NATIONAL UNIVERSITY CORPORATION KOBE UNIVERSITY (Japon)
Inventeur(s)
Kimura, Shuji
Ogura, Shinichiro
Miyawaki, Daisuke
Mukumoto, Naritoshi
Sasaki, Ryohei
Miyazaki, Satoru
Abrégé
A method for producing a medical immobilization device, including: obtaining medical image data of a site of a body of a patient; extracting an outer shape of the site from the obtained medical image data; preparing a block made of a material that allows radiation to pass through; obtaining basic shape data of the block; subtracting the extracted outer shape of the site from the basic shape data of the block, to thereby obtain data of a holder portion having such a shape to allow at least a region from a lower surface to both sides of the site of the body of the patient to be fitted therein with an entire surface of the region being in contact; and processing the block to thereby form the holder portion. The block includes multiple parts, and the data of the holder portion has multiple pieces each for a part thereof.
NATIONAL UNIVERSITY CORPORATION KYOTO INSTITUTE OF TECHNOLOGY (Japon)
Inventeur(s)
Yamamoto Hashira
Hori Shiori
Sakaguchi Koichi
Wakasugi Takashi
Kadono Kohei
Abrégé
[Problem] The purpose of the present invention is to provide: a carbon neutral product which is formed using a recycled raw material recycled from materials other than glass, which minimizes the discharged amount of by-products such as carbon dioxide derived from primary raw materials, and which contains glass as a primary product; and a method for producing glass. [Solution] Provided is a carbon neutral product that is formed using a silicon-based raw material, a calcium-based raw material and a sodium-based raw material as primary raw materials, with at least one of the silicon-based raw material, calcium-based raw material and sodium-based raw material that serve as primary raw materials being recycled from materials other than glass. The carbon neutral product is characterized by containing: a primary product comprising glass formed by using a material containing a recycled material containing carbon derived from a material as at least a part of the primary product; and a by-product comprising a gas containing a carbon oxide which is derived from the primary raw materials and is not substantially newly produced.
C04B 35/16 - Produits céramiques mis en forme, caractérisés par leur compositionCompositions céramiquesTraitement de poudres de composés inorganiques préalablement à la fabrication de produits céramiques à base d'oxydes à base de silicates autres que l'argile
C03C 4/16 - Compositions pour verres ayant des propriétés particulières pour verre diélectrique
C03C 10/04 - Phase cristalline de silicate ou polysilicate, p. ex. mullite, diopside, sphène, plagioclase
C03C 10/14 - Silice en phase cristalline, p. ex. quartz modifié, cristobalite
Provided is a glass-ceramic composition which is fired at 650-750°C and can be used at 750°C or less, and which does not contain an alkali metal oxide. This glass composition is a glass composition for sealing and substantially does not contain an alkali metal oxide, and contains 8-20 mol% of SiO2, 16-35 mol% of B2O3, 23-43 mol% of BaO, 0-26 mol% of ZnO, and 0-36 mol% of CaO + SrO. The glass composition for sealing becomes a glass-ceramic exhibiting a thermal expansion coefficient of 110-150×10-7/°C at 50-700°C when fired at a temperature of 700°C in the form of powder.
C03C 8/04 - Compositions en verre fritté, c.-à-d. broyées ou sous forme de poudre contenant du zinc
C03C 8/02 - Compositions en verre fritté, c.-à-d. broyées ou sous forme de poudre
C03C 8/16 - Mélanges de frittes vitreuses contenant des additifs, p. ex. des agents opacifiants, des colorants, des agents de broyage agents vecteurs ou de suspension, p. ex. suspension
C03C 10/00 - Verre dévitrifié ou vitrocéramiques, c.-à-d. verre ou céramiques ayant une phase cristalline dispersée dans la phase vitreuse et constituant au moins 50% en poids de la composition
NATIONAL UNIVERSITY CORPORATION KOBE UNIVERSITY (Japon)
Inventeur(s)
Kimura, Shuji
Ogura, Shinichiro
Miyawaki, Daisuke
Mukumoto, Naritoshi
Sasaki, Ryohei
Miyazaki, Satoru
Abrégé
Provided is a medical immobilization device that contributes to reducing the burden on a patient, while being capable of firmly immobilizing the patient. A medical immobilization device 10 is a device for immobilizing a specific site 1 of the body of a patient with the patient lying on their back. The medical immobilization device 10 comprises a block 3 made of a material that allows radiation to pass through, and the block 3 comprises holder portions 2a to 2c in which at least a region from the lower surface to both sides of the specific site 1 fit. All or part of the upper part of the block 3 is open.
H01B 3/12 - Isolateurs ou corps isolants caractérisés par le matériau isolantEmploi de matériaux spécifiés pour leurs propriétés isolantes ou diélectriques composés principalement de substances inorganiques céramiques
C04B 35/20 - Produits céramiques mis en forme, caractérisés par leur compositionCompositions céramiquesTraitement de poudres de composés inorganiques préalablement à la fabrication de produits céramiques à base d'oxydes à base de silicates autres que l'argile riches en oxyde de magnésium
NATIONAL UNIVERSITY CORPORATION KOBE UNIVERSITY (Japon)
Inventeur(s)
Kimura, Shuji
Ogura, Shinichiro
Miyawaki, Daisuke
Mukumoto, Naritoshi
Sasaki, Ryohei
Miyazaki, Satoru
Abrégé
In order to provide a medical fixing tool contributing to mitigation of a burden on a patient or the like while being capable of firmly fixing the patient or the like, a medical fixing tool (10) for fixing a specific part (1) of a body of the patient or the like in a state where the patient or the like lies in a supine position comprises a block body (3) formed from a material transmitting radioactive rays, the block body comprising a holder part (2a-2c) into which a region at least from the bottom face to the both side faces of the specific part is fitted in a firm contact state, the block body being configured such that the upper side thereof is either entirely or partially open.
C03C 8/02 - Compositions en verre fritté, c.-à-d. broyées ou sous forme de poudre
C03C 3/066 - Compositions pour la fabrication du verre contenant de la silice avec moins de 40% en poids de silice contenant du bore contenant du zinc
C03C 3/085 - Compositions pour la fabrication du verre contenant de la silice avec 40 à 90% en poids de silice contenant de l'oxyde d'aluminium ou un composé du fer contenant un oxyde d'un métal divalent
C03C 3/093 - Compositions pour la fabrication du verre contenant de la silice avec 40 à 90% en poids de silice contenant du bore contenant de l'aluminium contenant du zinc ou du zirconium
Provided is a cap capable of improving airtightness without an increase in opening torque and closing torque. The cap is provided with: a shell 1 having a top wall 3, a sidewall 4 extending downward from the peripheral edge of the top wall 3, and a female thread 5 formed on the sidewall 4 and to be screwably engaged to a male thread M1 of a container mouth part M; and a gasket 2 held inside the shell 1 and sealing the container mouth part M. The gasket 2 is provided with a top plate 10 for covering the container mouth part M and a shank 11 disposed continuing from the lower surface of the top plate 10 and coming into close contact with the inner peripheral surface of the container mouth part M, and the center portion of the top plate 10 is displaced downward more significantly than the peripheral edge portion thereof as the top plate 10 elastically deforms when being pushed downward by the top wall 4 during closing.
B65D 49/12 - Arrangements ou dispositifs pour empêcher le réemplissage des réceptacles par destruction d'une partie du réceptacle par le fait de l'ouvrir
B65D 53/06 - Étanchéité réalisée par matériaux liquides ou plastiques
10.
Application equipment for applying mold release lubricant to glass bottle forming molds
A mold release lubricant application equipment 4 comprises application portions 30A,30B for applying a mold release lubricant to glass bottle forming molds 10, 18, and an application control portion 31 for operating the application portions 30A,30B. Molds 10,18 are arranged independently along a predetermined arrangement direction A1. A plurality of sections 5 comprising molds 10, 18 are formed along the arrangement direction A1. The application portions 30A, 30B comprise lubricant application parts 38A, 38B for applying the mold release lubricant, a transport mechanisms 33A, 33B for moving the lubricant application parts 38A,38B among the plurality of the sections along the arrangement direction A1, and sensors 42A, 42B. The application control portion 31 detects abnormalities with the sensors 42A, 42B on a plurality of sections 5.
Provided is a synthetic resin cap capable of improving sealability. A synthetic resin cap 1 is provided with: a top wall 2; and a skirt wall 3 that extends downward from the outer periphery of the top wall 2, and that has a female thread 5 to be screwed with a male thread M1 of a container mouth M, wherein an annular shank 6 tightly adhered to the inner circumferential surface of the container mouth M is integrally formed at the bottom surface of the top wall 2, and the longitudinal cross-section of the outer peripheral surface of a top part 13 extending from a base portion 12 of the shank 6 to a center portion 14 has a curved shape recessed toward the inner side of the shank 6.
Provided is a cap capable of preventing a blowoff and an overrun. A cap (1) that is attached to a container opening part so as to cover the same is provided with: a top wall (2); and a substantially cylindrical skirt wall (3) that extends downward from an outer peripheral part of the top wall (2). The skirt wall (3) has a female screw (5) that threadedly engages a male screw formed on the periphery of the container opening part. In the skirt wall (3), the thickness of a lower portion (14) positioned below the female screw (5) is made greater than the thickness of an upper portion (15) positioned above the female screw (5).
B65D 41/04 - Capuchons ou couvercles en forme de capuchons filetés ou similaires, fixés par rotation
B65D 41/34 - Capuchons filetés ou analogues, ou couvercles en forme de capuchons
13.
Device for applying release agent to glass bottle finishing mold, method for applying release agent to glass bottle finishing mold, device for manufacturing glass bottle, and method for manufacturing glass bottle
This invention eliminates the need for a manual work of applying a mold release lubricant to blow molds and bottom molds by workers and reduces a burden on workers involved in the mold release lubricant application work while also increasing the safety of workers during mold release lubricant application, reducing downtime associated with the mold release lubricant application work, reducing changes in the mold release lubricant application locations and variations in amount of application for the blow molds, and, furthermore, contributing to a glass bottle quality stabilization.
f) provided on the bottom molds (32) located in the lower part of a finish molds (31), or both.
