WO2019082999A1 - Detergent composition and aerosol composition thereof - Google Patents

Detergent composition and aerosol composition thereof

Info

Publication number
WO2019082999A1
WO2019082999A1 PCT/JP2018/039789 JP2018039789W WO2019082999A1 WO 2019082999 A1 WO2019082999 A1 WO 2019082999A1 JP 2018039789 W JP2018039789 W JP 2018039789W WO 2019082999 A1 WO2019082999 A1 WO 2019082999A1
Authority
WO
WIPO (PCT)
Prior art keywords
vehicles
composition
hfo
nonflammable fluorine
pfc
Prior art date
Application number
PCT/JP2018/039789
Other languages
French (fr)
Japanese (ja)
Inventor
督修 宮岡
祐士 宮岡
Original Assignee
神戸合成株式会社
Priority date (The priority date is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the date listed.)
Filing date
Publication date
Application filed by 神戸合成株式会社 filed Critical 神戸合成株式会社
Priority to JP2019550308A priority Critical patent/JP7084047B2/en
Publication of WO2019082999A1 publication Critical patent/WO2019082999A1/en
Priority to JP2022085592A priority patent/JP7328723B2/en

Links

Classifications

    • BPERFORMING OPERATIONS; TRANSPORTING
    • B08CLEANING
    • B08BCLEANING IN GENERAL; PREVENTION OF FOULING IN GENERAL
    • B08B3/00Cleaning by methods involving the use or presence of liquid or steam
    • B08B3/04Cleaning involving contact with liquid
    • B08B3/08Cleaning involving contact with liquid the liquid having chemical or dissolving effect
    • CCHEMISTRY; METALLURGY
    • C09DYES; PAINTS; POLISHES; NATURAL RESINS; ADHESIVES; COMPOSITIONS NOT OTHERWISE PROVIDED FOR; APPLICATIONS OF MATERIALS NOT OTHERWISE PROVIDED FOR
    • C09KMATERIALS FOR MISCELLANEOUS APPLICATIONS, NOT PROVIDED FOR ELSEWHERE
    • C09K3/00Materials not provided for elsewhere
    • C09K3/30Materials not provided for elsewhere for aerosols
    • CCHEMISTRY; METALLURGY
    • C11ANIMAL OR VEGETABLE OILS, FATS, FATTY SUBSTANCES OR WAXES; FATTY ACIDS THEREFROM; DETERGENTS; CANDLES
    • C11DDETERGENT COMPOSITIONS; USE OF SINGLE SUBSTANCES AS DETERGENTS; SOAP OR SOAP-MAKING; RESIN SOAPS; RECOVERY OF GLYCEROL
    • C11D17/00Detergent materials or soaps characterised by their shape or physical properties
    • C11D17/08Liquid soap, e.g. for dispensers; capsuled
    • CCHEMISTRY; METALLURGY
    • C11ANIMAL OR VEGETABLE OILS, FATS, FATTY SUBSTANCES OR WAXES; FATTY ACIDS THEREFROM; DETERGENTS; CANDLES
    • C11DDETERGENT COMPOSITIONS; USE OF SINGLE SUBSTANCES AS DETERGENTS; SOAP OR SOAP-MAKING; RESIN SOAPS; RECOVERY OF GLYCEROL
    • C11D7/00Compositions of detergents based essentially on non-surface-active compounds
    • C11D7/22Organic compounds
    • C11D7/28Organic compounds containing halogen
    • C11D7/30Halogenated hydrocarbons
    • CCHEMISTRY; METALLURGY
    • C11ANIMAL OR VEGETABLE OILS, FATS, FATTY SUBSTANCES OR WAXES; FATTY ACIDS THEREFROM; DETERGENTS; CANDLES
    • C11DDETERGENT COMPOSITIONS; USE OF SINGLE SUBSTANCES AS DETERGENTS; SOAP OR SOAP-MAKING; RESIN SOAPS; RECOVERY OF GLYCEROL
    • C11D7/00Compositions of detergents based essentially on non-surface-active compounds
    • C11D7/50Solvents
    • CCHEMISTRY; METALLURGY
    • C23COATING METALLIC MATERIAL; COATING MATERIAL WITH METALLIC MATERIAL; CHEMICAL SURFACE TREATMENT; DIFFUSION TREATMENT OF METALLIC MATERIAL; COATING BY VACUUM EVAPORATION, BY SPUTTERING, BY ION IMPLANTATION OR BY CHEMICAL VAPOUR DEPOSITION, IN GENERAL; INHIBITING CORROSION OF METALLIC MATERIAL OR INCRUSTATION IN GENERAL
    • C23GCLEANING OR DE-GREASING OF METALLIC MATERIAL BY CHEMICAL METHODS OTHER THAN ELECTROLYSIS
    • C23G5/00Cleaning or de-greasing metallic material by other methods; Apparatus for cleaning or de-greasing metallic material with organic solvents
    • C23G5/02Cleaning or de-greasing metallic material by other methods; Apparatus for cleaning or de-greasing metallic material with organic solvents using organic solvents
    • C23G5/028Cleaning or de-greasing metallic material by other methods; Apparatus for cleaning or de-greasing metallic material with organic solvents using organic solvents containing halogenated hydrocarbons

Definitions

  • This invention is a new cleaning method for cleaning of various vehicles, vehicles and vehicles such as automobiles, bicycles, construction machines, agricultural machines, aircraft, railway vehicles and ships, tools for cleaning, work places, pits and factories.
  • Agent composition and its aerosol composition in particular, various vehicle parts such as a body, a brake part, a suspension, a wheel, etc., and a control device, etc. consisting of a combination of metal, metal and resin in various vehicles, vehicles and vehicles
  • a cleaning agent that is used for degreasing and cleaning, and is used as a non-combustible, low risk of fire and fire hazard, and non-hazardous material under the Fire Service Law because it is not necessary to store in a dangerous goods warehouse.
  • the storage amount of the composition there is no legal limitation on the storage amount of the composition, moreover, it has excellent properties such as low toxicity and low environmental load such as ozone layer depletion, and further, a conventional detergent composition
  • Parts and devices using these metals will have oil and dirt adhering to their surfaces during use, and their desired performance and decorativeness will deteriorate. Also, depending on the deposited components, the metal surface may be corroded, and the desired performance may be irreversibly impaired. Furthermore, oil components such as grease are applied to necessary parts of vehicles, vehicles and vehicles to smooth the movement of each device, but such oil components are sprayed with air flow and rain water when traveling, etc. As a result, oil gradually drains off to unintended areas, and oil from other vehicles, vehicles and vehicles is also rolled up from the road surface with dirt, etc., and adheres to parts of vehicles, vehicles and vehicles. This is a factor that lowers the expected performance of various parts and devices.
  • a cleaning agent composition for mainly cleaning the bodies, brake parts, suspensions, wheels and the like of various vehicles, vehicles and vehicles those mainly composed of trichloroethane having a cleaning property have conventionally been developed and used. It had been.
  • trichloroethane is known to be toxic.
  • trichloroethane will gradually reduce its production and consumption in the contracting countries and eliminate it completely in 1996. Import or export with other non- contracting parties has been banned or restricted. Therefore, the use of detergent compositions using trichloroethane has been avoided.
  • hydrocarbon used in the above-mentioned detergent composition is not toxic like trichloroethane, there is a risk of becoming a hydrocarbon poison by inhaling an excessive amount, so outdoor, indoor with ventilation system etc. It is necessary to use in the environment where there is ventilation, and the product also has a note on that effect.
  • aerosol products are used, vaporized hydrocarbons flow not only in the work place but also in the downwind, and there is still a risk of inhalation by the people there, and improvements have been sought.
  • the cleaning composition when the cleaning composition is poured over the work or the aerosol product is vigorously jetted, a large amount of the cleaning composition having high flammable properties may be infiltrated into gloves and clothes of the worker.
  • the above-mentioned detergent composition may be heavily impregnated.
  • the above-mentioned detergent composition is highly flammable, if the subsequent drying is insufficient, there is a risk that an ignition accident due to static electricity or cigarette fire may occur. Therefore, improvements have been sought to avoid the use of these highly flammable ingredients, even in order to ensure reliable safety in the working environment.
  • Halogenated solvents are generally well known as solvents having no flash point, but chlorine solvents and bromine solvents are limited in production and use because of their harmful effects, and their use in detergent compositions Is accompanied by difficulties. Therefore, as a solution to the problem of storage volume and securing safety, products with high flash point using petroleum hydrocarbon with long carbon number and water-based products containing carbitol, alcohol etc. as cleaning components are proposed (See Patent Document 1).
  • the water-based composition described above takes very long time to dry, for example, it takes 30 to 40 minutes to dry (see Patent Document 1). Therefore, when such aqueous compositions are used as detergent compositions, the liquid of the aqueous composition tends to remain around the brake after use, and if the brake is used while the liquid remains, the braking force decreases. It leads to having a serious influence. Therefore, in the working process using the above-mentioned aqueous composition, it is essential to perform sufficient drying after washing, which is complicated and an improvement is required. Furthermore, because they are water-based, they are inferior to the conventional cleaner compositions for cleaning with a brake cleaner, and depending on the type of dirt, they do not necessarily have sufficient cleaning performance, and their use is limited. Improvements were sought to be more versatile.
  • HFO-based nonflammable fluorine-based solvents that are hydrofluoroolefin-based solvents 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 cleaning property to metal materials, but has a strong erosion property to resins and elastomers which are materials other than metal materials. (Non-Patent Document 1). Therefore, such HFO-based nonflammable fluorine-based solvents need to be thoroughly scrutinized for their use.
  • metal materials are generally used, but in addition to the metal materials, various materials such as polycarbonate, acrylic, ABS, polystyrene, silicone rubber, natural rubber, HNBR, NBR, fluorine rubber and urethane rubber are generally used. Materials made of resin and elastomer are also used at the same time.
  • the brakes are controlled by the hydraulic pressure of the brake fluid, which is generally filled in a rubber hose connecting the devices.
  • Non-Patent Document 1 Non-Patent Document 1
  • Non-Patent Document 2 PFC as a nonflammable fluorine-based solvent (perfluorocarbon) system, Fluorinert TM FC-40 and Fluorinert TM FC-3283 there are such, compatibility is little to water and oil (Non-Patent Document 2).
  • these PFC nonflammable fluorine-based solvents are used as a fluorine-based coating agent for reducing friction in equipment and the like, and as a dilution solvent for lubricants (Non-Patent Document 3).
  • the coefficient of friction is reduced by creating a situation where the components that reduce the friction are applied and coated, and the braking force is greatly increased. None is done to reduce it.
  • the problems to be solved by the present invention are non-combustible, so there is low risk of ignition and low risk at the time of fire, falls under non-hazardous material under the Fire Service Act, does not require dangerous material storage, and is used in large quantities There is no legal restriction on the storage amount of the cleaning composition, and furthermore, it has the characteristics of low toxicity, low environmental impact such as ozone layer depletion, and the like, and the same cleaning performance as the conventional cleaning composition. It is an object of the present invention to provide a new detergent composition and its aerosol composition, which have drying properties, but have extremely low attack on rubber and resin than conventional detergent compositions.
  • the detergent composition Since the detergent composition is used for the operation of wetting and washing away dirt components, the amount of use and storage amount increase. Therefore, it is required to greatly reduce the risk of fire due to ignition by selecting a solvent having no flash point and no combustion range under temperature conditions of normal use environment and storage environment.
  • the cleaning composition can be provided not only as a solution to be used by application or immersion but also as an aerosol composition containing a cleaning agent composition and a propellant gas, and the handling at the time of cleaning is simplified. In addition, it is necessary to use gas pressure to make it easier to physically remove dirt. In the case of providing as an aerosol composition, it is required to select a less toxic solvent for the cleaning composition, because the risk of the operator to inhale is increased.
  • the inventor of the present application has been working to confirm the physical properties possessed by various compounds and compositions, and to investigate their cleaning properties, in order to provide a new detergent composition and an aerosol composition thereof that solve the above-mentioned problems.
  • important parts such as automobiles, motorcycles, bicycles, construction machines, agricultural machines, aircraft, railway vehicles, various vehicles such as ships, transportation vehicles, etc. which are required to keep safety high due to strong erosion.
  • HFO-based nonflammable fluorine-based solvents known to cause serious defects such as deterioration, devitrification and dissolution of resins and elastomers used in tools, work places, pits and factories used by workers.
  • the resin and elastomer do not deteriorate, devitrify and dissolve, and further, It exhibits superior properties as a cleaning composition, and various vehicles, vehicles, vehicles, vehicles, vehicles, tools, workplaces, such as automobiles, two-wheeled vehicles, bicycles, construction machines, agricultural machines, aircraft, railway vehicles, and ships. Tsu bets, was found to exhibit the properties of a new cleaning composition used for cleaning factory. And the invention of the new cleaning composition of this application and its aerosol composition is completed by examining the combination of the above-mentioned HFO nonflammable fluorine-based solvent and PFC nonflammable fluorine-based solvent in more detail. I did.
  • the first means of the present invention for solving the above-mentioned problems is a detergent composition characterized by comprising an HFO-based nonflammable fluorine-based solvent and a PFC-based nonflammable fluorine-based solvent. is there.
  • a second means of the present invention for solving the above-mentioned problems is that the above-mentioned detergent composition comprises various vehicles, vehicles, transports such as cars, two-wheeled vehicles, bicycles, construction machines, agricultural machines, aircrafts, railway vehicles and ships.
  • the cleaning composition according to the first means of the present invention which is for use in engine, tool, work place, pit, and factory cleaning.
  • the third means of the present invention for solving the above-mentioned problems is that the above-mentioned detergent composition comprises various vehicles, vehicles, transports such as cars, two-wheeled vehicles, bicycles, construction machines, agricultural machines, aircrafts, railway cars and ships. It is the cleaning agent composition according to the second means of the present invention, which is for engine brake cleaners.
  • the fourth means of the present invention for solving the above-mentioned problems is characterized in that the above-mentioned 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.RTM. AS-300 It is a detergent composition according to any one of the first to third means of the present invention, characterized in that it is one or more selected from
  • said PFC-based nonflammable fluorine-based solvent is Fluorinert TM FC-40, and one or more selected from Fluorinert TM FC-3283 It is a detergent composition according to any one of the first to third means of the present invention, characterized in that
  • the range of the mass ratio (HFO-based nonflammable fluorine-based solvent / PFC-based nonflammable fluorine-based solvent) is 99/1 to 1/99. It is a detergent composition according to any one of the first to fifth means of the present invention, characterized in that
  • a seventh means of the present invention for solving the above-mentioned problems is an aerosol composition comprising the cleaning composition according to any one of the first to sixth means of the present invention and a propellant gas. It is.
  • the eighth means of the present invention for solving the above problems is characterized in that the propellant gas is N 2 , CO 2 , (E) -1,3,3,3-tetrafluoroprop-1-ene, argon,
  • An aerosol composition according to the seventh means of the invention characterized in that it is LPG, DME or compressed air.
  • a 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, characterized in that the propellant gas is N 2 .
  • both the HFO non-combustible fluorine-based solvent and the PFC non-combustible fluorine-based solvent blended as main components have no flash point, It is nonflammable. Therefore, the danger of ignition and the risk at the time of fire in the use environment of those cleaning compositions and their aerosol compositions are low. And since both HFO non-flammable fluorine solvents and PFC non-flammable fluorine solvents that are main components fall under non-hazardous substances under the Fire Service Law, there is no need for a warehouse for dangerous goods, and they are used in large quantities There is no legal restriction on the storage amount of the cleaning composition.
  • the cleaning agent composition of the means of the present invention and the aerosol composition thereof have a cleaning property comparable to that of the conventional brake cleaner, but have an extremely lower attack on rubber and resin than the conventional brake cleaner. , Has exhibited excellent characteristics.
