning. .
【0004】[0004]
【課題を解決するための手段】上記目的を達成する本発
明はつぎの通りである。回転霧化頭裏面に対向させて設
けた霧化頭裏面洗浄ノズルから洗浄剤を噴出させるとと
もにシェーピングエアノズルからシェーピングエアを噴
出させて回転霧化頭裏面を洗浄する回転霧化静電塗装装
置の回転霧化頭裏面洗浄方法において、洗浄時のシェー
ピングエア圧を塗装時のシェーピングエア圧より小さく
したことを特徴とする回転霧化静電塗装装置の回転霧化
頭裏面洗浄方法。The present invention to achieve the above object is as follows. Rotation of the atomizing head backside, which sprays the cleaning agent from the atomizing head backside cleaning nozzle provided facing the rotating atomizing head backside and ejects shaping air from the shaping air nozzle to wash the rotating atomizing head backside. A method for cleaning a back surface of an atomizing head, wherein a shaping air pressure during cleaning is set to be lower than a shaping air pressure during coating.
【0005】上記本発明の回転霧化静電塗装装置の回転
霧化頭裏面洗浄方法では、洗浄時のシェーピングエア圧
を塗装時のシェーピングエア圧より小さくするので、洗
浄時のシェーピングエアの巻き込み力が小さくなり、そ
の結果、洗浄剤がシェーピングエアに巻き込まれにくく
なり、洗浄剤のエアキャップへの付着が少なくなって、
付着洗浄剤の被塗装面への落下、塗装不具合の発生等が
生じなくなる。In the rotary atomizing head back surface cleaning method of the rotary atomizing electrostatic coating apparatus of the present invention described above, the shaping air pressure during cleaning is made smaller than the shaping air pressure during coating. As a result, the cleaning agent is less likely to be caught in the shaping air, and the cleaning agent is less attached to the air cap.
The adhered cleaning agent does not drop on the surface to be coated, and coating defects do not occur.
【0006】[0006]
【発明の実施の形態】図1から図6は本発明の実施例を
示している。まず、本発明実施例の回転霧化頭裏面洗浄
方法を実施する回転霧化静電塗装装置を説明する。図
1、図2の回転霧化静電塗装装置において、回転霧化頭
1は中空シャフト10の前端に固定されている。中空シ
ャフト10は空気軸受8によって静止部材であるボデー
9に回転自在に指示されている。中空シャフト10はエ
アモータ12により回転駆動され、回転霧化頭1は中空
シャフト10と一体になって、高速で回転される。回転
霧化頭1には高電圧発生器4(ボデー9の内部に埋め込
まれていてもよいし、外部にあってもよい)からの高電
圧が付与され、回転霧化頭1の前端エッジから飛散する
塗料を帯電させる。5は電気絶縁材の樹脂カバーであ
る。1 to 6 show an embodiment of the present invention. First, a rotary atomizing electrostatic coating apparatus for carrying out the rotary atomizing head back surface cleaning method of the embodiment of the present invention will be described. In the rotary atomizing electrostatic coating apparatus of FIGS. 1 and 2, the rotary atomizing head 1 is fixed to the front end of the hollow shaft 10. The hollow shaft 10 is rotatably supported by a body 9, which is a stationary member, by an air bearing 8. The hollow shaft 10 is rotationally driven by an air motor 12, and the rotary atomizing head 1 is integrated with the hollow shaft 10 and rotated at high speed. A high voltage is applied to the rotary atomizing head 1 from a high voltage generator 4 (which may be embedded inside the body 9 or external), and is applied from the front end edge of the rotary atomizing head 1. Charge scattered paint. Reference numeral 5 is a resin cover made of an electrically insulating material.
【0007】中空シャフト10を挿通して塗料と洗浄剤
(洗浄溶剤、シンナーともいう)のフィードチューブ6
が延びており、回転霧化頭1の内部に塗装時には塗料を
供給して塗装を実行し、洗浄時には洗浄剤を供給して回
転霧化頭1の内面を洗浄する。塗料フィードチューブ6
は単一の洗浄剤フィードチューブを挿通するマルチフィ
ードチューブであってもよい。A feed tube 6 for a paint and a cleaning agent (also called a cleaning solvent or thinner) is inserted through the hollow shaft 10.
