JPS58133854A - Painting device - Google Patents
Painting deviceInfo
- Publication number
- JPS58133854A JPS58133854A JP1717482A JP1717482A JPS58133854A JP S58133854 A JPS58133854 A JP S58133854A JP 1717482 A JP1717482 A JP 1717482A JP 1717482 A JP1717482 A JP 1717482A JP S58133854 A JPS58133854 A JP S58133854A
- Authority
- JP
- Japan
- Prior art keywords
- gas
- nozzle
- pressurized
- paint
- mixed
- 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
Landscapes
- Nozzles (AREA)
Abstract
Description
【発明の詳細な説明】
加圧気体と加圧液体とを混合した後引き続きその圧力を
保持させたまま多数の微小泡沫として噴出口から噴射す
るスプレー装置は、泡沫を大気中へ放出した後泡沫内部
気体の圧力により破裂させることができる関係上、霧化
の良好なスプレー装置として期待されるのであるが、塗
料の罐化に当っては、その塗料粘性により泡沫が破裂さ
れ難くこの泡沫が塗膜中に残留して塗装において致命的
ともいうべきピンホールを生成し易いという重大欠陥が
あり、従って溶剤を多量に使用し九稀釈塗料の噴霧には
適応する場合があるが、高粘度塗料の噴11には不適当
であった。[Detailed Description of the Invention] A spray device that mixes pressurized gas and pressurized liquid and then sprays them from a spout as a large number of microbubbles while maintaining the pressure, releases the foam into the atmosphere and then sprays the foam into the atmosphere. Since it can be ruptured by the pressure of the internal gas, it is expected to be a spray device with good atomization, but when it comes to canning paint, the viscosity of the paint makes it difficult for the foam to rupture. There is a serious defect in that it tends to remain in the film and create pinholes that can be said to be fatal in painting.Therefore, it may be suitable for spraying diluted paint using a large amount of solvent, but it is not suitable for spraying with high viscosity paint. It was inappropriate for Fountain 11.
本発明は、塗膜中に泡沫によるピンホール生成を防止す
る目的のもとに、噴出泡沫を被塗装面に到達する以前の
推進過程において効果的に破裂させるため、泡沫を含む
噴出後の塗料噴霧に対し、霧化用気体を積極的に供給接
触させるようKしたことを特徴とするものであって、以
下添付図面に例示する態様について詳細に説明する。In order to prevent the formation of pinholes due to foam in the paint film, the present invention effectively ruptures the ejected foam during the propulsion process before it reaches the surface to be painted. The present invention is characterized in that the atomizing gas is actively supplied and brought into contact with the spray, and the embodiment illustrated in the accompanying drawings will be described in detail below.
第1図および第2図の態様は、円錐状噴霧に適応する塗
装装置であって、気液混合部(1)と温気塗料ノズル(
2)と霧化用気体ノズル(3)とがある霧化頭部(4)
を本体(5)の前端に取付ナツト(6)により固定する
ようにし、前記気液混合部(1)としては、小径な温気
塗料ノズル(2)の背後に後方に拡開する円錐部と短円
筒部とからなる混合室(γ)を設けると共に、この混合
室(7)の円筒部に対しその周側から接線状に導気路(
8)’(8)および導液路(9)(9)を交互に開口す
るように刻設した塗料ノズル部材(lすと、導気路(8
) (8)に符合する前後方向の導気孔(1υ01)並
びに軸心部から導液路(9) (9)へ連通する分岐状
態の導液孔(12)(12)がある中継部材(至)とを
、外周寄9に導気孔に)に)があるほか外周前端にテー
パー状受面(埒があるホルダー〇c9に後方から液密的
に順次嵌合して構成し、また本体(5)にはその中心部
に前後方向の導液路(ロ)を設けてその前端に弁座(ロ
)を嵌合すると共に、この弁座−に対し必要に応じ進退
させることができるように弁杆(至)を設けて導液路(
17)を開閉するようにする11!か、導液路(ロ)と
平行に導気路■および@すを設けてその前端に各別の環
状溝に)およびに)を設け、このように構成した本体(
5)の前端には前記ホルダー(16)を中継部材(13
)と共にその導液孔(ロ)、導気孔(11)および導気
孔に)がそれぞれ弁座(ホ)、導気路−および導気路?