C03B 40/027 - Appareils pour appliquer des lubrifiants aux moules ou aux outils de formage de verre
C03B 9/16 - Soufflage du verreProduction d'articles de verre creux soufflés dans des machines alimentées en paraisons dans des machines du type "soufflé" ou dans des machines du type "soufflé-soufflé" dans des machines avec moules à renversement
Provided is a device for applying a release agent to molds for forming a glass bottle. A spraying device 4 has application units 30A, 30B for applying a release agent to molds 10, 18 for forming a glass bottle, and an application control unit 31 that operates the application units 30A, 30B. The plurality of molds 10, 18 are arranged and spaced apart from each other in a predetermined array direction A1. In the array direction A1, a plurality of sections 5 including the molds 10, 18 are formed. The application units 30A, 30B include: application members 38A, 38B that apply release agents L1, L2 to the molds 10, 18; transport mechanisms 33A, 33B that move the application members 38A, 38B between the plurality of sections 5 in the array direction A1; and sensors 42A, 42B. The application control unit 31 detects abnormality in the plurality of sections 5 by using the sensors 42A, 42B.
C03B 40/02 - Prévention de l'adhérence entre le verre et le verre ou entre le verre et les moyens utilisés pour le former par lubrificationUtilisation de substances spécifiées comme compositions de démoulage ou comme lubrifiants
C03B 9/34 - Moules de soufflage du verre non prévus ailleurs
C03C 3/068 - Compositions pour la fabrication du verre contenant de la silice avec moins de 40% en poids de silice contenant du bore contenant des terres rares
G02B 1/00 - Éléments optiques caractérisés par la substance dont ils sont faitsRevêtements optiques pour éléments optiques
This invention provides a synthetic resin cap that is effective at preventing cracking and makes it possible to improve sealing performance. A synthetic resin cap 1 comprises a top wall 2, and a skirt wall 3 extending downward from an outer peripheral section of the top wall and having an internal thread 5 where an external thread M1 of a container mouth M is threaded, the cap including an annular middle leg 6 in close contact with an inner peripheral surface of the container mouth and an annular outside leg 8 in close contact with an outer peripheral surface of the container mouth that are integrally formed on a lower surface of the top wall, wherein: the inner peripheral surface of the skirt wall includes a folded section 12 that is curved from the upper side and leads to an outer peripheral surface of the outside leg, an inclined section 13 where the inner diameter increases downward, and a straight section 14 that has a constant inner diameter; and the inclined section has a greater upper/lower width than the folded section.
[Problem] To provide a synthetic resin cap with which it is possible to improve a break-prevention function of an annular weakened part during installation on a container opening, and furthermore in which it is possible to reduce the amount of resin used. [Solution] The present invention has a substantially cylindrical side wall 14, and is configured so that: the side wall 14 includes a skirt wall 3 provided with a female thread portion 5 that screws onto a male thread portion M1 formed on the outer circumference of a container opening M, and a tamper evidence band 9 that is continuous with the lower part of the skirt wall 3 via an annular weakened part 10 and is provided with an engagement part 11 that engages with a part to be engaged M2 formed on the outer circumference of the container opening M; and a groove 15 that is continuous or intermittent along the circumferential direction of the side wall 14 is provided in a region on the inner-circumferential surface of the side wall 14 from the annular weakened part 10 to the lowermost position of the female thread portion 5.
C03C 8/24 - Compositions de scellement par fusion, constituées de frittes vitreuses contenant des additifs, utilisées pour le scellement de matériaux différents, p. ex. verre et métalVerre de scellement
C03C 10/00 - Verre dévitrifié ou vitrocéramiques, c.-à-d. verre ou céramiques ayant une phase cristalline dispersée dans la phase vitreuse et constituant au moins 50% en poids de la composition
C03C 8/02 - Compositions en verre fritté, c.-à-d. broyées ou sous forme de poudre
C03C 8/04 - Compositions en verre fritté, c.-à-d. broyées ou sous forme de poudre contenant du zinc
H01M 8/124 - Éléments à combustible avec électrolytes solides fonctionnant à haute température, p. ex. avec un électrolyte en ZrO2 stabilisé caractérisés par le procédé de fabrication ou par le matériau de l’électrolyte
19.
DEVICE FOR MONITORING SUPPLYING OF RELEASE AGENT AND DEVICE FOR SPRAYING RELEASE AGENT ONTO GLASS BOTTLE FORMING DIE
Provided are: a device for monitoring the supplying of a release agent, the device being capable of accurately detecting abnormal spraying of a release agent having a high viscosity; and a device for spraying a release agent onto a glass bottle forming die. A device 50 for monitoring the supplying of a release agent is provided with a detection unit 51. The detection unit 51 detects a release agent L1 to check for abnormal spraying of the release agent L1 in a release agent spraying device 3. The detection unit 51 has optical sensors 52, 53 that generate different results according to whether or not the release agent L1 is detected.
C03B 40/027 - Appareils pour appliquer des lubrifiants aux moules ou aux outils de formage de verre
B05B 12/08 - Aménagements de commande de la distributionAménagements de réglage de l’aire de pulvérisation sensibles à l'état du liquide ou d'un autre matériau fluide expulsé, du milieu ambiant ou de la cible
C03B 9/44 - Moyens de déchargement combinés avec des machines à souffler le verre, p. ex. démouleurs
OSAKA PREFECTURE UNIVERSITY PUBLIC CORPORATION (Japon)
H. IKEUCHI & CO., LTD. (Japon)
NIHON YAMAMURA GLASS CO., LTD. (Japon)
Inventeur(s)
Okubo, Masaaki
Kuroki, Tomoyuki
Fujishima, Hidekatsu
Hiramatsu, Koki
Nakai, Shiro
Yamamoto, Hashira
Tsuji, Ryota
Abrégé
The present invention provides a spray nozzle that can prevent thermal decomposition of oxidation agent gas and can efficiently use the oxidation agent gas to perform oxidation treatment on a gas to be treated. This spray nozzle is characterized by being provided with a first spray hole provided on an end part of a first pipe and a second spray hole provided so as to surround the first pipe, and in that the second spray hole is provided so as to cause a propellant gas along with water or an aqueous solution to swirlingly jet from the second spray hole, and the first spray hole is provided so as to supply the oxidation agent gas jetted from the first nozzle into a mist that includes the water or aqueous solution jetted from the second spray hole.
B01D 53/76 - Procédés en phase gazeuse, p. ex. utilisant des aérosols
B05B 7/26 - Appareillages dans lesquels des liquides ou d'autres matériaux fluides en provenance de différentes sources sont mélangés avant de pénétrer dans le dispositif d'évacuation
The purpose of the present invention is to provide a synthetic resin cap and a container, capable of preventing longitudinal cracking of a tamper-evident band. The cap (1) is equipped with: a skirt wall (3) provided with a female screw (5) to be screwed onto a male screw (M1) formed on the outer periphery of a container mouth section (M); and a tamper-evident band (9) connected to the bottom of the skirt wall (3) via an annular weakened part (10). Multiple hooks (11) lockable, from below, to annular protrusions (M2) provided on the outer periphery of the container mouth section (M) are provided on the inner peripheral side of the tamper-evident band (9) with gaps therebetween in a circumferential direction. The female screw (5) is an intermittent screw comprising alternately arranged threads (16) and unthreaded parts (17), and is configured such that no gaps (18) disposed between circumferentially adjoining hooks (11) are positioned on extensions of the unthreaded parts (17) in an axial direction of the skirt wall (3).
The purpose of the present invention is to provide a synthetic resin cap and a container with which it is possible to expand a locking margin of a locking piece with respect to an annular protrusion while preventing inversion of the locking piece, and to cause an annular weakened part to be broken reliably when opening. A cap 1 is provided with: a skirt wall 3 having a female screw 5 threadedly engaging a male screw M1 formed on the outer periphery of a container mouth part M; and a tamper evidence band 9 coupled to a lower part of the skirt wall 3 via the annular weakened part 10. On the inner peripheral side of the tamper evidence band 9, a plurality of locking pieces 11 lockable to an annular protrusion M2 provided on the outer periphery of the container mouth part M from below are provided at intervals in a circumferential direction. In addition, a plurality of protrusion parts 12 protruding from tip ends of the locking pieces 11 are provided at intervals in the circumferential direction. A protrusion-part absent region 14 formed between the protrusion parts 12 adjacent to each other in the circumferential direction has a center angle of 30° or more in a plan view thereof.
B65D 41/34 - Capuchons filetés ou analogues, ou couvercles en forme de capuchons
23.
DEVICE FOR APPLYING RELEASE AGENT TO GLASS BOTTLE MOLDING MOUTH MOLD, METHOD FOR APPLYING RELEASE AGENT TO GLASS BOTTLE MOLDING MOUTH MOLD, DEVICE FOR MANUFACTURING GLASS BOTTLE, AND METHOD FOR MANUFACTURING GLASS BOTTLE
Provided is a configuration which is capable of preventing contamination of the inside of glass caused by application of a release agent, reducing burden on workers involved in bottle manufacturing operations, further improving safety in release agent application, shortening pause times for glass bottle molding, reducing variations in the position for applying the release agent to a mouth mold and the amount of application, and contributing to the improvement and stability of the quality of the glass bottles. A device 40 for applying a release agent applies the release agent to a mouth mold 21 that is in a position away from a plunger 16 on a rough mold 11 side relative to a position A1 of the mouth mold 21 during parison molding.
C03B 40/027 - Appareils pour appliquer des lubrifiants aux moules ou aux outils de formage de verre
B22C 9/12 - Traitement des moules ou noyaux, p. ex. séchage, étuvage
B22D 17/20 - AccessoiresCoulée sous pression ou moulage par injection, c.-à-d. moulage en introduisant le métal dans le moule sous haute pression Parties constitutives
C03B 9/193 - Soufflage du verreProduction d'articles de verre creux soufflés dans des machines alimentées en paraisons dans des machines du type "pressé-soufflé"
24.
DEVICE FOR APPLYING RELEASE AGENT TO GLASS BOTTLE FINISHING MOLD, METHOD FOR APPLYING RELEASE AGENT TO GLASS BOTTLE FINISHING MOLD, DEVICE FOR MANUFACTURING GLASS BOTTLE, AND METHOD FOR MANUFACTURING GLASS BOTTLE
The present invention contributes to the stabilization of the quality of glass bottles by providing a configuration which eliminates manual application of a release agent to a finishing mold by workers, reduces burden on the workers involved in release agent application, further improves safety for the workers in release agent application, shortens pause times due to release agent application for glass bottle molding, reduces variations in the position for applying the release agent and the amount of application, etc. during finishing molding, and is suitable for applying the release agent to the finishing mold. A device 40 for applying a release agent applies the release agent to at least either one of a portion of a finishing mold molding surface 31f provided in the finishing mold 31 or the entire surface of a bottom mold molding surface 32f provided in a bottom mold 32 which is disposed on a lower part of the finishing mold 31.
