Patent application number | Description | Published |
20090029087 | Method for producing sintered body, and sintered body - A first inorganic powder molded body | 01-29-2009 |
20090081514 | REACTOR AND SOLID OXIDE FUEL CELL - In a solid oxide fuel cell, air supplied from the outside through an air supply port Pain firstly flows through an air supply channel Hain in the downward direction to flow in air channels Sa. The air flowing into the air channels Sa flows through the air channels Sa in the lateral direction to flow out to an air discharge channel Haout. The air flowing out to the air discharge channel Haout flows through the air discharge channel Haout in the upward direction to be discharged to the outside from an air discharge port Paout. When a pressure loss ratio ΔPc/ΔPm, which is a ratio of a pressure loss ΔPc of air generated in the air channel Sa to the pressure loss ΔPm of air generated in the air supply channel Hain (or the air discharge channel Haout) during the operation of a fuel cell (at working temperature), is within 1 to 2500, the flow rate of the air flowing into each air channel can be equalized as much as possible, thereby being capable of preventing the reduction in the output. | 03-26-2009 |
20090091062 | MOLD AND MOLDING METHOD - A mold includes a gate communicating with the entire perimeter of a cavity serving as a space configured to form a molded article. A self-curable molding material with flowability is fed into the perimeter of the cavity through the gate; hence, the mold has a small number of dead ends compared with the case where, for example, the molding material is fed into the cavity through a part of the cavity, preventing the formation of bubbles left in the cavity. The arrangement of a gate and a bent each making an acute angle results in the spontaneous separation of the molded article in the cavity from solidified material portions in the gate and the vent due to shrinkage on curing. | 04-09-2009 |
20100095501 | GRIPPING JIG FOR ASSEMBLING, ASSEMBLING DEVICE, AND PRODUCING METHOD OF ASSEMBLED BODY - A gripping jig for assembling applies a force to a molded body in a direction perpendicular to an assembling direction. When an assembling load is applied to the molded body, the force is adjustable with an adjustment screw such that the molded body is guided to move in the assembling direction. Since the force is applied from a direction different from the assembling direction, the molded body can move in the assembling direction, and as the force is adjustable, application of the assembling load to the molded body and the movement of the molded body can be adjusted. Since a plurality of the molded bodies are fixed and assembled respectively, when there are variations in size of the molded bodies, if an excessive assembling load is applied, each molded body is guided to move, so that more uniform assembling load is applied to the plurality of molded bodies. | 04-22-2010 |
20100148803 | PASSAGE DETECTION APPARATUS OF OBJECT - A passage detection apparatus is configured to detect the change in the properties (propagation state of sound wave, dielectric constant, etc.) of a specific space, which changes according to the passage of an object in the specific space and the size of the object. The passage detection apparatus includes a pair of detection units and configured to transmit and receive signals to and from an external device. The specific space is formed by the space between the detection unit and the detection unit. The detection unit is supported by a first substrate. The detection unit is supported by a second substrate that is parallel to the first substrate, and arranged at the position corresponding to the detection unit supported by the first substrate. | 06-17-2010 |
20100201018 | FORMING DIE AND METHOD FOR MANUFACTURING FORMED BODY USING FORMING DIE - In the assembly-completed state, the Lower Mold, the Outer Mold, the Upper Mold, and the “inner mold (the integral body of the Pin-holder and the Pin)” are stacked and fixed in this order from the bottom, and the Pin is coaxially inserted into the First Hole of the Outer Mold and the Second Hole of the Upper Mold. In the assembly-completed state, the molding space for molding the ceramic molded body is formed between the surface of the Pin and the First Hole, and the annular minute gap is formed between the surface of the Pin and the Second Hole. The ceramic slurry poured into the Slurry Reservoir Pres formed on the upper surface of the Upper Mold falls and flows into the molding space through the annular minute gap by virtue of the action of gravity or the like. | 08-12-2010 |