  • the main components of the detergent composition of the means of the present invention and its aerosol composition will be described.
  • the cleaning agent composition of the means of the present invention and the aerosol composition thereof contain two components, a HFO-based nonflammable fluorine-based solvent and a PFC-based nonflammable fluorine-based solvent.
  • Non-Patent Document 1 The above-mentioned HFO-based nonflammable fluorine-based solvents cause deterioration, devitrification or dissolution of resins and elastomers (Non-Patent Document 1), and therefore, they can be used as they are as cleaning agent components of resins and elastomers. Not desirable. Moreover, the said PFC type fluorine-type solvent has little compatibility with water or oil (nonpatent literature 2).
  • an HFO-based nonflammable fluorine-based solvent which is unsuitable as a component to be added to such a cleaning agent composition, is contained together with a PFC-based nonflammable fluorine-based solvent having little compatibility with water or oil. Then, unexpectedly, the resin and the elastomer are not affected by deterioration, devitrification, dissolution and the like, and the composition has a wider range of excellent cleaning properties than the conventional cleaning agent composition. . Therefore, by including both HFO nonflammable fluorine solvent and PFC nonflammable fluorine solvent as main components, various types of materials can be maintained while maintaining various safety. It has become possible to provide a new detergent composition and its aerosol composition with excellent properties that can be used against it.
  • the detergent composition of the means of the present invention and the aerosol composition thereof contain an HFO-based nonflammable fluorine-based solvent, which is a hydrofluoroolefin-based solvent, as one of the two essential components. It shall be.
  • non-flammable fluorine solvents of the HFO type (Z) -1-chloro-3,3,3-trifluoropropene, 1,1-dichloro-3,3,3-trifluoropropene, 1,2-dichloro Noncombustible solvents such as -3,3,3-trifluoropropene, 2,3,3-trichloro-3-fluoropropene, AMOLEA AS-300 can be used.
  • 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 Inc., Japan) and the like.
  • the above-mentioned HFO-based nonflammable fluorine-based solvents are nonflammable solvents which have no flash point and no burning range according to the explosion limit test method ASTM E681.
  • it has environmentally friendly chemical properties such as a low ozone depletion potential ODP or substantially zero global warming potential GWP ⁇ 1. Therefore, it does not correspond to the component specified by the ozone layer protection law, the global warming measure promotion law, the Freon emission control law, the Fire Service Law, the High Pressure Gas Safety Law, etc., and its use is not particularly restricted. There is no need to store hazardous materials in storage, and there is no legal limit on storage volume.
  • the above-mentioned HFO-based nonflammable fluorine-based solvent is invasive to 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.
  • the resin acts on polyvinyl chloride (PVC) resin or phenol resin
  • PVC polyvinyl chloride
  • phenol resin the resin is denatured, and the weight and size of the resin product change.
  • the resin becomes whitened and devitrified.
  • an acrylic (PMMA) resin an ABS resin or a polystyrene resin which is a copolymerization synthetic resin of acrylonitrile, butadiene and styrene, these resins are softened or dissolved.
  • the HFO-based nonflammable fluorine-based solvent has poor compatibility with resin materials.
  • 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 acting on rubber, butyl rubber, EPDM and CSM, these elastomers are degraded to cause changes in weight and size. In addition, when acting on silicone rubber, natural rubber, HNBR, NBR, fluororubber and urethane rubber, these elastomers swell. Thus, the HFO-based nonflammable fluorine-based solvent has poor compatibility with the elastomer as it is.
  • various vehicles and vehicles such as automobiles, two-wheeled vehicles, bicycles, construction machines, agricultural machines, aircrafts, railway vehicles, ships, etc., such as the resin compatibility of the non-combustible fluorine-based solvents of HFO series mentioned above or the drying property ⁇
  • the property which is not suitable for the detergent composition used for transportation etc. is the noncombustibility of PFC system having the property that there is little compatibility with water and oil which is unsuitable for making a detergent composition unexpectedly It is eliminated by containing together a fluorochemical solvent, and a better detergent composition is provided.
  • the detergent composition of the means of the present invention and the aerosol composition thereof contain one or more PFC nonflammable fluorine-based solvents as the other of the two essential components.
  • This PFC type fluorine-based solvent is nonflammable, having no flash point and neither the combustion point (lower limit) nor the combustion point (upper limit) being detected. It corresponds to a non-hazardous material under the Fire Service Act, does not require a hazardous material warehouse, and has no legal limit on the storage volume.
  • Non-patent Document 2 PFC nonflammable fluorine-based solvents have little compatibility with water and oil
  • the nonflammable fluorinated solvent of the PFC system in detergent compositions and aerosol compositions of the means of the present invention for example, Fluorinert TM FC-40, and or Fluorinert TM FC-3283, one is selected from them or More than that shall be used.
  • Fluorinert TM FC-40 and Fluorinert TM FC-3283 of the PFC nonflammable fluorine-based solvent can be utilized to obtain those commercially available from 3M Corporation (Japan).
  • This solvent is a nonflammable solvent which has no flash point (TCC, COC) and no combustion range. It corresponds to a non-hazardous material under the Fire Service Act, does not require a hazardous material warehouse, and has no legal limit on the storage volume.
  • Non-combustible to the HFO system which is contained in two components so as to improve the solubility and to provide better cleaning performance to members made of various materials such as metals, resins and elastomers, and appropriate drying speed. It is preferable to adjust the range of the mass ratio of the fluorocarbon solvent to the nonflammable fluorine solvent of PFC type.
  • the cleaning agent composition according to the means of the present invention and the aerosol composition of the means of the present invention are a HFO-based nonflammable fluorine-based solvent and a PFC-based nonflammable fluorine-based solvent contained in the aerosol composition.
  • the range of mass ratio is 99/1 to 1/99.
  • HFO-based nonflammable fluorine-based solvents and PFC-based noncombustibles according to the types of oils and fats to be cleaned and the types of resins and elastomers used in combination in the site to be cleaned and the surrounding area to be used for suppression of invasion. It is possible to provide a cleaning composition and an aerosol composition thereof, in which the range of the mass ratio to the fluorocarbon solvent is adjusted respectively.
  • the detergent composition according to 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 , if the PFC nonflammable fluorine-based solvent is Fluorinert TM FC-40 or Fluorinert TM FC-3283 Doo, the mass ratio (HFO-based nonflammable fluorinated solvent / PFC-based nonflammable fluorine-based solvent in)
  • the range of is from 99/1 to 1/99, preferably from 99/1 to 10/90, more preferably from 90/10 to 30/70, but adapted to the usage situation of the target customer Depending on the type of fat to be dissolved, the type of resin or elastomer to be protected from insult, and the balance of the cost, the weight ratio within the above range.
  • the resin, elastomer, etc. have lower invasiveness, higher compatibility with oils and fats, etc., and excellent cleaning ability and moderate drying speed for members made of various materials such as metal, resin and elastomer. It becomes possible to have a plurality of properties in combination, and it can be suitably used as a detergent composition and its aerosol composition.
  • the detergent composition of the means of the present invention and the aerosol composition thereof in addition to the main two components as the above-mentioned detergent composition, do not, if necessary, increase the risk of fire or fire. It may be compounded in degree.
  • the HFO system is achieved by the two main components while maintaining the non-combustibility as a detergent composition or the non-hazardous property in the Fire Service Law.
  • the non-combustible fluorine-based solvent itself is incorporated in a range capable of reducing the invasiveness to the resin or elastomer held by the non-combustible fluorine-based solvent itself and maintaining the cleaning property for the oil component and the appropriate drying rate.
  • chelating agent for example, 3M TM NOVEC TM 7200,3M TM NOVEC TM 7300 HFE solvents such as methanol, alcohols such as methanol, ethanol, isopropyl alcohol and butanol, hydrocarbon solvents such as normal hexane, cyclohexane and isohexane, ketone solvents such as acetone, MEK and cyclohexanone, ethyl acetate, methyl acetate, acetic acid Esters and glycol ester solvents such as butyl and ethylene glycol monomethyl ether acetate, and ether and glycol ether solvents such as methyl cellosolve, butyl cellosolve, methoxymethyl butanol and hexyl diglycol Glyme solvents such as ethylene glycol di
  • a liquefied gas or a compressed gas can be used as the propellant gas in the aerosol composition.
  • LPG liquefied petroleum gas
  • DME dimethyl ether
  • carbon dioxide gas fluorocarbon gas
  • E -1,3,3,3-tetrafluoroprop-1-ene
  • nitrogen gas rare gases such as argon
  • a gas such as compressed air, a mixture of LPG and DME, a mixture of LPG and carbon dioxide, and the like can be mentioned as a combination of two or more of the above gases.
  • the cleaning agent composition of the means of the present invention and the above-described propellant gas can be mixed to form an aerosol composition, which can be provided by filling it into a pressure resistant can.
  • the solution of the cleaning agent composition according to the means of the present invention is a metal, resin and elastomer of various vehicles, vehicles and vehicles such as automobiles, two-wheeled vehicles, bicycles, construction machines, agricultural machines, aircraft, railway vehicles and ships to be cleaned.
  • the material may be applied to members made of various materials such as tools, tools used by workers, work places, pits, and factories, or objects to be cleaned may be used by being immersed in a solution of the cleaning composition.
  • an aerosol composition in which the cleaning agent composition of the means of the present invention is mixed with a liquefied gas serving as a propellant gas is filled in a pressure can and aerosolized, or the cleaning agent composition of the means of the present invention is used as a pale can
  • a portable small-sized filling machine is installed at the work place to be used, and the cleaning composition put in a pail can be aerosolized by compressed air, and it is a member made of various materials such as metal, resin and elastomer to be cleaned. It can be used by spraying as an aerosol.
  • the components used in the detergent composition of the present invention and conventional detergents are purchased to prepare test samples.
  • HFO-based nonflammable fluorine-based solvent which is a component used for the cleaning composition of the present invention
  • (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.
  • AMOLEA (registered trademark) AS-300 was supplied from AGC Corporation (Japan).
  • Fluorinert TM FC-40 (3M Japan Co., Ltd., Japan) or Fluorinert TM FC-3283 (3M Japan Co., Ltd., Japan) were purchased, respectively.
  • brake and parts cleaner fast-drying type
  • isohexane cyclohexane
  • degreasing detergent Honda Access Co., Ltd., Japan
  • an isoparaffin based solvent an isoparaffin based solvent
  • brake cleaner N04 Sanzuki Co., Ltd., Japan
  • trichloroethane trichloroethane
  • the HFO-based nonflammable fluorine-based solvent of the present invention and the PFC-based solvent are controlled so that the mass ratio of the HFO-based nonflammable fluorine-based solvent to the PFC non-combustible fluorine-based solvent is as follows.
  • 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
  • Comparative Examples 1 to 4 were prepared.
  • the quick-drying stock solution, the degreasing detergent, and the ordinary-drying stock solution are all highly combustible, and trichloroethane is highly harmful, and all of them have problematic properties as a cleaning composition.
  • Comparative Example 1 Quick-drying stock solution Comparative example 2: Degreasing detergent Comparative example 3: After-drying stock solution Comparative example 4: Trichloroethane
  • Comparative Examples 5 to 8 were prepared in order to compare with the respective examples in which the two components of the HFO nonflammable fluorine solvent and the PFC nonflammable fluorine solvent were blended together.
  • Test Examples 1 to 3 shown below are carried out, and the cleaning agent composition of the means of the present invention and the aerosol composition thereof have superior characteristics to conventional cleaning agents. Was specifically confirmed.
  • each of the test pieces of the above resin size 10 mm x 10 mm x 2 mm is wiped with a microfiber cloth containing the solution of Examples 1 to 18 or Comparative Examples 1 to 8. Thereafter, the appearance change of each test piece surface is visually observed. When no change in appearance was observed, 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 detergent composition of the means of the present invention, is obtained by wiping the surface with a microfiber cloth containing the solution only for a short time of contact. It was confirmed that the resin consisting of ABS and PC was altered (Table 1-1). ABS and PC are widely used for important parts in vehicles, vehicles and vehicles, and there is a concern that the quality of the important parts may be lowered by treating only HFO-based noncombustible fluorine solvents as cleaning compositions.
  • Grease GREASE (Orange) (Kobe Kogyo Co., Ltd., Japan) : Rubber combined brake grease (Kobe Kogyo Co., Ltd., Japan) : Grease for disc brakes (Kobe Kogyo Co., Ltd., Japan) : Brake grease (Kobe Kogyo Co., Ltd., Japan) : Silicone grease (Kobe Kogyo Co., Ltd., Japan) : Caliper Pingris (Honda Access, Japan) : Pad & Shoe (HONDA ACCESS CO., LTD., Japan) : Rubber grease (HONDA ACCESS CO., LTD., Japan) : Brake grease (HONDA ACCESS CO., LTD., Japan) Oil: Engine oil Mobil 1 0 W-20 (Exxon Mobil, USA) : Brake fluid (DOT3) (HONDA
  • Test Results The results of the above tests are shown in Tables 2-1 to 2-3.
  • grease or brake oil etc. can also be used that contains both HFO-based nonflammable fluorine-based solvents and PFC-based nonflammable fluorine-based solvents that can not be used for cleaning vehicles, vehicles and vehicles as described above. It has been confirmed that the compound exhibits a wide compatibility with the fat and oil components, that is, it exhibits high detergency to the fat and oil components (Table 2-2 to Table 2-3). Further, the range of the mass ratio of the HFO-based nonflammable fluorine-based solvent showing compatibility to the PFC non-flammable fluorine-based solvent was wide (Tables 2-2 to 2-3).
  • the cleaning agent composition and the aerosol composition thereof are cleaned by containing the HFO nonflammable fluorine-based solvent and the PFC nonflammable fluorine based solvent.
  • HFO-based nonflammable fluorine-based solvents and PFC-based nonflammables according to the types of target oils and fats, and the types of resins and elastomers used in combination in the area to be cleaned and the surrounding area to be treated for suppression of invasion. It is understood that it is possible to adjust the range of mass ratio with the fluorinated solvent to provide a detergent composition and its aerosol composition with properties suitable for the scene using the detergent composition.
  • the composition is widely compatible with grease or brake oil. It will be appreciated that new detergent compositions can be provided which are rendered non-combustible and less toxic and yet have the same or better cleaning properties as conventional brake cleaners.
  • each of the above rubber or resin test pieces size 10 mm ⁇ 10 mm ⁇ 2 mm
  • 20 mL of the solution of Example or Comparative Example was placed in a vial, into which each test piece of rubber or resin (size 10 mm ⁇ 10 mm ⁇ 2 mm) was immersed, and the vial was set to 45 ° C. Place in a constant temperature and humidity chamber (HPAV-120-40, Isuzu Seisakusho Co., Ltd., Japan) and leave it for one month.
  • a constant temperature and humidity chamber HPAV-120-40, Isuzu Seisakusho Co., Ltd., Japan
  • the weight and thickness of the test piece are measured, the degree of swelling is calculated, and it is confirmed whether it falls within ⁇ 5.0% and PC Also check if the transparency of is lost. If the solution used is small, the test is performed with the size and volume of the test piece proportional to the volume used.
  • the HFO-based nonflammable fluorine-based solvent contained a PFC-based nonflammable fluorine-based solvent in the invasiveness to the rubber or resin produced when the HFO-based nonflammable fluorine-based solvent was brought into contact for a long period of time It was verified that the composition improved by using a detergent composition, and compared with conventional detergents for non-invasiveness to rubber or resin.
  • HFO-based nonflammable fluorine-based solvents are invasive to rubber and resin when acting for a long period of time, and are particularly important for securing safety in various vehicles, vehicles, transportation, etc.