C03B 40/027 - Appareils pour appliquer des lubrifiants aux moules ou aux outils de formage de verre
B22C 9/12 - Traitement des moules ou noyaux, p. ex. séchage, étuvage
B22D 17/20 - AccessoiresCoulée sous pression ou moulage par injection, c.-à-d. moulage en introduisant le métal dans le moule sous haute pression Parties constitutives
C03B 9/193 - Soufflage du verreProduction d'articles de verre creux soufflés dans des machines alimentées en paraisons dans des machines du type "pressé-soufflé"
Provided are a synthetic resin cap and a container that are capable of preventing inversion of a locking piece, broadening the locking margin of the locking piece in relation to an annular protrusion, and reliably breaking an annular weakened section at the time of opening. The cap 1 comprises: a skirt wall 3 having a female screw 5 provided therein that screws onto a male screw M1 formed on the outer circumference of a container mouth M; and a tamper evidence band 9 coupled to a lower section of the skirt wall via an annular weakened section 10. A plurality of locking pieces 11 that are capable of locking, from below, to an annular protrusion M2 provided in the outer circumference of the container mouth are provided on the inner circumference side of the tamper evidence band, with spaces therebetween in the circumferential direction. At least some of the plurality of locking pieces form a pair with only one out of adjacent locking pieces and have a protruding section 12 on the tip thereof. Protruding sections provided in locking pieces forming a pair are provided at positions mutually closer to the protruding section of the pair of locking pieces and are not provided at positions on the opposite side. A plurality of pairs are provided.
The present invention aims to provide a synthetic resin cap and a container that are capable of preventing inversion of a locking piece, broadening the locking margin of the locking piece in relation to an annular protrusion, and reliably breaking an annular weakened section at the time of opening. The cap (1) comprises: a skirt wall (3) having a female screw (5) provided therein that screws onto a male screw (M1) formed on the outer circumference of a container mouth (M); and a tamper evidence band (9) coupled to a lower section of the skirt wall (3) via an annular weakened section (10). A plurality of locking pieces (11) that are capable of locking, from below, to an annular protrusion (M2) provided in the outer circumference of the container mouth (M) are provided on the inner circumference side of the tamper evidence band (9), with spaces therebetween in the circumferential direction. At least some of the plurality of locking pieces (11) have a protruding section (12) that protrudes forward from the tip thereof. The protruding sections (12) are configured so as to have a jutting section (14) that is closer to the outer circumferential side of the locking pieces (11) and juts out on the outer circumferential side of the locking pieces (11), in a state in which the cap (1) is attached to the container mouth (M) and the tips of the locking pieces (11) are facing upwards.
B65D 41/34 - Capuchons filetés ou analogues, ou couvercles en forme de capuchons
27.
MOLD RELEASE LUBRICANT APPLICATION DEVICE FOR ROUGH MOLD FOR GLASS BOTTLE MANUFACTURING, MOLD RELEASE LUBRICANT APPLICATION METHOD FOR ROUGH MOLD FOR GLASS BOTTLE MANUFACTURING, DEVICE FOR MANUFACTURING GLASS BOTTLES, AND METHOD FOR MANUFACTURING GLASS BOTTLES
The present invention provides: a mold release lubricant application device which is for a rough mold for glass bottle manufacturing and in which a change in the wall thickness of a glass bottle skirt part is reduced after applying a mold release lubricant; a mold release lubricant application method for a rough mold for glass bottle manufacturing; a device for manufacturing glass bottles; and a method for manufacturing glass bottles. In this mold release lubricant application device 5 for a rough mold for glass bottle manufacturing, a mold release lubricant is applied to a first region 41 set on a mold opening 11 side on the inner surface of a rough mold 10, and a second region 42 set at a location further away from the mold opening 11 than the first region 41, so that a mold release lubricant film thickness T1 in the first region 41 is greater than a mold release lubricant film thickness T2 (including zero) in the second region 42.
C03B 9/347 - Structure du moule ébaucheur ou du moule finisseur
C03B 9/30 - Détails du soufflage du verreEmploi de matériaux spécifiés pour les moules
C03B 40/02 - Prévention de l'adhérence entre le verre et le verre ou entre le verre et les moyens utilisés pour le former par lubrificationUtilisation de substances spécifiées comme compositions de démoulage ou comme lubrifiants
[Problem] To provide a glass composition capable of forming an encapsulant that has properties suitable for a process for encapsulating electronic components and can withstand even higher temperature ranges after firing. [Solution] The present invention provides an encapsulating glass composition for producing a crystallized glass encapsulant containing at least a CaO-ZnO-SiO2-based crystal, the encapsulating glass composition being characterized by containing 0-20 mol% total of at least the following components: 1) 41-55 mol% of SiO2, 2) 29-36 mol% of CaO, 3) 5-25 mol% of ZnO, 4) 3-12 mol% of Al2O3, and 5) RO (R represents at least one among Mg, Sr, and Ba), wherein the molar ratio of Al atoms to Zn atoms, [Al/Zn] satisfies 0.4≤[Al/Zn]≤2.
C03C 10/02 - Phase cristalline sans silice et sans silicate, p. ex. spinelle, titanate de barium
C03C 8/02 - Compositions en verre fritté, c.-à-d. broyées ou sous forme de poudre
C03C 10/04 - Phase cristalline de silicate ou polysilicate, p. ex. mullite, diopside, sphène, plagioclase
H01L 23/10 - ConteneursScellements caractérisés par le matériau ou par la disposition des scellements entre les parties, p. ex. entre le couvercle et la base ou entre les connexions et les parois du conteneur
The present invention provides a paste composition for a solar battery with which it is possible to obtain high conversion efficiency in a crystal-based solar cell, the glass frit structure is stable, and the change in viscosity (thickening) over time is minimized. The present invention provides a paste composition for a solar battery containing an aluminum powder, an organic vehicle, and glass frit, wherein the paste composition for a solar battery is characterized in that the glass frit contains 50-90 mol% of Sb2O3.
Disclosed is a low melting point sealing material that flows well during a thermal treatment at 500ºC or lower and exhibits a low coefficient of thermal expansion by subsequent cooling solidification. The low melting point sealing material comprises 50-95 vol% of a low melting point composition and 5-50 vol% of a filler, wherein the low melting point composition is a non-metallic composition comprising Ag and O as essential components and having a melting point of not higher than 500ºC, and the low melting point sealing material comprises at least 5 vol% of a filler made of at least one alloy selected from Fe alloys and Ni alloys.
C03C 8/24 - Compositions de scellement par fusion, constituées de frittes vitreuses contenant des additifs, utilisées pour le scellement de matériaux différents, p. ex. verre et métalVerre de scellement
31.
EXHAUST GAS TREATMENT APPARATUS AND EXHAUST GAS TREATMENT METHOD
OSAKA PREFECTURE UNIVERSITY PUBLIC CORPORATION (Japon)
NIHON YAMAMURA GLASS CO., LTD. (Japon)
Inventeur(s)
Okubo, Masaaki
Kuroki, Tomoyuki
Fujishima, Hidekatsu
Yamamoto, Hashira
Tsuji, Ryota
Abrégé
The exhaust gas treatment apparatus according to the present invention is provided with: an exhaust gas flow channel that is formed so as to allow NOx-containing exhaust gas to flow therethrough; and a first spray nozzle, wherein the first spray nozzle is provided with at least one spray hole for spraying cooling water into the exhaust gas flow channel so as to form first mist; and an ozone ejection port that is disposed so as to supply ozone gas to a local cooling region of the first mist at 150°C or less, wherein the at least one spray hole is characterized by being disposed so as to surround the ozone ejection port or an ozone gas flow channel through which ozone gas is supplied to the ozone ejection port.
B01D 53/78 - Procédés en phase liquide avec un contact gaz-liquide
B05B 7/06 - Pistolets pulvérisateursAppareillages pour l'évacuation avec un orifice de sortie en entourant un autre situé approximativement dans le même plan
32.
Phenyl-modified hybrid prepolymer, phenyl-modified polydimethylsiloxane-based hybrid prepolymer, and phenyl-modified polydimethylsiloxane-based hybrid polymer, and production processes therefor
Disclosed herein are a phenyl-modified hybrid prepolymer, a phenyl-modified polydimethylsiloxane-based hybrid prepolymer, and a phenyl-modified polydimethylsiloxane-based hybrid polymer capable of controlling material hardness or surface tackiness depending on the intended use or purpose. A phenyl-modified hybrid prepolymer (B) is prepared by subjecting polydimethylsiloxane having trialkoxysilyl groups at both ends, phenyltrialkoxysilane, and diphenyldialkoxysilane to hydrolysis and condensation reaction. A phenyl-modified polydimethylsiloxane-based hybrid prepolymer (C) comprises (B), and is preferably prepared by mixing (B) and a phenyl-modified hybrid prepolymer (A) prepared by condensation reaction between polydimethylsiloxane having silanol groups at both ends and phenyltrialkoxysilane. The phenyl-modified polydimethylsiloxane-based hybrid polymer is obtained by heating and solidifying (C).
C08G 77/38 - Polysiloxanes modifiés par post-traitement chimique
C08G 77/00 - Composés macromoléculaires obtenus par des réactions créant dans la chaîne principale de la macromolécule une liaison contenant du silicium, avec ou sans soufre, azote, oxygène ou carbone
Provided are a synthetic resin cap and a container with which it is possible to improve opening operability while establishing excellent properties for showing evidence of tampering. A cap 1 equipped with a skirt wall 3 in which there is provided a female screw 5 threadably mounted on a male screw M1 formed on the outer periphery of a container opening M, and a band 7 connected to the lower part of the skirt wall with an annular weakened part 6 interposed therebetween, wherein: a plurality of hooks 8 capable of locking, from below, an annular projection 9 provided to the outer periphery of the container opening is provided to the inner-peripheral side of the band at intervals in the circumferential direction; a protruding part 10 that protrudes inward from the band above the hooks and that protrudes by an amount less than that of the hooks extends on the inner-peripheral side of the band; an inclined part 11 of which the inner diameter increases in correlation with greater height above the protruding part is provided to the inner-peripheral side of the band; and the inclined part extends from the upper end thereof toward the upper end of the protruding part such that the inner diameter decreases at a gradient θ of 35-45°m and the axial-direction length h5 of the inclined part is 0.2-0.8 mm.
