JP3924344B2 - Single-head spray gun for multicolor painting and multicolor painting method - Google Patents

Description

【表２】

【００４９】
＜塗装用スプレーガンの仕様＞
▲１▼本スプレーガン１
図１およびその上部から見た図２に示した本スプレーガンにおいて、タンクＣ、タンクＤをそれぞれ２５００ｃｃ、誘導管Ｅの先端開口部口径を６．５ｃｍ、圧縮エアー導入管Ｆの開口部位置を、チップＧの内側開口部よりも１０ｍｍ後方、圧縮エアー導入管Ｆの口径を５ｍｍ、チップＧの口径を１５ｍｍとした。
【００５０】
▲２▼本スプレーガン２
図３およびその上部から見た図４に示した本スプレーガンにおいて、タンクＣ、タンクＤをそれぞれ２５００ｃｃ、誘導管Ｅの先端開口部口径を６．５ｃｍ、圧縮エアー導入管Ｆの開口部位置を、チップＧの内側開口部よりも１０ｍｍ後方、圧縮エアー導入管Ｆの口径を５ｍｍ、仕切りＫの範囲をタンクの仕切りＢの延長線上から圧縮エアー導入管Ｆの開口部位置まで取り付け、チップＧの口径を１５ｍｍとした。
【００５１】
▲３▼本スプレーガン３
図５およびその上部から見た図６に示した本スプレーガンにおいて、タンクＣ、タンクＤをそれぞれ２５００ｃｃ、誘導管Ｅの先端開口部口径を６．５ｃｍ、圧縮エアー導入管Ｆの開口部位置を、チップＧの内側開口部よりも１０ｍｍ後方、圧縮エアー導入管Ｆの口径を５ｍｍ、仕切りＢを圧縮エアー導入管Ｆまで延ばして取り付け、仕切りＬの範囲をタンクの仕切りＢと接続し、圧縮エアー導入管Ｆの開口部位置まで取り付け、チップＧの口径を１５ｍｍとした。
【００５２】
▲４▼双頭スプレーガン
図７に示したような完全に独立した二個のタンクＰのそれぞれに、独立した吹き付け口を有する双頭スプレーガンにおいて、それぞれのタンクＫの容量が２５００ｃｃ、誘導管Ｍの先端開口部口径を４ｃｍ、圧縮エアー導入管Ｎの開口部位置を、チップＯの内側開口部よりも１０ｍｍ後方、圧縮エアー導入管Ｎの口径を２ｍｍ、チップＯの口径を８ｍｍとした。
【００５３】
▲５▼四分割単頭スプレーガン
図８に示したような、本スプレーガンのタンクを四分割したスプレーガンにおいて、タンクＱをそれぞれ１５００ｃｃ、誘導管Ｅの先端開口部口径を６ｃｍ、圧縮エアー導入管Ｆの開口部位置を、チップＧの内側開口部よりも１０ｍｍ後方、圧縮エアー導入管Ｆの口径を５ｍｍ、チップＧの口径を１５ｍｍとした。
【００５４】
▲６▼縦二分割単頭スプレーガン
図９に示したような、本スプレーガンのタンクを縦二分割したスプレーガンにおいて、タンクＲをそれぞれ２５００ｃｃ、誘導管Ｅの先端開口部口径を６ｃｍ、圧縮エアー導入管Ｆの開口部位置を、チップＧの内側開口部よりも１０ｍｍ後方、圧縮エアー導入管Ｆの口径を５ｍｍ、チップＧの口径を１５ｍｍとした。
【００５５】
＜比較試験方法＞
前述の表２に示した各混合材を、表３のような組み合わせによって、各塗装スプレーガンのタンクに投入し、１ｍ角のフレキシブルボード表面に、上下方向にスプレーガンを移動しながら全面塗装を行った。また、別のフレキシブルボード表面に、左右方向にスプレーガンを移動しながら全面塗装を行った。但し、四分割単頭スプレーガンの場合には、混合材の一方を四分割タンクの対角線上に位置する二つのタンクに投入し、残りの二つのタンクに他の混合材を投入して塗装を行った。
【００５６】
このようにして塗装を行ったフレキシブルボードを、一週間乾燥養生して、その表面に形成された大柄の模様または多彩模様を目視して、各混合材が散布されて形成されているゾーンが、塗膜全体として一方の混合材の方に偏っていないかを観察した。また、同様に目視にてゾーンが、塗膜全体にわたって独立性が高いか、反対に混合材同士で混ざり合いが生じているかどうかを観察した。
【００５７】
また、混合材のタンクへの投入から塗装終了までの、作業性の良好性についてタンクへの混合材の投入しやすさや、圧縮エアー圧の調整具合、塗装作業時のガンの重量感、塗装しやすさを基本として判断した。
【００５８】
評価方法は以下のようにした。
（ゾーンの偏り） ○：偏りなし、△：若干偏り有り、×：非常に偏り有り
（ゾーンの独立性） ○：独立性良好、△：混合有り、×：非常に混合有り
（作業性） ○：作業性良好、△：作業性やや悪い、×：作業性悪い
試験の結果を表４に示した。
【００５９】
（実施例１）
表４の結果のように、本スプレーガン１を使用して、上下方向へスプレーガンを移動しながらの塗装の場合には、ゾーンの偏りがなく、ゾーンの独立性も非常に高い、大柄の多色模様を形成することができた。しかしながら、左右方向の移動の場合には、混合材のゾーンに若干の偏りを生じた。作業性については特に問題がなく良好であった。
【００６０】
（実施例２〜実施例３）
表４の結果のように、本スプレーガン２または本スプレーガン３を使用して、上下方向へスプレーガンを移動しながらの塗装の場合には、ゾーンの偏りがなく、ゾーンの独立性も非常に高い、大柄の多色模様を形成することができた。また、左右方向の移動の場合にもほぼ偏りがなく、ゾーンの独立性が高い大柄模様を形成することができた。作業性に関しても特に問題がなく良好であった。
【００６１】
（実施例４）
表４の結果のように、本スプレーガン１を使用して、上下方向へスプレーガンを移動しながらの塗装の場合には、ゾーンの偏りがなく、ゾーンの独立性も非常に高い、微細なゾーンが散布された多彩模様を形成することができた。しかしながら、左右方向の移動の場合には、混合材のゾーンに若干の偏りを生じた。作業性に関しては特に問題がなく良好であった。
【００６２】
（実施例５〜実施例６）
表４の結果のように、本スプレーガン２または本スプレーガン３を使用して、上下方向へスプレーガンを移動しながらの塗装の場合には、ゾーンの偏りがなく、ゾーンの独立性も非常に高く、微細なゾーンが散布された多彩模様を形成することができた。また、左右方向の移動の場合にもほぼ偏りがなく、独立性が高い微細なゾーンが散布された多彩模様を形成することができた。作業性に関しても特に問題がなく良好であった。
【００６３】
（比較例１）
