JP7084047B2 - Detergent composition and its aerosol composition - Google Patents

Description

The present invention is a new cleaning for use in cleaning various vehicles, vehicles, transportation facilities such as automobiles, two-wheeled vehicles, bicycles, construction machinery, agricultural machinery, aircraft, railroad vehicles, ships, and cleaning of tools, workshops, pits, and factories. Regarding the agent composition and its aerosol composition, in particular, various vehicle parts and control devices such as bodies, brake parts, suspensions, wheels, etc. made of metal or a combination of metal and resin in various vehicles, vehicles, and transportation facilities. It is for degreasing and cleaning, is nonflammable, has a low risk of ignition and fire, and is a non-dangerous substance under the Fire Service Law. There are no legal restrictions on the amount of composition that can be stored, and it has excellent properties of low toxicity and low environmental load such as ozone layer destruction. Furthermore, it is equal to or better than conventional cleaning agent compositions. Detergency composition and its aerosol, which have excellent detergency, dryness, and stain reattachment prevention properties, and have extremely low attack resistance to rubber and resin compared to conventional detergency compositions. Regarding the composition.

Various vehicles, vehicles, and transportation such as automobiles, motorcycles, bicycles, construction machinery, agricultural machinery, aircraft, railroad vehicles, and ships have various parts and devices such as bodies, brakes, suspensions, and wheels made of metal and various resins. It is manufactured using such as. Further, in recent years, a member using a composite material in which a resin is combined with a metal has also been used with the intention of reducing the weight and enhancing the decorativeness.

Parts and devices using these metals have oil and dirt adhering to their surfaces during use, and their intended performance and decorativeness deteriorate. In addition, the metal surface is corroded depending on the adhered components, and the desired performance is irreversibly impaired. Furthermore, grease and other oils are applied to the necessary parts of vehicles, vehicles, and transportation so that the movement of each device can be smoothed, and these oils are sprayed with air flow or rainwater while driving. As a result, the oil gradually flows out to unintended parts, and the oil that has flowed out from other vehicles, vehicles, and transportation means is rolled up from the road surface together with dirt, and adheres to each part of the vehicle, vehicle, and transportation. , It becomes a factor to deteriorate the expected performance of various parts and devices. In particular, in a friction braking device in which a brake shoe with a brake lining, which is often used in vehicles, vehicles, and transportation, acts as a brake on a rotating body such as a brake disc or a brake drum, the friction coefficient decreases when oil adheres. In addition, dust generated by the wear of the brake lining is likely to adhere, which causes the braking performance of the brake to deteriorate. Therefore, perform regular maintenance work to remove oil and dirt from metal parts. Needs to be cleaned.

In addition, when assembling and manufacturing various vehicles, vehicles, and transportation facilities, when resin or paint is applied to metal and processed, if oil or the like remains slightly attached to the metal surface, the resin or paint will be removed. The quality of the product is significantly deteriorated due to peeling or deterioration without stable adhesion. In addition, for parts and devices that are particularly important for ensuring safety during operation, such as brakes, suspensions, and wheels, the coefficient of friction will decrease if oil and the like remain slightly attached, and braking performance will increase if they are assembled as they are. It will not be possible to stably demonstrate the desired performance due to damage. Therefore, at the time of assembling and manufacturing vehicles, vehicles, and transportation facilities, it is required to sufficiently wash and remove oil slightly adhering to the metal surface of each part in advance.

Therefore, as a cleaning agent composition mainly for cleaning the bodies, brake parts, suspensions, wheels, etc. of various vehicles, vehicles, and transportation facilities, conventionally, those containing trichloroethane having detergency as a main component have been developed and used. It had been. However, trichloroethane is known to be toxic. In addition, trichloroethane is the Montreal Protocol on ozone-depleting substances that came into effect under the Vienna Convention for the Protection of the Ozone Layer. It was decided that imports and exports with non-parties would be banned or restricted. Therefore, the use of detergent compositions using trichloroethane has been avoided.

Therefore, based on C6 petroleum-based hydrocarbons such as isohexane and cyclohexane, alcohols such as ethanol and isopropyl alcohol are added to produce a cleaning agent composition having adjusted detergency, dryness, and boiling point, which is used as LPG. An aerosol composition using gas and an aerosol composition using compressed air using a mobile simple aerosol filling machine have been proposed and are widely used.

However, petroleum-based hydrocarbons and alcohols used in the above-mentioned detergent composition are highly flammable and are regulated as dangerous goods under the Fire Service Act. Therefore, it is necessary to set up a dangerous goods warehouse for storage, and the cost for setting up is high. Further, even if the facility using the detergent composition has a dangerous goods warehouse, the amount that can be stored is limited. In particular, most of the above-mentioned detergent compositions are classified into Class 4 First Petroleum, but the designated quantity of Class 4 First Petroleum that can be stored in one warehouse is set low by law. Although the amount of the cleaning agent composition used is large, there is a problem that only a small amount can be stored, and improvement thereof has been sought.

Further, although the hydrocarbon used in the cleaning agent composition is not toxic like trichloroethane, there is a risk of hydrocarbon poisoning by inhaling an excessive amount, so that it is outdoors or indoors with a ventilation device. It is necessary to use it in a well-ventilated environment, and the product also has a note to that effect. However, since aerosol products are used, vaporized hydrocarbons flow not only in the workplace but also on the leeward side, and there is still a risk of inhalation by those who are there, and improvement has been sought.

In addition, if the cleaning agent composition is poured or the aerosol product is sprayed vigorously during the work, a large amount of the highly flammable cleaning agent composition may soak into the gloves and clothes of the worker. In addition, a large amount of the above-mentioned cleaning agent composition may be impregnated in order to remove oil stains adhering to the gloves and work clothes of the worker. However, since the cleaning agent composition is highly flammable, if the subsequent drying is insufficient, there is a risk of ignition accident due to static electricity or cigarette fire. Therefore, in order to ensure reliable safety in the working environment, improvements have been required to avoid the use of these highly flammable components.

