JP3964723B2 - Cure accelerator for lacquer and quick-drying hybrid lacquer paint and rust preventive paint using the same - Google Patents

Description

（但し、式中、Ｒは互いに同じであっても異なっていてもよいアルキル基であり、ｎは１以上の整数である。）で表わされる有機ケイ素化合物を含有すること、を特徴とする漆類用硬化促進剤である。
【００１１】
本発明は、前記有機ケイ素化合物が、オルトケイ酸アルキルエステル及び／又はその加水分解縮合生成物である、前記漆類用硬化促進剤である。
【００１２】
本発明は、漆類と、前記の各硬化促進剤とを含有すること、を特徴とする速乾性ハイブリッド漆塗料である。
【００１３】
本発明は、漆類と、前記の各硬化促進剤とを含有すること、を特徴とする速乾性ハイブリッド漆防錆塗料である。
【００１４】
また本発明は、前記漆類が、生漆、生漆から得られるウルシオール、ラッコール或いはチチオール、及びアルケニルカテコールからなる群から選ばれる１種又は２種以上の混合物である、前記速乾性ハイブリッド漆塗料又は防錆塗料である。
【００１５】
【発明の実施の形態】
以下、本発明を詳細に説明する。
本発明の硬化促進剤は、漆類のフェノール性水酸基を変性して、その硬化を顕著に促進させるためのものであり、下記一般式（１）：
【化３】

（但し、式中、Ｒは互いに同じであっても異なっていてもよいアルキル基であり、ｎは１以上の整数である。）で表わされる有機ケイ素化合物を含有する。具体的には、Ｒは、メチル基、エチル基、プロピル基、ブチル基などの炭素数１〜１２のアルキル基が好適に挙げられ、このうち炭素数１〜４のアルキル基が更に好ましい。この有機ケイ素化合物としては、具体的には、オルトケイ酸アルキルエステル（ｎ＝１）、その加水分解縮合生成物（ｎ＝２〜１０）、又はこれらの混合物が好ましい。
この有機ケイ素化合物は、単独で使用できるだけではなく、２種以上を混合して使用することができる。混合使用した場合、縮合度の異なるハイブリッド漆類が得られ、耐水性の向上や乾燥速度の調節も容易となる。
【００１６】
本発明の速乾性ハイブリッド漆塗料又は防錆塗料は、漆類と、有機ケイ素化合物を含有する硬化促進剤とを単に混合することにより容易に調製することができる。
本発明の速乾性ハイブリッド漆塗料、防錆塗料は、漆類に有機ケイ素化合物（硬化促進剤）を加えて混合またはこれを被塗物表面に塗布（し加熱）すると、漆類のフェノール性水酸基が有機ケイ素化合物と脱アルコール反応し、また、鉄鋼材表面に塗布（し加熱）した場合には、（鉄鋼材表面の）鉄や（鉄鋼材のケイ酸ナトリウムによる脱脂時に生成する）水酸化第１鉄と反応して鉄塩を生成し、有機−無機ハイブリッド化して強固な塗膜を形成する。塗膜の硬化乾燥は１００〜１５０℃で１〜２時間で充分であり、硬化促進剤を使用しない場合にくらべて硬化乾燥速度が顕著に促進される。
【００１７】