  • Swells NR natural rubber
  • SBR styrene butadiene rubber
  • EPDM ethylene propylene rubber
  • ABS acrylonitrile butadiene styrene
  • swells PC polycarbonate
  • the present invention which is capable provides a very effective means to replace conventional cleaning agents which are invasive.
  • the detergent composition of the means of the present invention is very less likely to be invasive to rubber and resin, even if it is used for a long time.
  • the cleaning agent composition of the means of the present invention comprises the HFO nonflammable fluorine based solvent and the PFC nonflammable fluorine based solvent It is understood that it has an effect of increasing the supply amount as a detergent composition and preventing the stagnation of the product supply, since it is manufactured by mixing B.
  • SBR styrene-butadiene rubber
  • PC polycarbonate
  • the fire-fighting law and fire-fighting law are low because the HFO-based nonflammable fluorine-based solvent and the PFC non-flammable fluorine-based solvent are nonflammable because they are contained in the cleaning agent composition. It corresponds to the above non-hazardous substances, there is no need to store dangerous goods, there are no legal restrictions on the storage amount of cleaning compositions used in large quantities, and furthermore it has low toxicity and low environmental impact such as ozone layer destruction New cleaning agent composition and aerosol thereof having excellent properties such as extremely low attack property to rubber and resin while having the property and the cleaning property equal to or more than the conventional cleaning agent composition for brake cleaner It becomes possible to provide a composition.

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Abstract

In order to provide a novel detergent composition and an aerosol composition thereof that have a very low ability to attack rubbers and resins even while having cleaning and drying properties equivalent to those of conventional detergent compositions for brake cleaners, the compositions having such properties as: low danger of ignition and low risk of fire because the compositions are nonflammable; correspondence to a nonhazardous material under the Fire Service Act, obviating the need for a dangerous goods warehouse; no legal restriction on the storage quantity of detergent composition, which is to be used in large amounts; and also low toxicity and little environmental impact such as damage to the ozone layer, there are provided a detergent composition and an aerosol composition thereof that contain: (Z)-1-chloro-3,3,3-trifluoropropene, 1,1-dichloro-3,3,3-trifluoropropene, AMOLEA (registered trademark) AS-300, or another such HFO nonflammable fluorine solvent; and FluorinertTM FC-40, FluorinertTM FC-3283, or another such PFC nonflammable fluorine solvent.

Description

洗浄剤組成物及びそのエアゾール組成物Cleaner composition and aerosol composition thereof
 この発明は、自動車、二輪自動車、自転車、建機、農機、航空機、鉄道車両、船舶などの各種車両・乗物・輸送機関の洗浄や工具、作業場、ピット、工場の洗浄に用いるための新たな洗浄剤組成物及びそのエアゾール組成物に関し、特に、各種車両・乗物・輸送機関における金属や金属と樹脂との組合せからなるボディ、ブレーキ部品、サスペンション、ホイールなどの各種の車両用部品や制御装置などを脱脂し洗浄するためのものであって、不燃性で、引火の危険性や火災のリスクが低く消防法上の非危険物に該当することから危険物倉庫が不要のため、大量使用する洗浄剤組成物の保管量に法的な制限がなく、さらに、毒性が低く、かつ、オゾン層破壊などの環境負荷が小さいという優れた特性を有し、さらには、従来の洗浄剤組成物と同等以上の洗浄性、乾燥性、汚れの再付着防止性を有しつつも、従来の洗浄剤組成物よりもゴムや樹脂に対するアタック性が極めて低いという優れた特性を併せ持つ、洗浄剤組成物及びそのエアゾール組成物に関する。 This invention is a new cleaning method for cleaning of various vehicles, vehicles and vehicles such as automobiles, bicycles, construction machines, agricultural machines, aircraft, railway vehicles and ships, tools for cleaning, work places, pits and factories. Agent composition and its aerosol composition, in particular, various vehicle parts such as a body, a brake part, a suspension, a wheel, etc., and a control device, etc. consisting of a combination of metal, metal and resin in various vehicles, vehicles and vehicles A cleaning agent that is used for degreasing and cleaning, and is used as a non-combustible, low risk of fire and fire hazard, and non-hazardous material under the Fire Service Law because it is not necessary to store in a dangerous goods warehouse. There is no legal limitation on the storage amount of the composition, moreover, it has excellent properties such as low toxicity and low environmental load such as ozone layer depletion, and further, a conventional detergent composition A detergent composition and an excellent property that it has the same or higher detergency, drying property, anti-redeposition property as dirt, but has extremely low attack on rubber and resin than conventional detergent compositions. It relates to the aerosol composition.
 自動車、二輪自動車、自転車、建機、農機、航空機、鉄道車両、船舶などの各種車両・乗物・輸送機関は、ボディ、ブレーキ、サスペンション、ホイールなどの各種部品や装置などが、金属や各種の樹脂などを用いて製造されている。また、近年、軽量化や装飾性を高めることを意図して、金属に樹脂を組み合わせた複合材料なども用いた部材も使用されている。 Automobiles, two-wheeled vehicles, bicycles, construction machines, agricultural machines, aircrafts, railway vehicles, various vehicles such as ships, vehicles, vehicles, transportation, various parts and devices such as body, brakes, suspensions, wheels, etc., metal and various resins And so on. Further, in recent years, a member using a composite material or the like in which a resin is combined with a metal is also used in order to improve weight reduction and decorativeness.
 これらの金属を用いた部品や装置は、使用する間に油分や汚れなどがその表面に付着し、所期の性能や装飾性が低下してくる。また、付着した成分によっては金属表面が腐食し、所期の性能が不可逆的に損なわれてしまう。さらに、車両・乗物・輸送機関には、各装置の動きをスムーズにするよう、グリスなどの油分が必要部位に塗布されるが、それら油分は、走行時に空気の流れや雨水が吹き付けられるなどすることにより徐々に油分が意図しない部位に流れ出るなどし、また他の車両・乗物・輸送機関から流れ出た油分などが汚れと共に路面から巻き上げられるなどして、車両・乗物・輸送機関の各部に付着し、各種の部品や装置における所期の性能を低下させる要因となる。特に、車両・乗物・輸送機関において多く用いられるブレーキライニングを施したブレーキシューをブレーキディスクやブレーキドラム等の回転体に制動子として作用させる摩擦ブレーキ装置においては、油分が付着すると摩擦係数が低下し、さらにブレーキライニングが摩耗して生じた粉塵が付着しやすくなって、ブレーキの制動性が低下してしまう要因となるため、定期的にメンテナンス作業を実施し、油分や汚れが付着した金属部材を洗浄する必要が生じている。 Parts and devices using these metals will have oil and dirt adhering to their surfaces during use, and their desired performance and decorativeness will deteriorate. Also, depending on the deposited components, the metal surface may be corroded, and the desired performance may be irreversibly impaired. Furthermore, oil components such as grease are applied to necessary parts of vehicles, vehicles and vehicles to smooth the movement of each device, but such oil components are sprayed with air flow and rain water when traveling, etc. As a result, oil gradually drains off to unintended areas, and oil from other vehicles, vehicles and vehicles is also rolled up from the road surface with dirt, etc., and adheres to parts of vehicles, vehicles and vehicles. This is a factor that lowers the expected performance of various parts and devices. In particular, in the case of a friction brake device in which a brake shoe having a brake lining, which is often used in vehicles, vehicles, and transport engines, acts as a brake on a rotating body such as a brake disc or brake drum, the friction coefficient decreases when oil adheres. Furthermore, the brake lining is worn out and dust generated is apt to be attached, which causes the braking performance of the brake to deteriorate. Therefore, maintenance work is carried out regularly, and metal components to which oil and dirt are attached Need to wash.
 また、各種車両・乗物・輸送機関の組み立て製造時において、金属に樹脂や塗料などを塗布し加工する際に、金属表面に油分などが僅かに付着したままになっていると、樹脂や塗料が安定して付着せずに剥離したり変質するなどして、製品の品質が大幅に低下してしまう。また、ブレーキ、サスペンション、ホイールなどの運行時の安全性担保のために特に重要な部品や装置においては、油分などが僅かに付着したままでは摩擦係数が低下し、そのまま組み上げてしまうと制動性が損なわれるなどして、所期の性能を安定して発揮させることが出来なくなる。そこで、車両・乗物・輸送機関の組み立て製造時には、各部品の金属表面に僅かに付着した油分を事前に十分に洗浄し取り除くことが求められている。 In addition, when assembling and manufacturing resin, paint, etc. on metal at the time of assembly manufacture of various vehicles, vehicles, and transportations, if oil and the like remain slightly attached to the metal surface, resin, paint, etc. The quality of the product is greatly reduced by peeling or degenerating without stable adhesion. In addition, in parts and devices that are particularly important for ensuring safety during operation such as brakes, suspensions, and wheels, the coefficient of friction decreases if oil etc. is slightly attached, and if assembled as it is, the braking performance is It will be lost and it will not be possible to exhibit desired performance stably. Therefore, at the time of assembly and manufacture of vehicles, vehicles and vehicles, it is required to sufficiently clean and remove in advance the oil that slightly adheres to the metal surface of each part.
 そこで、主に各種車両・乗物・輸送機関のボディ、ブレーキ部品、サスペンション、ホイールなどを洗浄するための洗浄剤組成物として、従来は、洗浄性を有するトリクロロエタンを主成分とするものが開発され利用されていた。しかし、トリクロロエタンには、毒性が知られている。また、トリクロロエタンは、オゾン層の保護のためのウィーン条約の下で発効したオゾン層を破壊する物質に関するモントリオール議定書において、締約国における生産と消費を段階的に削減し1996年には全廃するとともに議定書の非締約国との輸出入の禁止又は制限がされることとなった。そのため、トリクロロエタンを用いた洗浄剤組成物の使用は、避けられることとなった。 Therefore, as a cleaning agent composition for mainly cleaning the bodies, brake parts, suspensions, wheels and the like of various vehicles, vehicles and vehicles, those mainly composed of trichloroethane having a cleaning property have conventionally been developed and used. It had been. However, trichloroethane is known to be toxic. In addition, in the Montreal Protocol on Substances that Deplete the Ozone Layer, which came into effect under the Vienna Convention for the Protection of the Ozone Layer, trichloroethane will gradually reduce its production and consumption in the contracting countries and eliminate it completely in 1996. Import or export with other non- contracting parties has been banned or restricted. Therefore, the use of detergent compositions using trichloroethane has been avoided.
 そこで、イソヘキサン、シクロヘキサンなどのC6の石油系炭化水素をベースに、エタノール、イソプロピルアルコールなどのアルコール類を添加し、洗浄性、乾燥性、沸点を調整した洗浄剤組成物が製造され、それをLPGガスを用いたエアゾール組成物や移動式簡易エアゾール充填機を使用した圧縮空気によるエアゾール組成物としたものが提案され、広く用いられている。 Therefore, based on C6 petroleum hydrocarbons such as isohexane and cyclohexane, alcohols such as ethanol and isopropyl alcohol are added to produce a detergent composition having adjusted washability, dryness and boiling point, which is then added to LPG There has been proposed and widely used an aerosol composition using a gas and an aerosol composition using compressed air using a mobile simple aerosol filling machine.
 しかしながら、上記の洗浄剤組成物に用いられている石油系炭化水素やアルコール類は、引火性が高く、消防法上の危険物として規制を受ける。そのため、保管には危険物倉庫の設置が必要であり、設置の為のコストがかかるものであった。また、洗浄剤組成物使用施設において危険物倉庫を有していても、保管できる量には制限がある。特に上記洗浄剤組成物は、その多くが第四類第一石油類に分類されるが、法令上1倉庫に保管可能な第四類第一石油類の指定数量は低く設定されていることから、洗浄剤組成物の使用量が多いにもかかわらず、少量しか保管できないという問題があり、その改善が求められていた。 However, petroleum hydrocarbons and alcohols used in the above-mentioned detergent composition are highly flammable and are regulated as dangerous materials under the Fire Service Law. Therefore, the storage of the dangerous goods needed to be stored, and the cost for the installation was high. Moreover, even if it has a hazardous material warehouse in a cleaning composition using facility, the amount that can be stored is limited. In particular, although the above-mentioned detergent composition is mostly classified into Class 4 First Petroleum, the designated quantity of Class 4 Petroleum 1 that can be stored in a single warehouse is set low. However, there is a problem that only a small amount can be stored despite the use of a large amount of the detergent composition, and an improvement thereof has been required.
 さらに、上記洗浄剤組成物に用いられている炭化水素はトリクロロエタンのような毒性はないものの、過剰量を吸入することにより炭化水素中毒となる危険性があるため、屋外や換気装置のある屋内などの換気がされている環境下にて使用する必要があり、製品にもその旨の注意書きがされている。しかし、エアゾール製品を使用するため、作業場だけでなく風下にも気化した炭化水素が流れ、そこにいる人が吸入する危険性は残っており、改善が求められていた。 Furthermore, although the hydrocarbon used in the above-mentioned detergent composition is not toxic like trichloroethane, there is a risk of becoming a hydrocarbon poison by inhaling an excessive amount, so outdoor, indoor with ventilation system etc. It is necessary to use in the environment where there is ventilation, and the product also has a note on that effect. However, because aerosol products are used, vaporized hydrocarbons flow not only in the work place but also in the downwind, and there is still a risk of inhalation by the people there, and improvements have been sought.
 また、作業時に洗浄剤組成物を掛け流したりエアゾール製品を勢いよく噴射させるなどすると、作業者の手袋や衣服に引火性が高い上記洗浄剤組成物が多量に染みこむことがある。また、作業者の手袋、作業着に付着した油汚れを落とすために上記洗浄剤組成物を多量に染みこませることがある。しかし、上記洗浄剤組成物は引火性が高いため、その後の乾燥が不十分であると、静電気やタバコの火による発火事故が生じる危険性が生じる。そこで、作業環境における確実な安全性を確保する上でも、それらの引火性の高い成分の使用を避けるよう、改善が求められていた。 In addition, when the cleaning composition is poured over the work or the aerosol product is vigorously jetted, a large amount of the cleaning composition having high flammable properties may be infiltrated into gloves and clothes of the worker. In addition, in order to remove oil stains attached to gloves and work clothes of workers, the above-mentioned detergent composition may be heavily impregnated. However, since the above-mentioned detergent composition is highly flammable, if the subsequent drying is insufficient, there is a risk that an ignition accident due to static electricity or cigarette fire may occur. Therefore, improvements have been sought to avoid the use of these highly flammable ingredients, even in order to ensure reliable safety in the working environment.
 引火点を持たない溶剤として一般的に良く知られているものにハロゲン系の溶剤があるが、塩素系、臭素系はその有害性から製造や使用に制限があり、洗浄剤組成物への使用は困難を伴う。そこで、保管量や安全性確保の問題を解決する一案として、炭素数の長い石油系炭化水素を用いた高引火点の製品や洗浄成分として、カルビトール、アルコールなどを含む水系の製品が提案されている(特許文献1を参照)。 Halogenated solvents are generally well known as solvents having no flash point, but chlorine solvents and bromine solvents are limited in production and use because of their harmful effects, and their use in detergent compositions Is accompanied by difficulties. Therefore, as a solution to the problem of storage volume and securing safety, products with high flash point using petroleum hydrocarbon with long carbon number and water-based products containing carbitol, alcohol etc. as cleaning components are proposed (See Patent Document 1).