According to the present invention, a surface-coated AlN filler for obtaining a heat-resistant heat dissipation material that is suppressed in deterioration of characteristics such as thermal conductivity due to hydrolysis of the AlN filler surface is obtained, said heat dissipation material being able to be used in a heat dissipation member that requires high thermal conduction characteristics. A silicone-based hybrid polymer-coated AlN filler according to the present invention is mainly composed of aluminum nitride; and the surface of this filler is coated with a silicone-based hybrid polymer. If 5 g of this filler, which has an average particle diameter of 20-40 μm, is added into 50 mL of an ion exchange water, the electrical conductivity of the water after being held at 121°C under saturated water vapor pressure for 50 hours is 350 μS/cm or less.
Provided is a sealing material applicable to a surface comprising an inorganic oxide and/or metal, that can be well spread after heat treatment in a low temperature range, and can be satisfactorily sealed by cooling and solidification. This sealing material is a low melting point sealing material comprising 50%–100% by volume of a low melting point composition and 0%–50% by volume of a filler. The low melting point composition includes at least either Te or V and includes Ag, I, and O as essential constituent elements thereof, comprises bonded cations and anions, and when represented as an aggregation of various compounds indicated by formula MQm/q [M indicates a cation having a valency m and Q indicates an anion having a valency q] and when all anions other than oxide ions (O2–) are represented as being bonded with Ag ions, the ratios of these compounds fulfill the following conditions: AgI: 0.1–71 mol%, AgO1/2: 19–72 mol%, TeO2 + VO5/2: 10–55 mol%, and AgO1/2 + AgI: 45–90 mol%.
C03C 8/24 - Compositions de scellement par fusion, constituées de frittes vitreuses contenant des additifs, utilisées pour le scellement de matériaux différents, p. ex. verre et métalVerre de scellement
C03C 3/23 - Compositions pour la fabrication du verre contenant un oxyde mais pas de silice contenant un halogène et au moins un oxyde, p. ex. de l'oxyde de bore
C03C 8/08 - Compositions en verre fritté, c.-à-d. broyées ou sous forme de poudre contenant du phosphore
36.
LOW MELTING POINT SEALING MATERIAL, ELECTRONIC COMPONENT, AND SEALING BODY
Provided is a sealing material applicable to a surface comprising an inorganic oxide and/or metal, that can be well spread after heat treatment in a low temperature range, can be suitably sealed by cooling and solidification, and has excellent performance maintenance under low temperature cooling conditions. This sealing material is a low melting point sealing material comprising 50%–100% by volume of a low melting point composition and 0%–50% by volume filler. The low melting point composition comprises Ag, I, and O as essential constituent elements thereof, has cations and anions bonded therein, and when represented as an aggregation of a variety of compounds indicated by formula MQm/q (M indicating a cation having a valence m and Q indicating an anion having a valence q] and as having all anions other than oxide anions (O2-) being bonded with Ag ions, the ratios of each fulfill the following conditions: AgI: 40–85 mol%; AGO1/2: 10–50 mol%; AgO1/2 + AgI: 65–95 mol%; and AgI/AgO1/2 ≥ 1 (mol/mol). The low melting point composition contains at least one type selected from VO5/2, MoO3, WO3, MnO2, ZnO, BO3/2, GeO2, PbO, PO5/2, SbO5/2, BiO3/2, and TeO2in a total amount of 5–35 mol%.
C03C 8/24 - Compositions de scellement par fusion, constituées de frittes vitreuses contenant des additifs, utilisées pour le scellement de matériaux différents, p. ex. verre et métalVerre de scellement
C03C 3/23 - Compositions pour la fabrication du verre contenant un oxyde mais pas de silice contenant un halogène et au moins un oxyde, p. ex. de l'oxyde de bore
C03C 8/06 - Compositions en verre fritté, c.-à-d. broyées ou sous forme de poudre contenant un halogène
C03C 8/08 - Compositions en verre fritté, c.-à-d. broyées ou sous forme de poudre contenant du phosphore
Disclosed is a glass composition for sealing which, by being fired in the form of a powder at a temperature of 900-1150°C, becomes crystallized glass exhibiting a thermal expansion coefficient of 80-110 × 10-7/°C at 50-850°C. The composition contains substantially no boron oxide or barium oxide, but contains 43-53 mol% of SiO2, 12-33 mol% of CaO, 12-33 mol% of MgO, 1-7 mol% of La2O3, and 0-4.5 mol% of ZnO.
C03C 8/04 - Compositions en verre fritté, c.-à-d. broyées ou sous forme de poudre contenant du zinc
C03C 8/02 - Compositions en verre fritté, c.-à-d. broyées ou sous forme de poudre
C03C 8/16 - Mélanges de frittes vitreuses contenant des additifs, p. ex. des agents opacifiants, des colorants, des agents de broyage agents vecteurs ou de suspension, p. ex. suspension
C03C 8/24 - Compositions de scellement par fusion, constituées de frittes vitreuses contenant des additifs, utilisées pour le scellement de matériaux différents, p. ex. verre et métalVerre de scellement
C03C 10/04 - Phase cristalline de silicate ou polysilicate, p. ex. mullite, diopside, sphène, plagioclase
The present invention provides a plastic cap in which moldability is exceptional, and is therefore possible to achieve improved sealability. The present invention is a plastic cap provided with a top wall and a skirt wall that extends downward from the outer periphery of the top wall and has an internal thread that threads together with an external screw of a container opening, the lower surface of the top wall having formed integrally therewith an annular center leg that tightly joins to the inner peripheral surface of the container opening and an annular outer leg that tightly joins to the outer peripheral surface of the container opening, wherein the inner peripheral surface of the outer leg increases in diameter downward, the outer peripheral surface of the outer leg decreases in diameter downward, and the taper angle of the outer peripheral surface is greater than the taper angle of the inner peripheral surface.
The purpose of the present invention is to provide a synthetic resin cap having good tamper evidence properties while being capable of limiting increases in uncapping torque. Provided is a cap 1 provided with a skirt wall 3 with a female thread 5 that screws together with a male thread formed on the outer circumference of a container mouth section and a tamper evident band 7 connected to the lower part of the skirt wall via a ring-shaped weakened section 6, wherein: multiple hooks 8, which are capable of locking from below with a ring-shaped protrusion 9 provided on the outer circumference of the container mouth section, are provided at intervals in the circumferential direction on the inner circumferential side of the tamper evident band; and on the inner circumferential side of the tamper evident band, protruding parts 10, which protrude to the inside of the tamper evident band, extend above the hooks, contacting parts 11 are provided on the lower part of the protruding parts, and said contacting parts extend so that the internal diameter decreases with a slope θ of at least 20 degrees from the inner circumferential surface of the protruding parts to the upper surfaces of the hooks.
Provided is a highly thermally conductive composite material which is excellent in terms of heat resistance and thermal conductivity. The highly thermally conductive composite material is for thermal conduction applications and is obtained by incorporating a thermally conductive filler having a thermal conductivity of 20 W·m-1·K-1 or greater into a resin. The resin is a phenyl-modified polydimethylsiloxane-based hybrid polymer comprising a product of the reaction of the following prepolymers (A) and (B). The prepolymer (A) is a phenyl-modified hybrid prepolymer which comprises a product of condensation of a polydimethylsiloxane having silanol groups at both terminals with a phenyltrialkoxysilane, and the prepolymer (B) is a phenyl-modified hybrid prepolymer which comprises a product of hydrolysis/condensation of a polydimethylsiloxane having trialkoxysilyl groups at both terminals with a phenyltrialkoxysilane and a diphenyldialkoxysilane.
Disclosed is a lead-free low-melting-point composition with which it is possible to satisfactorily seal a metal surface or both a metal surface and an inorganic oxide surface by heat treatment in a low-temperature range. The composition includes: one or more selected from a group M1 consisting of Mo and P; one or more selected from a group M2 consisting of Mg, Ca, Sr, Ba, Y, lanthanoids, Ti, Zr, Nb, Ta, Mn, Fe, Co, Zn, B, Ga, In, Si, Ge, Sn, Bi, and Te; Ag; I; and O, the composition being configured such that (a) the proportion of the total number of mol of atoms belonging to group M1 is 5-30% and the proportion of the number of mol of Ag atoms is 69-92% relative to the sum of the number of mol of all atoms having a positive ionic valence, and the (total number of mol of atoms belonging to group M2)/(total number of mol of atoms belonging to group M1) is 0.01-0.7, (b) the proportion of the number of mol of I atoms is 15-65% and the proportion of the number of mol of O atoms is 35-85% relative to the total number of mol of atoms having a negative ionic valence, (c) the proportion of the total number of mol of each of I atoms and O atoms is at least 90% relative to the total number of mol of atoms having a negative ionic valence, and (d) each of the Pb atom content, F atom content, and Cl atom content is less than 1000 ppm.
C03C 3/23 - Compositions pour la fabrication du verre contenant un oxyde mais pas de silice contenant un halogène et au moins un oxyde, p. ex. de l'oxyde de bore
C03C 3/247 - Compositions pour la fabrication du verre contenant un oxyde mais pas de silice contenant un halogène et au moins un oxyde, p. ex. de l'oxyde de bore contenant du fluor et du phosphore
C03C 3/253 - Compositions pour la fabrication du verre contenant un oxyde mais pas de silice contenant du germanium
Disclosed is a low-melting-point composition with which it is possible to seal an object to be sealed by applying the composition to the object to be sealed, and then cooling and solidifying after heat-treating in a temperature range of 250°C or lower in air. This composition is a low-melting-point composition comprising Ag, Ge, I, and O as essential constituent elements, wherein when represented as an aggregate of various compounds shown by the formula MQm/q (in the formula, M is a cation of valence m and Q is an anion of valence q) obtained by bonding a cation and anion with all anions other than oxide ions (O2-) bonded with Ag ions, the proportions of these compounds satisfy the following conditions. AgI: 10-60 mol%, AgO1/2: 25-60 mol%, GeO2: 10-30 mol%, ΣAgQ1/q: 70-85 mol%, ΣMOm/2: 40-90 mol%, and (ΣMOm/2-AgO1/2)/AgO1/2: 0.37-0.60 (mol/mol).