本発明における漆類とは、漆料植物から得られる漆液（生漆）、生漆をＪＩＳＫ ５９５０の方法によって「クロメ」（加熱脱水）処理して得られる精製漆、生漆のアセトン可溶成分を濃縮して得られるウルシオール、ラッコール又はチチオール、化学合成によって得られるアルケニルカテコール、又はこれらの任意の２種以上の混合物などが挙げられる。アルケニルカテコールとしては、具体的には、３−（８−ペンタデセニルカテコール）、３−（８，１１−ペンタデカジエニルカテコール）、３−ペンタデカトリエニルカテコール、４−（８−ペンタデセニルカテコール）などが挙げられる（永瀬、宮腰：塗装工学、Ｖｏｌ．３２、Ｎｏ．１１、ｐ２２〜３５（１９９７）参照）。本発明において、漆類は天然漆液に含まれる多糖類、含窒素化合物、ラッカーゼ酵素などを含んでいてもよいし、含んでいないものであってもよいが、ラッカーゼ酵素を含むものが使用便宜上好ましい。
【００１８】
本発明の速乾性ハイブリッド漆塗料、防錆塗料において、硬化促進剤の配合量は、漆類の有効成分（ウルシオール、ラッコール、チチオール又はアルケニルカテコール１００％として）１００ｇに対して、有機ケイ素化合物１〜３０ｇの割合であることが好ましい。
【００１９】
本発明においては、塗料溶液の粘度を調節するため、溶剤を使用することができる。このような溶剤として具体的には、トルエン、キシレン、リモネン、ピネン、セスキテルペン、ガムテレピンなどが挙げられる。
本発明のハイブリッド漆塗料、防錆塗料においては、前記溶剤のほかに合成樹脂塗料に常用の各種顔料や各種添加剤等を含んでいてもよい。
【００２０】
さらに、本発明の塗料、防錆塗料は従来より行われている通常の塗装方法によって塗装することができ、塗装にはエアレススプレー機、エアスプレー機、静電塗装機、浸漬、ロールコーター、フローコーター、ナイフコーター、ハケ等を用いることができる。
【００２１】
本発明のハイブリッド漆塗料、防錆塗料による鉄鋼材などの金属素材の前処理として、素材のサンドプラスト処理や亜鉛コート、亜鉛下地塗装を併用することは、防錆効果を更に向上させることができるため好ましい。
【００２２】
【実施例】
以下、実施例を挙げて本発明を更に具体的に説明する。
実施例１
中国産生漆１００ｇに、液温が５０℃を超えないよう制御し攪拌しながらオルトケイ酸メチルエステル５ｇを滴下し、反応を行って、共縮合体を得た。この中にトルエン１００ｇを追加して、ハイブリッド漆塗料溶液を調製した。
この塗料溶液を脱脂した鉄製ボルトにスプレー塗布し、常温で約５分間放置したのち、１３０℃で約１時間加熱し、硬化乾燥させて、乾燥膜厚約２０μの塗膜を形成した。
この乾燥塗膜について、外観を目視により観察し、鉛筆硬度、密着性、耐擦り傷性、耐沸騰水性、耐溶剤性及び耐塩水性を測定した。これらの結果をまとめて表１に示す。
【００２３】
[試験方法]
（１）鉛筆硬度、密着性、耐擦り傷性
ＪＩＳ Ｋ５４００の方法に従って測定した。なお、密着性は碁盤目テープ法で行ない、耐擦り傷性はコインスクラッチ法で塗膜を擦り、傷の有無を目視により調べた。
（２）耐沸騰水性
沸騰水中に深さ６０ｍｍまで試験片を浸し、１５分間静置したあと取り出して、塗膜の外観を目視により評価した。

