JP4450344B2 - Air spray gun for painting - Google Patents

Air spray gun for painting Download PDF

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Publication number
JP4450344B2
JP4450344B2 JP2000191239A JP2000191239A JP4450344B2 JP 4450344 B2 JP4450344 B2 JP 4450344B2 JP 2000191239 A JP2000191239 A JP 2000191239A JP 2000191239 A JP2000191239 A JP 2000191239A JP 4450344 B2 JP4450344 B2 JP 4450344B2
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JP
Japan
Prior art keywords
paint
air
nozzle
tip
groove
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.)
Expired - Fee Related
Application number
JP2000191239A
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Japanese (ja)
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JP2002001169A (en
Inventor
浩一 安藤
諭志 山崎
Current Assignee (The listed assignees may be inaccurate. Google has not performed a legal analysis and makes no representation or warranty as to the accuracy of the list.)
Asahi Sunac Corp
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Asahi Sunac Corp
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Filing date
Publication date
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Priority to JP2000191239A priority Critical patent/JP4450344B2/en
Publication of JP2002001169A publication Critical patent/JP2002001169A/en
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Publication of JP4450344B2 publication Critical patent/JP4450344B2/en
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Expired - Fee Related legal-status Critical Current

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Description

【0001】
【発明の属する技術分野】
本発明はノズルから吐出する液体塗料を、その外周に環形の間隙をあけて配置されたエアーノズルから噴出する空気流と混合して微粒化するようにした塗装用エアースプレイガンに関する。
【0002】
【従来の技術】
従来の塗装用エアースプレイガンの塗料ノズルの外周は円形であるためエアーノズルから噴出する空気流は断面が環形であって、塗料ノズルから吐出した塗料は空気流に吸引されて主として環形の空気流の内周面に近い部分の空気と混合するようになっていた。
【0003】
【発明が解決しようとする課題】
このため、塗料の空気との接触面積が小さく、塗料を空気と十分に混合して微粒化するためには、多量の空気を必要し、そうすると、飛散する塗料が増大し、塗着効率が低いという課題があった。
【0004】
【課題を解決するための手段、作用及び効果】
このような課題を解決するための手段として、本発明は、塗料ノズルの外周にその塗料ノズルの先端に至る軸方向の溝が形成されているようにしたものであって、エアーノズルから噴出する空気流の内周面に突条が形成されて、その突条が塗料流の中に食い込まれるから、塗料と空気の接触面積が増大して塗料の微粒化が促進され、少量の空気で微粒化されて飛散が少なく、塗着効率が向上する。
【0005】
さらに本発明は、溝が前記塗料ノズルの先端に向かって深くなるようになっているものであって、空気流が塗料流の中に斜めに吹き込まれるから、塗料が空気と良く混合して微粒化がより促進され、より少量の空気で微粒化されて飛散が少なく、塗着効率がより向上する。また、溝は深いほど微粒化が促進されるが、本発明においては、溝の切り込みが塗料ノズルの先端において塗料経路に到達していないから、塗料の吐出口付近での拡散が小さく、塗料がエアーキャップ表面に付着することを防止できる。これによりエアーキャップ表面に付着して溜まった塗料が、エアーで不規則に吹き飛ばされて被塗装物へ付着する塗装不良を防止することができる。
【0006】
【発明の実施の形態】
以下、本発明の実施の形態を添付図面に基づいて説明する。
全体構造を示す図1において、1はガン本体であって、そのガン本体の中心に、先端部4の内外径が縮小した塗料ノズル2が固定され、その塗料ノズル2を囲むようにエアーキャップ3がガン本体1に固定されている。
【0007】
エアーキャップ3には、図2に拡大して示すように、塗料ノズル2の先端部4の外周との間に環形の間隙aをあけてエアーノズル5が配置されていて、塗料ノズル2の先端部4から吐出する塗料の周りに間隙aから加圧エアーが噴出することにより、塗料が加圧エアーに吸い寄せられて混合して微粒化するようになっているとともに、図1に示すように、エアーキャップ3のエアーノズル5の周りに形成された多数の小孔6から吹き出される加圧エアーにより塗料とエアーの混合流の吹き出し方向が規制され、さらに、エアーキャップ3の前面の上下に突設された角部7に形成された斜孔8から吹き出される加圧エアーにより塗料とエアーの混合流が扇形に偏平化されるようになっている。
【0008】
上記したところは、従来公知のエアースプレイガンのノズル部分の構造であるが、これは、塗料ノズル2の先端部4の外周面が滑らかであるため、環形の間隙aから噴出する環形の加圧エアーの内周面が滑らかになり、吸い寄せられた塗料との接触面積が小さく、塗料が加圧エアーと十分に混合せず、塗料の微粒化が不十分であり、これを防止するために加圧エアーの量を増やすと飛散しやすく塗着効率が低くなるという課題があった。
【0009】
そこで、本実施の形態においては、図2、3に拡大して示すように、塗料ノズル2の先端部分4の外周に三角形断面をなし、先端に向かって深くなるように斜めに切り込まれた軸方向の溝9が10個等角度間隔で形成されている。
【0010】
このため、エアーノズル5から噴出する空気流の内周面に突条が形成されて、その突条が塗料流の中に食い込まれるから、塗料と空気の接触面積が増大して塗料の微粒化が促進され、少量の空気で微粒化されて飛散が少なく、塗着効率が向上する。
【0011】
また、溝9が前記塗料ノズル4の先端に向かって深くなるようになっていて、空気流が塗料流の中に斜めに吹き込まれるから、塗料が空気と良く混合して微粒化がより促進され、少量の空気で微粒化されて飛散がより少なく、塗着効率がより向上する。
【0012】
ここで、エアーノズル5の内径が3.1mm、塗料ノズルの内径が1.6mm、その外径が2.6mmの定圧エアー霧化スプレイガンを使用して、スプレイ距離:300mm、吐出量240ml/min、霧化エアー圧力:0.3Mpaの条件で、溝9の無い標準の塗料ノズル4と、正面形状が図4に示すA〜Hの溝9を形成した8種類の塗料ノズル4について塗料の粘度を変えてパーティクルサイザーによりノズル4から噴出する塗料の粒子径を測定した結果を表1に示し、その平均値をグラフにしたものを図5に示す。
【0013】
なお、溝9の最大深さbは、A〜Fが0.4mm、GとHが0,8mmであり、溝9の傾き角度αは30゜、溝9の正面角度βはA、B、G、Hが60゜、C、Dが30゜、E、Fが40゜であり、Dのみが台形である。
【0014】
【表1】