0に各別に連通するようにパツキングーに)の介在のも
とに対接したままテーパー状抑面−がある前記ナツト(
6)により確固に固定するようにし、なお前記ナツト(
6)はこれをその前端壁の中央に円形孔(財)を穿設し
て前記混気塗料ノズル(2)と相俟って環状の霧化用気
体ノズル(3)を形成するようにすると共に、ホルダー
−の前面とナツト(6)の前端壁との中間間隙を通気路
(ハ)に充当して導気孔に)からの霧化用気体をノズル
(3)に導くようにし、その他前記本体(5)における
導液路(ロ)、導へ路■および90の上流にはそれぞれ
流量調節弁−、ellおよび0υを設ける。The embodiments shown in FIGS. 1 and 2 are coating apparatuses adapted to cone-shaped spray, which include a gas-liquid mixing section (1) and a hot paint nozzle (
2) and an atomizing head (4) with an atomizing gas nozzle (3)
is fixed to the front end of the main body (5) with a mounting nut (6), and the gas-liquid mixing part (1) includes a conical part that expands rearward behind a small diameter hot air paint nozzle (2). A mixing chamber (γ) consisting of a short cylindrical portion is provided, and an air guide path (
8) The paint nozzle member is carved so that the (8) and liquid guide channels (9) (9) are opened alternately.
) A relay member (towards ) is formed by sequentially fitting from the rear in a liquid-tight manner into a holder 〇c9 which has an air guide hole )) on the outer periphery front end and has a tapered receiving surface ( 咒) on the front end of the outer periphery, and the main body (5 ) is provided with a liquid guiding path (b) in the front and back direction in its center, and a valve seat (b) is fitted to the front end of the valve seat. A rod is provided to connect the liquid guide path (
17) Make it open and close 11! Alternatively, the main body constructed in this way (
The holder (16) is attached to the front end of the relay member (13).
), the liquid guide hole (b), the air guide hole (11), and the air guide hole) are connected to the valve seat (e), the air guide path, and the air guide hole, respectively.
The nut (2) has a tapered depression surface facing each other with a packing (2) so as to communicate with each other separately.
6) to securely fix the nut (
In 6), a circular hole is bored in the center of the front end wall so that together with the mixed air paint nozzle (2), an annular atomizing gas nozzle (3) is formed. At the same time, the intermediate gap between the front surface of the holder and the front end wall of the nut (6) is used as a ventilation path (C) to guide the atomizing gas from the air guide hole (C) to the nozzle (3). Flow control valves -, ell, and 0υ are provided upstream of the liquid guide path (b), the guide path (ii), and 90 in the main body (5), respectively.
以上の構成のもとに、調節弁−を適切に調整した状態の
もとに弁杆(ロ)の後退により導液路(ロ)。Based on the above configuration, when the control valve is appropriately adjusted, the liquid guide path (b) is formed by retracting the valve rod (b).
弁座(ホ)、導液孔(ロ)、導液溝(9)を経て数1=
y/c−程度の加圧塗料を混合室(7)に供給すると同
時K。After passing through the valve seat (e), liquid guide hole (b), and liquid guide groove (9), the number 1 =
At the same time, when a pressurized paint of about y/c- is supplied to the mixing chamber (7).
