Abstract: A data processing device 10 receives a process request from an external interface 20 of a client terminal etc., carries out the transaction request with respect to a message according to the process request and passes to an API which forms the interface of various types of program carried out in the server 30. The data processing device 10 includes a process (n) which carries out transaction processing with respect to a message with a trade category [n], and a backup process (n) which carries out transaction processing with respect to a message in the case where the transaction processing carried out by the process (n) fails. In addition, the data processing device 10 includes an error process part 123 which isolates the cause of a failure according to a result of a process by the backup process (n).

Abstract: A circuit protecting element includes insulating substrate (11), a pair of surface electrodes (12) provided to both ends of a top face of insulating substrate (11), element (13) bridging the pair of surface electrodes (12) and electrically connected to the pair of surface electrodes (12), base layer (14) formed between element (13) and insulating substrate (11), and insulating layer (15) covering element (13). Base layer (14) is formed of a mixture of diatom earth and silicone resin. The structure discussed above allows stabilizing the blowout characteristics of the circuit protecting element.

Abstract: A method for forming a cylindrical rubber member includes bringing a die 11 close to a forming drum 2, forming a winding start portion S1 by extruding a rubber S and simultaneously starting to rotate the forming drum 2 to gradually increase an extruding amount to an amount Q1 and gradually increase a distance between the die 11 and the forming drum 2 to a distance D2 corresponding to a desired thickness of the cylindrical rubber member, winding the rubber S by maintaining the extruding amount at the amount Q1, and maintaining the distance between the die 11 and the forming drum 2 at the distance D2, and forming a winding end portion S2 on the winding start portion S1 by maintaining the distance between the die 11 and the forming drum 2 at the distance D2 and gradually reducing the extruding amount from the amount Q1.

Abstract: A transaction processing system includes an application server having a transaction processing unit, a process monitoring unit, a database server having a database, and a database management unit. The transaction processing unit sends a transaction identifier for identifying the transaction to the database management unit, requests a session process, and outputs the transaction identifier to the process monitoring unit.

Abstract: The sheet-like rubber forming device has a die body which has an opening having a predetermined cross sectional shape, and a variable die lip which is arranged in a front side of the die body and can change the height of the opening. The variable die lip is constructed by a first movable body and a second movable body. The die lip control unit controls the variable die lip so as to drive the first movable body in an opening direction from a state in which the first movable body and the second movable body are closed when the forming is started, hold the positions of the first movable body and the second movable body after reaching a predetermined height, and drive the second movable body in a closing direction when the forming is finished.

Abstract: An electrophoretic liquid includes a first electrophoretic particle, a second electrophoretic particle having a polarity opposite to that of the first electrophoretic particle, a non-electrophoretic particle, and a transparent dispersion medium. In the electrophoretic liquid, the first, second, and non-electrophoretic particles are dispersed in the transparent dispersion medium.

Abstract: The present invention provides an image pickup lens with a large focal depth from the center to the outer part of an image plane formed on an image sensor and capable of maintaining its focal depth within a practical range and thus suppressing a decline in the resolution. An image pickup lens 7 includes, in order from the object side to the image plane side, an aperture stop 5, a first lens 1 that is a biconvex lens having positive power, a second lens 2 that is a meniscus lens having negative power and whose lens surface facing the object side is convex, a third lens 3 that is a meniscus lens having positive power and whose lens surface facing the object side is concave, and a fourth lens 4 that is a biconcave lens having negative power. The image pickup lens 7 includes a multifocal lens on the lens surface of the first lens 1 facing the object side. D and Ymax satisfy the following conditional expression (1): 0?D/Ymax?0.

Abstract: A transaction processing system includes an application server having a transaction processing unit, a process monitoring unit, a database server having a database, and a database management unit. The transaction processing unit sends a transaction identifier for identifying the transaction to the database management unit, requests a session process, and outputs the transaction identifier to the process monitoring unit.

Abstract: A solar cell module, a solar cell panel, a process for producing a solar cell module and a process for producing a solar cell panel that are capable of inhibiting EVA protrusions and recesses, and capable of inhibiting penetration of moisture into the interior of the solar cell module. The solar cell module comprises a transparent substrate and a back substrate disposed across a photovoltaic layer, an inner seal portion disposed between, and surrounding the periphery of, the transparent substrate and the back substrate, a gap formed in a portion of the inner seal portion and linking a region in which an encapsulant is disposed with the outside, an encapsulant disposed inside the region surrounded by the transparent substrate, the back substrate and the inner seal portion, and an outer seal portion that covers the gap.

Abstract: A solar cell panel that is capable of preventing damage to the edge portions of the panel. The solar cell panel is provided with a pair of first protective ribs (103L, 103L), which are fixed to the back substrate, protrude outward from the edges of a solar cell module (2) and are disposed in an opposing manner, a pair of support ribs (3S, 3S), which are fixed to the back substrate and are disposed across the space between the pair of first protective ribs (103L, 103L) at positions distant from the edges of the back substrate, and a pair of second protective ribs (104P, 104P), which are disposed across the space between the pair of first protective ribs (103L, 103L) and protrude outward from the edges of the solar cell module (2).