（３）耐溶剤性
アセトンをしみ込ませた脱脂綿にて塗膜面を３０回こすった後、外観を目視により評価した（ラビング試験）。

（４）耐塩水性
ＪＩＳ Ｋ５４００の塩水噴霧試験方法により行った。なお、塗装面には鉄鋼面に達するクロス状の切傷（クロスカット）をつけ、７２時間後におけるクロスカットからの塗膜のふくれ幅を測定した。

【００２４】
実施例２
ＪＩＳ Ｋ ５９５０の方法に準じて中国産生漆から分離したウルシオール１００ｇに、液温が５０℃を超えないよう制御し攪拌しながら、前記一般式（１）においてｎ＝約３．５のオルトケイ酸メチルエステル加水分解縮合生成物１０ｇと水５ｇを滴下し、反応を行って、共縮合体を得た。この中にリモネン１００ｇを追加して、ハイブリッド漆塗料溶液を調製した。
この塗料溶液を脱脂した鉄製の缶の外表面にスプレー塗布し、常温で約５分間放置したのち、１３０℃で約１時間加熱して硬化乾燥させた。
この乾燥塗膜について、外観を目視により観察し、鉛筆硬度、密着性、耐擦り傷性、耐沸騰水性、耐溶剤性及び耐塩水性を測定した。これらの結果をまとめて表１に示す。
【００２５】
実施例３
中国産生漆をＪＩＳ Ｋ ５９５０の方法に準じて「クロメ」処理した（ラッカーゼ酵素を含む）精製漆１００ｇにオルトケイ酸メチルエステル１０ｇと水５ｇを滴下し反応させた以外は実施例１と同様にして、ハイブリッド漆塗料溶液を調製した。
この塗料溶液に脱脂した鉄製ビスをディピングし取り出したのち、１３０℃で約１時間加熱して硬化乾燥させた。
この乾燥塗膜について、外観を目視により観察し、鉛筆硬度、密着性、耐擦り傷性、耐沸騰性、耐溶剤性及び耐塩水性を測定した。これらの結果をまとめて表１に示す。
【００２６】
実施例４
カテコールと亜麻仁油のクロスカップリング反応によって得た３−アルケニルカテコール１００ｇに前記一般式（１）においてｎ＝約３．５のオルトケイ酸メチルエステル加水分解縮合生成物１０ｇと水５ｇを滴下し反応させた以外は実施例１と同様にして、ハイブリッド漆塗料溶液を調製した。
この塗料溶液を脱脂した鉄製の缶の外表面にスプレー塗布し、常温で約５分間放置したのち、１３０℃で約１時間加熱して硬化乾燥させた。
この乾燥塗膜について、外観を目視により観察し、鉛筆硬度、密着性、耐擦り傷性、耐沸騰水性、耐溶剤性及び耐塩水性を測定した。これらの結果をまとめて表１に示す。
【００２７】
実施例５
ベトナム産生漆１００ｇに液温が５０℃を越えないよう制御し攪拌しながら前記一般式（１）においてｎ＝約２．５のオルトケイ酸メチルエステル加水分解縮合生成物１０ｇを滴下し反応させた以外は実施例１と同様にして、ハイブリッド漆塗料溶液を調製した。
この塗料溶液を脱脂した鉄製ボルトにスプレー塗布し、常温で約５分間放置したのち、１３０℃で約１時間加熱して硬化乾燥させた。
この乾燥塗膜について、外観を目視により観察し、鉛筆硬度、密着性、耐擦り傷性、耐沸騰水性、耐溶剤性及び耐塩水性を測定した。これらの結果をまとめて表１に示す。
【００２８】
【表１】

【００２９】
【発明の効果】
以上説明した通り、本発明の硬化促進剤は、例えば常温で漆類と攪拌するという簡易な操作でハイブリッド化でき、これを含有する本発明の（有機−無機の）ハイブリッド漆塗料は、漆室（ムロ）などの特殊な設備を要せず、しかも、健康障害や環境汚染を起こさず、従来より著しく短時間で乾燥して高品質で耐久性の高い漆（様）の被膜を形成でき、特に鉄鋼材などの金属の防錆や黒染めなどに使用できる。すなわち、本発明によって、例えば１００〜１５０℃という比較的低温度、４０〜５０％ＲＨといった低湿度の条件でも（従来公知の方法に較べて著しく速い）２時間以内で硬化、乾燥して、皺のない厚膜の被膜を形成することができ、天然漆から伝統的手法により形成される被膜に比べて同等以上の品質（鉛筆硬度、密着性、耐擦り傷性、耐沸騰水性、耐溶剤性、耐塩水性）を持っている。そのため、塗装効率が顕著に向上できるので、金属（特に鉄系材料）、プラスチック、コンクリート、木材などの広範囲の被塗物への漆の工業塗装の展開が可能となり、ノンクロム化技術による黒塗り防錆被覆の形成が可能となるという重大な意義を有する。[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a pollution-free quick-drying hybrid lacquer coating material suitable for black dyeing of steel, rust prevention, and the like, and a curing accelerator for lacquer used in the same.
[0002]
[Prior art]
Natural lacquer is mainly used for craft painting in order to form aesthetic and durable coatings that express sensations such as "softness", "moistness" and "depth". However, the drying is a moisture-curing natural paint that accelerates at high humidity and does not proceed at low humidity.Since the initial drying is slow, coating defects such as “sagging” and “tamari” are likely to occur, and excess Since the wrinkle is generated by humidification, it requires skill to manage the drying. Furthermore, a curing period of one week or longer is required for complete drying.
[0003]
In this drying system, the laccase enzyme contained in natural lacquer liquor is activated in a high humidity environment, oxidizes urushiol, which is the main component, to produce oligomers, and cures through an autoxidation reaction of the urushiol side chain. In general, special drying equipment called a lacquer room is required. For this reason, development of the natural drying lacquer which dries quickly without being influenced by humidity has been desired.
