Patent application number | Description | Published |
20120189727 | BLOW MOLDING APPARATUS - A blow molding apparatus includes an injection molding station ( | 07-26-2012 |
20120294974 | BLOW MOLD UNIT AND BLOW MOLDING APPARATUS USING THE SAME - A blow mold unit includes a first and a second blow cavity split mold, and a plurality of raised-bottom molds. The blow mold unit also includes a first and a second securing plates on which the first and the second blow cavity split mold are secured, a plurality of first pressure-receiving plates respectively secured on the first and the second securing plates, a third securing plate disposed between the first and the second securing plates, the plurality of raised-bottom molds secured on the third securing plate, a plurality of shafts suspended from the third securing plate, and a plurality of second pressure-receiving plates secured on the first and the second securing plates at a position below the third securing plate. | 11-22-2012 |
20130149408 | BLOW MOLDING APPARATUS - In an embodiment, a neck mold assembly includes N rows of holding plates, each of the N rows of holding plates holding a plurality of neck molds. The neck mold assembly also includes a supporting-mechanism that supports the N rows of holding plates. The supporting mechanism includes at least one reinforcement shaft that is provided along a row direction of the N rows of holding plates, and two first securing sections that are secured at either end of the at least one reinforcement shaft. Each of the N rows of holding plates has at least one first through-hole that receives the at least one reinforcement shaft. | 06-13-2013 |
20140099396 | BLOW MOLD UNIT AND BLOW MOLDING APPARATUS USING THE SAME - A blow mold unit includes a first and a second blow cavity split mold, and a plurality of raised-bottom molds. The blow mold unit also includes a first and a second securing plates on which the first and the second blow cavity split mold are secured, a plurality of first pressure-receiving plates respectively secured on the first and the second securing plates, a third securing plate disposed between the first and the second securing plates, the plurality of raised-bottom molds secured on the third securing plate, a plurality of shafts suspended from the third securing plate, and a plurality of second pressure-receiving plates secured on the first and the second securing plates at a position below the third securing plate. | 04-10-2014 |
Patent application number | Description | Published |
20140255533 | BLOW MOLD UNIT AND BLOW MOLDING MACHINE USING SAME - A blow mold unit including a blow mold including first and second blow cavity split molds and a plurality of raised bottom molds, first and second pressure receiving plates, a first fixing plate to which the first blow cavity split mold and the first pressure receiving plate are fixed, a second fixing plate to which the second blow cavity split mold and the second pressure receiving plate are fixed, a third fixing plate interposed between the first and second fixing plates and to which the plurality of raised bottom molds are fixed at a first surface thereof, a shaft portion extending vertically from a second surface of the third fixing plate, an elevation guide block fixed to one of the first and second fixing plates and elevation guiding the shaft portion, and an elevating rod extending vertically from the second surface. There is also a blow molding machine which includes the blow mold unit. | 09-11-2014 |
20150021343 | BLOW MOLDING METHOD, BLOW MOLD, AND BLOW-MOLDED CONTAINER - A blow molding method includes a primary blow molding step that molds a preform ( | 01-22-2015 |
20150140159 | BLOW MOLD UNIT AND BLOW MOLDING MACHINE USING SAME - A blow mold unit including a blow mold including first and second blow cavity split molds and a plurality of raised bottom molds, first and second pressure receiving plates, a first fixing plate to which the first blow cavity split mold and the first pressure receiving plate are fixed, a second fixing plate to which the second blow cavity split mold and the second pressure receiving plate are fixed, a third fixing plate interposed between the first and second fixing plates and to which the plurality of raised bottom molds are fixed at a first surface thereof, a shaft portion extending vertically from a second surface of the third fixing plate, an elevation guide block fixed to one of the first and second fixing plates and elevation guiding the shaft portion, and an elevating rod extending vertically from the second surface. There is also a blow molding machine which includes the blow mold unit. | 05-21-2015 |
20150190975 | BLOW NOZZLE AND BLOW MOLDING MACHINE - In one embodiment of this invention, a blow nozzle, which introduces blow air into a molded article in which a flange portion is supported by a blow cavity mold, includes a nozzle main body and an outer nozzle. The outer nozzle includes a first surface brought into press contact with the flange portion and a second surface disposed further outwards in a radial direction than the first surface and being brought into contact with the blow cavity mold. From when the nozzle main body is moved and the first surface is brought into contact with the flange portion to when the second surface is brought into contact with the blow cavity mold and the movement of the nozzle main body is stopped, the first surface of the outer nozzle is overdriven so that the flange portion is airtightly sealed by the first surface. | 07-09-2015 |
Patent application number | Description | Published |