調節弁…を適切に調整した状態のもとに導気路(イ)、
環状溝に)、導気孔(11) 、導気溝(8)を経て前
記塗料圧力と同等もしくは僅かに高圧の加圧気体を混合
室(7)に供給し、このように混合室())に接線状に
流入する加圧塗料および気体はその室内において旋回し
つつ混合すると共に気体を封鎖した微小泡沫を生成して
塗料ノズル(2)から大気中に円錐状に噴射し、従って
噴射後の微小泡沫はその内部の加圧気体の圧力により大
部分が破裂して更に微細な霧滴となって被塗装面上に被
着するのであって、更に調節弁φ心を適宜に調整した捷
ま導気路体り、環状溝に)、導気孔に)9通気路−を経
て1〜数lap /L;II2程度の加圧気体を霧化用
気体として環状ノズル(3)から前記円錐状噴霧の外周
側に衝触するように噴出させるようにし、これにより微
小泡沫の破壊を促進して被塗装面に到達する以前に泡沫
を完全な微小霧滴に破砕するばかりでなく、噴霧を必要
以上に外方へ飛散しないようにしてなるのである。With the control valve properly adjusted, the air guide path (a),
Pressurized gas at a pressure equal to or slightly higher than the paint pressure is supplied to the mixing chamber (7) through the annular groove), the air guide hole (11), and the air guide groove (8). The pressurized paint and gas flowing tangentially into the chamber mix while swirling, generate microbubbles that seal the gas, and are injected into the atmosphere from the paint nozzle (2) in a conical shape. Most of the microbubbles burst due to the pressure of the pressurized gas inside them, becoming even finer mist droplets that adhere to the surface to be coated. The conical spray is carried out from the annular nozzle (3) using pressurized gas of about 1 to several laps/L as atomizing gas through 9 ventilation channels (into the air guide path, annular groove) and in the air guide hole. This not only accelerates the destruction of the microbubbles and breaks them into complete microfoam droplets before they reach the surface to be coated, but also reduces the amount of spray needed. This prevents the particles from scattering outward.
第3図および第4図の態様は、扇形状噴霧を得る場合の
一例であって、前記態様における環状の霧化用気体ノズ
ル(3)に代えて、噴霧の両側から噴霧扁平化に適応す
るように斜め内向きの扁平化兼霧化用気体ノズル(3)
(3)をホルダー(16)に導気孔−に連通ずるよう
に設ゆ、その他の構造は前記態様におけると同様である
から図中に符号を付して説明を省略する。The embodiments shown in FIGS. 3 and 4 are examples of obtaining fan-shaped spray, and instead of the annular atomizing gas nozzle (3) in the above embodiment, flattening of the spray is applied from both sides of the spray. Flattening and atomizing gas nozzle facing diagonally inward (3)
(3) is provided in the holder (16) so as to communicate with the air guide hole, and the other structures are the same as those in the above embodiment, so the reference numerals are given in the drawings and the explanation will be omitted.
また第5図の態様は、扇形状噴霧形成のための装置であ
って、混気塗料ノズル(2)として、例えばドーム状凹
窩と7字状溝との交叉により形成される唇状のオリフィ
ス型噴口を有する平吹きノズルを採択すると共に、気液
混合部(1)として、スロート部分において外方から軸
線にIL−交 −する狭い導気路(至)を経て気体を
流入させるようにするtlか主管路に後方から塗料を流
過させてそのスロート部分において気液を加圧状態のま
ま混合するばかりでなく泡沫を生成するようKしたベン
チュリー管−を採択し、他の構成については前掲第1図
および第2図におけると性質的に異なるところがない一
関係上、図中に同一符号を付し7て説明は省略する。The embodiment shown in FIG. 5 is an apparatus for forming a fan-shaped spray, and the mixed air paint nozzle (2) is a lip-shaped orifice formed by, for example, the intersection of a dome-shaped concave cavity and a figure-7 groove. A flat blow nozzle with a molded nozzle is adopted, and the gas is made to flow in from the outside through a narrow air guide path (to) intersecting the axis at the throat part as the gas-liquid mixing part (1). We adopted a Venturi tube that allows the paint to flow through the main pipe from the rear and not only mixes gas and liquid under pressure at its throat but also generates foam, and other configurations are described above. Since there is no difference in nature between FIG. 1 and FIG. 2, the same reference numerals 7 are used in the figures and the explanation thereof will be omitted.