Figure 0004450344
【0015】
図5から明らかなように、G、F、B、C、E、H、A、D、標準の順に粒子径が小さくて溝9の無い標準より溝9のあるものは全て粒子径が小さく、総じて溝9の正面面積の総正面面積に対する割合が大きいもの程粒子径が小さいことが判明した。
【0016】
しかしながら、G、Hのように溝9が深すぎて塗料経路まで切り込んだ場合には、ノズルの先端面に付着して溜まった塗料がエアーにより不規則に吹き飛ばされて被塗装物に塗着することにより、塗装不良の原因となるため好ましくない。
【図面の簡単な説明】
【図1】本発明の一実施の形態の断面図である。
【図2】その要部の拡大断面図である。
【図3】その塗料ノズルの先端部の正面図である。
【図4】各種の塗料ノズルの先端部の正面図である。
【図5】ノズルから噴出する塗料の粒子径を測定した結果を示すグラフである。
【符号の説明】
2:塗料ノズル
3:エアーキャップ
4:(塗料ノズルの)先端部
5:エアーノズル
9:溝[0001]
BACKGROUND OF THE INVENTION
The present invention relates to an air spray gun for coating in which a liquid paint discharged from a nozzle is mixed with an air flow ejected from an air nozzle disposed at an outer periphery of the liquid paint to be atomized.
[0002]
[Prior art]
Since the outer periphery of the paint nozzle of a conventional paint air spray gun is circular, the air flow ejected from the air nozzle has a ring-shaped cross section, and the paint discharged from the paint nozzle is sucked into the air flow and mainly has an annular air flow. It was designed to mix with the air in the part close to the inner peripheral surface.
[0003]
[Problems to be solved by the invention]
For this reason, the contact area of the paint with the air is small, and a large amount of air is required to sufficiently mix and atomize the paint with the air, so that the amount of paint that scatters increases and the coating efficiency is low. There was a problem.
[0004]
[Means, actions and effects for solving the problems]
As means for solving such a problem, the present invention is such that an axial groove reaching the tip of the paint nozzle is formed on the outer periphery of the paint nozzle, and is ejected from the air nozzle. Since protrusions are formed on the inner peripheral surface of the air flow, and the protrusions are engulfed in the paint flow, the contact area between the paint and air is increased, and the atomization of the paint is promoted. To reduce the scattering and improve the coating efficiency.
[0005]
Furthermore, the present invention is such that the groove becomes deeper toward the tip of the paint nozzle, and since the air flow is blown obliquely into the paint flow, the paint is well mixed with the air and fine particles. Is further promoted, atomized with a smaller amount of air, less scattered, and coating efficiency is further improved. Further, the deeper the groove, the more the atomization is promoted. However, in the present invention, the groove notch does not reach the paint path at the tip of the paint nozzle. It can prevent adhering to the air cap surface. As a result, it is possible to prevent the coating failure that adheres to the surface of the object to be coated by the paint accumulated on the air cap surface being irregularly blown off by the air.
[0006]
DETAILED DESCRIPTION OF THE INVENTION
Hereinafter, embodiments of the present invention will be described with reference to the accompanying drawings.
In FIG. 1 showing the overall structure, reference numeral 1 denotes a gun body, and a paint nozzle 2 having a reduced inner and outer diameter of a tip portion 4 is fixed to the center of the gun body, and an air cap 3 surrounds the paint nozzle 2. Is fixed to the gun body 1.
[0007]
As shown in an enlarged view in FIG. 2, the air cap 5 is provided with an air nozzle 5 with an annular gap a between the tip end 4 of the paint nozzle 2 and the tip of the paint nozzle 2. By spraying pressurized air from the gap a around the paint discharged from the section 4, the paint is sucked into the pressurized air and mixed and atomized, as shown in FIG. The direction in which the mixed flow of paint and air is blown out is regulated by the pressurized air blown out from a large number of small holes 6 formed around the air nozzle 5 of the air cap 3, and further, protrudes up and down on the front of the air cap 3. The mixed flow of paint and air is flattened in a fan shape by the pressurized air blown out from the oblique holes 8 formed in the corner 7 provided.