 しかしながら、上述した水系組成物は、乾燥に30~40分もの時間を要するなど、乾燥性が非常に悪く遅い(特許文献1を参照)。そのため、それら水系組成物を洗浄剤組成物として用いると、使用後にブレーキ廻りに水系組成物の液が残留しやすくなり、液が残留したままにブレーキを使用してしまうとブレーキ制動力が下がるといった重大な影響を及ぼすことに繋がる。そのため、上述した水系組成物を用いる作業工程は、洗浄後に十分な乾燥を行うことが必須とされ、煩雑であり、改善が求められていた。またさらに、水系であることから、従来のブレーキクリーナー用洗浄剤組成物に比して洗浄性に劣り、汚れの種類によっては必ずしも十分な洗浄性能を有していないために使用場面に制限があり、より汎用性を高めるものとなるよう、改善が求められていた。 However, the water-based composition described above takes very long time to dry, for example, it takes 30 to 40 minutes to dry (see Patent Document 1). Therefore, when such aqueous compositions are used as detergent compositions, the liquid of the aqueous composition tends to remain around the brake after use, and if the brake is used while the liquid remains, the braking force decreases. It leads to having a serious influence. Therefore, in the working process using the above-mentioned aqueous composition, it is essential to perform sufficient drying after washing, which is complicated and an improvement is required. Furthermore, because they are water-based, they are inferior to the conventional cleaner compositions for cleaning with a brake cleaner, and depending on the type of dirt, they do not necessarily have sufficient cleaning performance, and their use is limited. Improvements were sought to be more versatile.
 ところで、金属材料の洗浄に利用し得る溶剤としては、(Z)-1-クロロ-3,3,3-トリフルオロプロペンのようなハイドロフルオロオレフィン系の溶剤であるHFO系の不燃性フッ素系溶剤が知られている。しかしながら、このHFO系の不燃性フッ素系溶剤は、金属材料に対する洗浄性を有するものの、金属材料以外の素材である樹脂やエラストマーに対して、強い浸食性を有していることが知られている(非特許文献1)。そのため、このようなHFO系の不燃性フッ素系溶剤は、それを使用する場面を十分に精査する必要がある。 By the way, as a solvent that can be used to wash metal materials, HFO-based nonflammable fluorine-based solvents that are hydrofluoroolefin-based solvents 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 cleaning property to metal materials, but has a strong erosion property to resins and elastomers which are materials other than metal materials. (Non-Patent Document 1). Therefore, such HFO-based nonflammable fluorine-based solvents need to be thoroughly scrutinized for their use.
 特に、自動車、二輪自動車、自転車、建機、農機、航空機、鉄道車両、船舶などの各種車両・乗物・輸送機関における各種制動装置、ライト、窓などの、安全性を高く保つことが求められる重要部品には、金属材料が汎用されているが、それら金属材料に加えて、通常は、ポリカーボネート、アクリル、ABS、ポリスチレン、シリコーンゴム、天然ゴム、HNBR、NBR、フッ素ゴムおよびウレタンゴムなどの各種の樹脂やエラストマーからなる素材も、同時に使用されている。例えば、ブレーキは、ブレーキフルードの油圧により制御し、そのブレーキフルードは、一般的に装置間を連結するゴムホース内に満たされている。 In particular, it is important to keep safety high in various braking devices, lights, windows, etc. in various vehicles, vehicles, vehicles such as cars, bicycles, construction machines, agricultural machines, aircrafts, railway vehicles, ships, etc. In parts, metal materials are generally used, but in addition to the metal materials, various materials such as polycarbonate, acrylic, ABS, polystyrene, silicone rubber, natural rubber, HNBR, NBR, fluorine rubber and urethane rubber are generally used. Materials made of resin and elastomer are also used at the same time. For example, the brakes are controlled by the hydraulic pressure of the brake fluid, which is generally filled in a rubber hose connecting the devices.
 しかし、上記のHFO系の不燃性フッ素系溶剤が樹脂やエラストマーに触れてしまうと、上記のHFO系の不燃性フッ素系溶剤が有する強い浸食性により、安全性を高く保つことが求められる重要部品における樹脂やエラストマーが変質するなどの重大な不具合が生じる。特に、上記車両・乗物・輸送機関における重要部品においても汎用されるポリカーボネートは失透し、アクリル、ABS及びポリスチレンは溶解し、シリコーンゴム、天然ゴム、HNBR、NBR、フッ素ゴム及びウレタンゴムは膨潤してしまうため(非特許文献1)、安全性低下が懸念されることとなる。 However, if the above HFO-based nonflammable fluorine-based solvent comes in contact with a resin or elastomer, it is an important part that is required to maintain high safety due to the strong erosion property of the above HFO-based nonflammable fluorine-based solvent. Serious problems such as deterioration of resin and elastomer in the In particular, polycarbonate commonly used in important parts of vehicles, vehicles and vehicles devitrifies, acrylic, ABS and polystyrene dissolve, and silicone rubber, natural rubber, HNBR, NBR, fluororubber and urethane rubber swell (Non-Patent Document 1), there is a concern that safety may be reduced.
 また、洗浄用組成物として用いる場合には、洗浄しようとする箇所を洗浄用組成物で十分に湿潤させて洗い流すことを要するが、上記のHFO系の不燃性フッ素系溶剤は低沸点であるため乾燥性が非常に高く、湿潤させて洗い流す工程には適していない。湿潤させるようにすると過剰な量のHFO系の不燃性フッ素系溶剤により、重要部品における樹脂やエラストマーに触れることにより安全性低下が懸念される。 When using as a cleaning composition, it is necessary to sufficiently wet and wash away the portion to be cleaned with the cleaning composition, but since the above HFO-based nonflammable fluorine-based solvent has a low boiling point It is very dry and not suitable for wet and rinse steps. When it is made to be wet, the excessive loss of HFO-based nonflammable fluorine-based solvent may cause a decrease in safety by touching the resin or elastomer in important parts.
 また、PFC(パーフルオロカーボン)系の不燃性フッ素系溶剤としては、フロリナートTMFC-40やフロリナートTMFC-3283などがあるが、水や油に対する相溶性はほとんどない(非特許文献2)。また、これらPFC系の不燃性フッ素系溶剤は、機器等における摩擦を軽減させるためのフッ素系コーティング剤、潤滑剤の希釈溶媒に利用される(非特許文献3)が、自動車、二輪自動車、建機、農機、航空機、鉄道車両、鉄道車両などの各種車両におけるブレーキ関連部品などにおいて、それら摩擦を軽減する成分が塗布・コーティングされる状況を作ることで、摩擦係数を低下させて制動力を大きく低下させるようなことは行われない。 Further, PFC as a nonflammable fluorine-based solvent (perfluorocarbon) system, Fluorinert TM FC-40 and Fluorinert TM FC-3283 there are such, compatibility is little to water and oil (Non-Patent Document 2). In addition, these PFC nonflammable fluorine-based solvents are used as a fluorine-based coating agent for reducing friction in equipment and the like, and as a dilution solvent for lubricants (Non-Patent Document 3). In the brake-related parts of various types of vehicles such as aircraft, agricultural machines, aircraft, railway vehicles, and railway vehicles, the coefficient of friction is reduced by creating a situation where the components that reduce the friction are applied and coated, and the braking force is greatly increased. Nothing is done to reduce it.
特開2001-207199号公報JP, 2001-207199, A
 本発明が解決しようとする課題は、不燃性であるため、引火の危険性が低く、火災時のリスクが低く、消防法上の非危険物に該当し、危険物倉庫が不要で、大量使用する洗浄剤組成物の保管量に法的な制限がなく、さらに、毒性が低く、オゾン層破壊などの環境負荷が小さいという特性を有し、さらに、従来の洗浄剤組成物と同等の洗浄性、乾燥性を有しつつも、従来の洗浄剤組成物よりもゴムや樹脂に対するアタック性が極めて低い、新たな洗浄剤組成物及びそのエアゾール組成物を提供することである。 The problems to be solved by the present invention are non-combustible, so there is low risk of ignition and low risk at the time of fire, falls under non-hazardous material under the Fire Service Act, does not require dangerous material storage, and is used in large quantities There is no legal restriction on the storage amount of the cleaning composition, and furthermore, it has the characteristics of low toxicity, low environmental impact such as ozone layer depletion, and the like, and the same cleaning performance as the conventional cleaning composition. It is an object of the present invention to provide a new detergent composition and its aerosol composition, which have drying properties, but have extremely low attack on rubber and resin than conventional detergent compositions.
 洗浄剤組成物は、汚れ成分を湿潤させて洗い落とす作業に用いられることから、その使用量および保管量が多くなる。そのため、通常の使用環境及び保管環境の温度条件下において引火点を有さず、かつ燃焼範囲のない溶剤を選定することで、引火による火災のリスクを大きく低減させることが要請されている。 Since the detergent composition is used for the operation of wetting and washing away dirt components, the amount of use and storage amount increase. Therefore, it is required to greatly reduce the risk of fire due to ignition by selecting a solvent having no flash point and no combustion range under temperature conditions of normal use environment and storage environment.
 また、洗浄においては、洗浄剤組成物で汚れ成分を湿潤させて洗い落とすことが要求される。そこで、洗浄用組成物を、塗布や浸漬させて使用する溶液として提供するだけではなく、洗浄剤組成物と噴射ガスとを含有するエアゾール組成物としても提供できるものとし、洗浄時の扱いを簡便にするとともに、気体圧力を利用して汚れを物理的に除去しやすくする必要がある。なお、エアゾール組成物として提供する場合には、作業者が吸引するリスクが高まるため、洗浄剤組成物には、より毒性の低い溶剤を選定することが要請されている。 Also, in washing, it is required to wet and wash away the dirt component with the detergent composition. Therefore, the cleaning composition can be provided not only as a solution to be used by application or immersion but also as an aerosol composition containing a cleaning agent composition and a propellant gas, and the handling at the time of cleaning is simplified. In addition, it is necessary to use gas pressure to make it easier to physically remove dirt. In the case of providing as an aerosol composition, it is required to select a less toxic solvent for the cleaning composition, because the risk of the operator to inhale is increased.
 そして、高引火点の製品や水系の製品では達成していない従来製品と同等もしくはそれ以上の洗浄性を有し、適度な乾燥性が実現されることが要請されている。 And, it is required to have a washing property equal to or higher than that of a conventional product which has not been achieved with a product having a high flash point or a water-based product, and to realize appropriate drying property.
 本願の発明者は、上記課題を解決する新たな洗浄剤組成物及びそのエアゾール組成物を提供するため、様々な化合物や組成物が有する物性を確認し、その洗浄性を調査する作業を進めていた。その中で、強い浸食性により、安全性を高く保つことが求められる自動車、二輪自動車、自転車、建機、農機、航空機、鉄道車両、船舶などの各種車両・乗物・輸送機関などの重要部品や、作業者が用いる工具、作業場、ピット、工場などにおいて用いられる樹脂やエラストマーが、変質、失透、溶解するなどの重大な不具合が生じることが知られたHFO系の不燃性フッ素系溶剤に、油脂類との高い相溶性を有しないPFC系の不燃性フッ素系溶剤を加えた組成物としたところ、驚くことに、樹脂やエラストマーが変質、失透、溶解することがなくなり、更には、従来よりも優れた洗浄用組成物としての特性を発揮し、自動車、二輪自動車、自転車、建機、農機、航空機、鉄道車両、船舶などの各種車両・乗物・輸送機関や工具、作業場、ピット、工場の洗浄に用いる新たな洗浄用組成物としての特性を発揮することを見出した。そして、上記のHFO系の不燃性フッ素系溶剤とPFC系の不燃性フッ素系溶剤との組合せをさらに詳細に検討することで、本願の新たな洗浄用組成物およびそのエアゾール組成物の発明を完成させた。 The inventor of the present application has been working to confirm the physical properties possessed by various compounds and compositions, and to investigate their cleaning properties, in order to provide a new detergent composition and an aerosol composition thereof that solve the above-mentioned problems. The Among them, important parts such as automobiles, motorcycles, bicycles, construction machines, agricultural machines, aircraft, railway vehicles, various vehicles such as ships, transportation vehicles, etc. which are required to keep safety high due to strong erosion. , HFO-based nonflammable fluorine-based solvents known to cause serious defects such as deterioration, devitrification and dissolution of resins and elastomers used in tools, work places, pits and factories used by workers. When a composition comprising a PFC nonflammable fluorine-based solvent not having high compatibility with fats and oils is added, surprisingly, the resin and elastomer do not deteriorate, devitrify and dissolve, and further, It exhibits superior properties as a cleaning composition, and various vehicles, vehicles, vehicles, vehicles, vehicles, tools, workplaces, such as automobiles, two-wheeled vehicles, bicycles, construction machines, agricultural machines, aircraft, railway vehicles, and ships. Tsu bets, was found to exhibit the properties of a new cleaning composition used for cleaning factory. And the invention of the new cleaning composition of this application and its aerosol composition is completed by examining the combination of the above-mentioned HFO nonflammable fluorine-based solvent and PFC nonflammable fluorine-based solvent in more detail. I did.
 上記の課題を解決するための本発明の第1の手段は、HFO系の不燃性フッ素系溶剤とPFC系の不燃性フッ素系溶剤とを含有してなることを特徴とする洗浄剤組成物である。 The first means of the present invention for solving the above-mentioned problems is a detergent composition characterized by comprising an HFO-based nonflammable fluorine-based solvent and a PFC-based nonflammable fluorine-based solvent. is there.
 上記の課題を解決するための本発明の第2の手段は、上記洗浄剤組成物が、自動車、二輪自動車、自転車、建機、農機、航空機、鉄道車両、船舶などの各種車両・乗物・輸送機関、工具、作業場、ピット、工場の洗浄に用いるためのものであることを特徴とする、本発明の第1の手段に記載の洗浄剤組成物である。 A second means of the present invention for solving the above-mentioned problems is that the above-mentioned detergent composition comprises various vehicles, vehicles, transports such as cars, two-wheeled vehicles, bicycles, construction machines, agricultural machines, aircrafts, railway vehicles and ships. The cleaning composition according to the first means of the present invention, which is for use in engine, tool, work place, pit, and factory cleaning.
 上記の課題を解決するための本発明の第3の手段は、上記洗浄剤組成物が、自動車、二輪自動車、自転車、建機、農機、航空機、鉄道車両、船舶などの各種車両・乗物・輸送機関のブレーキクリーナー用であることを特徴とする、本発明の第2の手段に記載の洗浄剤組成物である。 The third means of the present invention for solving the above-mentioned problems is that the above-mentioned detergent composition comprises various vehicles, vehicles, transports such as cars, two-wheeled vehicles, bicycles, construction machines, agricultural machines, aircrafts, railway cars and ships. It is the cleaning agent composition according to the second means of the present invention, which is for engine brake cleaners.
 上記の課題を解決するための本発明の第4の手段は、上記HFO系の不燃性フッ素系溶剤が、(Z)-1-クロロ-3,3,3-トリフルオロプロペン、1,1-ジクロロ-3,3,3-トリフルオロプロペン、および1,2-ジクロロ-3,3,3-トリフルオロプロペン、2,3,3-トリクロロ-3-フルオロプロペン、AMOLEA(登録商標) AS-300から選択される1つまたはそれ以上であることを特徴とする、本発明の第1~第3の何れか1の手段に記載の洗浄剤組成物である。 The fourth means of the present invention for solving the above-mentioned problems is characterized in that the above-mentioned 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.RTM. AS-300 It is a detergent composition according to any one of the first to third means of the present invention, characterized in that it is one or more selected from
 上記の課題を解決するための本発明の第5の手段は、上記PFC系の不燃性フッ素系溶剤が、フロリナートTMFC-40、およびフロリナートTMFC-3283から選択される1つまたはそれ以上であることを特徴とする、本発明の第1~第3の何れか1の手段に記載の洗浄剤組成物である。 In the fifth aspect of the present invention to solve the above problems, it said PFC-based nonflammable fluorine-based solvent is Fluorinert TM FC-40, and one or more selected from Fluorinert TM FC-3283 It is a detergent composition according to any one of the first to third means of the present invention, characterized in that
 上記の課題を解決するための本発明の第6の手段は、質量比(HFO系の不燃性フッ素系溶剤/PFC系の不燃性フッ素系溶剤)の範囲が99/1~1/99であることを特徴とする、本発明の第1~第5の何れか1の手段に記載の洗浄剤組成物である。 According to a sixth means of the present invention for solving the above-mentioned problems, the range of the mass ratio (HFO-based nonflammable fluorine-based solvent / PFC-based nonflammable fluorine-based solvent) is 99/1 to 1/99. It is a detergent composition according to any one of the first to fifth means of the present invention, characterized in that
 上記の課題を解決するための本発明の第7の手段は、本発明の第1~第6の手段のいずれか1の手段に記載の洗浄剤組成物と噴射ガスとを含有するエアゾール組成物である。 A seventh means of the present invention for solving the above-mentioned problems is an aerosol composition comprising the cleaning composition according to any one of the first to sixth means of the present invention and a propellant gas. It is.