なおこの第5図の態様においては、その環状の霧化用気
体(3)について第6図のようにホルダー (16)の
先端をノズル(2)のオリフィス型噴口に相広する長円
形に形成して霧化用気体を扇形状噴出塗料の両面部に重
点的に供給するようにするのが雫ましく、またベンチュ
リー管■としてはこれを第7図および第8図に詳示する
ようにスロート部分において前後に部分し、その分割面
に突起(至)に)を設けて接合した場合に軸線に直交す
る導気路(至)が形成されるように構成するのがよい。In the embodiment shown in Fig. 5, the tip of the holder (16) for the annular atomizing gas (3) is formed into an oval shape that widens into the orifice-shaped nozzle of the nozzle (2) as shown in Fig. 6. It is preferable to supply the atomizing gas intensively to both sides of the fan-shaped sprayed paint using a venturi tube. It is preferable to form a structure in which the throat portion is divided into front and rear parts, and when a protrusion is provided on the dividing surface and joined together, an air guide path perpendicular to the axis is formed.
前記態様において、気液混合部(1)、塗料ノズル(2
)、弁座(因、弁杆(I9)の先端部はこれを超硬合金
により製作するのがよく、また塗料と混合する気体並び
に霧化用気体については通常空気を使用するが、塗料の
種類あるいは塗装条件に即応するように蒸気その他のガ
スを適用する場合があること当然である。In the above embodiment, the gas-liquid mixing section (1), the paint nozzle (2)
), the valve seat (the tip of the valve rod (I9) is preferably made of cemented carbide, and air is usually used as the gas to be mixed with the paint and the atomizing gas, but Naturally, steam or other gases may be applied depending on the type or coating conditions.
また本発明装置に対し塗料を加温して供給するようにし
、あるいは静電塗装方式を適用することにより、霧化効
果を一層向上することができるのである。Furthermore, the atomization effect can be further improved by supplying the paint to the apparatus of the present invention after heating it or by applying an electrostatic coating method.
以−ト説明したように、本発明によれば、加圧気体と加
圧塗料とを混合した後噴霧すると共にその噴霧に対し霧
化用空気を積極的に衝触させるように供給するようにし
たから、混合によ妙生成した泡沫を被塗装面へ到達する
以前に効果的に破砕して更に微細な霧滴とすることがで
きるのであって、従って従来困離であった高粘度塗料の
低圧噴霧を簡単な構成のもとに容易に実現することがで
き、しかもエアレススプレーに近い厚膜塗装にも適応し
、扇形噴霧に当ってはテールの発生がない等の利点があ
る。As explained above, according to the present invention, pressurized gas and pressurized paint are mixed and then atomized, and atomizing air is supplied so as to actively collide with the spray. Therefore, it is possible to effectively crush the foam produced by mixing into even finer mist droplets before it reaches the surface to be painted, and it is therefore possible to use high-viscosity paint, which has been difficult to do in the past. Low-pressure spraying can be easily realized with a simple configuration, and it is also applicable to thick film coating similar to airless spraying, and has advantages such as no tail generation when performing fan-shaped spraying.
図面において、第1図は一実施態様にお る本発明の塗
装装置を示す縦断側面図、第2図は第1図中の線1−I
Kおける縦断正面図、第3図および第4図はそれぞれ他
の実施態様を示す縦断側面図および要部の正面図、第5
図および第6図はそれぞれ更に他の実施態様を示す縦断
側面図および要部だけの正面図、第7図は第5図中の線
■−■における縦断正面図、また第8図はベンチュリー
管だけの分解斜面図である。
(1)・・・気液混合部
(2)・・・混気塗料ノズル
(3ン・・・霧化用気体ノズル
特許出願人
箭 内 弘
第 :3 図
茅7図
4
第 6図In the drawings, FIG. 1 is a longitudinal sectional side view showing a coating device of the present invention in one embodiment, and FIG. 2 is a line 1-I in FIG. 1.
3 and 4 are a longitudinal sectional side view and a front view of main parts showing other embodiments, respectively.
