Patent application number | Description | Published |
20080213511 | Optical compensation film, process for producing optical compensation film, polarizing plate and liquid crystal display device - An optical compensation film with optically biaxial properties, wherein the longer the wavelength is, the larger the wavelength dispersion of a retardation Re in an in-plane direction and a retardation Rth in a thickness direction against light in a visible light region is; the film contains at least one inorganic particle; a concentration of the inorganic particle in a film surface layer is from 0.05% to 1.0%; an average concentration of the inorganic particle in the film is from 0.01% to 0.3%; and the concentration of the inorganic particle in the surface layer is larger than the average concentration of the inorganic particle in the film. | 09-04-2008 |
20110001904 | CELLULOSE ESTER FILM, POLARIZER AND LIQUID CRYSTAL DISPLAY DEVICE - A cellulose ester film comprising at least one polycondensate ester that comprises a dicarboxylic acid residue mixture having an average carbon number of from 5.5 to 10.0 and comprising an aromatic dicarboxylic acid residue and an aliphatic dicarboxylic acid residue, and an aliphatic diol residue having an average carbon number of from 2.5 to 7.0. | 01-06-2011 |
20110101287 | OPTICAL FILM, METHOD FOR PRODUCING SAME, POLARIZER AND LIQUID CRYSTAL DISPLAY DEVICE - An optical film comprising a cellulose acylate resin having a total degree of acyl substitution of less than 2.5 and a cellulose acylate resin having a total degree of acyl substitution of 2.5 or more, and satisfying the following formula (1): | 05-05-2011 |
20110317263 | ANTIREFLECTION FILM, POLARIZING PLATE AND IMAGE DISPLAY UTILIZING THE SAME - An antireflection film is provided and includes at least one layer containing fine pores. When a surface portion of the antireflection film comes into contact with water for 15 minutes and then the water is wiped away, the surface portion has a chromaticity change ΔE of 0.45 or less, the chromaticity change ΔE being a chromaticity change in a CIE1976 L*a*b* color space and measured under a standard light source D65. | 12-29-2011 |
Patent application number | Description | Published |
20110074853 | PRINT DENSITY ADJUSTING DEVICE, PRINT DENSITY ADJUSTING METHOD AND PRINT DENSITY ADJUSTING PROGRAM - A print density adjusting device of print image information includes a print image information acquirer configured to acquire the print image information. A forming information acquirer is configured to acquire forming information of a medium on which an inkjet printer prints and which is to be bent. A vertex detector is configured to detect a vertex of a bent part which is to be bent based on the forming information. A bending angle detector is configured to detect a bending angle of the bent part based on the forming information. A print density adjuster is configured to adjust a print density of the print image information acquired by the print image information acquirer based on the vertex detected by the vertex detector and based on the bending angle detected by the bending angle detector. | 03-31-2011 |
20110103870 | PRINTER APPARATUS - A printer apparatus includes a first device and a second device. The first device includes a first carriage movable in a scanning direction along a guide rail and a first working device to perform a first predetermined work on an object medium. The second device includes a second carriage movable in the scanning direction along the guide rail and a second working device to perform a second predetermined work on the object medium. A first device holding mechanism is capable of holding the first device. A second device holding mechanism is capable of holding the second device. A vertically retreat mechanism is configured to move the second device holding mechanism and the second device along a vertical direction to be located below a medium supporter to support the object medium when the first working device is moved in the scanning direction to perform the first predetermined work. | 05-05-2011 |
20110109711 | PRINTER APPARATUS - A printer apparatus includes a guide rail, a first device including a first head, a second device including a second head, and a hauling device including a driving member movable between the first device and the second device. A first holding mechanism is provided on one side with respect to a medium supporter. A second holding mechanism is provided on another side with respect to the medium supporter. When ink is to be ejected from the first head, the second holding mechanism holds the second device separated from the driving member, and a first connecting mechanism connects the first device to the driving member. When ink is to be ejected from the second head, the first holding mechanism holds the first device separated from the driving member, and a second connecting mechanism connects the second device to the driving member. | 05-12-2011 |