 上記の課題を解決するための本発明の第8の手段は、上記噴射ガスが、N、CO、(E)-1,3,3,3-テトラフルオロプロパ-1-エン、アルゴン、LPG、DMEまたは圧縮空気であることを特徴とする、本発明の第7の手段に記載のエアゾール組成物である。 The eighth means of the present invention for solving the above problems is characterized in that the propellant gas is N 2 , CO 2 , (E) -1,3,3,3-tetrafluoroprop-1-ene, argon, An aerosol composition according to the seventh means of the invention, characterized in that it is LPG, DME or compressed air.
 上記の課題を解決するための本発明の第9の手段は、上記噴射ガスが、Nであることを特徴とする、本発明の第8の手段に記載のエアゾール組成物である。 A 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, characterized in that the propellant gas is N 2 .
 本発明の手段の洗浄剤組成物及びそのエアゾール組成物は、その主要成分として配合されるHFO系の不燃性フッ素系溶剤とPFC系の不燃性フッ素系溶剤とが、いずれも引火点がなく、不燃性である。そのため、それらの洗浄剤組成物及びそのエアゾール組成物使用環境における引火の危険性および火災時のリスクが低い。そして、この主要成分であるHFO系の不燃性フッ素系溶剤とPFC系の不燃性フッ素系溶剤は、いずれも消防法上の非危険物に該当することから、危険物倉庫が不要で、大量使用する洗浄剤組成物の保管量に法的な制限がない。また、上記各成分は、いずれも毒性が低く、オゾン層破壊などの環境負荷が小さいため、人体や環境に配慮された製品となる。その上、本発明の手段の洗浄剤組成物及びそのエアゾール組成物は、従来のブレーキクリーナーに遜色のない洗浄性を備えつつも、従来のブレーキクリーナーよりもゴムや樹脂に対するアタック性が極めて低いという、優れた特性を発揮するものとなっている。 In the detergent composition of the means of the present invention and the aerosol composition thereof, both the HFO non-combustible fluorine-based solvent and the PFC non-combustible fluorine-based solvent blended as main components have no flash point, It is nonflammable. Therefore, the danger of ignition and the risk at the time of fire in the use environment of those cleaning compositions and their aerosol compositions are low. And since both HFO non-flammable fluorine solvents and PFC non-flammable fluorine solvents that are main components fall under non-hazardous substances under the Fire Service Law, there is no need for a warehouse for dangerous goods, and they are used in large quantities There is no legal restriction on the storage amount of the cleaning composition. Moreover, since each of the above components has low toxicity and low environmental load such as ozone layer destruction, it becomes a product that is considered human body and environment. Moreover, the cleaning agent composition of the means of the present invention and the aerosol composition thereof have a cleaning property comparable to that of the conventional brake cleaner, but have an extremely lower attack on rubber and resin than the conventional brake cleaner. , Has exhibited excellent characteristics.
 本発明を実施するための最良の形態について、以下に表を参照して、本発明の手段の洗浄剤組成物およびそのエアゾール組成物について説明する。 The best mode for carrying out the present invention will be described with reference to the following table, the detergent composition of the means of the present invention and its aerosol composition.
 <主要成分について>
 本発明の手段の洗浄剤組成物およびそのエアゾール組成物の主要成分について説明する。本発明の手段の洗浄剤組成物およびそのエアゾール組成物には、HFO系の不燃性フッ素系溶剤と、PFC系の不燃性フッ素系溶剤との2成分を含有させるものとする。
<About major components>
The main components of the detergent composition of the means of the present invention and its aerosol composition will be described. The cleaning agent composition of the means of the present invention and the aerosol composition thereof contain two components, a HFO-based nonflammable fluorine-based solvent and a PFC-based nonflammable fluorine-based solvent.
 上記HFO系の不燃性フッ素系溶剤は、樹脂およびエラストマーの変質、失透または溶解などを生じさせる(非特許文献1)ため、樹脂およびエラストマーを用いたものの洗浄剤の成分として、そのまま用いることは好ましくない。また、上記PFC系のフッ素系溶剤は、水や油に対する相溶性はほとんどない(非特許文献2)。 The above-mentioned HFO-based nonflammable fluorine-based solvents cause deterioration, devitrification or dissolution of resins and elastomers (Non-Patent Document 1), and therefore, they can be used as they are as cleaning agent components of resins and elastomers. Not desirable. Moreover, the said PFC type fluorine-type solvent has little compatibility with water or oil (nonpatent literature 2).
 ところが、そのような洗浄剤組成物に配合する成分としては不適であるHFO系の不燃性フッ素系溶剤を、水や油に対する相溶性はほとんどないPFC系の不燃性フッ素系溶剤と共に含有させたものとすると、予想外にも、樹脂およびエラストマーに対する変質、失透、溶解などの影響を生じさせることがなくなるとともに、従来の洗浄剤組成物よりもより幅広く優れた洗浄特性を有する組成物となった。そこで、HFO系の不燃性フッ素系溶剤とPFC系の不燃性フッ素系溶剤とを主要な成分として共に含有させたものとすることで、各種の安全性を保持しつつ、より幅広い種類の素材に対して利用できる優れた特性を備えた、新たな洗浄剤組成物およびそのエアゾール組成物の提供が可能となった。 However, an HFO-based nonflammable fluorine-based solvent, which is unsuitable as a component to be added to such a cleaning agent composition, is contained together with a PFC-based nonflammable fluorine-based solvent having little compatibility with water or oil. Then, unexpectedly, the resin and the elastomer are not affected by deterioration, devitrification, dissolution and the like, and the composition has a wider range of excellent cleaning properties than the conventional cleaning agent composition. . Therefore, by including both HFO nonflammable fluorine solvent and PFC nonflammable fluorine solvent as main components, various types of materials can be maintained while maintaining various safety. It has become possible to provide a new detergent composition and its aerosol composition with excellent properties that can be used against it.
 <HFO系の不燃性フッ素系溶剤について>
 上述した本発明の手段の洗浄剤組成物およびそのエアゾール組成物には、必須となる2成分のうちの一方の成分として、ハイドロフルオロオレフィン系の溶剤であるHFO系の不燃性フッ素系溶剤を含有するものとする。HFO系の不燃性フッ素系溶剤としては、(Z)-1-クロロ-3,3,3-トリフルオロプロペン、1,1-ジクロロ-3,3,3-トリフルオロプロペン、1,2-ジクロロ-3,3,3-トリフルオロプロペン、2,3,3-トリクロロ-3-フルオロプロペン、AMOLEA(登録商標) AS-300などの不燃性の溶剤を用いることができる。これらHFO系の不燃性フッ素系溶剤は、市販されているものを入手するなどして利用することができる((Z)-1-クロロ-3,3,3-トリフルオロプロペン(1233Z)(セントラル硝子株式会社,日本)、1,1-ジクロロ-3,3,3-トリフルオロプロペン(マトリクスサイエンティフィック、米国)、AMOLEA(登録商標) AS-300(AGC株式会社、日本)など)。
<About HFO-based nonflammable fluorine-based solvents>
The detergent composition of the means of the present invention and the aerosol composition thereof contain an HFO-based nonflammable fluorine-based solvent, which is a hydrofluoroolefin-based solvent, as one of the two essential components. It shall be. As non-flammable fluorine solvents of the HFO type, (Z) -1-chloro-3,3,3-trifluoropropene, 1,1-dichloro-3,3,3-trifluoropropene, 1,2-dichloro Noncombustible solvents such as -3,3,3-trifluoropropene, 2,3,3-trichloro-3-fluoropropene, 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 Inc., Japan) and the like.
 上記のHFO系の不燃性フッ素系溶剤は、引火点がなく爆発限界試験方法ASTM E681による燃焼範囲もない、不燃性の溶剤である。また、オゾン層破壊係数ODPが低く、もしくは実質的にゼロで地球温暖化係数GWPが<1など、環境性に配慮された化学的性質を有している。そのため、オゾン層保護法、地球温暖化対策推進法、フロン排出抑制法、消防法、高圧ガス保安法などにおいて特定される成分には該当せず、その利用に特別な制限がかかるものではない。保管にあたり危険物倉庫が不要で、保管量に法的な制限がない。 The above-mentioned HFO-based nonflammable fluorine-based solvents are nonflammable solvents which have no flash point and no burning range according to the explosion limit test method ASTM E681. In addition, it has environmentally friendly chemical properties such as a low ozone depletion potential ODP or substantially zero global warming potential GWP <1. Therefore, it does not correspond to the component specified by the ozone layer protection law, the global warming measure promotion law, the Freon emission control law, the Fire Service Law, the High Pressure Gas Safety Law, etc., and its use is not particularly restricted. There is no need to store hazardous materials in storage, and there is no legal limit on storage volume.
 その一方で、上記のHFO系の不燃性フッ素系溶剤は、樹脂に対する侵襲性を有している。そのため、上記のHFO系の不燃性フッ素系溶剤、例えば、(Z)-1-クロロ-3,3,3-トリフルオロプロペンや1,1-ジクロロ-3,3,3-トリフルオロプロペンが軟質のポリ塩化ビニル(PVC)樹脂やフェノール樹脂に作用すると該樹脂が変質し、樹脂製品の重量や寸法に変化が生じる。また、ポリカーボネートの樹脂に作用すると、該樹脂を白化・失透させてしまう。さらに、アクリル(PMMA)樹脂、アクリロニトリルとブタジエンとスチレンとの共重合合成樹脂であるABS樹脂やポリスチレン樹脂に作用すると、それらの樹脂を軟化させたり溶解してしまうこととなる。このように、上記のHFO系の不燃性フッ素系溶剤は、樹脂材料との適合性が悪い。 On the other hand, the above-mentioned HFO-based nonflammable fluorine-based solvent is invasive to 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 the resin acts on polyvinyl chloride (PVC) resin or phenol resin, the resin is denatured, and the weight and size of the resin product change. In addition, when it acts on a polycarbonate resin, the resin becomes whitened and devitrified. Further, when acting on an acrylic (PMMA) resin, an ABS resin or a polystyrene resin which is a copolymerization synthetic resin of acrylonitrile, butadiene and styrene, these resins are softened or dissolved. As described above, the HFO-based nonflammable fluorine-based solvent has poor compatibility with resin materials.
 また、上記のHFO系の不燃性フッ素系溶剤は、各種のエラストマーに対しても侵襲性を有している。そのため、HFO系の不燃性フッ素系溶剤、例えば、(Z)-1-クロロ-3,3,3-トリフルオロプロペンや1,1-ジクロロ-3,3,3-トリフルオロプロペンがSBR、クロロプレンゴム、ブチルゴム、EPDMおよびCSMに作用すると、それらエラストマーが変質して重量や寸法に変化が生じる。また、シリコーンゴム、天然ゴム、HNBR、NBR、フッ素ゴムおよびウレタンゴムに作用すると、それらエラストマーが膨潤してしまう。このように、HFO系の不燃性フッ素系溶剤は、そのままでは、エラストマーとの適合性が悪い。 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 acting on rubber, butyl rubber, EPDM and CSM, these elastomers are degraded to cause changes in weight and size. In addition, when acting on silicone rubber, natural rubber, HNBR, NBR, fluororubber and urethane rubber, these elastomers swell. Thus, the HFO-based nonflammable fluorine-based solvent has poor compatibility with the elastomer as it is.
 しかし、上述したHFO系の不燃性フッ素系溶剤が有する樹脂適合性の悪さや乾燥性の高さといった自動車、二輪自動車、自転車、建機、農機、航空機、鉄道車両、船舶などの各種車両・乗物・輸送機関などに用いる洗浄剤組成物に不適切な特性は、予想外にも、洗浄剤組成物とするには不適切な水や油に対する相溶性はほとんどないという特性を有するPFC系の不燃性フッ素系溶剤を共に含有させることにより解消され、より優れた洗浄剤組成物が提供される。 However, various vehicles and vehicles such as automobiles, two-wheeled vehicles, bicycles, construction machines, agricultural machines, aircrafts, railway vehicles, ships, etc., such as the resin compatibility of the non-combustible fluorine-based solvents of HFO series mentioned above or the drying property・ The property which is not suitable for the detergent composition used for transportation etc. is the noncombustibility of PFC system having the property that there is little compatibility with water and oil which is unsuitable for making a detergent composition unexpectedly It is eliminated by containing together a fluorochemical solvent, and a better detergent composition is provided.
 <PFC系の不燃性フッ素系溶剤について>
 上述した本発明の手段の洗浄剤組成物およびそのエアゾール組成物は、必須となる2成分のうちの他方の成分として、PFC系の不燃性フッ素系溶剤を1つ以上含有するものとする。このPFC系のフッ素系溶剤は、引火点がなく、燃焼点(下限)並びに燃焼点(上限)が共に非検出の、不燃性である。消防法上の非危険物に該当し、危険物倉庫が不要で、保管量に法的な制限がない。
<About PFC-based nonflammable fluorine solvents>
The detergent composition of the means of the present invention and the aerosol composition thereof contain one or more PFC nonflammable fluorine-based solvents as the other of the two essential components. This PFC type fluorine-based solvent is nonflammable, having no flash point and neither the combustion point (lower limit) nor the combustion point (upper limit) being detected. It corresponds to a non-hazardous material under the Fire Service Act, does not require a hazardous material warehouse, and has no legal limit on the storage volume.
 その一方で、PFC系の不燃性フッ素系溶剤は、水や油に対する相溶性はほとんどない(非特許文献2)。 On the other hand, PFC nonflammable fluorine-based solvents have little compatibility with water and oil (Non-patent Document 2).
 しかし、このPFC系の不燃性フッ素系溶剤が有する水や油に対する相溶性はほとんどないという洗浄剤組成物に不適切な特性は、予想外にも、各種車両・乗物・輸送機関などに用いる洗浄剤組成物とするには不適切な他の特性を有するHFO系の不燃性フッ素系溶剤を共に含有させることにより解消され、より優れた洗浄剤組成物が提供される。 However, the property unsuitable for the cleaning agent composition that this PFC type nonflammable fluorine-based solvent has little compatibility with water and oil is unexpectedly used for cleaning for various vehicles, vehicles, transportation, etc. It is solved by including together an HFO-based nonflammable fluorine-based solvent having other properties which are unsuitable for making the agent composition, and a better detergent composition is provided.
 本発明の手段の洗浄剤組成物およびそのエアゾール組成物におけるPFC系の不燃性フッ素系溶剤としては、たとえば、フロリナートTMFC-40、およびフロリナートTMFC-3283や、それらから選択される1つまたはそれ以上を用いるものとする。 The nonflammable fluorinated solvent of the PFC system in detergent compositions and aerosol compositions of the means of the present invention, for example, Fluorinert TM FC-40, and or Fluorinert TM FC-3283, one is selected from them or More than that shall be used.
