241 |
Cleaning water using alkaline ion water |
JP2009135182 |
2009-06-04 |
JP2010279900A |
2010-12-16 |
ADACHI TOMOHIDE |
PROBLEM TO BE SOLVED: To obtain an alkaline ion water serving as cleaning water having high washing power even when chemically synthesized substance is not used.
SOLUTION: In an alkaline ion water preparing device 200, water entering from a water line is sent to a water cleaner 202 wherein musty smell, chlorine, trihalomethane or the like are removed, is sent to an electrolytic bath 203 composed of an anode, a cathode and a barrier membrane, and is electrolyzed to bias pH of water respectively on the anode side and cathode side via the barrier membrane, whereby two kinds of waters of acidic water and alkaline water are prepared. The alkaline ion water going out of the minus side flows toward a dedicated faucet for alkaline ion water, the acidic ion water going out of the plus side is discarded. A nano-bubble generating device is constituted of a water suction port, a nano-bubble generating means which blows air bubbles into water sucked through the water suction port and a discharge port for discharging water containing the nano-bubbles. The alkaline ion water in a water tank is circulated by using the nano-bubble generating device and thereby, the alkaline ion water containing nano-bubble water is prepared.
COPYRIGHT: (C)2011,JPO&INPIT |
242 |
Gas dissolved cleaning water supply pipe |
JP12592198 |
1998-05-08 |
JP4097778B2 |
2008-06-11 |
純一 井田; 公伸 大澤; 博志 森田 |
|
243 |
Washing method |
JP14001495 |
1995-05-15 |
JP3649771B2 |
2005-05-18 |
哲夫 水庭; 好美 白水 |
|
244 |
Water-soluble polymer, and producing method therefor and its application |
JP2004172918 |
2004-06-10 |
JP2005023308A |
2005-01-27 |
KANZAKI AKIHIKO; HENMI AKIKO; FUJII GIICHI; YAMAGUCHI SHIGERU |
<P>PROBLEM TO BE SOLVED: To obtain a water-soluble polymer which, under conditions of using high hardness water, can exhibit high calcium trapping performance and high clay dispersing performance, and to provide a method for producing such a water-soluble polymer easily and in good productivity. <P>SOLUTION: The water-soluble polymer has (1) the calcium trapping performance of ≥470 mg CaCO<SB>3</SB>/g and the clay dispersing performance of ≥0.90 in a testing liquid having a calcium concentration of 50 ppm in terms of calcium carbonate, or (2) the calcium trapping performance of ≥430 mg CaCO<SB>3</SB>/g and the clay dispersing performance of ≥0.70 in another testing liquid having the calcium concentration of 100 ppm in terms of calcium carbonate. <P>COPYRIGHT: (C)2005,JPO&NCIPI |
245 |
Method for removing solid contaminants and a fatty acid based oils having hydrophilic groups attached to the composite surface |
JP31627897 |
1997-10-31 |
JP3379570B2 |
2003-02-24 |
隆一 古城; 信 早川; 正吉 桁山 |
|
246 |
Method of cleaning microscopic structure |
JP2001034337 |
2001-02-09 |
JP2002237481A |
2002-08-23 |
MASUDA KAORU; IIJIMA KATSUYUKI; SUZUKI TETSUO; KAWAKAMI NOBUYUKI; YAMAGATA MASAHIRO |
PROBLEM TO BE SOLVED: To establish a method of cleaning a microscopic structure, which finds cleaning components to display a high cleaning force by adding the cleaning components to a liquid carbon dioxide to show an excellent cleaning effect.
SOLUTION: The method of cleaning the microscopic structure is the one that removes a material being adhered on the microscopic structure and this method of cleaning the microscopic structure is characterized in that a cleaning agent composition essentially containing a carbon dioxide, a cleaning component which is noncompatible to the carbon dioxide and a compatibilizing agent is turned into a fluid under a high pressure to bring the microscopic structure into contact with the fluid.
COPYRIGHT: (C)2002,JPO |
247 |
Method for cleaning fiber dyeing apparatus and cleaning chemical |
JP2001009941 |
2001-01-18 |
JP2002210423A |
2002-07-30 |
OZU YOICHIRO; KUWABARA KOJI |
PROBLEM TO BE SOLVED: To provide a method for cleaning a fiber dyeing apparatus, by which such a part of the fiber dyeing apparatus that contaminants and falls are apt to accumulate on the inside can be cleaned and the falls can be discharged efficiently to the outside of the fiber dyeing apparatus, and to provide a cleaning chemical.
SOLUTION: The method for cleaning the fiber dyeing apparatus where a fibrous material is dyed comprises a step to clean the fiber dyeing apparatus by the frothed fluid obtained by frothing the cleaning chemical having at least ≥100 mm frothing degree and ≤50 mm stability of the bubble in the fiber dyeing apparatus by agitation action of the jet stream or the boiling of a processing liquid.
COPYRIGHT: (C)2002,JPO |
248 |
Bleaching agent composition |
JP2000105731 |
2000-03-02 |
JP2001247897A |
2001-09-14 |
FUJIZU MASAKO; KISHI MINORU; YAJIMA KAZUMI; GINYAMA HIROYUKI |
PROBLEM TO BE SOLVED: To obtain a bleaching agent composition which shows good visible recognition at a position where it is applied since a coloring agent does not fade even when stored under a severe condition in summer, or the like, for a long term, always shows an excellent bleaching power since an alkali metal hypochlorite as a bleaching agent is very stable and assures cleaning free from care, since a surface to be washed is little dyed with a colored liquid content, thereby suitably applied to a hard surface of a bathroom, a kitchen, a toilet, and the like.