表４の結果のように、双頭スプレーガンを使用して、上下方向へスプレーガンを移動しながらの塗装の場合には、ゾーンの偏りがなく、ゾーンの独立性も非常に高い、大柄の多色模様を形成することができた。しかしながら、左右方向の移動の場合には、混合材のゾーンに若干の偏りを生じた。作業性については、各吹き付け口に通じる圧縮エアー導入管Ｎのエアー圧の双方のバランスを調整することに非常に手間が掛かり、塗装時には双頭スプレーガンが非常に重量感があり重く感じた。
【００６４】
（比較例２）
表４の結果のように、四分割単頭スプレーガンを使用した場合、上下、左右何れの方向においても、混合材のゾーンの偏りは見られなかった。しかしながら、各ゾーンの独立性は非常に低く、部分的に両方の混合材が混ざっている場合があった。また、作業性については、四分割されたタンクの、対角線上に位置するタンクに一種の混合材を入れ、他のタンクに他方の混合材を入れる操作は非常に煩雑であり、一つ一つのタンクの上部開口部が小さいため、混合材の投入に手間がかかった。
【００６５】
（比較例３）
表４の結果のように、縦二分割単頭スプレーガンを使用した場合、各混合材が左右に広がって噴射されるため、散布された混合材の最左部と最右部は、それぞれの混合材のみのゾーンが形成される状態となった。この状態で上下方向に塗装を行うと二種の混合材の縦縞模様が形成され、左右方向に塗装を行うと左から右への移動の場合には、左のタンクに投入した混合材のゾーンが目立ち、右から左への移動の場合には、右のタンクに投入した混合材のゾーンが目立つことになり、これを繰り返すと横縞模様を形成することになった。しかしながら、各混合材のゾーン自身の独立性は良好であった。作業性については、ゾーンの偏りを調整すべく重ね吹きを繰り返す必要があり、非常に効率の悪いものであった。
【００６６】
（比較例４）
表４の結果のように、双頭スプレーガンを使用して、上下方向へスプレーガンを移動しながらの塗装の場合には、ゾーンの偏りがなく、ゾーンの独立性も非常に高い、微細なゾーンが散布された多彩模様を形成することができた。しかしながら、左右方向の移動の場合には、混合材のゾーンに若干の偏りを生じた。作業性については、各吹き付け口に通じる圧縮エアー導入管Ｎのエアー圧の双方のバランスを調整することに非常に手間が掛かり、塗装時には双頭スプレーガンが非常に重量感があり重く感じた。
【００６７】
（比較例５）
表４の結果のように、四分割単頭スプレーガンを使用した場合、上下、左右何れの方向においても、混合材のゾーンの偏りは見られなかった。しかしながら、各ゾーンの独立性は非常に低く、部分的に両方の混合材が混ざっており、各ゾーンが微細なこととも相まって、多彩模様感が失われて単色の塗膜のような感じに仕上がった。また、作業性については、四分割されたタンクの、対角線上に位置するタンクに一種の混合材を入れ、他のタンクに他方の混合材を入れる操作は非常に煩雑であり、一つ一つのタンクの上部開口部が小さいため、混合材の投入に手間がかかった。
【００６８】
（比較例６）
表４の結果のように、縦二分割単頭スプレーガンを使用した場合、各混合材が左右に広がって噴射されるため、散布された混合材の最左部と最右部は、それぞれの混合材のみのゾーンが形成される状態となった。この状態で上下方向に塗装を行うと二種の混合材の縦縞模様が形成され、左右方向に塗装を行うと左から右への移動の場合には、左のタンクに投入した混合材のゾーンが目立ち、右から左への移動の場合には、右のタンクに投入した混合材のゾーンが目立つことになり、これを繰り返すと横縞模様を形成することになった。しかしながら、各混合材のゾーン自身の独立性は良好であった。作業性については、ゾーンの偏りを調整すべく重ね吹きを繰り返す必要があり、非常に効率の悪いものであった。
【００６９】
【発明の効果】
本発明は、色相差、明度差、彩度差、模様の違いの少なくとも何れかによって、全体として異なるものであるとの認識が可能な二種類の混合材を使用して、一機の単頭スプレーガンのタンクを最低限（二つ）に仕切り、仕切られた各部に、それぞれの混合材を投入して塗装を行うものである。このような塗装方法により形成される塗膜においては、二種類の混合材のゾーンが偏りなく散布塗付され、なおかつ、各ゾーンが混じり合わず、非常に独立性の高い多色状模様となる。また、そのような塗装に用いる本スプレーガンは、タンクが前後に分割されている以外は非常にシンプルな構造であり、従来形の双頭スプレーガンをはじめとする多頭スプレーガンのような、複数の吹き出し口と、それに対応する複数の圧縮エアー導入管の存在による、煩雑な調整が不要であり、構造が複雑化することによる重量の増加のない優れたスプレーガンである。
【図面の簡単な説明】
【図１】本発明の多色塗装用単頭スプレーガンの一態様を示す斜視図
【図２】図１に記載の多色塗装用単頭スプレーガンの上面から見た平面図
【図３】本発明の多色塗装用単頭スプレーガンの他の態様を示す斜視図
【図４】図３に記載の多色塗装用単頭スプレーガンの上面から見た平面図
【図５】本発明の多色塗装用単頭スプレーガンのさらに他の態様を示す斜視図
【図６】図５に記載の多色塗装用単頭スプレーガンの上面から見た平面図
【図７】双頭スプレーガンを示す斜視図
【図８】タンクを四分割した単頭スプレーガンを示す斜視図
【図９】タンクを左右に二分割した単頭スプレーガンを示す斜視図
【符号の説明】
Ａ タンク全体
Ｂ タンクの仕切り
Ｃ 分割されたタンク
Ｄ 分割されたタンク
Ｅ 誘導管
Ｆ 圧縮エアー導入管
Ｇ チップ
Ｈ 取手
Ｉ 圧縮エアー開閉バルブ
Ｊ 圧縮エアー導入ホース
Ｋ 誘導管Ｅの上下に位置する仕切り
Ｌ 誘導管Ｅの左右に位置する仕切り
Ｍ 双頭スプレーガンの誘導管
Ｎ 双頭スプレーガンの圧縮エアー導入管
Ｏ 双頭スプレーガンのチップ
Ｐ 双頭スプレーガンの二分割されたタンク
Ｑ 四分割されたタンク
Ｒ 左右二分割されたタンク
【表３】

【表４】

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a spray gun for coating for forming a coating film exhibiting a multicolor design from various colors to natural stones such as marble and granite on inner and outer wall surfaces of buildings and civil engineering structures, and the like It is related with the coating method which forms such a coating film.