20100148311 | SEMICONDUCTOR DEVICE - Patterns provided on a surface of a substrate include an adhesion area pattern and one or more non-adhesion area patterns. A chip electrode on a backside of a semiconductor chip is attached to the adhesion area pattern by a conductive adhesive. Consequently, an area of patterns subjected to gold plating that is stable in a steady state is smaller in a substrate of the present invention than in a conventional substrate, resulting in reduction in costs. Further, the chip electrode is attached to the adhesion area pattern by a conductive adhesive in a liquid form. Consequently, a semiconductor device of the present invention allows reducing use of an expensive conductive adhesive compared with a conventional semiconductor device, resulting in reduction in costs. | 06-17-2010 |
20100294342 | SOLAR CELL MODULE AND ELECTRONICS DEVICE INCLUDING THE SOLAR CELL MODULE - A solar cell module | 11-25-2010 |
20100294358 | SEMICONDUCTOR PACKAGE - A semiconductor chip and an interposer are bonded by a conductive die bonding material. Between the semiconductor chip and the interposer, an application region in which the die bonding material resides and a region in which a sealing resin resides are provided. This allows adhesivity between the semiconductor chip and the interposer to be higher than that in conventional semiconductor packages, thereby causing no detachment at the adhesive interface. As a result, it becomes possible to improve electrical property and long-term reliability as compared to conventional semiconductor packages. Moreover, it is also possible to prevent the semiconductor chip from warping. | 11-25-2010 |
20100313930 | SOLAR BATTERY MODULE, AND ELECTRONIC COMPONENT, ELECTRIC COMPONENT AND ELECTRONIC APPARATUS MOUNTING THE SAME - All solar battery cells are in a matrix disposition. Each row of the matrix includes at least two cell groups, and each column of the matrix includes at least two cell groups. | 12-16-2010 |
20110064984 | SOLAR BATTERY MODULE SUBSTRATE AND SOLAR BATTERY MODULE - A solar battery module substrate includes an insulating substrate on which a conductive pattern and an insulating protective film are formed, the conductive pattern including: cathode mounting terminals each of which is to be connected with a cathode of a solar battery cell; anode mounting terminals each of which is to be connected with an anode of the solar battery cell; and first module wiring, the first module wiring connecting a cathode mounting terminal to be connected with a cathode of one solar battery cell with an anode mounting terminal to be connected with an anode of another solar battery cell connected in series with said one solar battery cell, the insulating protective film having at least one opening for exposing the cathode mounting terminal and the anode mounting terminal, and the opening being positioned inside a portion of the solar battery module substrate on which portion the solar battery cell is to be projected. | 03-17-2011 |
Patent application number | Description | Published |
20110134431 | NON-DESTRUCTIVE INSPECTION DEVICE FOR OXYGEN CONCENTRATION IN BAG-SHAPED CONTAINER - A non-destructive inspection device for an oxygen concentration in a bag-shaped container includes: right and left affixing plates provided so as to be moved toward and away from the bag-shaped container; a laser emitting section for measuring an oxygen concentration that is provided on one of the affixing plates; and a laser receiving section on the other affixing plate, wherein the end faces of the emitting section and the receiving section have gas-filled chambers that include gas chambers with a constant length and are made of a translucent material. In the measurement of an oxygen concentration, the affixing plates are brought close to each other, the thickness of a gas phase portion is kept constant, and air is removed between the end faces of the emitting section and the receiving section and the surfaces of the container. | 06-09-2011 |
20140231673 | SHIELD STRUCTURE FOR ELECTRON BEAM STERILIZATION EQUIPMENT - A shield structure for electron beam sterilization equipment. The shield structure satisfies at least one of the following conditions: (I) an outer diameter D4 of an internal circumferential shield S | 08-21-2014 |
20140299786 | ELECTRON BEAM STERILIZATION EQUIPMENT FOR CONTAINERS THAT USES REVOLVING TRANSPORT DEVICE - Electron beam sterilization equipment includes an outer-surface sterilization zone Z | 10-09-2014 |
20160064111 | ELECTRON BEAM IRRADIATION APPARATUS - An electron bears irradiation apparatus that emits am electron beam into a container, the electron beam irradiation apparatus including a vacuum housing constituting a vacuum chamber; an electron generator provided in the vacuum housing; a cylindrical nozzle member that is extended from the vacuum housing so as to be inserted into the container and has exit windows on the distal end of the nozzle member, the exit windows being provided for emission of an electron beard generated by the electron generator into the container; and a magnetic shield member for the vacuum chamber and a magnetic shield member for the nozzle member, the magnetic shield members being respectively provided for the vacuum housing and the nozzle member so as to block variable magnetism generated around an electron beam, trajectory extended from the electron generator to the exit windows. | 03-03-2016 |
20160083131 | SHIELD AND ELECTRON BEAM CONTAINER STERILIZATION EQUIPMENT - Provided is a shield used for container sterilization equipment that inserts, from the mouth of a container (B), an irradiation nozzle (En) having an exit window (Ew) on the distal end of the irradiation nozzle (En) and sterilizes the inner surface of the container (B), the irradiation nozzle (En) being surrounded by composite shields (Wi, Wo). A composite shield block ( | 03-24-2016 |