Patent application number | Description | Published |
20090326159 | Cement dispersant - The present invention relates to a cement dispersant, and an object thereof is to provide a cement dispersant having high water reducing property, low setting retardation and low concrete viscosity and taking also applicability into account. The cement dispersant comprises a polycarboxylic acid polymer formed by structural unit (I) composed of a reactive alcohol alkylene oxide adduct and structural unit (II) composed of a reactive dibasic acid, and preferably further structural unit (III) containing polyamide polyamine in the unit, wherein fumaric acid and/or a derivative thereof is used as a partial or main starting material of the structural unit (II). The cement dispersant is excellent in water reducing property, setting retardation and concrete viscosity. | 12-31-2009 |
20130018162 | COPOLYMER AND CEMENT DISPERSANT INCLUDING THE COPOLYMERAANM Ikeda; AkiraAACI Sodegaura-shiAACO JPAAGP Ikeda; Akira Sodegaura-shi JPAANM Suga; AkiraAACI Sodegaura-shiAACO JPAAGP Suga; Akira Sodegaura-shi JPAANM Kobayashi; SatoshiAACI Sodegaura-shiAACO JPAAGP Kobayashi; Satoshi Sodegaura-shi JP - A cement dispersant that includes a copolymer resulting from a reaction of components (A) to (C), where: (A) is an ester compound obtained by adding 0 to 10 moles of C | 01-17-2013 |
20150031836 | GYPSUM DISPERSANT - There is provided a gypsum dispersant and a gypsum additive that improve the fluidity of gypsum slurry even if gypsum raw materials used are different in quality and that do not induce delay of curing of gypsum slurry. A gypsum dispersant, including: (A) a polycarboxylic acid polymer; and (B) a polyamide polyamine obtained by a reaction of a polyalkylene polyamine and a dibasic acid as essential components, and/or an alkylene oxide adduct of the polyamide polyamine. | 01-29-2015 |
20150045512 | GYPSUM DISPERSANT - There is provided a gypsum dispersant and a gypsum additive that improve the fluidity of gypsum slurry even if gypsum raw materials used are different in quality and that do not induce delay of curing of gypsum slurry. A gypsum dispersant, including: (A) a polycarboxylic acid polymer; and (B) a polymer obtained by a reaction of an alkylene diamine and/or a monoamine and an epihalohydrin as essential components. | 02-12-2015 |
Patent application number | Description | Published |
20110187792 | PRINTER-PLOTTER APPARATUS - To improve printing speed and cutting speed. | 08-04-2011 |
20120147074 | DROPLET DISCHARGE DEVICE AND DROPLET DISCHARGE METHOD - A printer comprises: a vacuum table for supporting a jig which holds a medium; a printer head for discharging droplets; and a relative movement means for moving the printer head relative to the medium; a registration mark detection unit and barcode detection unit for acquiring holding platform information and support position information for the jig; and a controller for controlling the movement of the printer head by the relative movement means and controlling the discharge of droplets from the printer head on the basis of the holding platform information, the support position information and information pertaining to the desired pattern. As a result of this configuration, it is possible to generate image data without aligning the jig with a reference position on the vacuum table. | 06-14-2012 |
20150202888 | RETAINING JIG, PRINT DEVICE AND PRINT METHOD - A print method for printing efficiently on a plurality of polyhedrons is provided. A retaining jig | 07-23-2015 |
20150217563 | PRINTING DEVICE - A printing device that can continuously print on a plurality of recording media even if a user is not beside the printing device over a long period of time is provided. The printing device includes a tray storing container ( | 08-06-2015 |
20150292150 | TRANSFER FILM, METHOD FOR PRODUCING TRANSFER FILM, AND TRANSFER METHOD - An object is to obtain a pattern-transferred product excellent in fastness to washing. To achieve the object, the invention provides: a transfer film ( | 10-15-2015 |
20150314620 | INKJET PRINTING SYSTEM AND INKJET PRINT CONTROL PROGRAM - The inkjet printing system includes a print information receiving unit that receives print information including work piece types, print images, and print conditions (S | 11-05-2015 |
20160001504 | THREE-DIMENSIONAL STRUCTURE FORMING DEVICE AND FORMING METHOD - A forming device and a forming method that can form a three-dimensional structure highly accurately are provided. A forming device | 01-07-2016 |