[0002]
[Prior art]
Conventionally, in order to give a beautiful appearance to the inner and outer wall surfaces of buildings and civil engineering structures, it has been performed to form a multi-colored pattern by painting a mixed material in which aggregates of different colors are mixed. Since such a colorful pattern takes advantage of the colorfulness of the color of the aggregate, there is no way other than increasing the grain size of the aggregate to form a large pattern. It was.
[0003]
On the other hand, a multi-colored coating, that is, a pattern-like coating in which large and small different colored zones are scattered individually can form a large patterned pattern, and is therefore often used. For such multicolored coating, it is necessary to spray and apply the mixed material corresponding to each zone in a relatively unmixed state.
[0004]
In general, spray coating with a spray gun is used as a coating method for spraying such zones. However, in order to keep the mixed materials corresponding to each of these zones relatively unmixed, some device is required. It was.
[0005]
First, if the mixed material used is colored with a pigment, it will be easy to mix in the tank if a plurality of mixed materials are placed in the tank where the spray gun mixed material is placed, and the intermediate hue of each will be uneven. It has been difficult to form a uniform coating film as a whole.
[0006]
On the other hand, when the mixed material used is a colored aggregate, it is rare that a mixed material of a different color like that colored with a pigment is mixed, but the colored aggregate in each mixed material is mixed, It is the same as the above-mentioned multicolored pattern, and it is difficult to form a differently colored zone.
[0007]
In contrast, a method of preparing different color mixed materials for each of a plurality of spray guns and spraying each of them alternately or simultaneously was performed. The sprayed state is biased, and the finished coating film feels unnatural or paint unevenness tends to occur.
[0008]
On the other hand, like the method described in Japanese Patent Application Laid-Open No. 58-119376 and Japanese Patent Publication No. 5-9587, different color mixed materials are put in different tanks of a single spray gun, respectively, from different spray ports. Due to the spraying method, there is no longer a deviation in the spraying state of each mixture due to the difference in movement of each spray gun, as in the case of using a plurality of spray guns.