[0004]
Many inventions have been proposed for the purpose of promoting the drying of natural lacquer liquids, all of which have the effect of promoting drying, but the drying speed is still unsatisfactory, and the high humidity lacquer room (Muro) Needed. For example, Japanese Patent No. 3001056 discloses a technology of a natural drying polymerization lacquer mainly composed of an auto-oxidation reaction that performs enzyme polymerization in a reaction vessel to produce a urushiol oligomer, but it takes 8 hours or more to cure. I need it.
[0005]
On the other hand, natural lacquer reacts with iron at room temperature to form urushiol iron salt, blocking the permeation of oxygen to the iron surface, and has long been used for rust prevention of metal parts such as armor, helmets and firearms. Currently, it is used for surface treatment of southern ironware.
[0006]
At present, there are two general methods for industrial rust prevention treatment of steel materials: phosphoric acid (zinc) salt treatment method and chromate treatment method. Both of these methods form a coating of zinc or chromium that is more ionized than iron on the iron surface, create a sacrificial anode, ionize the surface iron, react with water and oxygen, and rust (hydroxide) The production of ferric iron is prevented.
[0007]
Although the chromate treatment method has the feature that steel materials can be dyed black, it uses trivalent or hexavalent chromium for the chromate agent, and thus has a great adverse effect on the human body and the environment. Specifically, hexavalent chromium causes health problems such as liver failure, poor circulation, skin ulcers, rhinitis, and asthma.
Thus, a method of using a coating-type non-chromate agent has recently been proposed as a non-chromating technique that does not use a chromate agent. However, this method has a problem of poor coin scratch resistance and durability.
[0008]
[Problems to be solved by the invention]
The object of the present invention is to use a special equipment such as a lacquer room (Muro), and without causing health problems or environmental pollution, it dries in a significantly shorter time than before, and has high quality and high durability. It is providing the hybrid lacquer coating material which can form a lacquer film, and the hardening accelerator used for this. Still another object of the present invention is to provide a quick-drying hybrid lacquer rust preventive paint capable of forming a high-quality black dyed coating on a steel material.
[0009]
[Means for Solving the Problems]
As a result of diligent research, the present inventors have found that the above-mentioned problems can be solved by reacting an organosilicon compound having a specific chemical structure with the phenolic hydroxyl group of lacquer, thereby completing the present invention. It came to do.
[0010]
That is, the present invention provides the following general formula (1):
[Chemical formula 2]