Halogen-based solvents are generally well known as solvents that do not have a flash point, but chlorine-based and bromine-based solvents have restrictions on their manufacture and use due to their harmfulness, and their use in detergent compositions. Is difficult. Therefore, as a proposal to solve the problems of storage capacity and ensuring safety, we propose products with high flash points using petroleum-based hydrocarbons with long carbon atoms and water-based products containing carbitol, alcohol, etc. as cleaning components. (See Patent Document 1).

However, the above-mentioned aqueous composition has very poor drying property and is slow, for example, it takes 30 to 40 minutes to dry (see Patent Document 1). Therefore, when these water-based compositions are used as a detergent composition, the liquid of the water-based composition tends to remain around the brake after use, and if the brake is used with the liquid remaining, the braking force of the brake is reduced. It leads to a serious impact. Therefore, the work process using the above-mentioned aqueous composition is indispensable to be sufficiently dried after washing, which is complicated and requires improvement. Furthermore, since it is water-based, it is inferior in cleaning performance to the conventional cleaning agent composition for brake cleaners, and depending on the type of dirt, it does not necessarily have sufficient cleaning performance, so there are restrictions on the usage situation. , Improvement was required so that it would be more versatile.

By the way, as a solvent that can be used for cleaning metal materials, an HFO-based nonflammable fluorine-based solvent that is a hydrofluoroolefin-based solvent such as (Z) -1-chloro-3,3,3-trifluoropropene. It has been known. However, it is known that this HFO-based nonflammable fluorine-based solvent has a detergency against a metal material, but has a strong erosion property against a resin or an elastomer which is a material other than the metal material. (Non-Patent Document 1). Therefore, it is necessary to thoroughly examine the situation in which such an HFO-based nonflammable fluorine-based solvent is used.

In particular, it is important to maintain high safety of various braking devices, lights, windows, etc. in various vehicles, vehicles, transportation such as automobiles, motorcycles, bicycles, construction machinery, agricultural machinery, aircraft, railroad vehicles, ships, etc. Metallic materials are widely used for parts, but in addition to these metal materials, various types such as polycarbonate, acrylic, ABS, polystyrene, silicone rubber, natural rubber, HNBR, NBR, fluororubber and urethane rubber are usually used. Materials made of resin and elastomer are also used at the same time. For example, the brake is controlled by the hydraulic pressure of the brake fluid, which is generally filled in a rubber hose connecting the devices.

However, when the above-mentioned HFO-based nonflammable fluorine-based solvent comes into contact with the resin or elastomer, it is an important component that is required to maintain high safety due to the strong erosion property of the above-mentioned HFO-based nonflammable fluorine-based solvent. Serious problems such as deterioration of the resin and elastomer in the above occur. In particular, polycarbonate, which is widely used in important parts of vehicles, vehicles, and transportation, is devitrified, acrylic, ABS, and polystyrene are dissolved, and silicone rubber, natural rubber, HNBR, NBR, fluororubber, and urethane rubber swell. (Non-Patent Document 1), there is a concern that safety will be reduced.

Further, when it is used as a cleaning composition, it is necessary to sufficiently moisten the part to be cleaned with the cleaning composition and wash it off. However, since the above-mentioned HFO-based nonflammable fluorine-based solvent has a low boiling point. It has a very high drying property and is not suitable for the process of moistening and washing away. When moistened, there is a concern that the safety may be reduced by contacting the resin or elastomer in important parts due to an excessive amount of HFO-based nonflammable fluorine-based solvent.

Further, examples of the PFC (perfluorocarbon) -based nonflammable fluorine-based solvent include Fluorinert ^TM FC-40 and Fluorinert ^TM FC-3283, which have almost no compatibility with water or oil (Non-Patent Document 2). Further, these PFC-based nonflammable fluorine-based solvents are used as a fluorine-based coating agent for reducing friction in equipment and the like, and as a diluting solvent for lubricants (Non-Patent Document 3). By creating a situation where the components that reduce friction are applied and coated in various vehicle-related parts such as machines, agricultural machinery, aircraft, railroad vehicles, and railroad vehicles, the coefficient of friction is reduced and the braking force is increased. Nothing is done to reduce it.

Japanese Unexamined Patent Publication No. 2001-207199 1233Z Excellent environmental performance, high detergency Next-generation fluorine-based solvent Central Glass Co., Ltd. Catalog publication date October 2015 6-380-01 Fluorinert FC-40 1.5Kg, Internet <URL: https://axel.as-1.co.jp/asone/d/6-380-01/?print=true&pdf=true> Solvent / dispersion medium applications, Internet <URL: http://www.mmm.co.jp/emsd/fluorine/solution/solvent.html#dtl-01>

The problem to be solved by the present invention is that it is nonflammable, so that the risk of ignition is low, the risk in case of fire is low, it falls under the category of non-dangerous goods under the Fire Defense Law, no dangerous goods warehouse is required, and it is used in large quantities. There are no legal restrictions on the amount of cleaning agent composition that can be stored, and it has the characteristics of low toxicity, low environmental load such as ozone layer depletion, and cleaning properties equivalent to those of conventional cleaning agent compositions. It is an object of the present invention to provide a new cleaning agent composition and an aerosol composition thereof, which have a drying property but have an extremely low attack property on rubber and a resin as compared with a conventional cleaning agent composition.

Since the detergent composition is used for the work of moistening and washing off the stain components, the amount used and the amount stored are large. Therefore, it is required to greatly reduce the risk of fire due to ignition by selecting a solvent that does not have a flash point and has no combustion range under the temperature conditions of normal use environment and storage environment.

