Nishibu
Hideaki Nishibu, Tokai-Shi JP
Patent application number | Description | Published |
---|---|---|
20100043755 | FUEL SUPPLY SYSTEMS - A fuel supply system includes a fuel pump for supplying fuel in a fuel tank to an engine, a pressure regulator and a three-way valve disposed in a valve chamber. The pressure regulator includes a pressure regulating chamber and a control pressure chamber and adjusts a fuel pressure in the pressure regulating chamber depending on a fuel pressure in the control pressure chamber. A control pressure passage for flowing the fuel to the control pressure chamber and the valve chamber is formed in a unit case. | 02-25-2010 |
20100175666 | FUEL SUPPLY SYSTEMS - On aspect according to the present invention includes a fuel supply system including a backflow preventing device provided in a fuel supply path communicating between a fuel pump and a fuel injecting valve device of an engine. The backflow preventing device can prevent backflow of the fuel from the fuel injecting valve device, so that a pressure of the fuel between the backflow preventing device and the fuel injecting valve device can maintained after stopping the fuel pump. | 07-15-2010 |
20110297126 | FLUID PRESSURE REGULATING DEVICE AND FUEL SUPPLY SYSTEM USING SAME - A fluid pressure regulating device is i) provided with a pressure regulating member that forms a pressure regulating chamber inside a housing having introduction side and discharge side fuel passages, and communicates these passages according to introduced fuel pressure, and ii) is able to regulate the fuel pressure introduced into a fuel passage to a set pressure. The housing is provided with outer and inner annular valve seat portions that separate the fuel passages inside the pressure regulating chamber, and form another fuel passage inside the pressure regulating chamber. Different clearances are set between the pressure regulating member, and the outer annular valve seat portion and the inner annular valve seat portion, such that when the pressure regulating member abuts against one of the valve seat portions, a small gap is formed between the other valve seat portion and the pressure regulating member. | 12-08-2011 |
20110297253 | PRESSURE REGULATING DEVICE - A pressure regulating device that regulates a pressure of a fuel, including a housing that includes a fuel introduction passage into which the fuel to be supplied into a fuel consuming unit is introduced and a fuel discharge passage from which the fuel is discharged, wherein the fuel discharge passage includes a plurality of discharge passage portions; a pressure regulating provided so as to partition the housing, and that communicates the fuel introduction passage with the fuel discharge passage and cuts off the fuel introduction passage from the fuel discharge passage, according to a pressure of the fuel in the housing; an impelling mechanism that impels the pressure regulating member in a direction of cutting off the fuel introduction passage from the fuel discharge passage; and a discharge restricting mechanism, provided in the fuel discharge passage, that selectively restricts discharge of the fuel from the discharge passage portions. | 12-08-2011 |
Hirofumi Nishibu, Kanagawa JP
Patent application number | Description | Published |
---|---|---|
20090082523 | POLYETHYLENE RESIN, PROCESS FOR PRODUCING THE SAME, AND PIPE AND JOINT COMPRISING THE RESIN - The invention relates to a polyethylene resin having excellent slow crack growth property, in particular a resin having excellent durability in a pipe application, which has a specific (a) high-load melt flowrate (HLMFR; HLa), a specific (b) density (Da), and a specific (c) α-olefin content (Ca) and in which (d) a breaking time (T) measured by notched Lander ESCR, the HLa, and the Ca satisfy log T≧−2.9×log HLa+5.1×log Ca+6.8. It further relates to a process for producing the resin and to a pipe and a joint each comprising the resin. | 03-26-2009 |
Mamoru Nishibu, Osaka JP
Patent application number | Description | Published |
---|---|---|
20150086394 | TURBO-COMPRESSOR AND REFRIGERATION CYCLE APPARATUS - A turbo-compressor according to the present disclosure includes an impeller, a motor that generates heat by rotation of the motor and rotatably drives the impeller, a fluid passage through which a working fluid is passed via the impeller, and a heating mechanism that transfers the heat generated with the rotation of the motor to the fluid passage upstream of the impeller, to heat the working fluid inlet into the fluid passage with rotation of the impeller. The working fluid is compressed in the fluid passage downstream of the impeller. | 03-26-2015 |
