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    • 4. 发明专利
    • STERILIZATION METHOD FOR OIL SOLUTION
    • JP2000167027A
    • 2000-06-20
    • JP34157498
    • 1998-12-01
    • TOYOTA CENTRAL RES & DEV
    • KAWAMURA MASUHIKO
    • A61L2/02A61L2/16A61L2/18C10M125/10C10M125/22C10M129/26C10M177/00C10N10/02
    • PROBLEM TO BE SOLVED: To improve a sterilization force, eliminate any bad effect to a work piece or a machine tool, and reduce load to a work environment or a nature environment, by adding a sterilization reinforcement composed of an alkaline metal salt of organic acid and an electrolyte for providing electric conductivity to an oil solution, and impressing direct current voltage on the oil solution to perform electrolysis of the sterilization reinforcement. SOLUTION: An alkaline metal salt of organic acid as a sterilization reinforcement is easily solved in water but has a weak sterilization action. Therefore, direct current voltage is impressed on an oil solution to which the sterilization reinforcement composed of the alkaline metal salt of organic acid and an electrolyte. Then, current flows through the oil solution to perform an electrolysis of the sterilization reinforcement, alkaline metal is deposited on an electrode to instantly become metal hydroxide. While, separated organic acid becomes 'acid' having strong sterilization action to provide excellent sterilization performance. By performing such sterilization method, off-flavor caused by putrefaction is prevented from occurring in an environment surrounding the oil solution, and the environment is kept clean. Accumulation of fungus products are prevented from causing degradation or alteration of the oil solution.
    • 6. 发明专利
    • Lubricant oil composition
    • 润滑油组成
    • JPS61127797A
    • 1986-06-16
    • JP25103484
    • 1984-11-27
    • Toyota Central Res & Dev Lab Inc
    • KAWAMURA MASUHIKOMORIYA KOJI
    • C10M141/12C10M135/02C10M139/00C10N10/12C10N30/06C10N40/00C10N40/02C10N40/25
    • PURPOSE:A lubricant oil composition that is obtained by adding molybdenum dialkyldithioarbamate and other sulfur-containing extreme pressure additives, thus reducing abrasion and friction in the sliding parts of car engines and processing machines. CONSTITUTION:The objective lubricant composition is obtained by adding (A) 0.01-0.2wt% of molybdenum dialkyldithiocarbamate and (B) 0.05-0.06wt% of a sulfur extreme pressure agent other than component A, e.g., 0.01-0.2wt% of sulfurized oil extreme pressure additive, 0.02-0.3wt% of sulfurized paraffin extreme pressure additive or 0.02-0.3wt% of elementary sulfur, calculated based on sulfur element, to a lubricant.
    • 目的:通过添加二烷基二硫代氨基甲酸二烷基酯和其他含硫极压添加剂获得的润滑油组合物,从而减少汽车发动机和加工机械的滑动部件的磨损和摩擦。 构成:目标润滑剂组合物是通过将(A)0.01-0.2重量%的二烷基二硫代氨基甲酸钼和(B)0.05-0.06重量%的除组分A以外的硫极压剂,例如0.01-0.2重量%的硫化物 油极压添加剂,0.02-0.3重量%的硫化石蜡极压添加剂或基于硫元素计算的基于硫的0.02-0.3重量%的润滑剂。
    • 8. 发明专利
    • METHOD FOR REGENERATING WASTE OIL
    • JP2000246005A
    • 2000-09-12
    • JP5047699
    • 1999-02-26
    • TOYOTA CENTRAL RES & DEV
    • KAWAMURA MASUHIKOYOSHIDA KAZUNORI
    • B01D15/00C10M175/00C10N40/04C10N40/08C10N40/25C10N40/30C11B13/00
    • PROBLEM TO BE SOLVED: To remove fine contaminates at a low cost and satisfactorily regenerate waste oil such as spent automotive engine oil by impregnating the network of a three-dimensional network structure to be formed of an oil gelling agent, with the waste oil to gelatinize it and pressing this oil gel. SOLUTION: An oil gelling agent is a chemical compound which forms a three-dimensional network structure in oil and sets (gelatinize) the oil. For example, a 12-hydroxystearic acid, dibenzylinden sorbitol, an amino acid gelling agent or the like can be used as the oil gelling agent. For the spent oil, spent automotive engine oil, spent transmission oil, spent gear oil or the like is used. The oil gelling agent is impregnated with the waste oil and this impregnation is heated and cooled to be gelatinized. Further, this oil gel is pressed into a regenerated oil. In this case, oil molecules are separated from the network structure under the pressing effect but a fine solid foreign matter or a fine deteriorated oil material contained in the spent oil is captured by the network structure and is left over. Consequently, it is possible to obtain a low viscosity and transparent regenerated oil.