[0009]
However, a spray gun having a plurality of tanks and a plurality of spray ports (hereinafter referred to as “multi-head spray gun”) has a structure of a spray gun having one tank and one spray port (hereinafter referred to as “single-head spray gun”). It has a weight equivalent to a plurality of machines, and has a drawback that it is very heavy for movement during painting work.
[0010]
In addition, the spray air pressure must be adjusted to each of the spray ports, and when a large difference is generated between the air pressures, there is a case where a dispersion state of each mixed material is biased.
[0011]
In addition, since each spraying port is lined up in the left-right direction, when the multi-head spray gun itself is moved to the left and right for painting, when it is moved to the right, the mixed material injected from the leftmost spraying port However, when the layer is sprayed on the surface most, and when it is moved to the left, the mixed material sprayed from the spray port located on the rightmost is layered and sprayed on the surface most. Therefore, as a whole, a striped paint film design has been formed.
[0012]
On the other hand, as in the method described in Japanese Patent Publication No. 6-85909, the tank of the single-head spray gun is divided into four, a kind of mixed material in the first quadrant and the third quadrant of each partition, the second quadrant In the fourth quadrant, another mixed material having a different color was placed and sprayed to prevent the occurrence of a striped pattern when moving left and right.
[0013]
[Problems to be solved by the invention]
However, one tank of such a single-head spray gun is divided into four parts, one kind of mixed material is put in the first and third quadrants, and the other mixed material is different in the second and fourth quadrants. However, there is a problem that the method of putting in is very troublesome when the mixed material is put into the tank.
[0014]
In addition, since the tank is divided into four parts, the mixed materials of different colors are relatively easily mixed with each other until the mixed material is injected from the injection port, that is, the mixed materials of each quarter are different in color. Because it is sprayed in a state where it has contact surfaces with other mixed materials on both the horizontal and vertical surfaces, it is formed as a coating film in a state where the different colored zones of each mixed material are relatively mixed In addition, since it has a design feeling that can be referred to as a non-uniform mixed multicolor state, there is a problem that the image is slightly blurred as a whole.
[0015]
It is obvious that such a non-uniform mixed multicolor state can be improved by reducing the number of contact surfaces between the different color mixed materials by reducing the number of tank partitions. The above-mentioned striped pattern was generated in the coated film.
[0016]
Therefore, the problem to be solved by the present invention is that the tank of a single-head spray gun is divided into a minimum (two), and different colors are mixed into each of the divided parts for painting. Another object of the present invention is to provide a coating method for forming a multicolor pattern in which zones of different color mixed materials are evenly dispersed in a formed coating film and a spray gun used for such coating.
[0017]
[Means for Solving the Problems]
In order to solve such a problem, the inventors of the present invention have conceived that the tank of one spray gun is partitioned into two in a specific direction, and the present invention has been completed.
[0018]
That is, it is each invention enumerated below.
1. An induction tank that has a bottom opening tank that stores the mixed material divided forward and backward by a partition with respect to the injection direction, and that guides the mixed material toward the injection port with two divided bottom portions of the tank as one. A pipe and a compressed air introduction pipe penetrating the rear wall of the guide pipe and extending inside the guide pipe; Inside the induction pipe, a partition is further provided that divides the induction pipe into left and right or up and down from the extension line of the bottom opening tank partition to the compressed air introduction pipe opening on the top and bottom or left and right of the compressed air introduction pipe. , Single-head spray gun for multicolor coating with a tip that narrows the injection port of the mixed material at the leading end of the induction tube In each of the divided tanks, using a synthetic resin emulsion and mono- or multi-colored colored aggregates and / or natural stone pulverized materials, a hue difference that is recognizable as different as a whole, A multi-color coating method, wherein a mixed material having at least one of brightness difference, saturation difference, and pattern difference is put, and the spray gun is moved in the vertical direction or the horizontal direction for coating. .
[0020]
2. The divided tank volumes are 500 to 3000 cc, the guide tube tip opening diameter is 3 to 10 cm, the compressed air introduction tube opening position is 3 to 30 mm behind the inner opening of the chip, and the compressed air introduction tube diameter is 1 to Single-head spray gun for multicolor coating with 6mm and tip diameter of 5-20mm 1 is used. Multicolor painting method described in .
[0023]
3. The mixed material has a viscosity of 5 to 100 Pa · s (measured value at 20 ° C. by a BH viscometer; the same applies hereinafter), and a compressed air pressure is 250 to 700 kPa. 1. Or 2. The multicolor coating method described in 1.
[0025]
BEST MODE FOR CARRYING OUT THE INVENTION
Hereinafter, embodiments of the present invention will be specifically described.
First, the multi-color coating single-head spray gun of the present invention (hereinafter referred to as “the present spray gun”) has a structure shown in FIGS.
[0026]
First, as shown in FIG. 1 and FIG. 2 as viewed from above, a tank A into which a mixed material as a mixed material is charged is divided into C and D portions by a partition B. In this way, the tank into which the mixed material is charged is divided into two front and rear tanks. The tank divided into two in this way has an opening at the bottom, and the mixed material flows downward from the opening by gravity. A guide pipe E for bringing the two bottom openings together and guiding the mixed material is provided so as to taper forward or slightly upward from the bottom of the tank. This guide pipe E has a compressed air introduction pipe F that penetrates the rear wall and extends forward in the guide pipe E. The front end of the opening of the compressed air introduction pipe F is open behind the inner opening of the chip G described later. Next, a tip G is attached to the tip of the guide tube E for the purpose of narrowing the injection port of the mixed material. A compressed air opening / closing valve I is attached to the rear projecting portion of the compressed air introduction pipe F that penetrates the rear wall of the guide pipe E, and a compressed air introduction hose J is attached to the tip of the valve. In addition, you may attach the auxiliary | assistant chip | tip about 5-20 mm in length with the same aperture | diameter or a slightly thin tip at the front-end | tip of the chip | tip G. FIG.