When the paint is applied to the inside of the rotary atomizing head 1, the paint is applied to the inside of the rotary atomizing head 1, and the cleaning agent is supplied to clean the inner surface of the rotary atomizing head 1 during the cleaning. Paint feed tube 6
May be a multi-feed tube that passes through a single detergent feed tube.
【0008】3はエアキャップであり、内部にプレナム
室11を有し、同一円周上に配列された多数のシェーピ
ングエアノズル7からシェーピングエアを噴出して、回
転霧化頭1から遠心力で半径方向外方に飛散する塗料の
飛行パターンを前方の被塗装物の方に向ける。回転霧化
頭1の裏面に対向させて霧化頭裏面洗浄ノズル2が設け
られており、塗装中に回転霧化頭1の裏面に付着した塗
料を、被塗装物の塗装とつぎの被塗装物の塗装との間の
塗装停止中に洗浄剤を噴出して、洗浄する。霧化頭裏面
洗浄ノズル2は回転霧化頭1の周りに1個設けられてお
り、霧化頭裏面洗浄ノズル2から噴出される洗浄剤は回
転霧化頭1が回転することによって回転霧化頭1の裏面
の全周に当たる。An air cap 3 has a plenum chamber 11 inside and ejects shaping air from a number of shaping air nozzles 7 arranged on the same circumference, and a radius is generated by centrifugal force from the rotary atomizing head 1. Direct the flight pattern of the paint that scatters outwards toward the object in front. An atomizing head back surface cleaning nozzle 2 is provided so as to face the back surface of the rotary atomizing head 1, and paint applied to the back surface of the rotary atomizing head 1 during painting is applied to the object to be coated and the next object to be coated. Cleaning is performed by spraying a cleaning agent while the painting is stopped between painting of the object. One atomizing head back surface cleaning nozzle 2 is provided around the rotary atomizing head 1, and the cleaning agent ejected from the atomizing head back surface cleaning nozzle 2 is rotary atomized by the rotation of the rotary atomizing head 1. It hits the entire back surface of head 1.
【0009】塗料フィードチューブには塗料源14(フ
ィードポンプを含む)からの塗料が供給される。その塗
料供給経路の途中には色替バルブ27、流量制御弁2
6、オンオフ電磁弁25が、上流から下流に順に設けら
れる。塗料フィードチューブがマルチフィードチューブ
からなる場合は異なる色ごとにフィードチューブと塗料
源が設けられ、その各供給経路ごとに流量制御弁26、
オンオフ電磁弁25が設けられる。The paint from the paint source 14 (including a feed pump) is supplied to the paint feed tube. A color change valve 27 and a flow control valve 2 are provided in the middle of the paint supply path.
6. An on / off solenoid valve 25 is provided in this order from upstream to downstream. When the paint feed tube is a multi-feed tube, a feed tube and a paint source are provided for different colors, and the flow control valve 26,
An on / off solenoid valve 25 is provided.
【0010】洗浄剤フィードチューブ(回転霧化頭の内
面の洗浄用)および霧化頭裏面洗浄ノズル2(回転霧化
頭の外面の洗浄用)には共通の洗浄剤源15から洗浄剤
が供給される。洗浄剤フィードチューブへの洗浄剤供給
経路の途中には流量制御弁24、オンオフ電磁弁23
が、上流から下流に順に設けられる。霧化頭裏面洗浄ノ
ズル2への洗浄剤供給経路の途中には流量制御弁22、
オンオフ電磁弁21が、上流から下流に順に設けられ
る。A cleaning agent is supplied from a common cleaning agent source 15 to the cleaning agent feed tube (for cleaning the inner surface of the rotary atomizing head) and the atomizing head back surface cleaning nozzle 2 (for cleaning the outer surface of the rotating atomizing head). To be done. A flow control valve 24 and an on / off solenoid valve 23 are provided in the middle of the cleaning agent supply path to the cleaning agent feed tube.