C03C 8/02 - Compositions en verre fritté, c.-à-d. broyées ou sous forme de poudre
C03C 8/16 - Mélanges de frittes vitreuses contenant des additifs, p. ex. des agents opacifiants, des colorants, des agents de broyage agents vecteurs ou de suspension, p. ex. suspension
43.
LOW MELTING POINT COMPOSITION, SEALING MATERIAL AND SEALING METHOD
Disclosed is a low melting point composition which is able to be used in sealing at low temperatures, and which exhibits good wettability to the surface of an object to be sealed. This low melting point composition contains Ag, Br and O as constituent elements. In a predetermined mass of this composition, (a) the proportion of the number of moles of Ag atoms in the total number of moles of all the atoms having positive ionic valences is 60-97%; (b) the proportion of the number of moles of Cl atoms is 0-40%, the proportion of the number of moles of Br atoms is 5-60%, the proportion of the number of moles of I atoms is 0-40% and the proportion of the number of moles of O atoms is 25-90%, respectively in the total number of moles of all the atoms having negative ionic valences; and (c) the proportion of the sum of respective numbers of moles of Cl atoms, Br atoms, I atoms and O atoms in the total number of moles of all the atoms having negative ionic valences is at least 90%.
C03C 3/23 - Compositions pour la fabrication du verre contenant un oxyde mais pas de silice contenant un halogène et au moins un oxyde, p. ex. de l'oxyde de bore
C03C 8/06 - Compositions en verre fritté, c.-à-d. broyées ou sous forme de poudre contenant un halogène
[Problem] To provide a glass composition capable of forming a sealing material, which has physical properties suitable for sealing electronic components and is able to withstand higher temperature ranges. [Solution] Provided is a glass composition for producing a crystallized glass sealing material containing at least a CaO-ZnO-SiO2 based crystal, the glass composition for sealing being characterized by containing at least the following components: 1) SiO2: 35-55 mol%, 2) CaO: 15-45 mol%, 3) ZnO: 1-25 mol%, 4) Al2O3: 0-25 mol%, and 5) RO: 0-20 mol% in total (where R represents at least one among Mg, Sr and Ba).
C03C 8/04 - Compositions en verre fritté, c.-à-d. broyées ou sous forme de poudre contenant du zinc
C03B 32/02 - Cristallisation thermique, p. ex. pour la cristallisation de produits vitreux en articles vitrocéramiques
C03C 3/087 - Compositions pour la fabrication du verre contenant de la silice avec 40 à 90% en poids de silice contenant de l'oxyde d'aluminium ou un composé du fer contenant un oxyde d'un métal divalent contenant de l'oxyde de calcium, p. ex. verre à vitre ordinaire ou verre pour récipients creux
C03C 10/04 - Phase cristalline de silicate ou polysilicate, p. ex. mullite, diopside, sphène, plagioclase
C09K 3/10 - Substances non couvertes ailleurs pour sceller ou étouper des joints ou des couvercles
H01L 23/29 - Encapsulations, p. ex. couches d’encapsulation, revêtements caractérisées par le matériau
H01L 23/31 - Encapsulations, p. ex. couches d’encapsulation, revêtements caractérisées par leur disposition
45.
LOW-MELTING-POINT COMPOSITION, PRODUCTION METHOD THEREFOR, SEALING MATERIAL, AND SEALING METHOD
Provided are: a low-melting-point composition that is applied to an object to be sealed and is capable of sealing same by using a heat treatment at no more than 250°C, in the atmosphere; and a sealing material including same. This low-melting-point composition includes (1) Ag, Mo, I, and O as essential constituent elements. In a prescribed mass of composition: (a) the proportion of the number of moles of Ag atoms is 70%-98% and the proportion of the number of moles of Mo atoms is 1%-23%, relative to the total number of moles of all atoms having a positive valence; (b) the proportion of the number of moles of I atoms is 10%-90% and the proportion of the proportion of the number of moles of O atoms is 10%-80%, relative to the total number of moles of all atoms having a negative valence; and (c) the proportion of the total number of moles of Cl, Br, I, and O atoms, respectively, relative to the total number of moles of all atoms having a negative valence is at least 90%.
C03C 3/23 - Compositions pour la fabrication du verre contenant un oxyde mais pas de silice contenant un halogène et au moins un oxyde, p. ex. de l'oxyde de bore
C03C 1/00 - Ingrédients généralement utilisés pour la fabrication des verres, glaçures ou émaux vitreux
C03C 3/247 - Compositions pour la fabrication du verre contenant un oxyde mais pas de silice contenant un halogène et au moins un oxyde, p. ex. de l'oxyde de bore contenant du fluor et du phosphore
C03C 3/253 - Compositions pour la fabrication du verre contenant un oxyde mais pas de silice contenant du germanium
C03C 8/06 - Compositions en verre fritté, c.-à-d. broyées ou sous forme de poudre contenant un halogène
C09K 3/10 - Substances non couvertes ailleurs pour sceller ou étouper des joints ou des couvercles
46.
LOW-MELTING-POINT COMPOSITION, SEALING MATERIAL, AND ELECTRONIC COMPONENT
Provided is a lead-free, inorganic low-melting-point composition that, when applied to an object to be sealed that has a surface comprising an inorganic oxide and/or metal and when heat treated in the atmosphere and in a temperature range not exceeding 400°C: exhibits good wettability; is capable of being well adhered and sealed to said surface by cooling and solidification; and is capable of having superposed surfaces thereof bonded.
C03C 3/23 - Compositions pour la fabrication du verre contenant un oxyde mais pas de silice contenant un halogène et au moins un oxyde, p. ex. de l'oxyde de bore
C09K 3/10 - Substances non couvertes ailleurs pour sceller ou étouper des joints ou des couvercles
The purpose of the present invention is to provide a synthetic resin cap that is able to, while being lightweight, retain a sufficient locking force with respect to an annular projection at a container mouth section. The synthetic resin cap according to the present invention is a cap (1) provided with: a skirting wall (3) having a female thread (5) that engages a male thread (M1) formed on the outer circumference of a container mouth section (M); and a tamper-evident band (9) that is connected to the lower part of the skirting wall (3) via an annular weakened section (10), wherein the inner circumferential side of the tamper-evident band (9) is provided with a plurality of engagement pieces (11) that are disposed at intervals in the circumferential direction in such a manner as to be able engage, from below, with an annular projection (M2) disposed on the outer circumference of the container mouth section (M), and at least some of the engagement pieces (11) are provided with a protruding portion (14).
[Problem] To provide a synthetic resin cap which is lightweight and which is configured so that the force of engagement with an annular protrusion on a container mouth can be maintained sufficiently. [Solution] A cap 1 comprises: a skirt wall provided with a female thread engaging with a male thread formed on the outer periphery of a container mouth; and a tamper-evident band connected to the lower part of the skirt wall through an annular frangible section. A plurality of engagement sections 11 capable of engaging from below with an annular protrusion provided on the outer periphery of the container mouth are provided at a circumferential distance from each other on the inner peripheral side of the tamper-evident band 9. Thick-walled sections 12 are provided at edges of the engagement sections 11.
Provided is a synthetic resin cap with which it is possible to prevent breakage of an annular weakened part when the cap is being fitted to a container mouth part. A cap 1 provided with a skirt wall 3 having a female screw 5 which screws together with a male screw formed on an outer periphery of a container mouth part, and a tamper evidence band 7 coupled to a lower part of the skirt wall 3 with the interposition of an annular weakened part 6, wherein, on an inner peripheral side of the tamper evidence band 7, a plurality of hooks 8 are provided at intervals in a circumferential direction, the hooks being capable of locking from below against an annular protrusion provided on the outer periphery of the container mouth part, and wherein a pressing resistance reducing part 10 is provided around the entire circumference of the tamper evidence band 7.
21 - Ustensiles, récipients, matériaux pour le ménage; verre; porcelaine; faience
Produits et services
Food preserving jars of glass; glass jars [packaging]; glass
bottles; industrial packaging containers of glass or
porcelain; frit [ground glass used in glassmaking]; glass
paste used in glassmaking; glass, unworked or semi-worked,
except building glass.
51.
PROCESS FOR PRODUCING CELLULOSE-CONTAINING OLEFIN-BASED RESIN COMPOSITION
In order to provide a cellulose-containing olefin-based resin composition having satisfactory moldability and physical properties and a molded object produced from the resin composition, the present invention produces a resin composition by: mixing a nonionic surfactant with a cellulosic raw material that has a degree of cellulose-I crystallinity exceeding 40% to thereby produce a mixed material; mixing and shearing the mixed material using a specific kneader to produce noncrystalline cellulose; and mixing the noncrystalline cellulose with an olefin-based resin.
C08J 3/20 - Formation de mélanges de polymères avec des additifs, p. ex. coloration
B29B 7/02 - MélangeMalaxage discontinu, avec dispositifs mécaniques de mélange ou de malaxage, c.-à-d. de type travaillant par charges
B29B 7/46 - MélangeMalaxage continu, avec dispositifs mécaniques de mélange ou de malaxage avec dispositifs de mélange ou de malaxage mobiles rotatifs avec plus d'un arbre
C08L 23/00 - Compositions contenant des homopolymères ou des copolymères d'hydrocarbures aliphatiques non saturés ne possédant qu'une seule liaison double carbone-carboneCompositions contenant des dérivés de tels polymères
21 - Ustensiles, récipients, matériaux pour le ménage; verre; porcelaine; faience
Produits et services
Food preserving jars of glass; glass jars for packaging; glass bottles, sold empty; industrial packaging containers of glass or porcelain; fusing frit, namely, ground glass used as a component in glassware; glass paste used as a component in glassware; glass, unworked or semi-worked, except building glass
53.