Further, in cleaning, it is required to moisten the stain component with a detergent composition and wash it off. Therefore, the cleaning composition can be provided not only as a solution to be used by coating or dipping, but also as an aerosol composition containing a cleaning agent composition and an injection gas, and is easy to handle at the time of cleaning. At the same time, it is necessary to make it easier to physically remove dirt by using gas pressure. In addition, when it is provided as an aerosol composition, the risk of inhalation by an operator increases, so that it is required to select a solvent having a lower toxicity for the detergent composition.

Further, it is required to have a detergency equal to or higher than that of a conventional product which has not been achieved by a product having a high flash point or a water-based product, and to realize an appropriate drying property.

In order to provide a new cleaning agent composition and its aerosol composition that solve the above problems, the inventor of the present application is proceeding with work to confirm the physical characteristics of various compounds and compositions and to investigate their cleaning properties. rice field. Among them, important parts such as various vehicles, vehicles, transportation facilities such as automobiles, motorcycles, bicycles, construction machines, agricultural machinery, aircraft, railroad vehicles, ships, etc. that are required to maintain high safety due to strong erosion. , HFO-based nonflammable fluorosolvents known to cause serious problems such as deterioration, devitrification, and dissolution of resins and elastomers used in tools used by workers, workplaces, pits, factories, etc. When the composition was prepared by adding a PFC-based nonflammable fluorine-based solvent that does not have high compatibility with oils and fats, surprisingly, the resin and elastomer did not deteriorate, devitrify, or dissolve. Demonstrate the characteristics as a better cleaning composition, various vehicles such as automobiles, motorcycles, bicycles, construction machinery, agricultural machinery, aircraft, railroad vehicles, ships, tools, workshops, pits, factories It has been found that it exhibits the characteristics as a new cleaning composition used for cleaning. Then, by further examining the combination of the above-mentioned HFO-based nonflammable fluorine-based solvent and PFC-based nonflammable fluorine-based solvent, the invention of the new cleaning composition and its aerosol composition of the present application is completed. I let you.

The first means of the present invention for solving the above-mentioned problems is a detergent composition characterized by containing an HFO-based nonflammable fluorine-based solvent and a PFC-based nonflammable fluorine-based solvent. be.

The second means of the present invention for solving the above-mentioned problems is that the cleaning agent composition is used for various vehicles / vehicles / transportation such as automobiles, motorcycles, bicycles, construction machines, agricultural machinery, aircraft, railroad vehicles, and ships. The cleaning agent composition according to the first means of the present invention, which is intended for use in cleaning an engine, a tool, a workplace, a pit, or a factory.

The third means of the present invention for solving the above-mentioned problems is that the cleaning agent composition is used for various vehicles, vehicles, and transportations such as automobiles, motorcycles, bicycles, construction machines, agricultural machines, aircrafts, railroad vehicles, and ships. The cleaning agent composition according to the second means of the present invention, which is for an engine brake cleaner.

The fourth means of the present invention for solving the above-mentioned problems is that the HFO-based nonflammable fluorine-based solvent is (Z) -1-chloro-3,3,3-trifluoropropene, 1,1-. Dichloro-3,3,3-trifluoropropene, and 1,2-dichloro-3,3,3-trifluoropropene, 2,3,3-trichloro-3-fluoropropene, AMOLEA® AS-300 The detergent composition according to any one of the first to third means of the present invention, which is one or more selected from the above.

The fifth means of the present invention for solving the above-mentioned problems is that one or more of the above-mentioned PFC-based nonflammable fluorine-based solvents are selected from Fluorinert ^TM FC-40 and Fluorinert ^TM FC-3283. The cleaning agent composition according to any one of the first to third means of the present invention, which is characterized by being present.

The sixth means of the present invention for solving the above problems has a mass ratio (HFO-based nonflammable fluorine-based solvent / PFC-based nonflammable fluorine-based solvent) in the range of 99/1 to 1/99. The cleaning agent composition according to any one of the first to fifth means of the present invention, which is characterized by the above.

The seventh means of the present invention for solving the above-mentioned problems is an aerosol composition containing the detergent composition and the propellant gas according to any one of the first to sixth means of the present invention. Is.

The eighth means of the present invention for solving the above-mentioned problems is that the injection gas is N ₂ , CO ₂ , (E) -1,3,3,3-tetrafluoropropa-1-ene, argon, and the like. The aerosol composition according to the seventh means of the present invention, which is LPG, DME or compressed air.

The ninth means of the present invention for solving the above-mentioned problems is the aerosol composition according to the eighth means of the present invention, wherein the injection gas is _N2 .

In the detergent composition and the aerosol composition thereof of the means of the present invention, the HFO-based nonflammable fluorine-based solvent and the PFC-based nonflammable fluorine-based solvent, which are blended as the main components thereof, have no ignition point. It is nonflammable. Therefore, the risk of ignition and the risk of fire in the environment in which the cleaning agent composition and its aerosol composition are used are low. Since both the HFO-based non-combustible fluorine-based solvent and the PFC-based non-combustible fluorine-based solvent, which are the main components, fall under the non-hazardous materials under the Fire Service Act, they do not require a dangerous goods warehouse and are used in large quantities. There is no legal limit to the amount of cleaning agent composition that can be stored. In addition, each of the above components has low toxicity and has a small environmental load such as ozone layer depletion, so that the product is considered for the human body and the environment. Moreover, the cleaning agent composition of the means of the present invention and its aerosol composition are said to have a cleaning property comparable to that of a conventional brake cleaner, but have an extremely low attack property against rubber and resin as compared with a conventional brake cleaner. , It has excellent characteristics.

The best mode for carrying out the present invention will be described below with reference to the table below to describe the detergent composition of the means of the present invention and its aerosol composition.

<About the main ingredients>
The detergent composition of the means of the present invention and the main components of the aerosol composition thereof will be described. The detergent composition of the means of the present invention and its aerosol composition shall contain two components, an HFO-based nonflammable fluorine-based solvent and a PFC-based nonflammable fluorine-based solvent.