(However, in the formula, R is an alkyl group which may be the same or different from each other, and n is an integer of 1 or more.) It is a common curing accelerator.
[0011]
The present invention is the curing accelerator for lacquer, wherein the organosilicon compound is an orthosilicic acid alkyl ester and / or a hydrolysis condensation product thereof.
[0012]
This invention is a quick-drying hybrid lacquer coating characterized by containing lacquer and each said hardening accelerator.
[0013]
This invention is a quick-drying hybrid lacquer rust preventive paint characterized by containing lacquer and each said hardening accelerator.
[0014]
Moreover, the present invention provides the quick-drying hybrid lacquer coating material, wherein the lacquer is one or a mixture of two or more selected from the group consisting of urushiol obtained from raw lacquer, raw lacquer, lacquer or thiol, and alkenylcatechol, or Anti-rust paint.
[0015]
DETAILED DESCRIPTION OF THE INVENTION
Hereinafter, the present invention will be described in detail.
The curing accelerator of the present invention is for modifying the phenolic hydroxyl group of lacquer to remarkably accelerate its curing, and the following general formula (1):
[Chemical 3]

(Wherein R is an alkyl group which may be the same or different from each other, and n is an integer of 1 or more). Specifically, R is preferably an alkyl group having 1 to 12 carbon atoms such as a methyl group, an ethyl group, a propyl group, or a butyl group, and among them, an alkyl group having 1 to 4 carbon atoms is more preferable. Specifically, the organosilicon compound is preferably an orthosilicic acid alkyl ester (n = 1), a hydrolysis condensation product thereof (n = 2 to 10), or a mixture thereof.
This organosilicon compound can be used alone or in combination of two or more. When mixed and used, hybrid lacquers having different degrees of condensation are obtained, and the water resistance is improved and the drying speed is easily adjusted.
[0016]
The quick-drying hybrid lacquer paint or rust preventive paint of the present invention can be easily prepared by simply mixing lacquer and a curing accelerator containing an organosilicon compound.
The quick-drying hybrid lacquer paint and rust preventive paint of the present invention are mixed with an organic silicon compound (curing accelerator) added to lacquer or applied (and heated) to the surface of the object to be coated, and then the phenolic hydroxyl group of lacquer. Reacts with an organosilicon compound, and when applied (and heated) to the surface of a steel material, iron (on the surface of the steel material) or hydroxide (generated during degreasing of the steel material with sodium silicate) 1 Reacts with iron to produce an iron salt, and forms an organic-inorganic hybrid to form a strong coating. Curing and drying of the coating film is sufficient at 100 to 150 ° C. for 1 to 2 hours, and the curing and drying rate is significantly accelerated as compared with the case where no curing accelerator is used.
[0017]
The lacquer in the present invention is a lacquer liquid (raw lacquer) obtained from a lacquer plant, purified lacquer obtained by treating lacquer with "Kurome" (heat dehydration) by the method of JISK 5950, and concentrates acetone-soluble components of fresh lacquer. Urushiol, raccol or thiol obtained in this way, alkenyl catechol obtained by chemical synthesis, or a mixture of any two or more thereof. Specific examples of the alkenyl catechol include 3- (8-pentadecenyl catechol), 3- (8,11-pentadecadienyl catechol), 3-pentadecatrienyl catechol, and 4- (8-pentacatechol). (Decenyl catechol) and the like (see Nagase, Miyakoshi: Paint Engineering, Vol. 32, No. 11, p22-35 (1997)). In the present invention, lacquer may or may not contain polysaccharides, nitrogen-containing compounds, laccase enzymes, etc. contained in natural lacquer liquid, but those containing laccase enzymes are convenient for use. preferable.
[0018]
In the quick-drying hybrid lacquer paint and rust preventive paint of the present invention, the blending amount of the curing accelerator is an organosilicon compound 1 per 100 g of an active ingredient of lacquer (as urushiol, rackol, thiol or alkenyl catechol 100%). A ratio of ˜30 g is preferred.
[0019]
In the present invention, a solvent can be used to adjust the viscosity of the coating solution. Specific examples of such a solvent include toluene, xylene, limonene, pinene, sesquiterpene, and gum turpentine.
In the hybrid lacquer coating material and anticorrosive coating material of the present invention, in addition to the solvent, the synthetic resin coating material may contain various conventional pigments and various additives.
[0020]
Furthermore, the paint and anti-corrosion paint of the present invention can be applied by a conventional coating method that has been used conventionally. For coating, an airless spray machine, an air spray machine, an electrostatic coating machine, dipping, a roll coater, a flow coater. A coater, knife coater, brush or the like can be used.
[0021]
As a pretreatment of metal materials such as steel materials with the hybrid lacquer paint and rust preventive paint of the present invention, the combined use of the material with sand plast treatment, zinc coating, and zinc undercoating can further improve the rust prevention effect. Therefore, it is preferable.
[0022]
【Example】
Hereinafter, the present invention will be described more specifically with reference to examples.
Example 1
To 100 g of Chinese lacquer, 5 g of orthosilicic acid methyl ester was added dropwise with stirring while controlling the liquid temperature not to exceed 50 ° C., and a cocondensate was obtained. To this, 100 g of toluene was added to prepare a hybrid lacquer coating solution.
This coating solution was spray-coated on a degreased iron bolt and allowed to stand at room temperature for about 5 minutes, and then heated at 130 ° C. for about 1 hour, cured and dried to form a coating film having a dry film thickness of about 20 μm.
About this dry coating film, the external appearance was observed visually and pencil hardness, adhesiveness, scratch resistance, boiling water resistance, solvent resistance, and salt water resistance were measured. These results are summarized in Table 1.
[0023]
[Test method]
(1) Pencil hardness, adhesion, and scratch resistance Measured according to the method of JIS K5400. The adhesion was measured by a cross-cut tape method, and the scratch resistance was rubbed by a coin scratch method, and the presence or absence of scratches was examined visually.
(2) The test piece was immersed in boiling-resistant aqueous boiling water to a depth of 60 mm, left to stand for 15 minutes, then taken out, and the appearance of the coating film was visually evaluated.

(3) The surface of the coating film was rubbed 30 times with absorbent cotton soaked with solvent-resistant acetone, and the appearance was visually evaluated (rubbing test).

(4) Salt water resistance The salt spray test method of JIS K5400 was used. In addition, a cross-shaped cut (cross cut) reaching the steel surface was made on the coated surface, and the swelling width of the coating film from the cross cut after 72 hours was measured.