EXHAUST GAS TREATMENT METHOD AND EXHAUST GAS TREATMENT APPARATUS
OSAKA PREFECTURE UNIVERSITY PUBLIC CORPORATION (Japon)
NIHON YAMAMURA GLASS CO., LTD. (Japon)
Inventeur(s)
Okubo, Masaaki
Kuroki, Tomoyuki
Fujishima, Hidekatsu
Yamamoto, Hashira
Torii, Toyohiko
Tsuji, Ryota
Mino, Masakazu
Abrégé
The present invention provides an exhaust gas treatment method and an exhaust gas treatment apparatus, each of which is capable of efficiently removing NOx in an exhaust gas. An exhaust gas treatment method according to the present invention is characterized by comprising a step for treating an exhaust gas by supplying ozone and a powder containing an alkaline agent into an exhaust gas that contains NOx, and is also characterized in that NO is oxidized into NO2 by ozone, and a gas-solid reaction of NO2 with the alkaline agent or a thermal decomposition product thereof is caused. In addition, an exhaust gas treatment apparatus according to the present invention is characterized by comprising an exhaust gas channel through which an exhaust gas that contains NOx passes, an ozone supply part which supplies ozone into the exhaust gas passing through the exhaust gas channel, and an alkaline agent supply part which supplies a powder that contains an alkaline agent into the exhaust gas passing through the exhaust gas channel. This exhaust gas treatment apparatus is also characterized in that: the ozone supply part is provided so that NO in the exhaust gas is oxidized into NO2 by the supplied ozone; and the alkaline agent supply part is provided so as to cause a gas-solid reaction of NO2 with the alkaline agent contained in the supplied powder or a thermal decomposition product of the alkaline agent.
C03C 8/24 - Compositions de scellement par fusion, constituées de frittes vitreuses contenant des additifs, utilisées pour le scellement de matériaux différents, p. ex. verre et métalVerre de scellement
C03C 3/062 - Compositions pour la fabrication du verre contenant de la silice avec moins de 40% en poids de silice
H01M 8/0286 - Procédés de formation des joints d’étanchéité
C03C 3/078 - Compositions pour la fabrication du verre contenant de la silice avec 40 à 90% en poids de silice contenant un oxyde d'un métal divalent, p. ex. un oxyde de zinc
C03C 3/095 - Compositions pour la fabrication du verre contenant de la silice avec 40 à 90% en poids de silice contenant des terres rares
H01M 8/124 - Éléments à combustible avec électrolytes solides fonctionnant à haute température, p. ex. avec un électrolyte en ZrO2 stabilisé caractérisés par le procédé de fabrication ou par le matériau de l’électrolyte
This glass composition provides a crystallized glass having a high coefficient of thermal expansion of at least 130 x 10-7/˚C when powdered and burned at a temperature of 850°C or higher. The glass composition is effectively free of alkali metal oxides, and contains 12-25 mass% of SiO2, 10-20 mass% of B2O3 (but not as much as 20 mass%), 18-30 mass% of CaO, 15-30 mass% of MgO, and 10.5-27 mass% of BaO. When a glass powder made from the glass composition is burned at a temperature of 850 to 1050˚C to form a crystallized glass, the crystallized glass has a thermal expansion coefficient of at least 130 x 10-7/˚C at 50 to 800˚C.
C03C 8/02 - Compositions en verre fritté, c.-à-d. broyées ou sous forme de poudre
C03C 8/16 - Mélanges de frittes vitreuses contenant des additifs, p. ex. des agents opacifiants, des colorants, des agents de broyage agents vecteurs ou de suspension, p. ex. suspension
C03C 8/24 - Compositions de scellement par fusion, constituées de frittes vitreuses contenant des additifs, utilisées pour le scellement de matériaux différents, p. ex. verre et métalVerre de scellement
H01M 8/0271 - Moyens d’étanchéité ou de support autour des électrodes, des matrices ou des membranes
H01M 8/12 - Éléments à combustible avec électrolytes solides fonctionnant à haute température, p. ex. avec un électrolyte en ZrO2 stabilisé
Provided is a grip bottle, the grip of which is easy to grasp, and which can be held in a stable condition. The grip bottle (1) has two inwardly-depressed fingerhold indentations (20, 20) formed facing one another in a container body (6), a grip (22) being constituted by portions of these two fingerhold indentations (20, 20) and a columnar wall part (21) jutting to the outside from between the fingerhold indentations (20, 20). The columnar wall part (21) of the grip (22) is formed so as to meander inwardly, and the relationship of grip width T between two circumferential apical portions (22a, 22a) of the grip (22), and the grip axial length L satisfies the following expression: (T/L) = 0.6-0.8.
Provided is a container wall thickness inspection device 1 for inspection of a container 10A in which areas of relatively greater wall thickness (flat portions Rf) and areas of lesser wall thickness (corner portions Rc) are distributed in the circumferential direction, the device comprising: a wall thickness measurement device (electrostatic capacity detector 4) having a sensor part 5, and measuring the wall thickness of the container 10A in regions of the outside peripheral surface of the container 10A while the regions are faced by the sensor part 5; a rotation drive mechanism for driving axial rotation of the container 10A about the center axis of the container in order to measure the wall thickness of the container 10A about the entire circumference by the thickness measurement device; an area detection device (photoelectric sensor 8) for detecting which area of the container 10A a region being measured for wall thickness by the wall thickness measurement device is; and a determination device for making a pass/fail determination as to wall thickness of the container 10A, from measured values of wall thickness about the entire circumference of the container 10A, obtained from the output of the wall thickness measurement device. The determination device is provided with a storage unit for storing pass/fail criterion values for wall thickness in each of the areas, and a comparison unit for comparing measured values of wall thickness obtained from the output of the wall thickness measurement device, to pass/fail criterion values stored in the storage unit, for areas detected by the area detection device.
G01B 7/06 - Dispositions pour la mesure caractérisées par l'utilisation de techniques électriques ou magnétiques pour mesurer la longueur, la largeur ou l'épaisseur pour mesurer l'épaisseur
G01B 21/08 - Dispositions pour la mesure ou leurs détails, où la technique de mesure n'est pas couverte par les autres groupes de la présente sous-classe, est non spécifiée ou est non significative pour mesurer la longueur, la largeur ou l'épaisseur pour mesurer l'épaisseur
[Problem] To provide a sealing material that generates hardly any crystals during use, has excellent fluidity, and enables sealing particularly at 380°C or lower, without relying on V2O5, TeO2, or Sb2O3, etc., and without causing a reaction between a glass powder and a filler powder during baking. [Solution] A low-temperature sealing material containing a lead glass powder and a lead titanate-based filler powder is characterized by: (1) the lead glass containing, as glass components, 1) 69.0-80.0 wt% PbO, 2) 3.1-12.5 wt% Bi2O3, 3) 3.5-11.5 wt% B2O3, 4) 1.7-8.2 wt% ZnO, 5) 0-3.5 wt% SiO2, 6) 0-4.0 wt% CuO, and 7) 1.3-5.0 wt% F; and (2) the weight ratio [PbO/Bi2O3] in the lead glass being 5.6-25.5.
C03C 8/24 - Compositions de scellement par fusion, constituées de frittes vitreuses contenant des additifs, utilisées pour le scellement de matériaux différents, p. ex. verre et métalVerre de scellement
H01L 23/10 - ConteneursScellements caractérisés par le matériau ou par la disposition des scellements entre les parties, p. ex. entre le couvercle et la base ou entre les connexions et les parois du conteneur
59.
PHENYL-MODIFIED HYBRID PREPOLYMER, PHENYL-MODIFIED POLYDIMETHYLSILOXANE-BASED HYBRID PREPOLYMER, AND PHENYL-MODIFIED POLYDIMETHYLSILOXANE-BASED HYBRID POLYMER, AND PRODUCTION PROCESSES THEREFOR
Provided are a phenyl-modified hybrid prepolymer, a phenyl-modified polydimethylsiloxane-based hybrid prepolymer, and a phenyl-modified polydimethylsiloxane-based hybrid polymer, in which the material hardness or the surface tackiness can be controlled in accordance with uses or purposes. The phenyl-modified hybrid prepolymer (B) is produced by subjecting a polydimethylsiloxane having a trialkoxysilyl group at each of both terminals, a phenyltrialkoxysilane, and a diphenyldialkoxysilane to a hydrolysis/condensation reaction. The phenyl-modified polydimethylsiloxane-based hybrid prepolymer (C) comprises the prepolymer (B) and is preferably produced by mixing the prepolymer (B) with a phenyl-modified hybrid prepolymer (A) produced by subjecting a polydimethylsiloxane having a silanol group at each of both terminals and a phenyltrialkoxysilane to a condensation reaction. The phenyl-modified polydimethylsiloxane-based hybrid polymer is obtained by heating and solidifying the prepolymer (C).
Provided is a discharge pump support device that can mount a discharge pump to a flexible vessel body and can prevent deformation of the vessel body when an operation part is pushed down. Also provided are a discharge pump and a discharge vessel that use the discharge pump support device. A support device (10) that is for a discharge pump (30) that can be detachably attached to an opening (41) of a vessel body (40), and that comprises a support leg (1) that extends downward from the discharge pump (30), a lower side link (12) that is openably/closably provided to the support leg (1) via a first openable/closable connection part (11), a guide ring (20) that acts as a slide member that is fitted to the outside of the support leg (1) at a position that is above the first openable/closable connection part (11) so as to be upwardly/downwardly movable, an upper side link (22) that is openably/closably provided to the guide ring (20) via a second openable/closable connection part (21), and a third openable/closable connection part (25) that connects the upper side link (22) and the lower side link (12) so as to be openable/closable in accordance with the vertical motion of the guide ring (20).
The purpose of the present invention is to provide a preform for a flat bottle, a flat bottle forming method, and a gripper device that are designed to make the wall thickness of the flat bottle more uniform and are able to improve liquid-discharging abilities. A preform (1) for a flat bottle, which exhibits a generally cylindrical shape that extends vertically and is provided with a body (15) between an upper port (10) formed on the upper end and a lower port (12) formed on the lower end, and with which the body (15) is formed in a flat shape when the preform is fitted in a blow molding mold (4) and blow-molded. A projection (10a) for positioning when the preform is fitted in the mold (4) is provided on the outer circumferential surface of the upper port (10).