6 and 6 are a longitudinal side view and a front view of only the main parts, respectively, showing still another embodiment, FIG. 7 is a longitudinal front view taken along the line ■-■ in FIG. 5, and FIG. 8 is a venturi tube. This is an exploded perspective view. (1)... Gas-liquid mixing section (2)... Mixed air paint nozzle (3)... Gas nozzle for atomization Patent applicant: Hiroki Yanuchi: 3 Figure 7 Figure 4 Figure 6
Claims (1)
数の微小泡沫を含む混気噴霧として温気塗料ノズルから
噴射するようKした塗装装置であって、その微小泡沫が
塗膜中に混入することを防止するため、噴射後の混気噴
霧に対して前記泡沫の破裂に適応するように霧化用気体
を積極的に供給するノズルを設けてなる塗装装fl。A coating device in which pressurized gas and pressurized paint are mixed in a gas-liquid mixing section and sprayed from a hot air paint nozzle as a mixed air spray containing a large number of microbubbles, and the microbubbles are mixed in the paint film. A coating apparatus fl is provided with a nozzle that actively supplies atomizing gas to the mixed air spray after injection so as to adapt to the bursting of the foam, in order to prevent the mixture from being mixed with the foam.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
JP1717482A JPS58133854A (en) | 1982-02-05 | 1982-02-05 | Painting device |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
JP1717482A JPS58133854A (en) | 1982-02-05 | 1982-02-05 | Painting device |
Publications (2)
Publication Number | Publication Date |
---|---|
JPS58133854A true JPS58133854A (en) | 1983-08-09 |
JPH0327270B2 JPH0327270B2 (en) | 1991-04-15 |
Family
ID=11936587
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
---|---|---|---|
JP1717482A Granted JPS58133854A (en) | 1982-02-05 | 1982-02-05 | Painting device |
Country Status (1)
Country | Link |
---|---|
JP (1) | JPS58133854A (en) |
Cited By (4)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
JPS5294146A (en) * | 1976-02-04 | 1977-08-08 | Nippon Telegr & Teleph Corp <Ntt> | Light guide sheet for conversion of lines into circles |
JPH0418952A (en) * | 1990-05-11 | 1992-01-23 | Iwata Air Compressor Mfg Co Ltd | Low-pressure atomization air spray gun |
CN105013646A (en) * | 2015-07-31 | 2015-11-04 | 佛山市百进一精密机械有限公司 | Atomizing nozzle used for plastic bottle bottom cooler |
WO2019142885A1 (en) * | 2018-01-18 | 2019-07-25 | 本田技研工業株式会社 | Coating device |
Citations (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
JPS5249848A (en) * | 1975-10-18 | 1977-04-21 | Sumitomo Electric Ind Ltd | Device for switching transmission lines of optical fibers |
JPS5628667A (en) * | 1979-08-14 | 1981-03-20 | Nissan Motor Co Ltd | Spray gun device |
-
1982
- 1982-02-05 JP JP1717482A patent/JPS58133854A/en active Granted
Patent Citations (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
JPS5249848A (en) * | 1975-10-18 | 1977-04-21 | Sumitomo Electric Ind Ltd | Device for switching transmission lines of optical fibers |
JPS5628667A (en) * | 1979-08-14 | 1981-03-20 | Nissan Motor Co Ltd | Spray gun device |
Cited By (5)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
JPS5294146A (en) * | 1976-02-04 | 1977-08-08 | Nippon Telegr & Teleph Corp <Ntt> | Light guide sheet for conversion of lines into circles |
JPH0418952A (en) * | 1990-05-11 | 1992-01-23 | Iwata Air Compressor Mfg Co Ltd | Low-pressure atomization air spray gun |
CN105013646A (en) * | 2015-07-31 | 2015-11-04 | 佛山市百进一精密机械有限公司 | Atomizing nozzle used for plastic bottle bottom cooler |
WO2019142885A1 (en) * | 2018-01-18 | 2019-07-25 | 本田技研工業株式会社 | Coating device |
JPWO2019142885A1 (en) * | 2018-01-18 | 2020-09-24 | 本田技研工業株式会社 | Painting equipment |
Also Published As
Publication number | Publication date |
---|---|
JPH0327270B2 (en) | 1991-04-15 |
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