 PFC系の不燃性フッ素系溶剤のフロリナートTMFC-40およびフロリナートTMFC-3283は、スリーエム ジャパン株式会社(日本)から市販されているものを入手し利用することができる。この溶剤は、引火点(TCC,COC)がなく、燃焼範囲もない、不燃性の溶剤である。消防法上の非危険物に該当し、危険物倉庫が不要で、保管量に法的な制限がない。 Fluorinert TM FC-40 and Fluorinert TM FC-3283 of the PFC nonflammable fluorine-based solvent can be utilized to obtain those commercially available from 3M Corporation (Japan). This solvent is a nonflammable solvent which has no flash point (TCC, COC) and no combustion range. It corresponds to a non-hazardous material under the Fire Service Act, does not require a hazardous material warehouse, and has no legal limit on the storage volume.
 <HFO系の不燃性フッ素系溶剤と、PFC系の不燃性フッ素系溶剤との質量比について>
 本発明の手段の洗浄剤組成物およびそのエアゾール組成物においては、自動車、二輪自動車、自転車、建機、農機、航空機、鉄道車両、船舶などの各種車両・乗物・輸送機関の洗浄や、作業者の使用した工具、作業場、ピット、工場の洗浄に用いることを考慮すると、溶剤がそもそも不燃性であるという特性に加え、さらに、樹脂やエラストマーに対する侵襲性をより低くし、油脂類などへの相溶性をより高め、かつ、金属、樹脂及びエラストマーなどの様々な素材からなる部材に対するより優れた洗浄性と、適度な乾燥速度をもたらすものとなるよう、含有される二成分であるHFO系の不燃性フッ素系溶剤とPFC系の不燃性フッ素系溶剤との質量比の範囲を調節することが好ましい。
<About the mass ratio of HFO-based nonflammable fluorine-based solvent to 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 and vehicles such as automobiles, two-wheeled vehicles, bicycles, construction machines, agricultural machines, aircrafts, railway vehicles, ships and vehicles, workers In addition to the property that the solvent is noncombustible in the first place considering that it is used for cleaning the used tool, work place, pit, and factory, it further lowers the invasiveness to resin and elastomer, and the phase to fats and oils etc. Non-combustible to the HFO system, which is contained in two components so as to improve the solubility and to provide better cleaning performance to members made of various materials such as metals, resins and elastomers, and appropriate drying speed. It is preferable to adjust the range of the mass ratio of the fluorocarbon solvent to the nonflammable fluorine solvent of PFC type.
 そして、樹脂やエラストマーに対するより低い侵襲性、より高い油脂類などへの相溶性、金属、樹脂及びエラストマーなどの様々な素材からなる部材に対する優れた洗浄性と適度な乾燥速度を有するといった優れた特性を複数あわせ持つようにするため、本発明の手段の洗浄剤組成物およびそのエアゾール組成物において含有される二成分であるHFO系の不燃性フッ素系溶剤とPFC系の不燃性フッ素系溶剤との質量比の範囲は、99/1~1/99とする。洗浄対象となる油脂類の種類と、侵襲の抑止対象となる洗浄対象部位やその周辺部位において併用される樹脂及びエラストマーの種類とに合わせて、HFO系の不燃性フッ素系溶剤とPFC系の不燃性フッ素系溶剤との質量比の範囲を、それぞれ調節した洗浄剤組成物およびそのエアゾール組成物を提供することができる。 In addition, it has excellent properties such as having low invasiveness to resins and elastomers, higher compatibility with higher fats and oils, etc., and excellent cleaning properties and moderate drying rates for members made of various materials such as metals, resins and elastomers. The cleaning agent composition according to the means of the present invention and the aerosol composition of the means of the present invention are a HFO-based nonflammable fluorine-based solvent and a PFC-based nonflammable fluorine-based solvent contained in the aerosol composition. The range of mass ratio is 99/1 to 1/99. HFO-based nonflammable fluorine-based solvents and PFC-based noncombustibles according to the types of oils and fats to be cleaned and the types of resins and elastomers used in combination in the site to be cleaned and the surrounding area to be used for suppression of invasion. It is possible to provide a cleaning composition and an aerosol composition thereof, in which the range of the mass ratio to the fluorocarbon solvent is adjusted respectively.
 例えば、本発明の手段の洗浄剤組成物およびそのエアゾール組成物において含有される二成分が、HFO系の不燃性フッ素系溶剤が(Z)-1-クロロ-3,3,3-トリフルオロプロペン、PFC系の不燃性フッ素系溶剤がフロリナートTMFC-40またはフロリナートTMFC-3283とである場合には、その質量比(HFO系の不燃性フッ素系溶剤/PFC系の不燃性フッ素系溶剤)の範囲は、99/1~1/99とし、好ましくは99/1~10/90、より好ましくは90/10~30/70とすることができるが、対象となる顧客の利用状況に適合したものとなるよう、溶解させようとする油脂の種類や、侵襲から防御すべき樹脂やエラストマーの種類に合わせ、また、コストのバランスを考慮しながら、上記質量比の範囲の中から好適なものを選択して用いても良い。それにより、樹脂やエラストマーに対するより低い侵襲性、より高い油脂類などへの相溶性、金属、樹脂及びエラストマーなどの様々な素材からなる部材に対する優れた洗浄性と適度な乾燥速度を有するといった優れた特性を複数あわせ持つようにすることが可能となり、洗浄剤組成物およびそのエアゾール組成物として好適に使用できるものとなる。 For example, the detergent composition according to 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 , if the PFC nonflammable fluorine-based solvent is Fluorinert TM FC-40 or Fluorinert TM FC-3283 Doo, the mass ratio (HFO-based nonflammable fluorinated solvent / PFC-based nonflammable fluorine-based solvent in) The range of is from 99/1 to 1/99, preferably from 99/1 to 10/90, more preferably from 90/10 to 30/70, but adapted to the usage situation of the target customer Depending on the type of fat to be dissolved, the type of resin or elastomer to be protected from insult, and the balance of the cost, the weight ratio within the above range. It may be used to select an et preferred. As a result, the resin, elastomer, etc. have lower invasiveness, higher compatibility with oils and fats, etc., and excellent cleaning ability and moderate drying speed for members made of various materials such as metal, resin and elastomer. It becomes possible to have a plurality of properties in combination, and it can be suitably used as a detergent composition and its aerosol composition.
 <他の成分について>
 本発明の手段の洗浄剤組成物及びそのエアゾール組成物は、上述した洗浄剤組成物としての主要な2成分に加えて、さらに必要に応じて、引火の危険性や火災時のリスクを高めない程度において配合されたものとしてもよい。上記追加成分が配合されたものとする場合には、洗浄剤組成物としての不燃性または消防法における非危険物としての特性を保持しながらも、主要な2成分により達成される、HFO系の不燃性フッ素系溶剤そのものが保持する樹脂やエラストマーに対する侵襲性を低減し、かつ、油脂成分に対する洗浄性と適度な乾燥速度を保持するという特性を保持できる範囲内において配合されたものとする。この配合される成分としては、アルコール類、飽和炭化水素、不飽和炭化水素、芳香族炭化水素、安定剤、キレート剤などを挙げることができ、例えば、3MTM NOVECTM7200、3MTM NOVECTM7300などのHFE系溶剤、メタノール、エタノール、イソプロピルアルコール、ブタノールなどのアルコール類、ノルマルヘキサン、シクロヘキサン、イソヘキサンなどの炭化水素系溶剤、アセトン、MEK、シクロヘキサノンなどのケトン系溶剤、酢酸エチル、酢酸メチル、酢酸ブチル、エチレングリコールモノメチル エーテルアセテートなどのエステルおよびグリコールエステル系溶剤、メチルセロソルブ、ブチルセロソルブ、メトキシメチルブタノール、ヘキシルジグリコールなどのエーテル及びグリコールエーテル系溶剤、エチレングリコールジメチルエーテル、ジエチレングリコールジメチルエーテルなどのグライム系溶剤、HCFC-141b、HCFC-225、1-ブロモプロパン、クロロホルムなどの塩素系溶剤、N-メチル-2-ピロリドン、テトラヒドロフラン、ジメチルホルムアミドなどの特殊溶剤、γ-ブチロラクトン、1,3-ジオキソラン、ジメチルスルホキシドなどのその他の溶剤が配合されたものとすることができる。
<About other ingredients>
The detergent composition of the means of the present invention and the aerosol composition thereof, in addition to the main two components as the above-mentioned detergent composition, do not, if necessary, increase the risk of fire or fire. It may be compounded in degree. When the above-mentioned additional components are incorporated, the HFO system is achieved by the two main components while maintaining the non-combustibility as a detergent composition or the non-hazardous property in the Fire Service Law. The non-combustible fluorine-based solvent itself is incorporated in a range capable of reducing the invasiveness to the resin or elastomer held by the non-combustible fluorine-based solvent itself and maintaining the cleaning property for the oil component and the appropriate drying rate. Examples of components this is compounded, alcohols, saturated hydrocarbons, unsaturated hydrocarbons, aromatic hydrocarbons, stabilizers, and the like can be illustrated chelating agent, for example, 3M TM NOVEC TM 7200,3M TM NOVEC TM 7300 HFE solvents such as methanol, alcohols such as methanol, ethanol, isopropyl alcohol and butanol, hydrocarbon solvents such as normal hexane, cyclohexane and isohexane, ketone solvents such as acetone, MEK and cyclohexanone, ethyl acetate, methyl acetate, acetic acid Esters and glycol ester solvents such as butyl and ethylene glycol monomethyl ether acetate, and ether and glycol ether solvents such as methyl cellosolve, butyl cellosolve, methoxymethyl butanol and hexyl diglycol Glyme solvents such as ethylene glycol dimethyl ether, diethylene glycol dimethyl ether, chlorinated solvents such as HCFC-141b, HCFC-225, 1-bromopropane, chloroform, special solvents such as N-methyl-2-pyrrolidone, tetrahydrofuran, dimethylformamide, Other solvents such as γ-butyrolactone, 1,3-dioxolane and dimethylsulfoxide can be blended.
 <エアゾール組成物について>
 エアゾール組成物における噴射ガスとしては、液化ガスや圧縮ガスを使用することができる。例えば、LPG(液化石油ガス)、DME(ジメチルエーテル)、炭酸ガス、フロン系ガス、(E)-1,3,3,3-テトラフルオロプロパ-1-エン、窒素ガス、アルゴンなどの希ガス、圧縮空気などのガスやLPGとDMEの混合物、LPGと炭酸ガスとの混合物などといった上記のガスを二種以上組み合わせたものをあげることが出来る。そして、本発明の手段の洗浄剤組成物と上記の噴射ガスを混合してエアゾール組成物とし、耐圧缶に充填して提供することが出来る。
<About aerosol composition>
A liquefied gas or a compressed gas can be used as the propellant gas in the aerosol composition. For example, LPG (liquefied petroleum gas), DME (dimethyl ether), carbon dioxide gas, fluorocarbon gas, (E) -1,3,3,3-tetrafluoroprop-1-ene, nitrogen gas, rare gases such as argon, A gas such as compressed air, a mixture of LPG and DME, a mixture of LPG and carbon dioxide, and the like can be mentioned as a combination of two or more of the above gases. Then, the cleaning agent composition of the means of the present invention and the above-described propellant gas can be mixed to form an aerosol composition, which can be provided by filling it into a pressure resistant can.
 <使用方法について>
 本発明の手段の洗浄剤組成物の溶液は、洗浄対象となる自動車、二輪自動車、自転車、建機、農機、航空機、鉄道車両、船舶などの各種車両・乗物・輸送機関の金属、樹脂及びエラストマーなどの様々な素材からなる部材や、作業者の使用した工具、作業場、ピット、工場に塗布して用いたり、それらの洗浄対象を洗浄剤組成物の溶液に浸漬させて用いることができる。また、本発明の手段の洗浄剤組成物を噴射ガスとなる液化ガスと混合したエアゾール組成物を耐圧缶に充填してエアゾール化させ、または、本発明の手段の洗浄剤組成物をペール缶に入れ、使用する作業場に移動式小型充填機を設置し、圧縮空気によりペール缶に入れた洗浄剤組成物をエアゾール化させ、洗浄対象となる金属や樹脂及びエラストマーなどの様々な素材からなる部材に、エアゾールとして吹き付けて用いることができる。
<How to use>
The solution of the cleaning agent composition according to the means of the present invention is a metal, resin and elastomer of various vehicles, vehicles and vehicles such as automobiles, two-wheeled vehicles, bicycles, construction machines, agricultural machines, aircraft, railway vehicles and ships to be cleaned. The material may be applied to members made of various materials such as tools, tools used by workers, work places, pits, and factories, or objects to be cleaned may be used by being immersed in a solution of the cleaning composition. In addition, an aerosol composition in which the cleaning agent composition of the means of the present invention is mixed with a liquefied gas serving as a propellant gas is filled in a pressure can and aerosolized, or the cleaning agent composition of the means of the present invention is used as a pale can A portable small-sized filling machine is installed at the work place to be used, and the cleaning composition put in a pail can be aerosolized by compressed air, and it is a member made of various materials such as metal, resin and elastomer to be cleaned. It can be used by spraying as an aerosol.
 以下に、本発明の洗浄剤組成物およびそのエアゾール組成物を製造し使用した例を、実施例及び試験例として示す。 Below, the example which manufactured and used the cleaning composition of this invention and its aerosol composition is shown as an Example and a test example.
 <試験用サンプルについて>
 試験用サンプルを調製するため、本発明の洗浄剤組成物に用いる成分と、従来の洗浄剤とを、購入する。
 本発明の洗浄剤組成物に用いる成分であるHFO系の不燃性フッ素系溶剤としては、(Z)-1-クロロ-3,3,3-トリフルオロプロペンである1233Z(セントラル硝子株式会社,日本)および1,1-ジクロロ-3,3,3-トリフルオロプロペン(マトリクスサイエンティフィック、米国)を購入した。さらに、AGC株式会社(日本)よりAMOLEA(登録商標) AS-300の供給を受けた。また、PFC系の不燃性フッ素系溶剤としては、フロリナートTMFC-40(スリーエム ジャパン株式会社,日本)またはフロリナートTMFC-3283(スリーエム ジャパン株式会社,日本)をそれぞれ購入した。
<About the test sample>
The components used in the detergent composition of the present invention and conventional detergents are purchased to prepare test samples.
As the HFO-based nonflammable fluorine-based solvent which is a component used for the cleaning composition of the present invention, (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. Furthermore, AMOLEA (registered trademark) AS-300 was supplied from AGC Corporation (Japan). In addition, as the PFC-based nonflammable fluorine-based solvents, Fluorinert TM FC-40 (3M Japan Co., Ltd., Japan) or Fluorinert TM FC-3283 (3M Japan Co., Ltd., Japan) were purchased, respectively.
 また、従来の洗浄剤として、速乾原液としては、イソヘキサンを用いる、ブレーキ&パーツクリーナー(速乾タイプ)(神戸合成株式会社,日本)を使用し、さらに、脱脂洗浄剤としては、シクロヘキサンを用いる、脱脂洗浄剤(株式会社ホンダアクセス,日本)を、常乾原液としては、イソパラフィン系溶剤の、ブレーキクリーナーN04(スズキ株式会社,日本)を、また、トリクロロエタンを、それぞれ購入した。 In addition, as a conventional cleaning agent, brake and parts cleaner (fast-drying type) (Kobe synthesis Co., Japan) is used as a quick-drying stock solution using isohexane, and cyclohexane is used as a degreasing agent. Degreasing detergent (Honda Access Co., Ltd., Japan), and as an ordinary dry stock solution, an isoparaffin based solvent, brake cleaner N04 (Suzuki Co., Ltd., Japan) and trichloroethane were purchased.