Since the above-mentioned HFO-based nonflammable fluorine-based solvent causes deterioration, devitrification, or dissolution of the resin and the elastomer (Non-Patent Document 1), the resin and the elastomer can be used as they are as a component of the cleaning agent. Not preferred. Further, the PFC-based fluorine-based solvent has almost no compatibility with water or oil (Non-Patent Document 2).

However, an HFO-based nonflammable fluorine-based solvent, which is unsuitable as a component to be blended in such a cleaning agent composition, is contained together with a PFC-based nonflammable fluorine-based solvent having almost no compatibility with water or oil. As a result, unexpectedly, the composition does not cause any effects such as deterioration, devitrification, and dissolution on the resin and the elastomer, and has a wider range of excellent cleaning properties than the conventional cleaning agent composition. .. Therefore, by incorporating both an HFO-based nonflammable fluorine-based solvent and a PFC-based nonflammable fluorine-based solvent as the main components, a wider variety of materials can be used while maintaining various safety. On the other hand, it has become possible to provide a new detergent composition and an aerosol composition thereof having excellent properties that can be used.

<About HFO-based nonflammable fluorine-based solvents>
The detergent composition of the means of the present invention described above and the aerosol composition thereof contain, as one of the two essential components, an HFO-based nonflammable fluorine-based solvent which is a hydrofluoroolefin-based solvent. It shall be. Examples of the HFO-based nonflammable fluorine-based solvent include (Z) -1-chloro-3,3,3-trifluoropropene, 1,1-dichloro-3,3,3-trifluoropropene, and 1,2-dichloro. Nonflammable solvents such as -3,3,3-trifluoropropene, 2,3,3-trichloro-3-fluoropropene and AMOLEA® AS-300 can be used. These HFO-based nonflammable fluorine-based solvents can be used by obtaining commercially available ones ((Z) -1-chloro-3,3,3-trifluoropropene (1233Z) (central). Glass Co., Ltd., Japan), 1,1-dichloro-3,3,3-trifluoropropene (Matrix Scientific, USA), AMOLEA (registered trademark) AS-300 (AGC Co., Ltd., Japan), etc.).

The above-mentioned HFO-based nonflammable fluorine-based solvent is a non-flammable solvent having no flash point and no combustion range according to the explosion limit test method ASTM E681. In addition, it has environmentally friendly chemical properties such as low ozone depletion potential ODP or substantially zero global warming potential GWP <1. Therefore, it does not fall under the components specified in the Ozone Layer Protection Law, the Global Warming Countermeasures Promotion Law, the Freon Emission Control Law, the Fire Service Law, the High Pressure Gas Safety Law, etc., and there are no special restrictions on its use. There is no need for a dangerous goods warehouse for storage, and there are no legal restrictions on the amount of storage.

On the other hand, the above-mentioned HFO-based nonflammable fluorine-based solvent has invasiveness to the resin. Therefore, the above-mentioned HFO-based nonflammable fluorine-based solvents such as (Z) -1-chloro-3,3,3-trifluoropropene and 1,1-dichloro-3,3,3-trifluoropropene are soft. When it acts on a polyvinyl chloride (PVC) resin or a phenol resin, the resin is altered, and the weight and dimensions of the resin product are changed. Further, when it acts on the polycarbonate resin, the resin is whitened and devitrified. Further, when it acts on an acrylic (PMMA) resin, ABS resin or polystyrene resin which is a copolymer synthetic resin of acrylonitrile, butadiene and styrene, those resins are softened or dissolved. As described above, the above-mentioned HFO-based nonflammable fluorine-based solvent has poor compatibility with the resin material.

Further, the above-mentioned HFO-based nonflammable fluorine-based solvent is also invasive to various elastomers. Therefore, HFO-based nonflammable fluorine-based solvents such as (Z) -1-chloro-3,3,3-trifluoropropene and 1,1-dichloro-3,3,3-trifluoropropene are SBR and chloroprene. When it acts on rubber, butyl rubber, EPDM and CSM, these elastomers are altered to change their weight and dimensions. Further, when it acts on silicone rubber, natural rubber, HNBR, NBR, fluororubber and urethane rubber, those elastomers swell. As described above, the HFO-based nonflammable fluorine-based solvent has poor compatibility with the elastomer as it is.

However, various vehicles and vehicles such as automobiles, motorcycles, bicycles, construction machines, agricultural machinery, aircraft, railroad vehicles, ships, etc., which have poor resin compatibility and high dryness of the above-mentioned HFO-based nonflammable fluorine-based solvent. -Unexpectedly, the properties that are inappropriate for cleaning agent compositions used in transportation facilities are PFC-based non-combustible properties that have almost no compatibility with water or oil, which is inappropriate for making cleaning agent compositions. It is eliminated by containing a fluorinated solvent together, and a better cleaning agent composition is provided.

<About PFC-based nonflammable fluorine-based solvent>
The detergent composition of the means of the present invention described above and the aerosol composition thereof contain one or more PFC-based nonflammable fluorine-based solvents as the other component of the two essential components. This PFC-based fluorine-based solvent has no flash point, and both the combustion point (lower limit) and the combustion point (upper limit) are not detected, and is nonflammable. It falls under the category of non-dangerous goods under the Fire Service Act, does not require a dangerous goods warehouse, and has no legal restrictions on the amount of storage.

On the other hand, the PFC-based nonflammable fluorine-based solvent has almost no compatibility with water or oil (Non-Patent Document 2).

However, the characteristic of this PFC-based nonflammable fluorine-based solvent, which has almost no compatibility with water and oil, which is inappropriate for a cleaning agent composition, is unexpectedly used for cleaning used in various vehicles, vehicles, transportation facilities, and the like. It is eliminated by containing together with an HFO-based nonflammable fluorine-based solvent having other properties that are inappropriate for making an agent composition, and a better cleaning agent composition is provided.