Are provided in order from upstream to downstream. In the middle of the cleaning agent supply path to the atomizing head back surface cleaning nozzle 2, a flow rate control valve 22,
The on / off solenoid valve 21 is provided in order from upstream to downstream.
【0011】エアモータ12、空気軸受8、シェーピン
グエアノズル7には共通の圧縮エア源12から圧縮エア
が供給される。エアモータ12への圧縮エア供給経路に
は圧力レギュレータ20が設けられている。空気軸受8
には圧縮エア源12から圧縮エアがそのまま供給される
ようになっている。ただし、その圧縮エア供給経路に圧
力レギュレータ、流量制御弁を設けてもよい。Compressed air is supplied to the air motor 12, the air bearing 8, and the shaping air nozzle 7 from a common compressed air source 12. A pressure regulator 20 is provided in the compressed air supply path to the air motor 12. Air bearing 8
Compressed air is directly supplied from the compressed air source 12. However, a pressure regulator and a flow rate control valve may be provided in the compressed air supply path.
【0012】シェーピングエアノズル7への圧縮エア供
給経路はシェーピングエアノズル7から上流側に隔たっ
た所で複数の通路に分岐されており、各分岐通路に圧力
レギュレータとオンオフ電磁弁が上流から下流に順に設
けられる。そして各分岐通路の圧力レギュレータは設定
圧力を変えてある。たとえば、ひとつの分岐通路には圧
力レギュレータ18とオンオフ電磁弁16が上流から下
流に順に設けられており、別の分岐通路には圧力レギュ
レータ19とオンオフ電磁弁17が上流から下流に順に
設けられており、圧力レギュレータ18の設定圧力と圧
力レギュレータ19の設定圧力は異ならされている。た
とえば、圧力レギュレータ18の設定圧力は圧力レギュ
レータ19の設定圧力より小とされている。低い方の圧
力レギュレータ18の設定圧は0.5〜1.5kg/c
m2 とされている。下限を0.5kg/cm2 とする理
由はそれより低いと洗浄中に霧化頭内面を洗浄するため
の洗浄剤が前方に吹き飛んでくれなく遠心方向に飛び散
ってエアキャップ3に付着したり、塗装機を取り付けて
いるロボットや、自動車ボデーを汚してしまうからであ
る。また、上限を1.5kg/cm2 とする理由はそれ
より高いと霧化頭外周面の洗浄剤がエアキャップ3に巻
き込まれて付着し、塗装中にそれが垂れ落ちるおそれが
あるからである。The compressed air supply path to the shaping air nozzle 7 is branched into a plurality of passages at a position separated from the shaping air nozzle 7 on the upstream side, and a pressure regulator and an on / off solenoid valve are provided in order from upstream to downstream in each branch passage. To be The pressure regulator of each branch passage changes the set pressure. For example, one branch passage is provided with a pressure regulator 18 and an on / off solenoid valve 16 sequentially from upstream to downstream, and another branch passage is provided with a pressure regulator 19 and an on / off solenoid valve 17 sequentially from upstream to downstream. Therefore, the set pressure of the pressure regulator 18 and the set pressure of the pressure regulator 19 are different. For example, the set pressure of the pressure regulator 18 is set lower than the set pressure of the pressure regulator 19. The setting pressure of the lower pressure regulator 18 is 0.5 to 1.5 kg / c
It is said to be m 2 . The reason for setting the lower limit to 0.5 kg / cm 2 is that if it is lower than that, the cleaning agent for cleaning the inner surface of the atomizing head does not blow forward and scatters in the centrifugal direction and adheres to the air cap 3, This is because the robot that has the painting machine attached and the car body are dirty. Further, the reason why the upper limit is set to 1.5 kg / cm 2 is that if it is higher than that, the cleaning agent on the outer peripheral surface of the atomizing head may be caught in the air cap 3 and adhere to the air cap 3 to drip during coating. .