 そして、上記HFO系の不燃性フッ素系溶剤と上記各PFC系の不燃性フッ素系溶剤との質量比が以下のものとなるようにして、本発明のHFO系の不燃性フッ素系溶剤とPFC系の不燃性フッ素系溶剤とを含有してなる洗浄剤組成物である実施例1~実施例12の洗浄剤組成物を、それぞれ製造した。 The HFO-based nonflammable fluorine-based solvent of the present invention and the PFC-based solvent are controlled so that the mass ratio of the HFO-based nonflammable fluorine-based solvent to the PFC non-combustible fluorine-based solvent is as follows. The detergent compositions of Examples 1 to 12, which are detergent compositions comprising the nonflammable fluorine-based solvent of
 <HFO系の不燃性フッ素系溶剤/PFC系の不燃性フッ素系溶剤>
 ・質量比(1233Z/フロリナートTMFC-40)
 実施例1:   90/10
 実施例2:   80/20
 実施例3:   70/30
 実施例4:   50/50
 実施例5:   30/70
 実施例6:   10/90
 ・質量比(1233Z/フロリナートTMFC-3283)
 実施例7:   90/10
 実施例8:   80/20
 実施例9:   70/30
 実施例10:  50/50
 実施例11:  30/70
 実施例12:  10/90
<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
 また、以下の比較例1~4を用意した。なお、速乾原液、脱脂洗浄剤、常乾原液は、いずれも燃焼性が高く、また、トリクロロエタンは有害性が高く、これらはいずれも洗浄用組成物としては問題のある特性を有している。
 <従来品(可燃性)>
 比較例1:   速乾原液
 比較例2:   脱脂洗浄剤
 比較例3:   常乾原液
 比較例4:   トリクロロエタン
Further, the following Comparative Examples 1 to 4 were prepared. The quick-drying stock solution, the degreasing detergent, and the ordinary-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 stock solution Comparative example 2: Degreasing detergent Comparative example 3: After-drying stock solution Comparative example 4: Trichloroethane
 さらに、HFO系の不燃性フッ素系溶剤とPFC系の不燃性フッ素系溶剤の2成分を共に配合する各実施例のものと比較するため、以下の比較例5~8を用意した。
 <HFO系の不燃性フッ素系溶剤>
 比較例5:   1233Zのみ
 比較例6:   1,1-ジクロロ-3,3,3-トリフルオロプロペンのみ
 比較例9:   AS-300のみ
 <PFC系の不燃性フッ素系溶剤>
 比較例7:   フロリナートTMFC-40のみ
 比較例8:   フロリナートTMFC-3283のみ
Furthermore, the following Comparative Examples 5 to 8 were prepared in order to compare with the respective examples in which the two components of the HFO nonflammable fluorine solvent and the PFC nonflammable fluorine solvent were blended together.
<Non-flammable fluorine-based solvent of HFO series>
Comparative Example 5: Only 1233Z Comparative Example 6: Only 1,1-Dichloro-3,3,3-trifluoropropene Comparative Example 9: Only AS-300 <PFC-based nonflammable fluorine-based solvent>
Comparative Example 7: Fluorinert TM FC-40 only Comparative Example 8: Fluorinert TM FC-3283 only
 次に、以下に示す試験例1~試験例3を実施し、本発明の手段の洗浄剤組成物及びそのエアゾール組成物が、従来の洗浄剤に比して優れた特性を有するものであることを、具体的に確認した。 Next, Test Examples 1 to 3 shown below are carried out, and the cleaning agent composition of the means of the present invention and the aerosol composition thereof have superior characteristics to conventional cleaning agents. Was specifically confirmed.
 <試験例1:侵襲性の評価(短期接触)>
・材料および方法
 試験溶液として、実施例1~12ならびに比較例1~9の溶液を用意する。また、短期間の侵襲性を評価するため、次に示すテストピースを用意する。
 樹脂:ABS(アクリロニトリルブタジエンスチレン)
   :PC(ポリカーボネート)
    (いずれも、日本テストパネル株式会社)
<Test Example 1: Evaluation of invasiveness (short-term contact)>
Materials and Methods The solutions of Examples 1 to 12 and Comparative Examples 1 to 9 are prepared as test solutions. In addition, to evaluate short-term invasiveness, prepare the following test pieces.
Resin: ABS (acrylonitrile butadiene styrene)
: PC (polycarbonate)
(All are Nippon Test Panel Co., Ltd.)
 上記樹脂の各テストピース(サイズ10mmx10mmx2mmに対し、実施例1~18または比較例1~8の溶液を含ませたマイクロファイバークロスで表面の拭き取りを行う。その後、各テストピース表面の外観変化を目視および接触にて確認した。外観変化が無ければ○、変化があれば×とするとともに樹脂表面の状態を記録した。 The surface of each of the test pieces of the above resin (size 10 mm x 10 mm x 2 mm is wiped with a microfiber cloth containing the solution of Examples 1 to 18 or Comparative Examples 1 to 8. Thereafter, the appearance change of each test piece surface is visually observed. When no change in appearance was observed, the state of the resin surface was recorded.
・試験結果
 上記試験を実施した結果を表1-1~表1-3に示す。
Test Results The results of the above tests are shown in Tables 1-1 to 1-3.
Figure JPOXMLDOC01-appb-T000001
Figure JPOXMLDOC01-appb-T000001
Figure JPOXMLDOC01-appb-T000002
Figure JPOXMLDOC01-appb-T000002
Figure JPOXMLDOC01-appb-T000003
Figure JPOXMLDOC01-appb-T000003
 本発明の手段の洗浄剤組成物に用いる主要成分の1つであるHFO系の不燃性フッ素系溶剤は、溶液を含ませたマイクロファイバークロスで表面の拭き取りを行うことによる短時間の接触だけでも、ABSやPCからなる樹脂を変質させてしまうものであることが確認された(表1-1)。ABSやPCは車両・乗物・輸送機関における重要部品に汎用されており、洗浄剤組成物としてのHFO系の不燃性フッ素系溶剤のみの処理では、重要部品の品質低下が懸念される。 The HFO-based nonflammable fluorine-based solvent, which is one of the main components used in the detergent composition of the means of the present invention, is obtained by wiping the surface with a microfiber cloth containing the solution only for a short time of contact. It was confirmed that the resin consisting of ABS and PC was altered (Table 1-1). ABS and PC are widely used for important parts in vehicles, vehicles and vehicles, and there is a concern that the quality of the important parts may be lowered by treating only HFO-based noncombustible fluorine solvents as cleaning compositions.
 しかし、本発明の手段の洗浄剤組成物のように、洗浄剤組成物としてのHFO系の不燃性フッ素系溶剤に対して、水や油に対する相溶性はほとんどなく、かつ、上記重要部品の洗浄に適用することが不適な特性を有しているPFC系の不燃性フッ素系溶剤を少量でも配合したものとすることによって、驚くことに、上記重要部品に汎用される樹脂の変質は、生じなくなるものであることが明らかとなった(表1-2~表1-3)。 However, as in the detergent composition of the means of the present invention, there is almost no compatibility with water or oil with the HFO-based nonflammable fluorine-based solvent as the detergent composition, and the above-mentioned important parts are cleaned Surprisingly, deterioration of the resin widely used for the above-mentioned important parts does not occur by blending even a small amount of PFC nonflammable fluorine-based solvent having properties unsuitable for application to It became clear that it was a thing (Table 1-2-Table 1-3).
 <試験例2:グリスおよびオイルへの相溶性の評価>
 ・材料および方法
 試験例1と同様にして、試験溶液として、実施例1~12ならびに比較例1~9の溶液を用意する。
<Test Example 2: Evaluation of compatibility with grease and oil>
Materials and Methods In the same manner as in Test Example 1, the solutions of Examples 1 to 12 and Comparative Examples 1 to 9 are prepared as test solutions.
 洗浄し除去する対象となる油脂類の一例として、次に示す、自動車等において汎用される各種グリス及びオイルを用意する。
 グリス:GREASE(オレンジ)(神戸合成株式会社,日本)
    :ラバー兼用ブレーキグリス(神戸合成株式会社,日本)
    :ディスクブレーキ用グリス(神戸合成株式会社,日本)
    :ブレーキグリス(神戸合成株式会社,日本)
    :シリコングリス(神戸合成株式会社,日本)
    :キャリパーピングリス(株式会社ホンダアクセス,日本)
    :パッド&シューグリス(株式会社ホンダアクセス,日本)
    :ラバーグリス(株式会社ホンダアクセス,日本)
    :ブレーキグリス(株式会社ホンダアクセス,日本)
 オイル:エンジンオイル Mobil1 0W-20(エクソンモービル,米国)
    :ブレーキフルード(DOT3)(株式会社ホンダアクセス,日本)
    :ブレーキフルード(DOT4)(スズキ株式会社,日本)
As an example of fats and oils to be cleaned and removed, various greases and oils generally used in automobiles and the like shown below are prepared.
Grease: GREASE (Orange) (Kobe Kogyo Co., Ltd., Japan)
: Rubber combined brake grease (Kobe Kogyo Co., Ltd., Japan)
: Grease for disc brakes (Kobe Kogyo Co., Ltd., Japan)
: Brake grease (Kobe Kogyo Co., Ltd., Japan)
: Silicone grease (Kobe Kogyo Co., Ltd., Japan)
: Caliper Pingris (Honda Access, Japan)
: Pad & Shoe (HONDA ACCESS CO., LTD., Japan)
: Rubber grease (HONDA ACCESS CO., LTD., Japan)
: Brake grease (HONDA ACCESS CO., LTD., Japan)
Oil: Engine oil Mobil 1 0 W-20 (Exxon Mobil, USA)
: Brake fluid (DOT3) (HONDA ACCESS CO., LTD., Japan)
: Brake fluid (DOT 4) (Suzuki Corporation, Japan)
 10mLバイアル瓶をそれぞれの溶液毎に用意し、上記グリスまたはエンジンオイルをそれぞれ1g入れる。そのバイアル瓶に、さらに実施例または比較例の溶液を5mL加え、バイアル瓶の蓋を閉じる。各バイアル瓶を、超音波洗浄機(AU16C、アイワ医科工業株式会社,日本)にて1時間超音波処理する。
 1時間の超音波処理後に、超音波洗浄機から各バイアル瓶を取り出す。バイアル瓶の内部を確認し、グリスまたはエンジンオイルと、実施例または比較例の溶液とが、完全に混ざっていれば○、一部分離していれば△、完全に分離していれば×として、相溶性を評価する。なお、用いる溶液が少量となる場合には、使用量に比例した液量にて試験を行う。
Prepare 10 mL vials 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 is sonicated for 1 hour in an ultrasonic cleaner (AU 16 C, AIWA Medical Industries Ltd., Japan).
After one hour of sonication, remove each vial from the sonicator. The inside of the vial is checked, and if the grease or engine oil and the solution of Example or Comparative Example are completely mixed, ○, if it is partially separated, Δ if it is completely separated, × if it is completely separated Evaluate solubility. In addition, when the solution to be used becomes small, it tests by the liquid quantity proportional to usage-amount.
・試験結果
 上記試験を実施した結果を表2-1~表2-3に示す。
Test Results The results of the above tests are shown in Tables 2-1 to 2-3.
Figure JPOXMLDOC01-appb-T000004
Figure JPOXMLDOC01-appb-T000004
Figure JPOXMLDOC01-appb-T000005
Figure JPOXMLDOC01-appb-T000005
Figure JPOXMLDOC01-appb-T000006
Figure JPOXMLDOC01-appb-T000006
 各種のPFC系の不燃性フッ素系溶剤は、グリスまたはブレーキオイルにほとんど相溶性を有しないため(表3-1の比較例7~比較例8)、グリスまたはブレーキオイルなどの油脂成分による汚れを除去するための洗浄剤とするには不適である。また、HFO系の不燃性フッ素系溶剤は相溶性を適度に有するものの、試験例1の試験結果でも明らかなように樹脂やエラストマーへの侵襲性を有することから各種車両・乗物・輸送機関などに用いる洗浄剤組成物には不適である。このように、各種のHFO系の不燃性フッ素系溶剤ならびにPFC系の不燃性フッ素系溶剤は、ともに各種車両・乗物・輸送機関などに用いる洗浄剤組成物に加える動機付けを欠くものである。 Since various PFC nonflammable fluorine-based solvents have almost no compatibility with grease or brake oil (Comparative Example 7 to Comparative Example 8 in Table 3-1), dirt due to grease components such as grease or brake oil can be eliminated. Not suitable for use as a cleaning agent to remove. In addition, although HFO-based nonflammable fluorine-based solvents have appropriate compatibility, they have invasiveness to resins and elastomers as evidenced by the test results of Test Example 1, and therefore they can be used in various vehicles, vehicles, and transport vehicles. It is unsuitable for the detergent composition to be used. As described above, various HFO-based nonflammable fluorine-based solvents and PFC non-flammable fluorine-based solvents both lack motivation to be added to cleaning compositions used for various vehicles, vehicles, transportation vehicles, and the like.
 ところが、上記のような車両・乗物・輸送機関の洗浄に用いえないHFO系の不燃性フッ素系溶剤とPFC系の不燃性フッ素系溶剤とを共に含有させたものとしても、グリスまたはブレーキオイルなどの油脂成分に対する幅広い相溶性を示すこと、すなわち、それら油脂成分に対して高い洗浄性を発揮するものとなることが確認された(表2-2~表2-3)。また、相溶性を示すHFO系の不燃性フッ素系溶剤とPFC系の不燃性フッ素系溶剤の質量比の範囲も幅広いものであった(表2-2~表2-3)。 However, grease or brake oil etc. can also be used that contains both HFO-based nonflammable fluorine-based solvents and PFC-based nonflammable fluorine-based solvents that can not be used for cleaning vehicles, vehicles and vehicles as described above. It has been confirmed that the compound exhibits a wide compatibility with the fat and oil components, that is, it exhibits high detergency to the fat and oil components (Table 2-2 to Table 2-3). Further, the range of the mass ratio of the HFO-based nonflammable fluorine-based solvent showing compatibility to the PFC non-flammable fluorine-based solvent was wide (Tables 2-2 to 2-3).
 このことから、本発明の手段のように、洗浄剤組成物およびそのエアゾール組成物をHFO系の不燃性フッ素系溶剤とPFC系の不燃性フッ素系溶剤とを含有するものとすることにより、洗浄対象となる油脂類の種類と、侵襲の抑止対象となる洗浄対象部位やその周辺部位において併用される樹脂及びエラストマーの種類とに合わせて、HFO系の不燃性フッ素系溶剤とPFC系の不燃性フッ素系溶剤との質量比の範囲を調節して、洗浄剤組成物を用いるシーンに適した特性の洗浄剤組成物およびそのエアゾール組成物を提供することが可能であることが理解される。 From this, as in the means of the present invention, the cleaning agent composition and the aerosol composition thereof are cleaned by containing the HFO nonflammable fluorine-based solvent and the PFC nonflammable fluorine based solvent. HFO-based nonflammable fluorine-based solvents and PFC-based nonflammables according to the types of target oils and fats, and the types of resins and elastomers used in combination in the area to be cleaned and the surrounding area to be treated for suppression of invasion. It is understood that it is possible to adjust the range of mass ratio with the fluorinated solvent to provide a detergent composition and its aerosol composition with properties suitable for the scene using the detergent composition.
 さらには、HFO系の不燃性フッ素系溶剤において相溶性が劣る場合のあるブレーキグリスについては、それを含む各種の油脂類に相溶性をほぼ有していないPFC系の不燃性フッ素系溶剤を配合することにより、相溶性が発揮されるものとなることも明らかとなった(表2-2~表2-3)。 Furthermore, with regard to brake grease that may be poorly compatible with HFO-based nonflammable fluorine-based solvents, it is blended with PFC-based nonflammable fluorine-based solvents that have substantially no compatibility with various oils and fats including them. It was also revealed that the compatibility is exhibited by carrying out (Table 2-2 to Table 2-3).