20150114017 | REFRIGERATION-CYCLE EQUIPMENT - The disclosed refrigeration-cycle equipment comprises a main circuit and an evaporation-side circulation circuit. The main circuit includes i) a compressor that compresses refrigerant vapor, ii) a condensation mechanism that condenses the refrigerant vapor, and iii) an evaporative mechanism that stores refrigerant liquid and that evaporates the refrigerant liquid. The evaporation-side circulation circuit includes a heat exchanger for heat absorption and a decompression mechanism. The refrigerant returns to the evaporative mechanism after the refrigerant absorbing heat in the heat exchanger for heat absorption and the pressure of the refrigerant being reduced in the decompression mechanism. The refrigeration-cycle equipment further has an interaction mechanism that prevents droplets contained in the refrigerant having returned from the evaporation-side circulation circuit to the evaporative mechanism from being fed into the compressor. | 04-30-2015 |
Naoyuki Nishibu, Tokyo JP
Patent application number | Description | Published |
---|---|---|
20150134242 | NAVIGATION SYSTEM AND NAVIGATION METHOD OF ELECTRONIC DEVICE - An electronic device ( | 05-14-2015 |
Shiro Nishibu, Nagoya-Shi JP
Patent application number | Description | Published |
---|---|---|
20130299505 | MANUFACTURING METHOD FOR HIGH-PRESSURE TANK, AND HIGH-PRESSURE TANK - A step of forming a low-angle helical layer on an outer surface of at least part of each liner dome portion and an outer surface of a liner cylindrical portion, a step of forming an inner hoop layer on an outer surface of the low-angle helical layer on the liner cylindrical portion, and a step of forming a mixed layer by alternately laminating a low-angle helical layer and an outer hoop layer on an outer surface of the inner hoop layer and low-angle helical layer on each liner dome portion. Then, on the liner cylindrical portion, 90% or more of the sum of the thickness of the inner hoop layer and the thickness of the outer hoop layer in the mixed layer is arranged within the range of 75% of the fiber reinforced plastics layer adjacent to the liner in a thickness direction of the fiber reinforced plastics layer. | 11-14-2013 |
20150014332 | HIGH PRESSURE TANK AND MANUFACTURING METHOD OF HIGH PRESSURE TANK - A high pressure tank has a liner and a reinforcing layer. The reinforcing layer is formed on an outer surface of the liner. An adhesion inhibiting process that inhibits the liner from adhering to the reinforcing layer is applied to at least a portion of the liner in a region contacting the reinforcing layer. | 01-15-2015 |
Takahiro Nishibu, Hyogo JP
Patent application number | Description | Published |
---|---|---|
20080227118 | Protein Immobilization Method and Quantification Method - The present invention relates to a method for immobilizing a protein in a sample, which could not easily be immobilized by the conventional immobilization method, to a solid-phase; a method for quantitative determination of protein wherein an effect of inhibitory substance coexisting in a sample prepared using the immobilization method can be reduced; and a rapid and highly precise method for detecting an abnormal PrP and a method for determining BSE using the immobilization method as compared with the conventional method. The present invention provides: “a method for immobilizing a protein to a solid-phase comprising contacting the protein with the solid-phase having hydrophobic surface in the presence of a lower alcohol, and a halogenocarboxylic acid and/or a long chain alkyl sulfate, and an immobilizing reagent solution to be used therefor; a method for quantitative determination of protein comprising contacting a protein-staining solution with the solid-phase immobilized with a protein by the immobilization method, and determining a degree of color development generated thereby; an immunoblotting method wherein the solid-phase immobilized with a protein by the immobilization method is used; and a method for detecting an abnormal PrP a method for determining BSE by using the immobilization method.” | 09-18-2008 |
Takahiro Nishibu, Amagasaki-Shi JP
Patent application number | Description | Published |
---|---|---|
20100311958 | CARRIER, METHOD AND REAGENT FOR OBTAINING SMALL RNA - An object of the present invention is to provide a carrier which enables to obtain a small RNA in high yield yet in high purity, a simple method for obtaining a small RNA and/or a target nucleic acid of small RNA using the same, and a reagent and a kit comprising the above-described carrier. | 12-09-2010 |
20130197206 | METHOD FOR ACQUISITION OF SMALL RNA - The purpose of the present invention is to provide a method which is applicable to high throughput and by which small RNA can be obtained simply and efficiently. The present invention relates to a method for acquisition of small RNA, comprising contacting a carrier, in which a substance having affinity to small RNA-binding protein is immobilized on its surface, with a complex of the small RNA-binding protein and a small RNA (protein-RNA complex) to bind the protein-RNA complex to the aforementioned carrier, and releasing the small RNA by heating the carrier bound with the aforementioned protein-RNA complex at 70° C. to 100° C. in water or buffer solution of pH 3.0 to pH 8.0 | 08-01-2013 |