【0013】また、圧縮エア供給源13からの圧縮エア
供給経路は、霧化頭裏面洗浄ノズル2への洗浄剤供給経
路の電磁弁21の下流部分に接続されており、接続部の
上流部分にオンオフ電磁弁29が設けられている。電磁
弁29を開としかつ電磁弁21を閉とすることにより、
霧化頭裏面洗浄ノズル2から前記接続部までの洗浄剤を
パージすることができる。The compressed air supply path from the compressed air supply source 13 is connected to the downstream portion of the electromagnetic valve 21 of the cleaning agent supply path to the atomizing head back surface cleaning nozzle 2, and is connected to the upstream portion of the connection portion. An on / off solenoid valve 29 is provided. By opening the solenoid valve 29 and closing the solenoid valve 21,
The cleaning agent from the atomizing head back surface cleaning nozzle 2 to the connecting portion can be purged.
【0014】各電磁弁20、21、23、25、16、
17、29および色替えバルブ27は制御装置28から
の指令により作動し、必要に応じて流量制御弁22、2
4、26、圧力レギュレータ18、19も制御装置28
からの指令により作動するようにしてある。そして、制
御装置28は、塗装実行中は設定圧力の高い方の圧力レ
ギュレータ19が設置されている分岐通路を通して圧力
の高いシェーピングエアをシェーピングエアノズル7に
送り、洗浄剤による回転霧化頭裏面洗浄中は設定圧力の
低い方の圧力レギュレータ18が設置されている分岐通
路を通して圧力の低いシェーピングエアをシェーピング
エアノズル7に送るように、電磁弁16、17を制御す
る。Each solenoid valve 20, 21, 23, 25, 16,
17, 29 and the color change valve 27 are operated by a command from the control device 28, and if necessary, the flow control valves 22, 2
4, 26, pressure regulators 18 and 19 are also control devices 28
It is designed to be activated by a command from. Then, the control device 28 sends the shaping air having a high pressure to the shaping air nozzle 7 through the branch passage in which the pressure regulator 19 having the higher set pressure is installed during the coating execution, and the rotary atomizing head back surface cleaning is performed by the cleaning agent. Controls the solenoid valves 16 and 17 so as to send shaping air having a low pressure to the shaping air nozzle 7 through the branch passage in which the pressure regulator 18 having a lower set pressure is installed.
【0015】回転霧化頭裏面洗浄ノズル2は、洗浄剤の
噴出口の形状を、図3に示す如く、そこから噴出される
洗浄剤が噴出後噴出口から離れるに従って広がるパター
ン30となり回転霧化頭1の裏面の全長にわたって当た
るように、広角ノズルとしてある。霧化頭裏面洗浄ノズ
ル2から噴出される洗浄剤の噴出パターンは、図4に示
す如く楕円パターン31であってもよいし、図5に示す
如く円形パターン32であってもよい。As shown in FIG. 3, the rotary atomizing head back surface cleaning nozzle 2 has a shape of the cleaning agent jetting outlet, and becomes a pattern 30 in which the cleaning agent jetted from the jetting agent spreads away from the jetting outlet after being jetted. It is a wide-angle nozzle so that it hits the entire back surface of the head 1. The spray pattern of the cleaning agent sprayed from the atomizing head back surface cleaning nozzle 2 may be an elliptical pattern 31 as shown in FIG. 4 or a circular pattern 32 as shown in FIG.
【0016】回転霧化頭裏面洗浄ノズル2から噴出され
る洗浄剤が回転霧化頭1の裏面の全長にわたって当たる
ようにするためには、上記の如く広角ノズルとする代わ
りに、図6に示すように洗浄ノズル33、34、35を
複数本設け、各洗浄ノズルから噴出される洗浄剤が回転
霧化頭1の裏面の軸方向の異なる部分に当たるようにし
てもよい。この場合、複数本の洗浄ノズルから同時に、
あるいは内周側の洗浄ノズル2から順に、洗浄剤を噴出
するようにする。洗浄ノズルを複数本設ける場合は、必
ずしも広角ノズルとする必要はない。In order to ensure that the cleaning agent sprayed from the rotary atomizing head back surface cleaning nozzle 2 hits the entire length of the back surface of the rotary atomizing head 1, instead of using the wide-angle nozzle as described above, it is shown in FIG. As described above, a plurality of cleaning nozzles 33, 34, 35 may be provided so that the cleaning agent ejected from each cleaning nozzle may hit a different portion in the axial direction on the back surface of the rotary atomizing head 1. In this case, from multiple cleaning nozzles at the same time,
Alternatively, the cleaning agent is ejected in order from the cleaning nozzle 2 on the inner peripheral side. When providing a plurality of cleaning nozzles, it is not always necessary to use wide-angle nozzles.