SOLUTION: This bleaching agent composition comprises (1) 0.1 to 10 wt.% of an alkali metal hypochlorite, (2) 0.1 to 5 wt.% of an alkali agent and (3) 0.0005 to 0.1 wt.% of a synthetic dye, wherein a chlorine ion content of the composition in terms of a molar concentration of sodium chloride, is not more than 1.2 times the molar concentration of the alkali metal hypochlorite.
COPYRIGHT: (C)2001,JPO |
249 |
Method for cleaning iron processed goods |
JP26022696 |
1996-09-09 |
JP3145037B2 |
2001-03-12 |
正和 中村; 仁一 伊藤 |
|
250 |
Device for preparing cleaning water for electronic materials |
JP434899 |
1999-01-11 |
JP2000208471A |
2000-07-28 |
OTA OSAMU; MORITA HIROSHI |
PROBLEM TO BE SOLVED: To provide a device for preparing a cleaning water for electronic materials that can readily prepare a cleaning water with necessary and sufficient cleaning ability, particularly a weak acid or weak base cleaning water with a low dissociation constant, by easily and accurately measuring the concentration of an acid or alkali and precisely controlling the amount of the acid or alkali added to pure water in preparation of a cleaning water used for cleaning electronic materials such as semiconductor, liquid-crystal substrate, etc.
SOLUTION: This device for preparing a cleaning water for electronic materials by adding an acid or alkali to ultra pure water has an electric conductivity measuring device 6 for measuring electric conductivity of the ultra pure water after the acid or alkali is added, an addition amount control device 7 for controlling the amount of the acid or alkali to be added, based on the value measured by the electric conductivity measuring device 6 and a chemical agent supply device for adjusting the amount of the acid or alkali added to the extra pure water.
COPYRIGHT: (C)2000,JPO |
251 |
Method of washing linen goods |
JP25470698 |
1998-09-09 |
JP2000027068A |
2000-01-25 |
NAGAMATSU MIKIHARU |
PROBLEM TO BE SOLVED: To provide a method for washing linen goods so as to secure hygiene and the safety of the working environment. SOLUTION: This method of washing linen goods with electrolytic water comprises the steps wherein the linen goods are first subjected to pretreatment washing with strongly alkaline electrolytic water being in fluid state or vibration and subsequently rinsed with rinsing water until the difference between the pH of the water after rinsed and that before rinsed comes to <=0.5, and finally, washed with strongly acidic electrolytic water being in fluid state or vibration. |
252 |
Method for removing solid pollutant with hydrophilic group adhering to surface of composite material and fatty acid-based oil |
JP31627897 |
1997-10-31 |
JPH10286537A |
1998-10-27 |
HAYAKAWA MAKOTO; KOJO RYUICHI; KETAYAMA MASAYOSHI |
PROBLEM TO BE SOLVED: To provide a method for using a composite material having photocatalytic coating not lowering performance for wash-removing solid pollutants with a hydrophilic group of fatty acid-based oil and the like.
SOLUTION: The method removes solid pollutants having a hydrophilic group of fatty acid-based oil and the like adhering to the surface of a composite material which have becomes hydrophilic by a method wherein a photocatalistic layer is formed on the surface of a substrate and the photocatalysts are photoexcited. In this case, the method includes a step of washing the surface of the composite material, and a step of replacing a carbonyl group derived from the fatty acid remained in the washing step for adsorbed water by photoexciting the photocatalysts by the photocatalytic action. Thereby, the solid pollutants having the hydrophilic group of the fatty acid-based oil and the like adhering to the surface of the composite material can be removed.
COPYRIGHT: (C)1998,JPO |
253 |
Detergent composition for the white portion of the tire |
JP8287987 |
1987-04-06 |
JPH0776358B2 |
1995-08-16 |
徹男 木島; 滋 沢田; 生悟 篠原 |
|
254 |
JPH0565558B2 - |
JP14625082 |
1982-08-25 |
JPH0565558B2 |
1993-09-17 |
SHIOZAKI RYOJI; NISHIGUCHI HISAO; SUGITA MINORU |
|
255 |
JPH0475204B2 - |
JP7936684 |
1984-04-21 |
JPH0475204B2 |
1992-11-30 |
|
|
256 |
JPH0434595B2 - |
JP2754786 |
1986-02-10 |
JPH0434595B2 |
1992-06-08 |
MACHIDA YASUSHI; YOSHIDA TSUTOMU; KIMURA NORIO; WATANABE MASATOSHI |
|
257 |
JPH047400B2 - |
JP13738984 |
1984-07-04 |
JPH047400B2 |
1992-02-10 |
SHERIRU KEE KASEI |
|
258 |
JPH0374165B2 - |
JP309684 |
1984-01-11 |
JPH0374165B2 |
1991-11-26 |
|
|
259 |
Cleanser composition for white part of tire |
JP8287987 |
1987-04-06 |
JPS63248898A |
1988-10-17 |
KIJIMA TETSUO; SHINOHARA SHOGO; SAWADA SHIGERU |
|
260 |
JPS6314040B2 - |
JP19594784 |
1984-09-18 |
JPS6314040B2 |
1988-03-29 |
YOSHIDA NOBUYUKI |
|