[0027]
In the present invention, the tank partition is made back-and-forth in this way, so that the mixed material is applied in a multicolored form, and a coating film that forms a multicolored pattern in which the zones of the differently colored mixed material are spread evenly is formed. It becomes possible.
[0028]
Further, as another aspect of the spray gun, as shown in FIGS. 3 and 5 and FIGS. 4 and 6 as viewed from above, the upper and lower sides of the compressed air introduction pipe F are arranged in the guide pipe E of FIG. Or the partition K or the partition L which divides the inside of the induction | guidance | derivation pipe E into right and left or up and down is provided in right and left. The rear end of the partition K or the partition L is on or ahead of the extension line of the partition B, and the front end of the partition K or the partition L is up to the opening of the compressed air introduction pipe F. In some cases, the partition B and the partition K or the partition L may be connected.
[0029]
By further providing such a partition K or partition L, the frictional resistance of the mixed material in the guide tube E near the partition is increased, and the different color mixed material sprayed from the jet port spreads to the left or right or up and down. As a result, the uneven distribution of the differently colored zones formed by the mixed material is further improved.
[0030]
In the present invention, this spray gun is used to spray and paint a mixed material of different colors to form a multicolored paint film.
[0031]
Here, the mixed material is characterized by containing a synthetic resin emulsion and either a colored aggregate or a natural stone pulverized material, or a mixture of both, and the colored aggregate or natural stone pulverized material is monochromatic. Alternatively, a mixture of a plurality of colors may be used.
[0032]
As such a synthetic resin emulsion, either one obtained by emulsion polymerization of a monomer having a polymerizable unsaturated double bond, or one obtained by emulsifying a pre-synthesized resin using an emulsifier in an aqueous dispersion medium. It may be a reactive curing type crosslinking type, that is, a type that self-crosslinks inside the emulsion particles, or a two-component curing type that causes a crosslinking reaction by adding a crosslinking agent. Furthermore, a powder type emulsion can also be used. However, in the case of powder type, it is necessary to add water at the time of use.
[0033]
The types of these synthetic resin emulsions include polyvinyl acetate, polyacrylate ester, acrylate ester-styrene polymer system, ethylene-vinyl acetate copolymer system, vinyl acetate-acrylate copolymer system, ethylene chloride. At least one of a vinyl copolymer system and a vinyl acetate-veova copolymer system is used.
[0034]
As such colored aggregates, those colored by coating on the surface of aggregates generally used for coating materials such as quartz sand, cold water stone, and ceramic crushed powder, or baking with pigments are used.
[0035]
On the other hand, natural stone pulverized materials include igneous rocks such as basalt, andesite, rhyolite and granite, sedimentary rocks such as sandstone, mudstone and limestone, and metamorphic rocks that have been transformed by heat and pressure, as well as dredging and dredging Including pulverized products.
[0036]
In the mixed material of the present invention, in addition to the above-mentioned synthetic resin emulsion, colored aggregate or natural stone pulverized material, or both, inorganic and organic pigments, various fillers, and viscosity, which are usually blended in coating materials Additives such as regulators, drying modifiers, film-forming aids, antifoaming agents, dispersants, preservatives, fungicides, and algaeproofing agents can be appropriately blended.
[0037]
In the mixed material of the present invention, the different color does not necessarily mean that the hue is different, but is a state that can be recognized as a different mixed material depending on at least one of a hue difference, brightness difference, saturation difference, and pattern difference. Say.
[0038]
When such a different color mixed material is put into each tank C and tank D of this spray gun and the spray gun is moved while moving in the vertical direction, it flows down from tank C and tank D, and the guide tube Since the mixed material located in the upper part among the different colored mixed materials positioned in the vertical direction in E keeps being pressed downward by gravity in the vicinity of the blowing port, from the blowing port When sprayed, it is bent and sprayed at the bottom, and as a result, it is sprayed in a relatively close range to the mixed material located at the bottom, resulting in the formation of a multicolored pattern in which the zones of each mixed material are sprayed evenly It seems that it will be done.
[0039]
In the case where there is no influence of such gravity, that is, when the tank A is divided into left and right as shown in FIG. 9, each mixed material is sprayed to the left and right respectively, and the left mixed material is placed at the leftmost part of the spraying range. Only the sprayed portion of the right mixed material is produced at the rightmost portion of the spraying range.
[0040]
In such a state, when the spray gun is moved up and down to paint, a staggered pattern is formed in which vertical stripes of the leftmost and rightmost mixed materials are conspicuous.
[0041]
In addition, when the spray gun is moved to the left and right for painting, when moving from left to right, a pattern is formed in which the left mixed material is laminated and applied to the top surface, and when moving from right to left In this case, a pattern in which the right mixed material is laminated and coated on the surface is formed, and as a result, a biased pattern in which horizontal stripes are conspicuous is formed.