 このように、洗浄用組成物において、本願発明のようにHFO系の不燃性フッ素系溶剤とPFC系の不燃性フッ素系溶剤とを含有させることにより、グリスまたはブレーキオイルに対して幅広く相溶性を発揮するようになり、不燃性および低毒性でありながら、従来のブレーキクリーナーと同等以上の優れた洗浄特性を有する新たな洗浄剤組成物が提供できるようになることが理解される。 Thus, by including the HFO-based nonflammable fluorine-based solvent and the PFC non-combustible fluorine-based solvent in the cleaning composition as in the present invention, the composition is widely compatible with grease or brake oil. It will be appreciated that new detergent compositions can be provided which are rendered non-combustible and less toxic and yet have the same or better cleaning properties as conventional brake cleaners.
 <試験例3:侵襲性の評価(長期接触)>
・材料および方法
 試験例1と同様にして、試験溶液として、実施例1~12ならびに比較例1~9の溶液を用意する。
 また、侵襲性を評価するため、次に示すテストピースを用意する。
 ゴム:NR(天然ゴム)
   :CR(クロロプレンゴム)
   :SBR(スチレン・ブタジエンゴム)
   :EPDM(エチレンプロピレンゴム)
    (いずれも、株式会社スタンダードテストピース,日本より入手。)
 樹脂:ABS(アクリロニトリルブタジエンスチレン)
   :LDPE(低密度ポリエチレン)
   :PC(ポリカーボネート)
    (いずれも、日本テストパネル株式会社)
<Test Example 3: Evaluation of Invasiveness (Long-term Contact)>
Materials and Methods In the same manner as in Test Example 1, the solutions of Examples 1 to 12 and Comparative Examples 1 to 9 are prepared as test solutions.
In addition, to evaluate invasiveness, prepare the following test pieces.
Rubber: NR (Natural rubber)
: CR (chloroprene rubber)
: SBR (styrene-butadiene rubber)
: EPDM (ethylene propylene rubber)
(All are obtained from Standard Test Piece, Inc., Japan.)
Resin: ABS (acrylonitrile butadiene styrene)
: LDPE (low density polyethylene)
: PC (polycarbonate)
(All are Nippon Test Panel Co., Ltd.)
 上記のゴムまたは樹脂の各テストピース(サイズ10mmx10mmx2mm)の重量を測定する。
 次に、バイアル瓶に、実施例または比較例の溶液を20mLを入れ、その中に、上記のゴムまたは樹脂の各テストピース(サイズ10mmx10mmx2mm)を浸漬させ、そのバイアル瓶を、45℃に設定した恒温恒湿機(HPAV-120-40,株式会社いすゞ製作所,日本)に入れ、1ヶ月間静置する。
 バイアル瓶から各テストピースを取り出し、表面状態を観察した後、テストピースの重量および厚みを測定し、膨潤度を算出し、±5.0%の範囲内に収まるか否か確認するとともに、PCの透明度が失われないかについても確認する。
 用いる溶液が少量となる場合には、使用量に比例したテストピースの大きさおよび液量にて試験を行う。
The weight of each of the above rubber or resin test pieces (size 10 mm × 10 mm × 2 mm) is measured.
Next, 20 mL of the solution of Example or Comparative Example was placed in a vial, into which each test piece of rubber or resin (size 10 mm × 10 mm × 2 mm) was immersed, and the vial was set to 45 ° C. Place in a constant temperature and humidity chamber (HPAV-120-40, Isuzu Seisakusho Co., Ltd., Japan) and leave it for one month.
After taking out each test piece from the vial and observing the surface condition, the weight and thickness of the test piece are measured, the degree of swelling is calculated, and it is confirmed whether it falls within ± 5.0% and PC Also check if the transparency of is lost.
If the solution used is small, the test is performed with the size and volume of the test piece proportional to the volume used.
・試験結果
 上記試験を実施した結果を表3-1~表3-3に示す。
-Test results The results of the above tests are shown in Tables 3-1 to 3-3.
Figure JPOXMLDOC01-appb-T000007
Figure JPOXMLDOC01-appb-T000007
Figure JPOXMLDOC01-appb-T000008
Figure JPOXMLDOC01-appb-T000008
Figure JPOXMLDOC01-appb-T000009
Figure JPOXMLDOC01-appb-T000009
 試験例3では、HFO系の不燃性フッ素系溶剤を長期に接触させる際に生じるゴムまたは樹脂に対する侵襲性が、HFO系の不燃性フッ素系溶剤にPFC系の不燃性フッ素系溶剤を含有させた洗浄剤組成物とすることにより改善したものが得られること、および、ゴムまたは樹脂に対する非侵襲性に関する従来の洗浄剤との比較検証を行った。 In Test Example 3, the HFO-based nonflammable fluorine-based solvent contained a PFC-based nonflammable fluorine-based solvent in the invasiveness to the rubber or resin produced when the HFO-based nonflammable fluorine-based solvent was brought into contact for a long period of time It was verified that the composition improved by using a detergent composition, and compared with conventional detergents for non-invasiveness to rubber or resin.
 HFO系の不燃性フッ素系溶剤は、長期間に作用させた際にゴムや樹脂に対して侵襲性を有し、特に、各種車両・乗物・輸送機関などにおいて安全性を確保するために重要な装置および部品において汎用される、NR(天然ゴム)、SBR(スチレン・ブタジエンゴム)、EPDM(エチレンプロピレンゴム)を膨潤させ、ABS(アクリロニトリルブタジエンスチレン)を溶解・軟化させ、PC(ポリカーボネート)を膨潤、白化・失透させ、かつ、ひび割れさせるなど強い侵襲性を示し、それらゴムや樹脂の変質の程度は、いずれも製品としての品質が担保できなくなるものであった(表3-1)。 HFO-based nonflammable fluorine-based solvents are invasive to rubber and resin when acting for a long period of time, and are particularly important for securing safety in various vehicles, vehicles, transportation, etc. Swells NR (natural rubber), SBR (styrene butadiene rubber), EPDM (ethylene propylene rubber) widely used in equipment and parts, dissolves and softens ABS (acrylonitrile butadiene styrene), swells PC (polycarbonate) It shows strong invasiveness such as whitening, devitrification and cracking, and the degree of deterioration of these rubbers and resins is such that the quality as a product can not be secured in any case (Table 3-1).
 また、従来の洗浄剤は、そもそも可燃性であるとともに、NR、CR、SBR、EPDMのようなゴムやABS、LDPE(低密度ポリエチレン)、PCのような樹脂に対して作用させると、強い侵襲性示し、同様に製品としての品質が担保できなくなるものであった(表3-1)。 In addition, conventional cleaning agents are originally flammable, and when applied to rubbers such as NR, CR, SBR, EPDM, or resins such as ABS, LDPE (low density polyethylene), PC, etc., they are highly invasive. Similarly, the product quality could not be secured (Table 3-1).
 ところが、HFO系の不燃性フッ素系溶剤に対して、PFC系の不燃性フッ素系溶剤を配合することより、驚くことに、上記のHFO系の不燃性フッ素系溶剤を使用した際に観察されていた各種ゴムや樹脂の膨潤、溶解、白化、失透、ひび割れの現象を消失させることが可能となることが明らかとなった(表3-2~表3-3)。 However, it is surprisingly observed when the above HFO nonflammable fluorine-based solvent is used by blending the PFC nonflammable fluorine-based solvent with the HFO nonflammable fluorine-based solvent. It has become clear that it is possible to eliminate the phenomena of swelling, dissolution, whitening, devitrification and cracking of various rubbers and resins (Table 3-2 to Table 3-3).
 各種車両・乗物・輸送機関の安全性を確保するために重要な装置および部品に汎用される各種のゴムや樹脂への侵襲性を示さないという新たな特性を有する洗浄剤組成物を作ることができる本発明は、侵襲性を有する従来の洗浄剤を置き換えるのに大変有効な手段を提供するものであることが理解される。また、本発明の手段の洗浄剤組成物は、長期に使用し続けても、ゴムや樹脂に対する侵襲性が生じる懸念が大変少ないものであることが理解される。 To create a cleaning composition having a new characteristic of not showing the invasiveness to various rubbers and resins generally used for devices and parts important for securing the safety of various vehicles, vehicles and vehicles. It is understood that the present invention which is capable provides a very effective means to replace conventional cleaning agents which are invasive. In addition, it is understood that the detergent composition of the means of the present invention is very less likely to be invasive to rubber and resin, even if it is used for a long time.
 また、HFO系の不燃性フッ素系溶剤は製造可能な量に限りがあるところ、本発明の手段の洗浄剤組成物は、HFO系の不燃性フッ素系溶剤とPFC系の不燃性フッ素系溶剤とを混合して製造されることから、洗浄剤組成物としての供給可能量を増加させ、製品供給の滞りを防ぐ効果も有することが理解される。 In addition, although the HFO nonflammable fluorine-based solvent is limited in the amount that can be produced, the cleaning agent composition of the means of the present invention comprises the HFO nonflammable fluorine based solvent and the PFC nonflammable fluorine based solvent It is understood that it has an effect of increasing the supply amount as a detergent composition and preventing the stagnation of the product supply, since it is manufactured by mixing B.
 上記ゴムのうち、SBR(スチレン・ブタジエンゴム)は、自動車のブレーキ液系のシール用やタイヤなどにも使用されているため、ブレーキ装置やその周辺の洗浄に用いる洗浄剤においてはSBRに対する浸食性が低いことが望まれる。また、PC(ポリカーボネート)もブレーキ装置など制御系機構において用いられる。ところが、本発明のように、HFO系の不燃性フッ素系溶剤に対して、PFC系の不燃性フッ素系溶剤を配合することより、驚くことに、SBRやPCに対する浸食性の問題をも十分に減じ、それらの膨潤率を製品の品質が一定程度保持できる5%以下にまでに抑え込むことができた。 Among the above-mentioned rubbers, SBR (styrene-butadiene rubber) is also used for sealing a brake fluid system of an automobile or for a tire etc. Therefore, the cleaning agent used for cleaning a brake device and its periphery is erosive to SBR. Is desired to be low. Further, PC (polycarbonate) is also used in control system mechanisms such as a brake device. However, as in the present invention, by blending a non-flammable PFC solvent of non-flammable PFC with a non-flammable fluorine solvent of HFO series, surprisingly, the problem of erosiveness to SBR and PC is sufficiently satisfied. It was possible to reduce and limit their swelling rate to 5% or less at which the product quality can be maintained to a certain extent.
 HFO系の不燃性フッ素系溶剤とPFC系の不燃性フッ素系溶剤とを洗浄剤組成物に含有させたことで、不燃性であるため、引火の危険性や火災時のリスクが低く、消防法上の非危険物に該当し、危険物倉庫が不要で、大量使用する洗浄剤組成物の保管量に法的な制限がなく、さらに、毒性が低く、オゾン層破壊などの環境負荷が小さいという特性と、従来のブレーキクリーナー用洗浄剤組成物と同等以上の洗浄性を有しつつも、ゴムや樹脂に対するアタック性が極めて低いという優れた特性を付与した、新たな洗浄剤組成物及びそのエアゾール組成物を提供することが可能となる。 The fire-fighting law and fire-fighting law are low because the HFO-based nonflammable fluorine-based solvent and the PFC non-flammable fluorine-based solvent are nonflammable because they are contained in the cleaning agent composition. It corresponds to the above non-hazardous substances, there is no need to store dangerous goods, there are no legal restrictions on the storage amount of cleaning compositions used in large quantities, and furthermore it has low toxicity and low environmental impact such as ozone layer destruction New cleaning agent composition and aerosol thereof having excellent properties such as extremely low attack property to rubber and resin while having the property and the cleaning property equal to or more than the conventional cleaning agent composition for brake cleaner It becomes possible to provide a composition.

Claims (8)

  1.  HFO系の不燃性フッ素系溶剤とPFC系の不燃性フッ素系溶剤とを含有してなることを特徴とする自動車、二輪自動車、自転車、建機、農機、航空機、鉄道車両、船舶などの各種車両・乗物・輸送機関、工具、作業場、ピット、工場の洗浄用洗浄剤組成物。 Various vehicles such as automobiles, two-wheeled vehicles, bicycles, construction machines, agricultural machines, aircrafts, railway vehicles, ships, etc., characterized in that they contain HFO-based nonflammable fluorine-based solvents and PFC nonflammable fluorine-based solvents. Cleaning compositions for vehicles and vehicles, tools, workplaces, pits and factories.
  2.  洗浄剤組成物が、自動車、二輪自動車、自転車、建機、農機、航空機、鉄道車両、船舶などの各種車両・乗物・輸送機関のブレーキクリーナー用であることを特徴とする、請求項1に記載の洗浄剤組成物。 The detergent composition is for brake cleaners of various vehicles, vehicles, vehicles such as cars, two-wheeled vehicles, bicycles, construction machines, agricultural machines, aircraft, railway vehicles, ships, etc. Detergent composition.
  3.  HFO系の不燃性フッ素系溶剤とPFC系の不燃性フッ素系溶剤との質量比(HFO系の不燃性フッ素系溶剤/PFC系の不燃性フッ素系溶剤)の範囲が99/10~1/99であることを特徴とする、請求項1または2に記載の洗浄剤組成物。 The mass ratio of the HFO nonflammable fluorine solvent to the PFC nonflammable fluorine solvent (HFO nonflammable fluorine solvent / PFC nonflammable fluorine solvent) is 99/10 to 1/99 The detergent composition according to claim 1 or 2, characterized in that
  4.  HFO系の不燃性フッ素系溶剤が、(Z)-1-クロロ-3,3,3-トリフルオロプロペン、1,1-ジクロロ-3,3,3-トリフルオロプロペン、1,2-ジクロロ-3,3,3-トリフルオロプロペン、および2,3,3-トリクロロ-3-フルオロプロペン、AMOLEA(登録商標) AS-300から選択される1つまたはそれ以上であることを特徴とする、請求項1~請求項3の何れか1項に記載の洗浄剤組成物。 HFO-based nonflammable fluorine-based solvents are (Z) -1-chloro-3,3,3-trifluoropropene, 1,1-dichloro-3,3,3-trifluoropropene, 1,2-dichloro- Claim 3,3,3-Trifluoropropene, and one or more selected from 2,3,3-trichloro-3-fluoropropene, AMOLEA® AS-300, The cleaning composition according to any one of claims 1 to 3.
  5.  PFC系の不燃性フッ素系溶剤が、フロリナートTMFC-40、およびフロリナートTMFC-3283から選択される1つまたはそれ以上であることを特徴とする、請求項1~請求項3の何れか1項に記載の洗浄剤組成物。 PFC-based nonflammable fluorine-based solvent is Fluorinert TM FC-40, and wherein the Fluorinert is TM FC-3283 1 one or more selected from, either of claims 1 to 3 1 The detergent composition according to Item.
  6.  請求項1~請求項5の何れか1項に記載の洗浄剤組成物と噴射ガスとを含有するエアゾール組成物。 An aerosol composition comprising the cleaning composition according to any one of claims 1 to 5 and a propellant gas.
  7.  噴射ガスが、N、CO、(E)-1,3,3,3-テトラフルオロプロパ-1-エン、アルゴン、LPG、DMEまたは圧縮空気であることを特徴とする、請求項6に記載のエアゾール組成物。 7. The method according to claim 6, wherein the propellant gas is N 2 , CO 2 , (E) -1,3,3,3-tetrafluoroprop-1-ene, argon, LPG, DME or compressed air. Aerosol composition as described.
  8.  噴射ガスが、Nであることを特徴とする、請求項7に記載のエアゾール組成物。 Propellant gas, characterized in that it is N 2, the aerosol composition according to claim 7.
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