B29C 49/02 - Moulage par soufflage combiné avec la fabrication de la préforme ou de la paraison
B29C 49/42 - Éléments constitutifs, détails ou accessoiresOpérations auxiliaires
B65D 1/06 - Bouteilles ou réceptacles similaires, à cols ou à ouvertures rétrécies analogues, conçus pour verser le contenu avec des ouvertures au fond pouvant se fermer
A gob production apparatus for producing a gob to be supplied to a mold for molding a glass product while adjusting the gob to a most suitable weight and a most suitable shape. The gob production apparatus is equipped with: one or two cameras (71, 72) for taking an image of a gob, which is produced by cutting a molten glass extruded through an circular orifice (11) in a gob feeder (1), on a drop passage for the gob; an image processing device (70) for performing an image processing for approximating the cross-sectional shape of the gob as observed in a direction orthogonal to the length direction into a circular or oval shape from a two-dimensional image of the gob which is obtained by the camera or cameras, thereby determining the weight and feature amount of the gob, wherein the feature amount is employed for specifying the shape of the gob; driving mechanisms (40, 50, 64 to 66) for separately driving multiple adjustment mechanisms that are controlled so as to adjust the gob to a desired weight and a desired shape; a storage device for storing a standard value for the weight of the gob and a most suitable value for the feature amount of the gob as reference date; and a control device (8) for driving the corresponding driving mechanisms (40, 50, 64 to 66) in such a manner that the difference between the weight of the gob which has been measured by the image processing device (70) and the corresponding reference datum which has been stored in the storage device and the difference between the feature amount of the gob which has been measured by the image processing device (70) and the corresponding reference datum which has been stored in the storage device become acceptable values.
Provided are a DLC film coating-equipped cap and a capped resin container , with which, even if low density polyethylene is used to form the cap, the oxygen permeability of the cap does not approach the oxygen permeability of a bottle, and the total effect of oxygen permeating through the cap can be suppressed. A DLC film (60) having a thickness of 0.1-20 µm is formed on the surfaces of a low density polyethylene cap (1) attached to a mouth part of a bottle. The cap (1) is configured from: a cap main body (2); a lid body (3) capable of being attached to the cap main body (2); and a hinge (4) coupling the cap main body (2) and the lid body (3). The DLC film (60) is only formed on the surfaces (51, 52) located outside when the cap (1) is in a state of being closed by the lid body (3).
B65D 47/08 - Fermetures avec dispositifs de décharge autres que des pompes avec goulottes ou tubes de déversementFermetures avec dispositifs de décharge autres que des pompes avec tuyères ou passages pour la décharge ayant des fermetures articulées ou à charnières
B65D 41/34 - Capuchons filetés ou analogues, ou couvercles en forme de capuchons
64.
Character reader and container inspection system using character reader
A character reader 200 for reading and recognizing a character displayed at a predetermined height position on the outer peripheral surface of a plurality of cylindrical containers (for example, bottles BT), the character reader includes: a rotary drive mechanism 203 to 207 for supporting the cylindrical container to rotate the cylindrical container around the central axis thereof; a camera 201 positioned to face the cylindrical container so that a character displayed on the outer peripheral surface of the cylindrical container is captured within the visual field; and an image processing device for acquiring an image at the height position where the character is displayed over an angular range more than one rotation of the cylindrical container by controlling the imaging operation of the camera 201, thereby executing recognition processing. The image processing device includes: a search means for searching an image portion including all characters from the acquired image; a character recognition means for recognizing a character to be recognized by collating the image of a character to be recognized included in the image portion searched by the search means with the model images of a plurality of types of characters; and an output means for outputting a recognition result recognized by the character recognition means for each cylindrical container.
G06K 9/32 - Alignement ou centrage du capteur d'image ou de la zone image
G06K 9/64 - Méthodes ou dispositions pour la reconnaissance utilisant des moyens électroniques utilisant des comparaisons ou corrélations simultanées de signaux images avec une pluralité de références, p.ex. matrice de résistances
Disclosed is a glass composition for sealing, the composition being a crystallized glass composition which, by firing at 850°C or above, is imparted with high strength and high expansion permitting use at high temperatures of 950°C or above, and which does not contain B2O3 or Al2O3. The composition contains substantially no boron oxide, alkali metal oxides, or aluminum oxide, and contains, expressed in mol%, SiO2:40-55, BaO: 18-35, TiO2+ZrO2: 0.1-10, ZnO: 0-15, CaO: 0-20, MgO: 0-9, SrO: 0-5, and La2O3: 0-2, the total content of RO (R: Mg, Ca, Sr, Ba and Zn) being at least 44 mol%. Crystallized glass formed by firing of a glass powder comprising the glass composition at a temperature of 850-1050°C has a thermal expansion coefficient of 90-150×10-7/°C at 50-850°C.
C03C 8/24 - Compositions de scellement par fusion, constituées de frittes vitreuses contenant des additifs, utilisées pour le scellement de matériaux différents, p. ex. verre et métalVerre de scellement
C03C 8/02 - Compositions en verre fritté, c.-à-d. broyées ou sous forme de poudre
C03C 8/04 - Compositions en verre fritté, c.-à-d. broyées ou sous forme de poudre contenant du zinc
H01M 8/02 - Éléments à combustibleLeur fabrication Détails
H01M 8/12 - Éléments à combustible avec électrolytes solides fonctionnant à haute température, p. ex. avec un électrolyte en ZrO2 stabilisé
H01M 8/24 - Groupement d'éléments à combustible, p. ex. empilement d'éléments à combustible
66.
ORGANIC-INORGANIC HYBRID PREPOLYMER, ORGANIC-INORGANIC HYBRID POLYMER OBTAINED FROM SAME, SEALING MATERIAL FOR LED ELEMENTS AND SEALING STRUCTURE FOR LED ELEMENTS
This organic-inorganic hybrid prepolymer (C), which forms a cured body (a sealing body) that has excellently high light transmittance in the UV region and excellent heat resistance (flexibility) and is not susceptible to the occurrence of cracks due to thermal stress, is produced by a condensation reaction between a polydimethyl siloxane (A) that has silanol groups at both ends and has a number average molecular weight (Mn) of from 10,000 to 100,000 (inclusive) and a molecular weight distribution index (Mw/Mn) of 1.7 or less and one or more compounds (B) that are selected from the group consisting of oligomers of tetraalkoxy silane, complete or partial hydrolysis products of the alkoxy groups of the oligomers, and condensation reaction products of the hydrolysis products or condensation reaction products of one of the hydrolysis products and an unhydrolyzed material. An organic-inorganic hybrid polymer of the present invention is obtained by heating and curing the organic-inorganic hybrid prepolymer (C) by itself or a mixture of the organic-inorganic hybrid prepolymer (C) and an organic metal compound-containing solution (D).
Provided are a pouch container that is superior in freestanding stability and shape retention and has a superior design, that can reduce volume, and that can sufficiently ensure liquid tightness between a body member and a sealing member, and a manufacturing method for the same. A freestanding pouch container (1) comprising a body member (2) made from a film material, and sealing members (3, 4) on the top and bottom that are made from a film material and that each seal an opening on the top end and on the bottom end of the body member (2), wherein the top and bottom ends of the body member (2) are sealed with the sealing members (3, 4) by way of forming, in both the top and bottom ends of the body member (2), annular body-side end joints (2a, 2b) that are bent toward the interior, and joining the outer circumferences of the top and bottom sealing members (3, 4) to each of the body-side end joints (2a, 2b).
B65D 75/28 - Objets ou matériaux totalement enveloppés dans des enveloppes formées en associant ou reliant plusieurs feuilles ou flans
B31B 31/60 - Mécanismes caractérisés par le fait que les enveloppes ou sacs fabriqués comportent un fond configuré spécialement pour tenir compte de l'épaisseur du contenu, et sont obtenus à partir de tubes aplatis et ayant des moyens pour assembler les surfaces ou les bords opposés, ou pour coller
68.
EXHAUST GAS TREATMENT METHOD, AND EXHAUST GAS TREATMENT DEVICE
OSAKA PREFECTURE UNIVERSITY PUBLIC CORPORATION (Japon)
NIHON YAMAMURA GLASS CO., LTD. (Japon)
Inventeur(s)
Kuroki, Tomoyuki
Okubo, Masaaki
Fujishima, Hidekatsu
Yamamoto, Hashira
Torii, Toyohiko
Fujimoto, Naoyuki
Abrégé
This exhaust gas treatment method is characterized by involving a step for supplying ozone and a first liquid, which is water or an aqueous solution, into an exhaust gas that contains NOx and that is 150°C or higher, and for generating a first mist, in which the water droplets of the first liquid are suspended, in the exhaust gas containing ozone gas. This exhaust gas treatment method may also involve a step for generating, in the exhaust gas that passed through the first mist, a second mist by spraying a second liquid which is a reducing agent aqueous solution.
A parison forming device comprises: a mold into which gob is introduced; a plunger which enters into the mold and forms a parison from the gob between the mold and the plunger; a cylinder which moves the plunger back and forth with respect to the mold; and a cooling device which introduces air for cooling inside the plunger to cool the plunger. A base end part of the plunger is connected to a distal end part of a piston rod of the cylinder and held with a plunger holding mechanism, the plunger holding mechanism has an adaptor which is connected to the distal end part of the piston rod, and the adaptor is integrally provided with a tubular part which has a fitting hole that fits the tubular outer shape of the base end part of the plunger. The base end part of the plunger is held in a fitted state in the fitting hole of the tubular part, and a connection ring that connects the adaptor and the base end part of the plunger is fitted on the tubular part of the adaptor. The inside of the plunger communicates with an air outlet path through an exhaust path provided in the adaptor, and the air outlet path communicates with an exhaust device which guides the air after cooling into the air outlet path by applying a suction to the air outlet path and discharges the air outside.
C03B 9/193 - Soufflage du verreProduction d'articles de verre creux soufflés dans des machines alimentées en paraisons dans des machines du type "pressé-soufflé"
The purpose of the present invention is to provide an insulation layer formation material and an insulation layer formation paste capable of forming an insulation layer on a metal substrate without the filler and glass reacting or warping occurring, even when repeatedly fired at 850°C or higher. The insulation layer formation material containing a lead-free glass composition and an α-quartz filler contains 17.0-40.0 wt% of the α-quartz filler and 60.0-83.0 wt% of the lead-free glass composition, the α-quartz filler having an average grain size (D50) of 1.0-3.5 µm and a specific surface area of 2.5-6.5 m2/g, and the lead-free glass composition containing no B2O3, and comprising a composition of, by mol%, 40.0-60.0% SiO2, 0.5-10.0% Al2O3, 20.0-45.0% MgO + CaO + SrO + BaO, 5.0-23.0% ZnO, and 0-10.0% Li2O + Na2O + K2O.
C03C 8/14 - Mélanges de frittes vitreuses contenant des additifs, p. ex. des agents opacifiants, des colorants, des agents de broyage
C03C 8/16 - Mélanges de frittes vitreuses contenant des additifs, p. ex. des agents opacifiants, des colorants, des agents de broyage agents vecteurs ou de suspension, p. ex. suspension
71.