[0042]
Furthermore, in the coating method of the present invention, by providing a partition inside the guide tube E which is one of the above-described embodiments of the spray gun, it is possible to suppress the spread of the injection of the mixed material in the left-right or vertical direction to some extent. Therefore, it is possible to make the dispersion of the mixed material more even.
[0043]
In the coating method of the present invention, the size of the spray gun is not particularly specified, but the volume of the tank C, the tank D, the diameter of the induction pipe E, the diameter of the compressed air introduction pipe F, By specifying the range of the compressed air pressure, the tip diameter, and the viscosity of the mixed material, it is possible to form the most uniform multicolor pattern.
[0044]
The range of such conditions is as follows: the volume of tank C and tank D is 500 to 3000 cc, the diameter of the tip opening of the guide pipe E is 3 to 10 cm, the diameter of the compressed air introduction pipe F is 1 to 6 mm, and the compressed air introduction pipe Although the opening position of F is 3 to 30 mm behind the inner opening of the chip G, the compressed air pressure is 250 to 700 kPa, the tip G diameter is 5 to 20 mm, and the viscosity of the mixed material is 5 to 100 Pa · s. As the more preferable optimum range, the tip opening diameter of the guide tube E is 5 to 8 cm, the diameter of the compressed air introduction tube F is 2 to 6 mm, the position of the opening portion of the compressed air introduction tube F is the inner opening of the chip G It is better to be 5-10 mm behind.
[0045]
In the painting method of the present invention, the multicolored zone and the natural stone pulverized material are appropriately selected, so that the multicolored zone is compared with the multicolored zone in a relatively fine state. A wide variety of patterns can be formed. Especially large ones can display marble and granite-like designs depending on their hues.
[0046]
【Example】
In order to clarify the effect of the present invention, a comparative test was performed by a coating method using a spray gun other than the present invention.
[0047]
<Adjustment of mixed material>
(1) Mixed material 1
Using each material shown in Table 1, a mixed material was produced with the composition shown in Table 2. In the procedure, a synthetic resin emulsion was put into a stirring tank, various additives were blended while stirring, and then granular materials such as colored aggregates were sequentially mixed. The mixed material 1 thus produced had a viscosity of 50 Pa · s / 20 ° C.
[0048]
(2) Mixed material 2-Mixed material 4
In the same manner as the mixed material 1, the materials shown in Table 1 were mixed according to the formulation shown in Table 2 to produce each mixed material. The viscosity of the produced mixed material was as shown in Table 2.
[Table 1]

[Table 2]

[0049]
<Specifications of spray gun for painting>
▲ 1 ▼ This spray gun 1
In the spray gun shown in FIG. 1 and FIG. 2 as viewed from above, the tank C and the tank D are respectively 2500 cc, the diameter of the leading end opening of the guide pipe E is 6.5 cm, and the position of the opening of the compressed air introduction pipe F is The inner diameter of the tip G was 10 mm behind, the diameter of the compressed air introduction tube F was 5 mm, and the diameter of the tip G was 15 mm.
[0050]
▲ 2 ▼ This spray gun 2
In this spray gun shown in FIG. 3 and FIG. 4 as viewed from above, the tank C and the tank D are 2500 cc, the guide tube E has a tip opening diameter of 6.5 cm, and the compressed air introduction tube F has an opening position. , 10 mm behind the inner opening of the chip G, the diameter of the compressed air introduction tube F is 5 mm, the range of the partition K is attached from the extension line of the tank partition B to the opening of the compressed air introduction tube F, The aperture was 15 mm.
[0051]
▲ 3 ▼ This spray gun 3
In the spray gun shown in FIG. 5 and FIG. 6 as viewed from above, the tank C and the tank D are respectively 2500 cc, the diameter of the leading end opening of the guide pipe E is 6.5 cm, and the position of the opening of the compressed air introduction pipe F is , 10 mm behind the inner opening of the chip G, the diameter of the compressed air introduction pipe F is 5 mm, the partition B is extended to the compressed air introduction pipe F, and the range of the partition L is connected to the partition B of the tank. The inlet tube F was attached up to the opening position, and the diameter of the tip G was 15 mm.
[0052]
(4) Double-head spray gun
In a two-head spray gun having an independent spray port in each of two completely independent tanks P as shown in FIG. 7, the capacity of each tank K is 2500 cc, and the diameter of the opening of the leading end of the guide tube M is 4 cm. The position of the opening of the compressed air introduction pipe N was 10 mm behind the inner opening of the chip O, the diameter of the compressed air introduction pipe N was 2 mm, and the diameter of the chip O was 8 mm.
[0053]
▲ 5 ▼ Four-split single head spray gun
In the spray gun in which the tank of this spray gun is divided into four parts as shown in FIG. 8, the tank Q is 1500 cc, the guide tube E has a tip opening diameter of 6 cm, and the opening position of the compressed air introduction tube F is the tip. 10 mm behind the inner opening of G, the diameter of the compressed air introduction tube F was 5 mm, and the diameter of the tip G was 15 mm.