Abstract: An electrophoretic liquid includes a first electrophoretic particle, a second electrophoretic particle having a polarity opposite to that of the first electrophoretic particle, a non-electrophoretic particle, and a transparent dispersion medium. In the electrophoretic liquid, the first, second, and non-electrophoretic particles are dispersed in the transparent dispersion medium.

Abstract: A disclosed electrophoretic fluid includes a solvent; and first, second, and third dispersible particles having different optical properties and dispersed in the solvent, the first dispersible particles being uncharged, the second dispersible particles being positively-charged electrophoretic particles, and the third dispersible particles being negatively-charged electrophoretic particles.

Abstract: A process for producing a vinyl-cis-polybutadiene rubber, including mixing (A) vinyl-cis-polybutadiene obtained by (1) a step of adding a cis-1,4-polymerization catalyst obtainable from an organoaluminum compound and a soluble cobalt compound to a mixture containing 1,3-butadiene and a hydrocarbon-based organic solvent as the major components and having an adjusted water content, thereby subjecting the 1,3-butadiene to cis-1,4-polymerization and subsequently, (2) a step of making a catalyst obtainable from a soluble cobalt compound, an organoaluminum compound represented by the general formula, AlR3 (wherein R represents an alkyl group having from 1 to 6 carbon atoms, a phenyl group, or a cycloalkyl group), and carbon disulfide present in the resulting polymerization reaction mixture, thereby subjecting the 1,3-butadiene to 1,2-polymerization; and (B) cis-polybutadiene obtained by a step of adding the foregoing cis-1,4-polymerization catalyst, thereby subjecting the 1,3-butadiene to cis-1,4-polymerization and

Abstract: A circuit protecting element includes insulating substrate (11), a pair of surface electrodes (12) provided to both ends of a top face of insulating substrate (11), element (13) bridging the pair of surface electrodes (12) and electrically connected to the pair of surface electrodes (12), base layer (14) formed between element (13) and insulating substrate (11), and insulating layer (15) covering element (13). Base layer (14) is formed of a mixture of diatom earth and silicone resin. The structure discussed above allows stabilizing the blowout characteristics of the circuit protecting element.

Abstract: A disclosed electrophoretic fluid includes a solvent; and first, second, and third dispersible particles having different optical properties and dispersed in the solvent, the first dispersible particles being uncharged, the second dispersible particles being positively-charged electrophoretic particles, and the third dispersible particles being negatively-charged electrophoretic particles.

Abstract: This invention provides a process for producing an aqueous resin dispersion in which the average particle diameter of the dispersed resin is not more than 500 nm, comprising finely dispersing a monomeric mixture (I) containing (A) fatty acid-modified polymerizable unsaturated monomer and (B) other polymerizable unsaturated monomer which is copolymerizable with the monomer (A) in an aqueous medium in such a manner that the dispersed particles have an average particle diameter not more than 500 nm, and polymerizing the resulting emulsified product. The invention also provides aqueous resin compositions which comprise the aqueous resin dispersions, and water-based paint compositions which comprise the aqueous resin compositions.

Abstract: A manufactured article treatment processing method and system includes reading out from a manufactured article being subjected to treatment information of component parts of the article and specific properties of the component parts, extraction of the component parts to be separated on the basis of predetermined specific properties serving as information for detachment and specific properties of the component parts, and treatment of the component parts to be separated and other components parts through different processes, respectively.

Abstract: A receiving apparatus includes a receiving unit configured to receive a signal including a program, an acquiring unit configured to acquire information representing a category of the program received by the receiving unit, a volume data generating unit configured to generate volume data related to a controlled volume in accordance with volume control performed when the program is being received by the receiving unit, and a memory unit storing volume data and category data in association with each other. The memory unit is read for retrieving the category data of the program currently being received and the sound volume is automatically set according to the volume data stored in the memory unit which is associated with the category data of the current program.

Abstract: A manufactured article treatment processing method and system includes reading out from a manufactured article being subjected to treatment information of component parts of the article and specific properties of the component parts, extraction of the component parts to be separated on the basis of predetermined specific properties serving as information for detachment and specific properties of the component parts, and treatment of the component parts to be separated and other components parts through different processes, respectively.

Abstract: A process for producing a vinyl-cis-polybutadiene rubber, including mixing (A) vinyl-cis-polybutadiene obtained by (1) a step of adding a cis-1,4-polymerization catalyst obtainable from an organoaluminum compound and a soluble cobalt compound to a mixture containing 1,3-butadiene and a hydrocarbon-based organic solvent as the major components and having an adjusted water content, thereby subjecting the 1,3-butadiene to cis-1,4-polymerization and subsequently, (2) a step of making a catalyst obtainable from a soluble cobalt compound, an organoaluminum compound represented by the general formula, AlR3 (wherein R represents an alkyl group having from 1 to 6 carbon atoms, a phenyl group, or a cycloalkyl group), and carbon disulfide present in the resulting polymerization reaction mixture, thereby subjecting the 1,3-butadiene to 1,2-polymerization; and (B) cis-polybutadiene obtained by a step of adding the foregoing cis-1,4-polymerization catalyst, thereby subjecting the 1,3-butadiene to cis-1,4-polymerization and