Examples of the PFC-based nonflammable fluorine-based solvent in the detergent composition of the means of the present invention and the aerosol composition thereof include Fluorinert ^TM FC-40 and Fluorinert ^TM FC-3283, or one selected from them. More than that shall be used.

Fluorinert ^TM FC-40 and Fluorinert ^TM FC-3283, which are PFC-based nonflammable fluorine-based solvents, can be obtained and used commercially available from 3M Japan Ltd. (Japan). This solvent is a nonflammable solvent having no flash point (TCC, COC) and no combustion range. It falls under the category of non-dangerous goods under the Fire Service Act, does not require a dangerous goods warehouse, and has no legal restrictions on the amount of storage.

<Mass ratio of HFO-based nonflammable fluorine-based solvent and PFC-based nonflammable fluorine-based solvent>
In the cleaning agent composition of the means of the present invention and the aerosol composition thereof, cleaning of various vehicles, vehicles, transportation means such as automobiles, motorcycles, bicycles, construction machines, agricultural machinery, aircraft, railroad vehicles, ships, and workers. In addition to the fact that the solvent is nonflammable in the first place, it is less invasive to resins and elastomers, and is a phase for oils and fats, etc. The two components contained, HFO-based non-combustible, are contained so as to have higher solubility, better detergency for members made of various materials such as metal, resin and elastomer, and to bring about an appropriate drying rate. It is preferable to adjust the range of the mass ratio of the fluorinated solvent and the PFC-based nonflammable fluorinated solvent.

It also has excellent properties such as lower invasiveness to resins and elastomers, higher compatibility with oils and fats, excellent cleaning properties for members made of various materials such as metals, resins and elastomers, and moderate drying speed. In order to have a plurality of HFO-based nonflammable fluorine-based solvents and PFC-based nonflammable fluorine-based solvents, which are two components contained in the cleaning agent composition of the means of the present invention and its aerosol composition. The range of the mass ratio is 99/1 to 1/99. HFO-based non-combustible fluorine-based solvent and PFC-based non-combustible according to the type of oils and fats to be cleaned and the types of resins and elastomers used in combination with the cleaning target site and its peripheral sites to be deterred from invasion. It is possible to provide a cleaning agent composition and an aerosol composition thereof in which the range of the mass ratio with the fluorinated solvent is adjusted.

For example, the cleaning agent composition of the means of the present invention and the two components contained in the aerosol composition thereof are HFO-based nonflammable fluorine-based solvents (Z) -1-chloro-3,3,3-trifluoropropene. , When the PFC-based nonflammable fluorine-based solvent is Florinate ^TM FC-40 or Florinate ^TM FC-3283, the mass ratio thereof (HFO-based nonflammable fluorine-based solvent / PFC-based nonflammable fluorine-based solvent). The range of is 99/1 to 1/99, preferably 99/1 to 10/90, and more preferably 90/10 to 30/70, but it is suitable for the usage situation of the target customer. From the above mass ratio range, select the most suitable one according to the type of oil and fat to be dissolved, the type of resin or elastomer to be protected from invasion, and considering the cost balance. It may be selected and used. As a result, it has excellent low invasiveness to resins and elastomers, high compatibility with oils and fats, excellent cleaning properties for members made of various materials such as metals, resins and elastomers, and moderate drying speed. It becomes possible to have a plurality of properties in combination, and the detergent composition and its elastomer composition can be suitably used.

<About other ingredients>
The detergent composition of the means of the present invention and its aerosol composition, in addition to the two main components of the detergent composition described above, do not, if necessary, increase the risk of ignition or the risk of fire. It may be blended to some extent. When the above additional components are blended, the HFO-based component is achieved by the two main components while maintaining the nonflammable properties as a cleaning agent composition or the characteristics as a non-dangerous substance under the Fire Service Act. It shall be blended within a range that can reduce the invasiveness of the nonflammable fluorine-based solvent itself to the resin and elastomer, and maintain the detergency against oil and fat components and the appropriate drying rate. Examples of the components to be blended include alcohols, saturated solvents, unsaturated hydrocarbons, aromatic hydrocarbons, stabilizers, chelating agents and the like, and examples thereof include 3M ^TM NOVEC ^TM 7200 and 3M ^TM NOVEC ^TM 7300. HFE solvents such as HFE solvents, alcohols such as methanol, ethanol, isopropyl alcohol, butanol, hydrocarbon solvents such as normal hexane, cyclohexane, isohexane, ketone solvents such as acetone, MEK, cyclohexanone, ethyl acetate, methyl acetate, acetic acid. Esters and glycol ester solvents such as butyl, ethylene glycol monomethyl ether acetate, ether and glycol ether solvents such as methyl cellosolve, butyl cellosolve, methoxymethylbutanol, hexyl diglycol, glime solvents such as ethylene glycol dimethyl ether and diethylene glycol dimethyl ether, HCFC Chlorine-based solvents such as -141b, HCFC-225, 1-bromopropane, chloroform, special solvents such as N-methyl-2-pyrrolidone, tetrahydrofuran, dimethylformamide, γ-butyrolactone, 1,3-dioxolane, dimethylsulfoxide and the like. It can be a mixture of other solvents.

<About aerosol composition>
As the injection gas in the aerosol composition, a liquefied gas or a compressed gas can be used. For example, a rare gas such as LPG (liquefied petroleum gas), DME (dimethyl ether), carbon dioxide gas, freon gas, (E) -1,3,3,3-tetrafluoropropa-1-ene, nitrogen gas, argon, etc. Examples thereof include a combination of two or more of the above gases such as a gas such as compressed air, a mixture of LPG and DME, and a mixture of LPG and carbon dioxide gas. Then, the cleaning agent composition of the means of the present invention and the above-mentioned injection gas can be mixed to form an aerosol composition, which can be filled in a pressure-resistant can and provided.