[0054]
▲ 6 ▼ vertical split single head spray gun
In the spray gun in which the tank of this spray gun is vertically divided as shown in FIG. 9, the tank R is 2500 cc, the guide tube E has a tip opening diameter of 6 cm, and the opening position of the compressed air introduction tube F is 10 mm behind the inner opening of the chip G, the diameter of the compressed air introduction tube F was 5 mm, and the diameter of the chip G was 15 mm.
[0055]
<Comparative test method>
Each mixture shown in Table 2 is put into the tank of each paint spray gun in the combination shown in Table 3, and the entire surface is painted while moving the spray gun up and down on the surface of the 1m square flexible board. went. The entire surface of the flexible board was painted while moving the spray gun in the left-right direction. However, in the case of a four-split single-head spray gun, one of the mixed materials is put into two tanks located on the diagonal of the four-split tank, and the other two mixed materials are put into the remaining two tanks for painting. went.
[0056]
The flexible board thus coated is dried and cured for a week, and a large pattern or a multicolored pattern formed on the surface is visually observed. It was observed whether the entire coating film was biased toward one of the mixed materials. Similarly, it was visually observed whether the zone was highly independent over the entire coating film or, on the contrary, whether mixing occurred between the mixed materials.
[0057]
In addition, from the introduction of the mixed material into the tank until the completion of painting, the ease of loading the mixed material into the tank, the adjustment of the compressed air pressure, the weight of the gun during painting work, the painting Judged based on ease.
[0058]
The evaluation method was as follows.
(Zone bias) ○: No bias, △: Slightly biased, ×: Very biased
(Independence of zones) ○: Good independence, △: Mixed, ×: Very mixed
(Workability) ○: Good workability, Δ: Slightly poor workability, ×: Poor workability
The test results are shown in Table 4.
[0059]
Example 1
As shown in the results of Table 4, when the spray gun 1 is used for painting while moving the spray gun up and down, there is no zone bias and the zone independence is very high. A multicolor pattern could be formed. However, in the case of movement in the left-right direction, a slight deviation occurred in the mixed material zone. The workability was satisfactory with no particular problems.
[0060]
(Example 2 to Example 3)
As shown in the results of Table 4, when the spray gun 2 or the spray gun 3 is used and the spray gun is moved while moving the spray gun up and down, there is no zone bias and the zone is very independent. It was possible to form a large and large multicolor pattern. Moreover, there was almost no bias in the case of movement in the left-right direction, and a large pattern with high zone independence could be formed. The workability was good with no particular problems.
[0061]
Example 4
As shown in Table 4, when the spray gun 1 is used for painting while moving the spray gun in the vertical direction, there is no zone bias and the independence of the zone is very high. It was possible to form a colorful pattern with scattered zones. However, in the case of movement in the left-right direction, a slight deviation occurred in the mixed material zone. The workability was satisfactory with no particular problems.
[0062]
(Example 5 to Example 6)
As shown in the results of Table 4, when the spray gun 2 or the spray gun 3 is used and the spray gun is moved while moving the spray gun up and down, there is no zone bias and the zone is very independent. It was possible to form a multi-colored pattern in which fine zones were dispersed. In addition, when moving in the left-right direction, there was almost no bias, and it was possible to form a multicolored pattern in which fine zones with high independence were scattered. The workability was good with no particular problems.
[0063]
(Comparative Example 1)
As shown in Table 4, in the case of painting while using a double-head spray gun while moving the spray gun up and down, there is no zone bias and the zone independence is very high. A color pattern could be formed. However, in the case of movement in the left-right direction, a slight deviation occurred in the mixed material zone. Regarding workability, it took a lot of work to adjust the balance of both the air pressures of the compressed air introduction pipes N leading to the respective spray ports, and the double-head spray gun felt very heavy and heavy during painting.
[0064]
(Comparative Example 2)
As shown in Table 4, when the four-part single-head spray gun was used, there was no bias in the zone of the mixed material in any of the vertical and horizontal directions. However, the independence of each zone is very low, and there are cases where both the mixed materials are partially mixed. As for workability, the operation of putting one kind of mixed material into a tank located on the diagonal line of the tank divided into four parts and putting the other mixed material into the other tank is very complicated. Since the upper opening of the tank was small, it took time to charge the mixed material.
[0065]
(Comparative Example 3)
As shown in the results in Table 4, when using a vertically split single-head spray gun, each mixed material spreads in the left and right directions, so the leftmost part and the rightmost part of the dispersed material are A zone of only the mixed material was formed. In this state, when vertical coating is applied, a vertical stripe pattern of two types of mixed material is formed, and when applied in the horizontal direction, when moving from left to right, the zone of the mixed material charged into the left tank In the case of movement from right to left, the zone of the mixed material thrown into the right tank became conspicuous, and when this was repeated, a horizontal stripe pattern was formed. However, the independence of each mixed material zone itself was good. As for workability, it was necessary to repeat repeated blowing to adjust the bias of the zone, which was very inefficient.
[0066]
(Comparative Example 4)
As shown in Table 4, in the case of painting while moving the spray gun up and down using a double-head spray gun, there is no zone bias and the zone is extremely independent. Was able to form a multi-colored pattern. However, in the case of movement in the left-right direction, a slight deviation occurred in the mixed material zone. Regarding workability, it took a lot of work to adjust the balance of both the air pressures of the compressed air introduction pipes N leading to the respective spray ports, and the double-head spray gun felt very heavy and heavy during painting.
