Patent application number | Description | Published |
20080292716 | Electrolytic Water and Process for Production Thereof - The present invention discloses a process for producing an electrolytic water, wherein a to-be-electrolyzed water containing less than 0.1 mM of a water-soluble inorganic salt, 0.05 to 0.5 mass % of a hydroquinone derivative and 1 to 50 mM of L-ascorbic acid or a derivative thereof is fed into a diaphragm-free electrolytic cell of continuous flow type at a flow rate of 5 to 3,000 l/min and electrolysis is conducted continuously at a current density of 0.003 to 0.1 A/cm | 11-27-2008 |
20100168411 | Method of producing fermentation product and fermentation product - Provided are a fermentation product, which shows a strong antioxidative effect and is efficacious against diseases caused by active oxygen, and a method of producing the same. Stems and leaves of a perennial gramineous plant (rice straw, reed, barely straw, etc.) are mixed with a fermentation medium which comprises egg albumen, egg yolk, rice bran and water optionally together with xylase and thus the stems and leaves of the perennial gramineous plant are decomposed. After conducting lactic acid fermentation, the contents of the fermentation tank are dried. The dry fermentation product thus obtained is extracted with water and the extract is filtered and then concentrated. | 07-01-2010 |
20100316775 | METHOD OF PRODUCING CORAL POWDER - A coral is washed with purified water or tap water, and a crushed coral is heat-treated. Proteins and other organic matter are incorporated between calcium molecules in the coral skeleton, and the organic matter is decomposed and released as volatile components. In the skeleton from which organic matter is released, a calcium skeleton having a porous structure is formed, and the surface area of pores is increased. A hydrogen gas can be retained in the structure by adsorbing a hydrogen gas to the pores in such a calcium skeleton a porous structure (micropores). The resulting coral powder, with which ions dissolved in water are easily extracted, shows a low oxidation reduction potential when dissolved in water. | 12-16-2010 |
20110274792 | METHOD FOR PRODUCING POWDER FOR SUPPLEMENTARY FOOD AND SUPPLEMENTARY FOOD | 11-10-2011 |
20130228459 | ELECTROLYZED WATER PRODUCING APPARATUS - An electrolyzed water producing apparatus comprises an electrolysis unit including a diaphragm electrolytic cell and a diaphragmless electrolytic cell; a water supply pipe with a three-way valve; a water take-out pipe having one end connected to each anode chamber to remove anode electrolyzed water; a water take-out pipe having one end connected to each cathode chamber to remove cathode electrolyzed water; and a water take-out pipe provided with a free chlorine removing filter and having one end connected to each diaphragmless electrolytic chamber to remove mixed electrolyzed water. The diaphragm electrolytic cell contains a pair of electrode plates, and a plurality of electrolytic chambers, at least one of which includes an anode chamber and a cathode chamber. The diaphragmless electrolytic cell contains a pair of electrode plates, and diaphragmless electrolytic chambers which are the remaining electrolytic chambers. | 09-05-2013 |
20140246329 | ELECTOLYTIC APPARATUS, ICE MAKING APPARATUS, AND ICE MAKING METHOD - The present invention discloses an electrolytic apparatus comprising:
| 09-04-2014 |
Patent application number | Description | Published |
20090160888 | Ink Tank and Ink Jet Printer - An ink tank of the foam type which is provided with a detected portion capable of exactly and surely detecting the amount of ink used by the printer or remaining in the ink tank. The ink tank includes a sub ink chamber that is disposed or formed between a main ink chamber and an ink outlet of an ink tank of a foam type. When an amount of air flowing into the sub ink chamber increases, one or more reflecting surfaces of a right-angled prism, which function as ink interfaces, resume their original function of reflecting surfaces, thereby enabling the detection of an ink end. Air bubbles having entered the sub ink chamber are surely led onto the one or more reflecting surfaces by a bubble storage part. At an ink passage having a narrow width, which is defined by the one or more reflecting surfaces, air bubbles are pressed against the one or more reflecting surfaces to be put to a crushed state and in surface contact with the latter. Air bubbles are surely led onto the one or more reflecting surfaces, and are crushed and pressed against the reflecting surfaces. This configuration prevents the one or more reflecting surfaces from being covered with ink retained in spaces among the air bubbles. Therefore, the ink end can be detected surely and exactly. | 06-25-2009 |
20100177132 | Ink Tank and Ink Jet Printer Incorporating the Same - An ink chamber is formed with a vent port allowing atmospheric air to enter therein and an ink outlet from which ink is taken out. An optical member has an ink contact face capable of contacting with ink contained in the ink chamber. The ink contact face includes a detection face at which a remaining amount of ink in the ink chamber is optically detected in accordance with an amount of air entered into the ink chamber via the vent port. A first ink absorbing member is disposed in the vicinity of the ink contact face, and capable of absorbing the ink in the ink chamber. | 07-15-2010 |
20100201763 | Ink Tank and Ink Jet Printer - An ink tank of the foam type which is provided with a detected portion capable of exactly and surely detecting the amount of ink used by the printer or remaining in the ink tank. The ink tank includes a sub ink chamber that is disposed or formed between a main ink chamber and an ink outlet of an ink tank of a foam type. When an amount of air flowing into the sub ink chamber increases, one or more reflecting surfaces of a right-angled prism, which function as ink interfaces, resume their original function of reflecting surfaces, thereby enabling the detection of an ink end. Air bubbles having entered the sub ink chamber are surely led onto the one or more reflecting surfaces by a bubble storage part. At an ink passage having a narrow width, which is defined by the one or more reflecting surfaces, air bubbles are pressed against the one or more reflecting surfaces to be put to a crushed state and in surface contact with the latter. Air bubbles are surely led onto the one or more reflecting surfaces, and are crushed and pressed against the reflecting surfaces. This configuration prevents the one or more reflecting surfaces from being covered with ink retained in spaces among the air bubbles. Therefore, the ink end can be detected surely and exactly. | 08-12-2010 |