<How to use>
The solution of the cleaning agent composition of the means of the present invention is a metal, resin and elastomer of various vehicles, vehicles and transportation such as automobiles, motorcycles, bicycles, construction machines, agricultural machines, aircraft, railroad vehicles and ships to be cleaned. It can be used by applying it to members made of various materials such as, tools used by workers, workplaces, pits, factories, or by immersing the cleaning target in a solution of a cleaning agent composition. Further, an aerosol composition obtained by mixing the cleaning agent composition of the means of the present invention with a liquefied gas as an injection gas is filled in a pressure-resistant can to form an aerosol, or the cleaning agent composition of the means of the present invention is used in a pail. A small mobile filling machine is installed in the workplace where the can is put in and used, and the cleaning agent composition put in the pail can is made into an aerosol by compressed air to make a member made of various materials such as metal, resin and elastomer to be cleaned. , Can be used by spraying as an aerosol.

Hereinafter, examples of producing and using the detergent composition of the present invention and the aerosol composition thereof are shown as Examples and Test Examples.

<About test samples>
In order to prepare a test sample, the components used in the detergent composition of the present invention and the conventional detergent are purchased.
The HFO-based nonflammable fluorine-based solvent used in the detergent composition of the present invention is (Z) -1-chloro-3,3,3-trifluoropropene 1233Z (Central Glass Co., Ltd., Japan). ) And 1,1-dichloro-3,3,3-trifluoropropene (Matrix Scientific, USA) were purchased. In addition, AGC Inc. (Japan) supplied AMOLEA (registered trademark) AS-300. As the PFC-based nonflammable fluorine-based solvent, Fluorinert ^TM FC-40 (3M Japan Ltd., Japan) or Fluorinert ^TM FC-3283 (3M Japan Ltd., Japan) was purchased.

Further, as a conventional cleaning agent, a brake & parts cleaner (quick-drying type) (Kobe Synthetic Co., Ltd., Japan) using isohexane as a quick-drying undiluted solution is used, and cyclohexane is used as a degreasing cleaning agent. , A degreasing detergent (Honda Access Co., Ltd., Japan), an isoparaffin-based solvent, Brake Cleaner N04 (Suzuki Co., Ltd., Japan), and trichloroethane as an ever-drying stock solution were purchased.

Then, the mass ratio of the HFO-based nonflammable fluorine-based solvent to the PFC-based nonflammable fluorine-based solvent is as follows, so that the HFO-based nonflammable fluorine-based solvent and the PFC-based solvent of the present invention are used. The detergent compositions of Examples 1 to 12, which are the detergent compositions containing the nonflammable fluorine-based solvent of the above, were produced.

<HFO-based nonflammable fluorine-based solvent / PFC-based nonflammable fluorine-based solvent>
-Mass ratio (1233Z / Fluorinert ^TM FC-40)
Example 1: 90/10
Example 2: 80/20
Example 3: 70/30
Example 4: 50/50
Example 5: 30/70
Example 6: 10/90
-Mass ratio (1233Z / Fluorinert ^TM FC-3283)
Example 7: 90/10
Example 8: 80/20
Example 9: 70/30
Example 10: 50/50
Example 11: 30/70
Example 12: 10/90

In addition, the following Comparative Examples 1 to 4 were prepared. The quick-drying stock solution, the degreasing detergent, and the normal-drying stock solution are all highly combustible, and trichloroethane is highly harmful, and all of them have problematic properties as a cleaning composition. ..
<Conventional product (flammable)>
Comparative Example 1: Quick-drying undiluted solution Comparative Example 2: Degreasing detergent Comparative Example 3: Normal-drying undiluted solution Comparative Example 4: Trichloroethane

Further, the following Comparative Examples 5 to 8 were prepared for comparison with those of each example in which two components of the HFO-based nonflammable fluorine-based solvent and the PFC-based nonflammable fluorine-based solvent were blended together.
<HFO-based nonflammable fluorine-based solvent>
Comparative Example 5: 1233Z only Comparative Example 6: 1,1-dichloro-3,3,3-trifluoropropene only Comparative Example 9: AS-300 only <PFC-based nonflammable fluorine-based solvent>
Comparative Example 7: Fluorinert ^TM FC-40 only Comparative Example 8: Fluorinert ^TM FC-3283 only

Next, Test Examples 1 to 3 shown below are carried out, and the detergent composition of the means of the present invention and its aerosol composition have excellent properties as compared with conventional detergents. Was confirmed concretely.

<Test Example 1: Evaluation of invasiveness (short-term contact)>
-Materials and methods As test solutions, the solutions of Examples 1 to 12 and Comparative Examples 1 to 9 are prepared. In addition, in order to evaluate the invasiveness in a short period of time, the following test pieces will be prepared.
Resin: ABS (Acrylonitrile Butadiene Styrene)
: PC (polycarbonate)
(Both are Japan Test Panel Co., Ltd.)

The surface of each test piece of the above resin (size 10 mm x 10 mm x 2 mm is wiped with a microfiber cloth containing the solutions of Examples 1 to 18 or Comparative Examples 1 to 8), and then the appearance change of the surface of each test piece is visually observed. If there was no change in appearance, it was marked as ◯, and if there was a change, it was marked as x, and the state of the resin surface was recorded.

-Test results The results of the above tests are shown in Tables 1-1 to 1-3.

The HFO-based nonflammable fluorine-based solvent, which is one of the main components used in the cleaning agent composition of the means of the present invention, can be contacted only for a short time by wiping the surface with a microfiber cloth containing a solution. , It was confirmed that the resin made of ABS and PC was altered (Table 1-1). ABS and PC are widely used for important parts in vehicles, vehicles, and transportation facilities, and there is a concern that the quality of important parts may deteriorate when treated with only an HFO-based nonflammable fluorine-based solvent as a cleaning agent composition.