[0067]
(Comparative Example 5)
As shown in Table 4, when the four-part single-head spray gun was used, there was no bias in the zone of the mixed material in any of the vertical and horizontal directions. However, the independence of each zone is very low, and both of the mixed materials are partly mixed, and combined with the fineness of each zone, the feeling of multicolored pattern is lost and the finish looks like a monochrome paint film. It was. As for workability, the operation of putting one kind of mixed material into a tank located on the diagonal line of the tank divided into four parts and putting the other mixed material into the other tank is very complicated. Since the upper opening of the tank was small, it took time to charge the mixed material.
[0068]
(Comparative Example 6)
As shown in the results in Table 4, when using a vertically split single-head spray gun, each mixed material spreads in the left and right directions, so the leftmost part and the rightmost part of the dispersed material are A zone of only the mixed material was formed. In this state, when vertical coating is applied, a vertical stripe pattern of two types of mixed material is formed, and when applied in the horizontal direction, when moving from left to right, the zone of the mixed material charged into the left tank In the case of movement from right to left, the zone of the mixed material thrown into the right tank became conspicuous, and when this was repeated, a horizontal stripe pattern was formed. However, the independence of each mixed material zone itself was good. As for workability, it was necessary to repeat repeated blowing to adjust the bias of the zone, which was very inefficient.
[0069]
【The invention's effect】
The present invention uses two types of mixed materials that can be recognized as different as a whole due to at least one of hue difference, brightness difference, saturation difference, and pattern difference, and The spray gun tank is divided into a minimum (two), and each mixed material is charged into each of the divided parts for painting. In the coating film formed by such a coating method, the zones of the two kinds of mixed materials are spread and applied evenly, and each zone does not mix, resulting in a highly independent multicolored pattern. . In addition, this spray gun used for such painting has a very simple structure except that the tank is divided into front and rear, and it has a plurality of spray guns such as conventional double-head spray guns. It is an excellent spray gun that does not require complicated adjustments due to the presence of a blow-out port and a plurality of compressed air introduction pipes corresponding thereto, and does not increase in weight due to a complicated structure.
[Brief description of the drawings]
FIG. 1 is a perspective view showing one embodiment of a single-head spray gun for multicolor painting according to the present invention.
FIG. 2 is a plan view of the multicolor coating single-head spray gun shown in FIG. 1 as viewed from above.
FIG. 3 is a perspective view showing another embodiment of the single-head spray gun for multicolor painting according to the present invention.
FIG. 4 is a plan view of the multi-color coating single-head spray gun shown in FIG. 3 as viewed from above.
FIG. 5 is a perspective view showing still another embodiment of the single-head spray gun for multicolor painting according to the present invention.
6 is a plan view of the multicolor coating single-head spray gun shown in FIG. 5 as viewed from above.
FIG. 7 is a perspective view showing a double-head spray gun.
FIG. 8 is a perspective view showing a single-head spray gun in which a tank is divided into four parts.
FIG. 9 is a perspective view showing a single-head spray gun in which a tank is divided into left and right parts.
[Explanation of symbols]
A Whole tank
B Tank partition
C Divided tank
D Divided tank
E Induction tube
F Compressed air introduction pipe
G chip
H Toride
I Compressed air opening / closing valve
J Compressed air introduction hose
K partitions located above and below the guide tube E
L Partition located on the left and right of the guide tube E
M Double-head spray gun induction tube
N Double-head spray gun compressed air inlet tube
O Double-head spray gun tip
P Two-head spray gun divided into two tanks
Q Tank divided into four
R Tank divided into left and right
[Table 3]

[Table 4]

Claims (3)

An induction tank that has a bottom opening tank that stores the mixed material divided forward and backward by a partition with respect to the injection direction, and that guides the mixed material toward the injection port with two divided bottom portions of the tank as one. And a compressed air introduction pipe that penetrates the rear wall of the guide pipe and extends through the inside of the guide pipe. In the inside of the guide pipe, the partition of the bottom opening tank is extended above and below the compressed air introduction pipe. A multicolor coating unit is further provided with a partition that divides the guide tube into left and right or up and down from the line to the compressed air introduction tube opening, and a tip that narrows the injection port of the mixed material at the leading end of the guide tube. head spray gun, to each of the divided tank, a synthetic resin emulsion, by using a single color or a plurality of colored aggregates and / or natural stone pulverized, enough recognizable as being different from the whole The hue difference, lightness difference, a chroma difference, charged with a mixed material having at least one difference pattern, multicolor coating method characterized by coating by moving the spray gun in the vertical direction or the horizontal direction. The divided tank volumes are 500 to 3000 cc, the guide tube tip opening diameter is 3 to 10 cm, the compressed air introduction tube opening position is 3 to 30 mm behind the inner opening of the chip, and the compressed air introduction tube diameter is 1 to The multicolor coating method according to claim 1, wherein a single-color spray gun for multicolor coating having a diameter of 6 mm and a tip diameter of 5 to 20 mm is used . The multicolor coating method according to claim 1 or 2 , wherein the mixed material has a viscosity of 5 to 100 Pa · s and a compressed air pressure of 250 to 700 kPa.

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