20100224214 | ULTRASONIC CLEANING METHOD, AND ULTRASONIC CLEANING APPARATUS - The frequency and power of ultrasonic waves is adjusted to materialize the relation 0.04f−20.0≦P≦0.09f−7.5, wherein f (kHz) is the frequency of the ultrasonic waves and P (W/L) is the power per unit fluid volume obtained by dividing the power (W) of the ultrasonic waves by the volume (L) of a cleaning fluid. The discharge condition of the cleaning fluid by a pump is adjusted such that the proportion (C5) of the brightness of the fluid when 5 seconds has passed since the state wherein both an ultrasonic wave irradiation means and a bubble supply means are concurrently operating to the brightness of the fluid when no bubbles exist in the fluid is 0.75 or less. The coalition and crush of bubbles due to the irradiation of ultrasonic waves are suppressed, and the both actions can be utilized for a long period. | 09-09-2010 |
20110159408 | MANUFACTURING METHOD OF SOLID OXIDE FUEL CELL, AND MANUFACTURING METHOD OF COMPACT OF DIVIDED MEMBER OF THE CELL - A compact of a support-member divided-member, which has a shape formed by dividing a support member into two in the thickness direction so as to divide the fuel channel into two in the thickness direction, is manufactured by a gel cast method in which slurry is filled in a molding die. A compact of a fuel-side electrode and a compact of an electrolyte are successively stacked on the upper surface of the compact of the support-member divided-member, whereby a compact of a cell divided member is obtained. The two compacts of the cell divided member are bonded and sintered, whereby an SOFC cell (sintered body) in which an oxygen-side electrode is not formed is formed. A compact of the oxygen-side electrode is formed respectively on the upper and lower surfaces of the sintered body, and then, the compact of the oxygen-side electrode is sintered, whereby the SOFC cell is completed. | 06-30-2011 |
20110199603 | METHOD FOR OBSERVING FLUID AND FLUID FLOW OBSERVATION - A fluid observation apparatus | 08-18-2011 |
20120058301 | MOLDED BODY, AND METHOD FOR PRODUCING THE MOLDED BODY - A second mold is placed on a planar surface of a first mold to form a first mold cavity, which is filled with a first material slurry containing a first material powder and the molded slurry is caused to set, thereby forming a first molded part on the planar surface of the first mold. A third mold is placed on the planar surface of the first mold from which the second mold is removed and on which the first molded part is formed, thereby forming a second mold cavity. The second mold cavity is filled with a second material slurry which contains a second material powder different from the first material powder so as to mold the slurry in contact with the first molded part. The molded slurry is caused to set, thereby forming a second molded part on the planar surface of the first mold. | 03-08-2012 |
20120060608 | PASSAGE DETECTION APPARATUS OF OBJECT - A passage detection apparatus is configured to detect the change in the properties (propagation state of sound wave, dielectric constant, etc.) of a specific space, which changes according to the passage of an object in the specific space and the size of the object. The passage detection apparatus includes a pair of detection units and configured to transmit and receive signals to and from an external device. The specific space is formed by the space between the detection unit and the detection unit. The detection unit is supported by a first substrate. The detection unit is supported by a second substrate that is parallel to the first substrate, and arranged at the position corresponding to the detection unit supported by the first substrate. | 03-15-2012 |
20120085887 | FORMING MOLD - A forming mold having a base member, a resin layer bonded to the base member and serving as a forming surface, and a bonding layer between the base member and the resin layer, which bonds the base member to the resin layer. The base member has a rigidity higher than that of the resin layer. The forming mold is produced through bonding the resin layer to the base member by use of an adhesive, and the surface of the bonded resin layer is worked, to form the “forming surface” of the resin layer. Alternatively, the forming mold is produced through forming the resin layer having a “forming surface” and bonding the formed resin layer to the base member by use of an adhesive. The present invention enables provision of a forming mold having enhanced dimensional precision of the resin layer actually serving as a forming surface. | 04-12-2012 |