【0017】つぎに、上記装置を用いて実施される本発
明実施例の回転霧化頭裏面洗浄方法を説明する。本発明
実施例の回転霧化頭裏面洗浄方法は、回転霧化頭裏面1
に対向させて設けた霧化頭裏面洗浄ノズル2から洗浄剤
を噴射させるとともにシェーピングエアノズル7からシ
ェーピングエアを噴射させて回転霧化頭裏面1を洗浄す
る回転霧化静電塗装装置の回転霧化頭裏面洗浄方法であ
って、洗浄時のシェーピングエア圧を塗装時のシェーピ
ングエア圧より小さくした方法からなる。洗浄時には、
図3に示すように広角ノズルを用いるか、あるいは図6
に示すように異なる円周上に配置した複数のノズル3
3、34、35を用いることにより、噴出洗浄剤が回転
霧化頭1の軸方向全長にわたって当たるようにする。洗
浄時には、回転霧化頭1を回転するので、洗浄剤は回転
霧化頭1の裏面全面に当たる。Next, a method for cleaning the back surface of the rotary atomizing head of the embodiment of the present invention which is carried out by using the above apparatus will be described. The rotary atomizing head back surface cleaning method of the embodiment of the present invention is the same as the rotary atomizing head back surface 1
A spraying agent is sprayed from the atomizing head back surface cleaning nozzle 2 provided opposite to the nozzle, and shaping air is sprayed from the shaping air nozzle 7 to clean the rotary atomizing head back surface 1. This is a method for cleaning the back of the head, in which the shaping air pressure during cleaning is lower than the shaping air pressure during coating. When cleaning,
Using a wide-angle nozzle as shown in FIG. 3, or FIG.
A plurality of nozzles 3 arranged on different circumferences as shown in FIG.
By using 3, 34 and 35, the jet cleaning agent is made to hit the entire axial length of the rotary atomizing head 1. During cleaning, the rotary atomizing head 1 is rotated, so that the cleaning agent hits the entire back surface of the rotary atomizing head 1.
【0018】洗浄は、塗装とつぎの塗装との間に行い、
シェーピングエアノズル7からシェーピングエアを噴出
させながら行う。洗浄時には、塗料のオンオフ電磁弁2
5は閉となっており、まず電磁弁23を開として回転霧
化頭1の内面を洗浄し、ついで電磁弁21を開として回
転霧化頭1の裏面を洗浄する。塗装時には電磁弁17が
開で電磁弁16が閉であり、シェーピングエア圧は約
1.5kg/cm2 より高いが、洗浄中は電磁弁17が
閉で電磁弁16が開であり、シェーピングエア圧は0.
5〜1.5kg/cm2 とされる。洗浄中のシェーピン
グエア圧を0.5〜1.5kg/cm2 と低くすること
により、霧化頭裏面洗浄ノズル2から噴射された洗浄剤
のシェーピングエアへの巻き込みが抑制され、洗浄剤が
エアキャップ3に付着しなくなる。洗浄後には、電磁弁
29を開として霧化頭裏面洗浄ノズル2とそれに接続さ
れたホース内の洗浄剤をパージする。これによって、塗
装中に霧化頭裏面洗浄ノズル2に充満していた洗浄剤が
垂れ落ちて塗装不具合を生じることもなくなる。Washing is performed between paintings,
This is performed while ejecting shaping air from the shaping air nozzle 7. When cleaning, paint on / off solenoid valve 2
5 is closed. First, the electromagnetic valve 23 is opened to clean the inner surface of the rotary atomizing head 1, and then the electromagnetic valve 21 is opened to clean the back surface of the rotary atomizing head 1. The solenoid valve 17 is open and the solenoid valve 16 is closed at the time of painting, and the shaping air pressure is higher than about 1.5 kg / cm 2 , but during cleaning, the solenoid valve 17 is closed and the solenoid valve 16 is open. The pressure is 0.