[0008]
The above is the structure of the nozzle portion of a conventionally known air spray gun. This is because the outer peripheral surface of the tip portion 4 of the paint nozzle 2 is smooth, and the annular pressure that is ejected from the annular gap a. The inner surface of the air becomes smooth, the contact area with the sucked paint is small, the paint does not mix well with the pressurized air, and the paint is not sufficiently atomized. When the amount of pressurized air was increased, there was a problem that the coating efficiency was low because of easy scattering.
[0009]
Therefore, in the present embodiment, as shown in an enlarged view in FIGS. 2 and 3, the outer periphery of the tip portion 4 of the paint nozzle 2 has a triangular cross section and is cut obliquely so as to become deeper toward the tip. Ten axial grooves 9 are formed at equal angular intervals.
[0010]
For this reason, protrusions are formed on the inner peripheral surface of the air flow ejected from the air nozzle 5, and the protrusions bite into the paint flow, so that the contact area between the paint and air is increased and the paint is atomized. Is promoted, atomized with a small amount of air, less scattered, and the coating efficiency is improved.
[0011]
Further, since the groove 9 becomes deeper toward the tip of the paint nozzle 4 and the air flow is blown obliquely into the paint flow, the paint is well mixed with the air and atomization is further promoted. Since it is atomized with a small amount of air, it is less scattered and the coating efficiency is further improved.
[0012]
Here, using a constant pressure air atomizing spray gun having an inner diameter of the air nozzle 5 of 3.1 mm, an inner diameter of the paint nozzle of 1.6 mm, and an outer diameter of 2.6 mm, a spray distance: 300 mm, a discharge amount of 240 ml / min, atomization air pressure: 0.3 Mpa of standard paint nozzle 4 without groove 9 and 8 kinds of paint nozzles 4 having front faces A to H shown in FIG. The results of measuring the particle diameter of the paint sprayed from the nozzle 4 with a particle sizer while changing the viscosity are shown in Table 1, and the average value is shown in a graph in FIG.
[0013]
The maximum depth b of the groove 9 is 0.4 mm for A to F, 0.8 mm for G and H, the inclination angle α of the groove 9 is 30 °, and the front angle β of the groove 9 is A, B, G and H are 60 °, C and D are 30 °, E and F are 40 °, and only D is a trapezoid.
[0014]
[Table 1]
Figure 0004450344
[0015]
As is clear from FIG. 5, the particle diameter is smaller in the order of G, F, B, C, E, H, A, D, and the standard, and all the grooves 9 are smaller than the standard without the groove 9. In general, it was found that the larger the ratio of the front area of the groove 9 to the total front area, the smaller the particle diameter.
[0016]
However, when the groove 9 is too deep and cut into the paint path as in G and H, the paint accumulated on the tip surface of the nozzle is irregularly blown off by the air and applied to the object to be coated. This is not preferable because it causes poor coating.
[Brief description of the drawings]
FIG. 1 is a cross-sectional view of an embodiment of the present invention.
FIG. 2 is an enlarged cross-sectional view of the main part.
FIG. 3 is a front view of a tip portion of the paint nozzle.
FIG. 4 is a front view of the tip of various paint nozzles.
FIG. 5 is a graph showing the result of measuring the particle diameter of a paint ejected from a nozzle.
[Explanation of symbols]
2: Paint nozzle 3: Air cap 4: Tip (of paint nozzle) 5: Air nozzle 9: Groove