[0024]
Example 2
Orthosilic acid with n = about 3.5 in the above general formula (1) while stirring and controlling so that the liquid temperature does not exceed 50 ° C. to 100 g of urushiol separated from Chinese lacquer according to the method of JIS K 5950 10 g of methyl ester hydrolysis-condensation product and 5 g of water were added dropwise and reacted to obtain a cocondensate. Limonene 100g was added in this, and the hybrid lacquer coating solution was prepared.
This coating solution was spray-coated on the outer surface of a degreased iron can, allowed to stand at room temperature for about 5 minutes, and then heated at 130 ° C. for about 1 hour to be cured and dried.
About this dry coating film, the external appearance was observed visually and pencil hardness, adhesiveness, scratch resistance, boiling water resistance, solvent resistance, and salt water resistance were measured. These results are summarized in Table 1.
[0025]
Example 3
Example 1 except that 10 g of orthosilicate methyl ester and 5 g of water were added dropwise to 100 g of purified lacquer treated with chrome K according to the method of JIS K 5950 (including laccase enzyme) and reacted with 5 g of water. A hybrid lacquer coating solution was prepared.
The degreased iron screw was dipped into the coating solution, taken out, and then heated at 130 ° C. for about 1 hour to be cured and dried.
About this dry coating film, the external appearance was observed visually and pencil hardness, adhesiveness, scratch resistance, boiling resistance, solvent resistance, and salt water resistance were measured. These results are summarized in Table 1.
[0026]
Example 4
To 100 g of 3-alkenylcatechol obtained by the cross-coupling reaction of catechol and linseed oil, 10 g of hydrolyzed condensation product of orthosilicate methyl ester of general formula (1) where n = about 3.5 and 5 g of water are dropped and reacted. A hybrid lacquer coating solution was prepared in the same manner as in Example 1 except that.
This coating solution was spray-coated on the outer surface of a degreased iron can, allowed to stand at room temperature for about 5 minutes, and then heated at 130 ° C. for about 1 hour to be cured and dried.
About this dry coating film, the external appearance was observed visually and pencil hardness, adhesiveness, scratch resistance, boiling water resistance, solvent resistance, and salt water resistance were measured. These results are summarized in Table 1.
[0027]
Example 5
Except that the liquid temperature of the lacquer produced in Vietnam is controlled so as not to exceed 50 ° C. and stirred and 10 g of the orthosilicic acid methyl ester hydrolytic condensation product of n = about 2.5 in the above general formula (1) is dropped and reacted. Prepared a hybrid lacquer coating solution in the same manner as in Example 1.
This coating solution was spray-coated on a degreased iron bolt, allowed to stand at room temperature for about 5 minutes, and then heated at 130 ° C. for about 1 hour to be cured and dried.
About this dry coating film, the external appearance was observed visually and pencil hardness, adhesiveness, scratch resistance, boiling water resistance, solvent resistance, and salt water resistance were measured. These results are summarized in Table 1.
[0028]
[Table 1]

[0029]
【The invention's effect】
As described above, the curing accelerator of the present invention can be hybridized by a simple operation of stirring with lacquer at room temperature, for example, and the (organic-inorganic) hybrid lacquer coating of the present invention containing this is a lacquer chamber. (Muro) and other special equipment is not required, and it does not cause health problems or environmental pollution, and can be dried in a significantly shorter time than before to form a high-quality and highly durable lacquer (like) film. It can be used especially for rust prevention and black dyeing of metals such as steel. That is, according to the present invention, for example, even under a relatively low temperature of 100 to 150 ° C. and a low humidity of 40 to 50% RH (remarkably faster than a conventionally known method), the resin is cured and dried within 2 hours. A film with a thick film can be formed, and the quality (pencil hardness, adhesion, scratch resistance, boiling water resistance, solvent resistance, It has salt water resistance). As a result, the coating efficiency can be significantly improved, enabling industrial coatings of lacquer to be applied to a wide range of objects such as metals (especially iron-based materials), plastics, concrete, and wood. It has a significant significance that a rust coating can be formed.

Claims (5)

The following general formula (1):

(In the formula, R is an alkyl group which may be the same or different from each other, and n is an integer of 1 or more.) Curing accelerator for general use. The hardening accelerator for lacquers of Claim 1 whose said organosilicon compound is an orthosilicic acid alkylester and / or its hydrolysis condensation product. A quick-drying hybrid lacquer paint comprising lacquer and the curing accelerator according to claim 1. A quick-drying hybrid lacquer rust preventive paint comprising lacquer and the curing accelerator according to claim 1. The quick-drying hybrid lacquer coating material according to claim 3, wherein the lacquer is one or a mixture of two or more selected from the group consisting of urushiol obtained from raw lacquer, raw lacquer, lacquer or thiol, and alkenylcatechol. The quick-drying hybrid lacquer rust preventive paint according to claim 4.