20160001505 | APPARATUS FOR MODELING THREE-DIMENSIONAL OBJECT AND METHOD FOR MODELING THREE-DIMENSIONAL OBJECT - An apparatus for modeling a three-dimensional object configured to model a three-dimensional object by a lamination modeling method includes a plurality of heads for colored inks including a curable resin and configured to discharge ink droplets of colored inks having different colors from each other by an inkjet method, an ultraviolet light source, which is a curing unit, and a control unit. When coloring a surface of the three-dimensional object, the control unit enables the plurality of heads for colored inks to discharge the ink droplets, based on an image, to an outer periphery area of the three-dimensional object, which is an area of which a color can be visibly recognized from an outside of the three-dimensional object. When not coloring the surface of the three-dimensional object, the control unit enables at least one of the heads for colored inks to discharge the ink droplets to an inner area. | 01-07-2016 |
20160129644 | APPARATUS FOR MODELING THREE-DIMENSIONAL OBJECT AND METHOD FOR MODELING THREE-DIMENSIONAL OBJECT - Provided is an apparatus for modeling a three-dimensional object configured to model a three-dimensional object by a fused deposition modeling, including a plurality of material resin supply units configured to supply filaments to be used as a modeling material, respectively, a mixed resin ejection unit configured to eject a mixed resin, which is obtained by mixing the filaments to be supplied from the supply units, and a control unit configured to control amounts of the filaments to be supplied from each of the supply units to the ejection unit. The supply units are configured to supply the filaments of different colors to the ejection unit, respectively, and the control unit is configured to control the amounts of the filaments to be supplied from each of the supply units to the ejection unit, thereby adjusting a color of the mixed resin that is to be ejected by the ejection unit. | 05-12-2016 |
Patent application number | Description | Published |
20150182150 | BLOOD COMPONENT ANALYZING METHOD AND BLOOD COMPONENT ANALYZING APPARATUS - A blood component is accurately analyzed by appropriately extracting a blood-vessel transmitted light component. In a blood component analyzing apparatus, a sensor section has a light-emitting section that irradiates light from a predetermined irradiation position situated over a blood vessel and a light-receiving section including a first photodetector that receives light at a first light-receiving position that is different from the irradiation position and is situated over the blood vessel and a second photodetector that receives light at a second light-receiving position that is not situated over the blood vessel. A spectrum synthesizing section synthesizes a first light-reception result at the first light-receiving position and a second light-reception result at the second light-receiving position by performing a predetermined synthesis process based on a positional relationship among the irradiation position, first light-receiving position, and second light-receiving position. A blood component analyzing section analyzes a blood component using the synthesis result. | 07-02-2015 |
20150216453 | OPTICAL ROTATION MEASUREMENT METHOD AND OPTICAL ROTATION MEASUREMENT APPARATUS - An optical rotation measurement method includes causing measurement light of a predetermined polarization to be incident on a subject from an incident direction that is a non-right angle to the subject, discriminating an optical rotation reflecting component of the predetermined polarization from reflected light that is reflected in a different direction to the incident direction of the subject, and measuring the optical rotation based on the discrimination result. | 08-06-2015 |
20160066839 | HEAT FLOW MEASURING APPARATUS AND METABOLISM MEASURING APPARATUS - A ring type heat flow measuring apparatus has a heat receiving section that comes into contact with a measurement target and receives heat and releases heat through transferring from a first heat diffusing member, a heat transfer layer, a second heat diffusing member, and a heat releasing section in this order. A first temperature sensor measures a temperature of the first heat diffusing member, a second temperature sensor measures a temperature of the second heat diffusing member, and heat flow is calculated using these temperatures. Heat diffusing effects of the first heat diffusing member and the second heat diffusing member enable highly accurate temperature measurement to be stably performed regardless of relative positions between an arterial blood vessel as a heat source and the first temperature sensor and the second temperature sensor. | 03-10-2016 |