20120107715 | STRUCTURE OF SOLID OXIDE FUEL CELL - On each of upper and lower surfaces of a flat-plate-like support substrate having a longitudinal direction and having fuel gas flow channels formed therein, a plurality of power-generating elements A connected electrically in series are disposed at predetermined intervals along the longitudinal direction. On each of the upper and lower surfaces of the support substrate, a plurality of recesses are formed at predetermined intervals along the longitudinal direction. Each of the recesses is a rectangular-parallelepiped-like depression defined by four side walls arranged in a circumferentially closed manner and a bottom wall. That is, in the support substrate, frames are formed to surround the respective recesses. Fuel electrodes of the power-generating elements A are embedded in the respective recesses, and inter connectors are embedded in respective recesses formed on the outer surfaces of the fuel electrodes. | 05-03-2012 |
20120186736 | CERAMIC GREEN SHEET, CERAMIC GREEN SHEET LAMINATE, PRODUCTION METHOD OF CERAMIC GREEN SHEET, AND PRODUCTION METHOD OF CERAMIC GREEN SHEET LAMINATE - The present invention provides a ceramic green sheet with a thin flat plate shape obtained by molding and solidifying a ceramic slurry, which contains a ceramic powder, dispersion medium, and gelling agent, into a thin flat plate. The ceramic green sheet partially includes a body that is obtained by molding and solidifying a conductor paste, which becomes a conductor later, and the body is exposed on a part of each of the both surfaces of the sheet. Plural ceramic green sheets described above are produced. The plural ceramic green sheets are successively stacked and press-bonded in the thickness direction in such a manner that the bodies included in the respective sheets are connected to each other for all combinations of the adjacent two sheets. As a result, a ceramic green sheet laminate is formed, which includes one body that is obtained by connecting the bodies included in the respective sheets. | 07-26-2012 |
20120240383 | PRODUCTION METHOD OF FORMING MOLD - A forming mold having a base member | 09-27-2012 |
20140065375 | BONDED COMPACT AND METHOD OF PRODUCING GREEN BONDED COMPACT - Provided is a method of producing “a ceramic green bonded compact in which a ceramic green film is bonded on each bonding surface of a ceramic green substrate having hole portions,” the method imparting good adhesiveness to a thin green film while suppressing the green substrate from having deformation. In this method, first, a layer of a paste for bonding is formed on each bonding surface of green sheets prepared. Next, each bonding surface of the green sheets on which the paste layer is formed is brought into contact, in a state in which the paste layer is wet, with each bonding surface of a porous ceramic green substrate prepared. While this state is maintained, pores in the green substrate absorb a dispersion medium in the paste layer in the wet state. As a result, the paste layer is dried, thereby completely bonding the green substrate and the green sheets. | 03-06-2014 |
20140342108 | STRUCTURAL BODY AND METHOD FOR PRODUCING THE SAME - A structural body includes a tubular insulating body having a hollow portion and a conducting body inserted into the hollow portion in the insulating body, and the insulating body and the conducting body are directly integrated with each other by firing. In a tensile test in which the insulating body is fixed, and a portion of the conducting body that protrudes from the insulating body is pulled in the axial direction, the displacement of the conducting body with respect to the insulating body is 5% or less of the axial direction length of the contact portion between the hollow portion and the conducting body under a tensile load per unit contact area between the insulating body and the conducting body of 0.05 kgf/mm | 11-20-2014 |
20150042009 | MOLDED BODY, AND METHOD FOR PRODUCING THE MOLDED BODY - A second mold is placed on a planar surface of a first mold to form a first mold cavity, which is filled with a first material slurry containing a first material powder and the molded slurry is caused to set, thereby forming a first molded part on the planar surface of the first mold. A third mold is placed on the planar surface of the first mold from which the second mold is removed and on which the first molded part is formed, thereby forming a second mold cavity. The second mold cavity is filled with a second material slurry which contains a second material powder different from the first material powder so as to mold the slurry in contact with the first molded part. The molded slurry is caused to set, thereby forming a second molded part on the planar surface of the first mold. | 02-12-2015 |
20150084508 | STRUCTURAL BODY AND ELECTRODE STRUCTURE - A structural body is provided in fluid, perpendicular to a typical flow direction of the fluid. The structural body includes a cylindrical insulating body having at least one hollow portion and at least one conducting body positioned in the hollow portion of the insulating body. In a cross section of the insulating body having a normal line in an axial direction of the insulating body, the following relationship is satisfied: | 03-26-2015 |