Claims (1)

筒形の塗料ノズルの外周に環形の間隙をあけてエアーノズルが配置され、前記塗料ノズルから吐出した塗料が前記エアーノズルから噴出した環形の空気流と混合することにより微粒化するようにした塗装用エアースプレイガンにおいて、前記塗料ノズルの外周に該塗料ノズルの先端に至る軸方向の溝が形成され、該溝が前記塗料ノズルの先端に向かって深くなるようになっており、かつ、前記溝の切り込みが前記塗料ノズルの先端において塗料経路に到達していないことを特徴とする塗装用エアースプレイガン。An air nozzle is arranged with a ring-shaped gap around the outer periphery of the cylindrical paint nozzle, and the paint discharged from the paint nozzle is atomized by mixing with the annular air flow ejected from the air nozzle. In the air spray gun, an axial groove reaching the tip of the paint nozzle is formed on the outer periphery of the paint nozzle , the groove becomes deeper toward the tip of the paint nozzle, and the groove The air spray gun for painting is characterized in that the notch does not reach the paint path at the tip of the paint nozzle .
JP2000191239A 2000-06-26 2000-06-26 Air spray gun for painting Expired - Fee Related JP4450344B2 (en)

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US8590809B2 (en) 2009-01-26 2013-11-26 3M Innovative Properties Company Liquid spray gun, spray gun platform, and spray head assembly
JP4902762B2 (en) * 2010-03-23 2012-03-21 スガ試験機株式会社 Mistomizer for spray test
WO2012109298A1 (en) * 2011-02-09 2012-08-16 3M Innovative Properties Company Nozzle tips and spray head assemblies for liquid spray guns
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US9802213B2 (en) 2012-03-06 2017-10-31 3M Innovative Properties Company Spray gun having internal boost passageway
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JP5787407B2 (en) 2012-08-03 2015-09-30 アネスト岩田株式会社 Spray gun
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KR20160030989A (en) 2013-07-15 2016-03-21 쓰리엠 이노베이티브 프로퍼티즈 컴파니 Air caps with face geometry inserts for liquid spray guns
WO2016191240A1 (en) 2015-05-27 2016-12-01 3M Innovative Properties Company Nozzle assembly with auxiliary apertures
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