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Kono, Kyoto
Buhie Kono, Kyoto JP
| Patent application number | Description | Published |
|---|---|---|
| 20090230125 | Technological development for carrying out cooking and chemical reaction, chemical synthesis, metalworking, metal cyrstallization, metal sintering and metallurgy by heating pottery with microwave for converting into far infrared or infrared wave radiation from pottery with increased heat efficiency - A method of heating a substance has not made much progress unlike rapid scientific developments. Although many studies have been made on the optimum heating temperature of a material, heating is not recognized in terms of the heat absorbing wavelength of a substance to be heated. Microwave heating provides a heating method by means of the friction heat of molecules, and microwave is separately absorbed to a magnetic element or the like and radiated by having its wavelength converted into a far infrared or infrared wave region can be controlled by a magnetic element's Curie temperature, a radiated wavelength region can be controlled within a specific temperature range, and heat energy increases when its density is increased. When, based on a principle of blackbody radiation, a magnetic element, magnetite, aluminum oxide, zirconia, zeolite, and the like applied to pottery is used microwave oven, high temperature can be obtained simply and in a short time without using an electric furnace thus enabling a wide application to chemical experiments. It has been learned that when this technology is used in microwave ovens used in homes across the country for cooking, delicious foods can be cooked simply and quickly even by elderly persons or children without using direct firing. Microwave heating using pottery started 15 years ago, but it has been left difficult to solve with little theoretical background. Magnetic element heating by microwave is beyond a classical physics idea region. Without being dependent on a classical physics theory uses a quantum mechanical effect that a magnetic element is irradiated with microwave and microwave is absorbed due to the spin resonance of magnetic element to radiate infrared rays. A combination of quantum mechanical theory by microwave irradiation to magnetic element and far infrared radiation effect by Planck's black body radiation is a key to this technology. | 09-17-2009 |
Daisuke Kono, Kyoto JP
| Patent application number | Description | Published |
|---|---|---|
| 20110015885 | ON-MACHINE MEASUREMENT METHOD AND MEASUREMENT APPARATUS - A reference mirror | 01-20-2011 |
Kazuhito Kono, Kyoto JP
| Patent application number | Description | Published |
|---|---|---|
| 20090230125 | Technological development for carrying out cooking and chemical reaction, chemical synthesis, metalworking, metal cyrstallization, metal sintering and metallurgy by heating pottery with microwave for converting into far infrared or infrared wave radiation from pottery with increased heat efficiency - A method of heating a substance has not made much progress unlike rapid scientific developments. Although many studies have been made on the optimum heating temperature of a material, heating is not recognized in terms of the heat absorbing wavelength of a substance to be heated. Microwave heating provides a heating method by means of the friction heat of molecules, and microwave is separately absorbed to a magnetic element or the like and radiated by having its wavelength converted into a far infrared or infrared wave region can be controlled by a magnetic element's Curie temperature, a radiated wavelength region can be controlled within a specific temperature range, and heat energy increases when its density is increased. When, based on a principle of blackbody radiation, a magnetic element, magnetite, aluminum oxide, zirconia, zeolite, and the like applied to pottery is used microwave oven, high temperature can be obtained simply and in a short time without using an electric furnace thus enabling a wide application to chemical experiments. It has been learned that when this technology is used in microwave ovens used in homes across the country for cooking, delicious foods can be cooked simply and quickly even by elderly persons or children without using direct firing. Microwave heating using pottery started 15 years ago, but it has been left difficult to solve with little theoretical background. Magnetic element heating by microwave is beyond a classical physics idea region. Without being dependent on a classical physics theory uses a quantum mechanical effect that a magnetic element is irradiated with microwave and microwave is absorbed due to the spin resonance of magnetic element to radiate infrared rays. A combination of quantum mechanical theory by microwave irradiation to magnetic element and far infrared radiation effect by Planck's black body radiation is a key to this technology. | 09-17-2009 |
Michiyuki Kono, Kyoto JP
| Patent application number | Description | Published |
|---|---|---|
| 20090169992 | Lithium Secondary Battery Using Ionic Liquid - A lithium secondary battery having high performance even at the time of high-rate charging and discharging, high energy density, high voltage, and a nonaqueous electrolyte excellent in safety. The lithium secondary battery using an ionic liquid, comprising a positive electrode, a negative electrode, a separator provided between the positive electrode and the negative electrode, and a nonaqueous electrolyte containing a lithium salt, wherein the nonaqueous electrolyte uses an ionic liquid containing bis(fluorosulfonyl)imide anion as an anionic component, as a solvent, voltage at the time of full charging is 3.6V or higher, and average discharge voltage in a discharge rate of 1-hour rate is 2.9V or higher. | 07-02-2009 |
Motohiro Kono, Kyoto JP
| Patent application number | Description | Published |
|---|---|---|
| 20080238434 | Surface voltmeter - In a surface voltmeter ( | 10-02-2008 |
| 20090019722 | Apparatus and method for removing organic contamination adsorbed onto substrate, and apparatus and method for measuring thickness of thin film formed on substrate - In a body of a film-thickness measuring apparatus ( | 01-22-2009 |
Ryouichi Kono, Kyoto JP
| Patent application number | Description | Published |
|---|---|---|
| 20110022737 | DEVICE CONTROL METHOD AND DEVICE SELECTING APPARATUS - A device control method which enables selection of a function of a USB device supporting multiple functions is provided. The device control method includes steps of obtaining device information from a USB device, determining, based on the obtained device information, whether command processing to issue a command to the USB device in order to detect functions of the USB device is required or not, performing the command processing if the command processing is determined to be required, creating device list information in which information on the functions of the USB device is listed based on both the obtained device information and a result of the command processing, and storing the device list information in a memory area. | 01-27-2011 |
Satoshi Kono, Kyoto JP
| Patent application number | Description | Published |
|---|---|---|
| 20110269018 | ELECTRODE FOR ELECTROCHEMICAL DEVICE AND ELECTROCHEMICAL DEVICE USING THE SAME - An electrode for an electrochemical device of the present invention includes an electrode mixture layer that includes a lithium-containing composite oxide expressed by the general composition formula (1): Li | 11-03-2011 |
Susumu Kono, Kyoto JP
| Patent application number | Description | Published |
|---|---|---|
| 20090152430 | Brace - The object is to provide a brace which allows its installment to an object portion and its detachment therefrom to be carried out easily. In a brace including a brace body | 06-18-2009 |