It is set to 5 to 1.5 kg / cm 2 . By lowering the shaping air pressure during cleaning to 0.5 to 1.5 kg / cm 2 , entrapment of the cleaning agent sprayed from the atomizing head back surface cleaning nozzle 2 into the shaping air is suppressed, and the cleaning agent becomes air. It will not adhere to the cap 3. After cleaning, the electromagnetic valve 29 is opened to purge the cleaning agent in the atomizing head back surface cleaning nozzle 2 and the hose connected thereto. This prevents the cleaning agent filled in the atomizing head back surface cleaning nozzle 2 from dropping during coating and causing a coating failure.
【0019】[0019]
【発明の効果】本発明の回転霧化静電塗装装置の回転霧
化頭裏面洗浄方法によれば、洗浄時のシェーピングエア
圧を塗装時のシェーピングエア圧より小さくするので、
洗浄時のシェーピングエアの巻き込み力が小さくなり、
その結果、洗浄剤がシェーピングエアに巻き込まれにく
くなり、洗浄剤のエアキャップへの付着が少なくなっ
て、塗装時における付着洗浄剤の被塗装面への落下、塗
装不具合の発生等が生じなくなる。According to the rotary atomizing head back surface cleaning method of the rotary atomizing electrostatic coating apparatus of the present invention, the shaping air pressure during cleaning is made smaller than the shaping air pressure during coating.
The entraining force of shaping air during cleaning is reduced,
As a result, the cleaning agent is less likely to be caught in the shaping air, the amount of the cleaning agent attached to the air cap is reduced, and the deposition of the attached cleaning agent on the surface to be coated during coating and the occurrence of coating defects do not occur.
【図1】本発明の一実施例の回転霧化頭裏面洗浄方法を
実施する装置の断面図および系統図である。FIG. 1 is a sectional view and a system diagram of an apparatus for carrying out a rotary atomizing head back surface cleaning method according to an embodiment of the present invention.
【図2】図1の装置の正面図である。FIG. 2 is a front view of the apparatus of FIG.
【図3】図1で霧化頭裏面洗浄ノズルの洗浄剤噴出パタ
ーンを示す側面図である。FIG. 3 is a side view showing a cleaning agent spray pattern of the atomizing head back surface cleaning nozzle in FIG.
【図4】図3の広角ノズルの洗浄剤噴出パターンの一例
の側面図である。FIG. 4 is a side view of an example of a cleaning agent spray pattern of the wide-angle nozzle of FIG.
【図5】図3の広角ノズルの洗浄剤噴出パターンのもう
一つの例の側面図である。5 is a side view of another example of the cleaning agent jetting pattern of the wide-angle nozzle of FIG.
【図6】図3の広角ノズルの代わりに霧化頭裏面洗浄ノ
ズルを複数本設けた場合の側面図である。6 is a side view when a plurality of atomizing head back surface cleaning nozzles are provided instead of the wide-angle nozzle of FIG.
【図7】従来の回転霧化頭裏面洗浄方法を実施する装置
の部分断面図である。FIG. 7 is a partial cross-sectional view of an apparatus for performing a conventional rotary atomizing head back surface cleaning method.
【図8】従来の回転霧化頭裏面洗浄方法で洗浄できる範
囲を示す回転霧化頭の側面図である。FIG. 8 is a side view of a rotary atomizing head showing a range that can be cleaned by a conventional rotary atomizing head back surface cleaning method.