However, unlike the cleaning agent composition of the means of the present invention, there is almost no compatibility with water or oil with respect to the HFO-based nonflammable fluorine-based solvent as the cleaning agent composition, and the above-mentioned important parts are cleaned. Surprisingly, the deterioration of the resin commonly used for the above-mentioned important parts does not occur by blending even a small amount of a PFC-based nonflammable fluorine-based solvent having properties unsuitable for application to the above-mentioned important parts. It became clear that it was a thing (Table 1-2 to Table 1-3).

<Test Example 2: Evaluation of compatibility with grease and oil>
-Materials and methods Similar to Test Example 1, the solutions of Examples 1 to 12 and Comparative Examples 1 to 9 are prepared as test solutions.

As an example of oils and fats to be washed and removed, the following various greases and oils commonly used in automobiles and the like are prepared.
Grease: GREASE (Orange) (Kobe Synthetic Co., Ltd., Japan)
: Rubber combined brake grease (Kobe Synthetic Co., Ltd., Japan)
: Grease for disc brakes (Kobe Synthetic Co., Ltd., Japan)
: Brake grease (Kobe Synthetic Co., Ltd., Japan)
: Silicone grease (Kobe Synthetic Co., Ltd., Japan)
: Calipering grease (Honda Access Co., Ltd., Japan)
: Pad & Shoe Grease (Honda Access Co., Ltd., Japan)
: Rubber grease (Honda Access Co., Ltd., Japan)
: Brake grease (Honda Access Co., Ltd., Japan)
Oil: Engine oil Mobil1 0W-20 (ExxonMobil, USA)
: Brake fluid (DOT3) (Honda Access Co., Ltd., Japan)
: Brake fluid (DOT4) (Suzuki Co., Ltd., Japan)

Prepare a 10 mL vial for each solution and add 1 g of the above grease or engine oil. Further, 5 mL of the solution of Example or Comparative Example is added to the vial, and the lid of the vial is closed. Each vial bottle is ultrasonically treated with an ultrasonic cleaner (AU16C, Aiwa Medical Industry Co., Ltd., Japan) for 1 hour.
After 1 hour of sonication, remove each vial from the ultrasonic cleaner. Check the inside of the vial, and if the grease or engine oil and the solution of the example or comparative example are completely mixed, ○, if partially separated, △, if completely separated, ×, and the phase Evaluate the solubility. If the amount of solution to be used is small, the test is performed with a liquid amount proportional to the amount used.

-Test results The results of the above tests are shown in Tables 2-1 to 2-3.

Since various PFC-based nonflammable fluorosolvents have almost no compatibility with grease or brake oil (Comparative Examples 7 to 8 in Table 3-1), stains due to grease or brake oil and other oil and fat components are removed. Not suitable as a cleaning agent for removal. In addition, although HFO-based nonflammable fluorine-based solvents have moderate compatibility, as is clear from the test results of Test Example 1, they have invasiveness to resins and elastomers, and are therefore suitable for various vehicles, vehicles, transportation facilities, etc. Not suitable for the detergent composition used. As described above, various HFO-based nonflammable fluorine-based solvents and PFC-based nonflammable fluorine-based solvents both lack motivation to be added to the cleaning agent compositions used in various vehicles, vehicles, transportation facilities, and the like.

However, even if the HFO-based non-combustible fluorine-based solvent and the PFC-based non-combustible fluorine-based solvent that cannot be used for cleaning vehicles, vehicles, and transportation as described above are contained together, grease or brake oil or the like is used. It was confirmed that the product exhibits a wide range of compatibility with the oil and fat components, that is, exhibits high detergency with respect to the oil and fat components (Tables 2-2 to 2-3). In addition, the range of the mass ratio of the HFO-based nonflammable fluorine-based solvent and the PFC-based nonflammable fluorine-based solvent showing compatibility was also wide (Tables 2-2 to 2-3).

Therefore, as in the means of the present invention, the cleaning agent composition and its aerosol composition are cleaned by containing an HFO-based nonflammable fluorine-based solvent and a PFC-based nonflammable fluorine-based solvent. HFO-based nonflammable fluorosolvents and PFC-based nonflammable substances are matched according to the type of oils and fats to be targeted and the types of resins and elastomers used in combination in the cleaning target area to be deterred to be invaded and its surrounding areas. It is understood that it is possible to adjust the range of the mass ratio with the fluorosolvent to provide a cleaning agent composition having characteristics suitable for the scene in which the cleaning agent composition is used and an aerosol composition thereof.

Furthermore, for brake grease, which may be inferior in compatibility with HFO-based nonflammable fluorine-based solvents, a PFC-based nonflammable fluorine-based solvent that has almost no compatibility with various oils and fats containing it is blended. It was also clarified that the compatibility was exhibited by the above (Tables 2-2 to 2-3).

As described above, by containing the HFO-based nonflammable fluorine-based solvent and the PFC-based nonflammable fluorine-based solvent in the cleaning composition as in the present invention, the compatibility with grease or brake oil is broadly increased. It is understood that it will be possible to provide a new cleaning composition that is nonflammable and low in toxicity, yet has excellent cleaning properties equal to or better than conventional brake cleaners.

<Test Example 3: Evaluation of invasiveness (long-term contact)>
-Materials and methods Similar to Test Example 1, the solutions of Examples 1 to 12 and Comparative Examples 1 to 9 are prepared as test solutions.
In addition, in order to evaluate the invasiveness, the following test pieces are prepared.
Rubber: NR (natural rubber)
: CR (chloroprene rubber)
: SBR (Styrene-butadiene rubber)
: EPDM (Ethylene Propylene Rubber)
(Both are obtained from Standard Test Piece Co., Ltd., Japan.)
Resin: ABS (Acrylonitrile Butadiene Styrene)
: LDPE (Low Density Polyethylene)
: PC (polycarbonate)
(Both are Japan Test Panel Co., Ltd.)