1 回転霧化頭 2 霧化頭裏面洗浄ノズル 3 エアキャップ 4 高電圧発生器 5 樹脂カバー 6 フィードノズル 7 シェーピングエアノズル 8 空気軸受 9 ボデー 10 中空シャフト 11 プレナム室 12 エアモータ 13 圧縮エア源 15 洗浄剤源 16、17、29 オンオフ電磁弁 18、19 圧力レギュレータ 28 制御装置 1 Rotating Atomizing Head 2 Atomizing Head Backside Cleaning Nozzle 3 Air Cap 4 High Voltage Generator 5 Resin Cover 6 Feed Nozzle 7 Shaping Air Nozzle 8 Air Bearing 9 Body 10 Hollow Shaft 11 Plenum Chamber 12 Air Motor 13 Compressed Air Source 15 Cleaning Agent Source 16, 17, 29 ON / OFF solenoid valve 18, 19 Pressure regulator 28 Control device
Claims (1)
頭裏面洗浄ノズルから洗浄剤を噴出させるとともにシェ
ーピングエアノズルからシェーピングエアを噴出させて
回転霧化頭裏面を洗浄する回転霧化静電塗装装置の回転
霧化頭裏面洗浄方法において、洗浄時のシェーピングエ
ア圧を塗装時のシェーピングエア圧より小さくしたこと
を特徴とする回転霧化静電塗装装置の回転霧化頭裏面洗
浄方法。1. A rotary atomizer for cleaning a back surface of a rotary atomizing head by ejecting a cleaning agent from a atomizing head rear surface cleaning nozzle provided opposite to the rotary atomizing head rear surface and ejecting shaping air from a shaping air nozzle. A method for cleaning a back surface of a rotary atomizing head of an electro-coating device, wherein a shaping air pressure at the time of cleaning is made smaller than a shaping air pressure at the time of coating.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
JP00966896A JP3346146B2 (en) | 1996-01-24 | 1996-01-24 | Rotation atomization of rotary atomizing electrostatic coating equipment |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
JP00966896A JP3346146B2 (en) | 1996-01-24 | 1996-01-24 | Rotation atomization of rotary atomizing electrostatic coating equipment |
Publications (2)
Publication Number | Publication Date |
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JPH09192546A true JPH09192546A (en) | 1997-07-29 |
JP3346146B2 JP3346146B2 (en) | 2002-11-18 |
Family
ID=11726602
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JP00966896A Expired - Fee Related JP3346146B2 (en) | 1996-01-24 | 1996-01-24 | Rotation atomization of rotary atomizing electrostatic coating equipment |
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WO2011099547A1 (en) * | 2010-02-12 | 2011-08-18 | 本田技研工業株式会社 | Cleaning apparatus and cleaning method for coating gun |
JP2011161399A (en) * | 2010-02-12 | 2011-08-25 | Honda Motor Co Ltd | Method and apparatus for washing coating gun |
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WO2011099547A1 (en) * | 2010-02-12 | 2011-08-18 | 本田技研工業株式会社 | Cleaning apparatus and cleaning method for coating gun |
JP2011161399A (en) * | 2010-02-12 | 2011-08-25 | Honda Motor Co Ltd | Method and apparatus for washing coating gun |
CN102762310A (en) * | 2010-02-12 | 2012-10-31 | 本田技研工业株式会社 | Cleaning apparatus and cleaning method for coating gun |
CN102762310B (en) * | 2010-02-12 | 2015-06-03 | 本田技研工业株式会社 | Cleaning apparatus and cleaning method for coating gun |
JP2011206640A (en) * | 2010-03-29 | 2011-10-20 | Toyota Auto Body Co Ltd | Rotary atomizing coating machine |
JP2011230034A (en) * | 2010-04-26 | 2011-11-17 | Honda Motor Co Ltd | Apparatus and method of cleaning rotary atomizing head |
JP2014069113A (en) * | 2012-09-28 | 2014-04-21 | Trinity Industrial Co Ltd | Washing mechanism for coater, and washing method of coater |
WO2018154622A1 (en) * | 2017-02-21 | 2018-08-30 | トリニティ工業株式会社 | Rotary atomizing type coating machine |
WO2019156178A1 (en) * | 2018-02-07 | 2019-08-15 | 本田技研工業株式会社 | Method for cleaning paint spray gun |
JPWO2019156178A1 (en) * | 2018-02-07 | 2020-12-03 | 本田技研工業株式会社 | How to clean the paint gun |
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