The weight of each of the above rubber or resin test pieces (size 10 mm x 10 mm x 2 mm) is measured.
Next, 20 mL of the solution of the example or the comparative example was placed in a vial, and each test piece (size 10 mm x 10 mm x 2 mm) of the above rubber or resin was immersed therein, and the vial was set at 45 ° C. Place in a constant temperature and humidity machine (HPAV-120-40, Isuzu Seisakusho Co., Ltd., Japan) and let stand for one month.
After taking out each test piece from the vial and observing the surface condition, measure the weight and thickness of the test piece, calculate the degree of swelling, check whether it is within the range of ± 5.0%, and PC. Also check if the transparency of is not lost.
When the amount of solution to be used is small, the test is performed with the size and amount of the test piece proportional to the amount used.

-Test results The results of the above tests are shown in Tables 3-1 to 3-3.

In Test Example 3, the invasiveness to rubber or resin caused by long-term contact with the HFO-based nonflammable fluorine-based solvent was such that the HFO-based nonflammable fluorine-based solvent contained the PFC-based nonflammable fluorine-based solvent. We conducted comparative verification with conventional cleaning agents regarding the fact that an improved cleaning agent composition can be obtained and that it is non-invasive to rubber or resin.

HFO-based nonflammable fluorine-based solvent is invasive to rubber and resin when it is allowed to act for a long period of time, and is particularly important for ensuring safety in various vehicles, vehicles, transportation facilities, etc. It swells NR (natural rubber), SBR (styrene / butadiene rubber), EPDM (ethylene propylene rubber), which are widely used in equipment and parts, dissolves and softens ABS (acrylonitrile butadiene styrene), and swells PC (polycarbonate). It showed strong invasiveness such as whitening, devitrification, and cracking, and the degree of deterioration of these rubbers and resins could not guarantee the quality as a product (Table 3-1).

In addition, conventional detergents are flammable in the first place, and when they act on rubbers such as NR, CR, SBR, and EPDM, and resins such as ABS, LDPE (low density polyethylene), and PC, they are strongly invasive. Similarly, the quality of the product could not be guaranteed (Table 3-1).

However, by blending the PFC-based non-combustible fluorine-based solvent with the HFO-based non-combustible fluorine-based solvent, surprisingly, it has been observed when the above-mentioned HFO-based non-combustible fluorine-based solvent is used. It has been clarified that the phenomena of swelling, melting, whitening, devitrification, and cracking of various rubbers and resins can be eliminated (Tables 3-2 to 3-3).

It is possible to create a cleaning agent composition with new properties that does not show invasiveness to various rubbers and resins that are widely used in devices and parts that are important for ensuring the safety of various vehicles, vehicles, and transportation facilities. It is understood that the invention in which it is possible provides a very effective means of replacing conventional cleaning agents with invasiveness. Further, it is understood that the detergent composition of the means of the present invention has very little concern that it may be invasive to rubber or resin even if it is used for a long period of time.

Further, since the amount of the HFO-based nonflammable fluorine-based solvent that can be produced is limited, the detergent composition of the means of the present invention comprises an HFO-based nonflammable fluorine-based solvent and a PFC-based nonflammable fluorine-based solvent. It is understood that since it is produced by mixing the above, it also has an effect of increasing the supplyable amount as a cleaning agent composition and preventing a stagnation of product supply.

Of the above rubbers, SBR (styrene-butadiene rubber) is also used for sealing the brake fluid system of automobiles and tires, so it is erosive to SBR in the cleaning agent used for cleaning the brake device and its surroundings. Is desired to be low. PC (polycarbonate) is also used in control system mechanisms such as brake devices. However, as in the present invention, by blending the PFC-based non-combustible fluorine-based solvent with the HFO-based non-flammable fluorine-based solvent, surprisingly, the problem of erosion to SBR and PC is sufficiently sufficient. By reducing the amount, the swelling rate could be suppressed to 5% or less, which can maintain the quality of the product to a certain extent.

Since the cleaning agent composition contains an HFO-based nonflammable fluorine-based solvent and a PFC-based nonflammable fluorine-based solvent, it is nonflammable, so that the risk of ignition and the risk of fire are low. It corresponds to the above non-dangerous goods, does not require a dangerous goods warehouse, has no legal restrictions on the amount of cleaning agent composition used in large quantities, has low toxicity, and has a small environmental load such as ozone layer depletion. A new cleaning agent composition and its aerosol that have the characteristics and excellent characteristics of having extremely low attacking property against rubber and resin while having cleaning properties equal to or higher than those of the conventional cleaning agent composition for brake cleaners. It becomes possible to provide the composition.

Claims (6)

It contains (Z) -1-chloro-3,3,3-trifluoropropene and perfluoro-tributylamine as cleaning components, and its mass ratio ((Z) -1-chloro-3,3,3-tri) A nonflammable detergent composition for cleaning various vehicles / vehicles / transportation facilities, tools, workshops, pits, and factories having a range of 90/10 to 10/90 (fluoropropene / perfluoro-tributylamine). It contains (Z) -1-chloro-3,3,3-trifluoropropene and perfluoro-tripropylamine as cleaning components, and its mass ratio ((Z) -1-chloro-3,3,3- A nonflammable detergent composition for cleaning various vehicles / vehicles / transportation facilities, tools, workshops, pits, and factories having a range of (trifluoropropene / perfluoro-tripropylamine) of 70/30 to 30/70. The cleaning agent composition according to claim 1 or 2 , wherein the cleaning agent composition is for a brake cleaner of various vehicles, vehicles, and transportation means. An aerosol composition containing the cleaning agent composition according to any one of claims 1 to 3 and an injection gas. 4. The injection gas is N ₂ , CO ₂ , (E) -1,3,3,3-tetrafluoropropa-1-ene, argon, LPG, DME or compressed air, according to claim 4 . The aerosol composition described. The aerosol composition according to claim 4 , wherein the injection gas is N ₂ .