SPOUTING PUMP AND PUMP-EQUIPPED CONTAINER PROVIDED WITH SAME, CONTAINER BODY USED IN SPOUTING PUMP, AND PORT MEMBER FOR CONTAINER BODY
The present invention provides a spouting pump and pump-equipped container provided with the same, a container body used in the spouting pump, and a port member for the container body, whereby it is possible to switch a leg part between a closed-leg orientation and an open-leg orientation without increasing the number of components or changing the configuration of the port part of the container body. The present invention is provided with: a pump body (20) detachably attached to a port part (7a) of a container body (2); a plurality of leg parts (33) extending toward a bottom side from the pump body (20), the plurality of leg parts (33) being capable of elastically deforming to an open-leg orientation which is the natural state thereof of spreading toward the bottom side at an angle from the pump body (30), and a closed-leg orientation in which the port part (7a) of the container body (2) can be inserted; a locking means (34) for locking the leg parts (33) operated to the closed-leg orientation by the port part (7a) in the closed-leg orientation; and a releasing means (35) for abutting on a bottom surface part (5) of the container body (2) and releasing the locking of the leg parts (33) by the locking means (34) when the pump body (20) is attached to the container body (2).
B65D 47/34 - Fermetures avec évacuation par pompage
B65D 83/76 - Réceptacles ou paquets comportant des moyens particuliers pour distribuer leur contenu pour distribuer un contenu fluent au moyen d’un piston
A preform (1) having a main preform body (2) which has a cylinder shape extending in the axial direction, and two mouth parts (3, 4) formed on both longitudinal sides of the main preform body (2), the main preform body (2) being biaxially stretched and molded into a liquid transportation container (40) by blow molding. When the wall thickness of the substantially center portion (11), in the axial direction, of the main preform body (2) is represented by t1 and the wall thicknesses of both axial end parts (10, 12) of the main preform body (2) are represented by t2 and t3, respectively, the relationships 1.5 < (t1/t2) < 2.5 and 1.2 < (t1/t3) < 3.0 are satisfied, and the wall thickness between the center portion (11) and both end portions (10, 12) gradually decreases toward the end portion (10, 12). A liquid transportation container (40) having an extremely uniform wall thickness is thereby obtained.
This intravenous fluid container (1) is provided with a container body (2) of cylindrical shape containing an intravenous fluid, and mutually opposed first and second mouth portions (3, 4) formed in the container body (2). The container body (2) has a shank portion (5) of flattened cross sectional shape, a first shoulder portion (6) formed extending from this shank portion (5) to the first mouth portion (3), and a second shoulder portion (7) formed extending from this shank portion (5) to the second mouth portion (4). The shank portion (5) is constituted by two mutually opposed curved portions (11) and two mutually opposed parallel side wall portions (12), and is constituted such that the dimension (D1) between apical portions of the curved portions (11) and the dimension (D2) between the side wall portions (12) satisfies the relational expression 1.4 < (D1/D2) < 2.0.
Provided is a crystallized glass composition with high intensity and high expansibility which can be used at high temperatures of 950°C or more by firing at 850°C or more. This glass composition for sealing does not substantially comprise boron oxide and comprises, in mol%, 40 to 50% of SiO2, 16 to 30% of ZnO, 5 to 25% of BaO, 0 to 25% of CaO, 0 to 5% of Al2O3 and 44% or more of RO (R represents one type or two types of more out of Mg, Ca, Sr, Ba and Zn).
C03C 8/04 - Compositions en verre fritté, c.-à-d. broyées ou sous forme de poudre contenant du zinc
C03C 8/24 - Compositions de scellement par fusion, constituées de frittes vitreuses contenant des additifs, utilisées pour le scellement de matériaux différents, p. ex. verre et métalVerre de scellement
H01M 8/02 - Éléments à combustibleLeur fabrication Détails
H01M 8/12 - Éléments à combustible avec électrolytes solides fonctionnant à haute température, p. ex. avec un électrolyte en ZrO2 stabilisé
75.
ORGANIC-INORGANIC HYBRID PREPOLYMER, ORGANIC-INORGANIC HYBRID MATERIAL, AND ELEMENT SEALING STRUCTURE
The present invention addresses the problem of providing an organic-inorganic hybrid prepolymer, whereby synthesis can be facilitated and the hardening temperature thereof can be reduced, an organic-inorganic hybrid material obtained from the prepolymer, and an element sealing structure formed using said material. The organic-inorganic hybrid prepolymer is generated by a condensation reaction of (A): a polydimethylsiloxane having a silanol group at a terminal end thereof, the weight-average molecular weight (Mw) thereof being 3,000-100,000, and the molecular weight distribution coefficient (Mw/Mn, where Mn is the number-average molecular weight) being 1.3 or lower; and a compound (B) which is at least one species selected from the group consisting of (B-1): a metal and/or metalloid alkoxide and/or an oligomer of the abovementioned alkoxide, (B-2): a complete or partial hydrolysate of the alkoxy group of (B-1), and (B-3): a condensation reaction product of (B-2) or (B-2) and (B-1).
Provided is a pouch container having exceptional self-supporting stability and shape retention as well as exceptional design characteristics, the pouch container allowing volume to be reduced while preventing seepage of an adhesive onto the contents even when using a multilayer film material in which the adhesive is used, and the pouch contained furthermore ensuring adequate sealing performance between a body-end connection part and a closing member. A self-supporting pouch container (1) provided with: a body member (4) comprising a film material; and a lower-end closing member (5) comprising a film material, the lower-end closing member (5) closing, in a liquid-tight manner, an opening part on one end of the body member (4); wherein an annular body-end connection part (4a) obtained by being folded inward is formed on an end part of the body member (4), and the lower end closing member (5) comprises an inside member (6) fused to the container inside surface of the body-end connection part (4a) and an outside member (7) fused to the container outside surface of the body-end connection part (4a).
B65D 30/10 - Sacs, sachets ou réceptacles analogues caractérisés par leur forme ou leur conception
B31B 1/64 - Assemblage des surfaces ou des bords opposés; Collage par chauffage ou pression
B31B 1/90 - Fixation d'accessoires, non prévue ailleurs, p.ex. de dispositifs d'ouverture ou de fermeture, de ficelles de déchirure
B65D 75/00 - Paquets comportant des objets ou matériaux partiellement ou complètement enfermés dans des bandelettes, des feuilles, des flans, des tubes ou des bandes en matériau souple mince, p. ex. dans des enveloppes pliées
77.
TEXT CHARACTER READ-IN DEVICE AND CONTAINER INSPECTION SYSTEM USING TEXT CHARACTER READ-IN DEVICE
Provided is a text character read-in device (200) for reading in and recognizing text characters which are represented in locations of a determined height upon an outer circumference face of each of a plurality of cylindrical containers (e.g., a bottle (BT)), said device comprising: rotation drive mechanisms (203-207) which support the cylindrical container and rotate the cylindrical container about the central axis thereof; a camera (201) which is aligned toward the cylindrical container such that the text characters which are represented upon the outer circumference face of the cylindrical container are contained in the visual field; and an image processing device which controls the image capture operation of the camera (201), acquires an image of a height location whereat the text characters are displayed over an angle range which is greater than one revolution of the cylindrical container, and executes a recognition process. The image processing device further comprises: a search means for searching for an image portion from the acquired image wherein the totality of the text characters are included; a text character recognition means for comparing the image of the text characters to be recognized which are included in the image portion which is searched by the search means with a plurality of types of text character model images and recognizing the text characters to be recognized; and an output means for outputting a result of the recognition by the text character recognition means for each cylindrical container.
A thickness inspection device comprises a capacitance detector (4) for detecting capacitance in a region subject to thickness inspection and an arithmetic control unit for fetching the capacitance detected by the capacitance detector (4) and executing a process to convert same to a thickness. The capacitance detector (4) has a sensor part (5) in contact with the surface of the region for thickness inspection and an elastic body (6) for biasing the sensor part (5) toward the target region. The sensor part (5) has a curved face (50) with a radius of curvature (R) of 2 mm ≤ R ≤ 10 mm, and the curved face (50) is formed by adhering, onto a strip-shaped mounting substrate (51), a synthetic resin electrode sheet (7) on which electrode patterns are represented so that, from an electrode pattern for a measurement electrode and an electrode pattern of a ground electrode, at least the electrode pattern of a measurement electrode is positioned on the surface of a curved portion of the mounting substrate (51).
G01B 7/06 - Dispositions pour la mesure caractérisées par l'utilisation de techniques électriques ou magnétiques pour mesurer la longueur, la largeur ou l'épaisseur pour mesurer l'épaisseur
B07C 5/00 - Tri selon une caractéristique ou une particularité des objets ou du matériau à trier, p. ex. tri commandé par un dispositif qui détecte ou mesure cette caractéristique ou particularitéTri à l'aide de dispositifs manœuvrés à la main, p. ex. d'aiguillages
This bottle take-out mechanism is provided with: a left and right pair of grasping parts (20A, 20B) that grasp and transport a bottle (1) from a mold; an opening and closing drive mechanism (3) that carries out an opening and closing operation for the grasping parts (20A, 20B) by moving the same in response to back and forth movement of a drive shaft (31); a back-and-forth moving mechanism (4) that moves the drive shaft (31) back and forth; and a control device (8) that controls the operation of the back-and-forth moving mechanism (4). The back-and-forth moving mechanism (4) has an air cylinder (5) that moves the drive shaft (31) back and forth, and can supply compressed air to the air cylinder (5) by a main circuit (60) and an auxiliary circuit (7) for an air pressure circuit (6). The control device (8) carries out in this order a step for supplying compressed air to the air cylinder (5) by the main circuit (60) such that the grasping parts (20A, 20B) move from an open state to a closed state and grasp the bottle (1) with pressure smaller than a set pressure and a step for additional supply of compressed air from the auxiliary circuit (7) to the main circuit (60) such that the grasping parts (20A, 20B) move to a state of grasping the bottle (1) with the set pressure, thus moving a piston rod of the air cylinder (5) in a reciprocating motion.
A glass particle manufacturing method comprises: preparing a molten liquid that is a uniform composition consisting of a liquid phase A which contains B2O3 as one component; producing an emulsion that is a composition consisting of a liquid phase B which is a dispersion medium and a liquid phase C which is a dispersoid caused by phase separation in the liquid phase A; cooling the emulsion to solidify the liquid phase B and the liquid phase C into a solid phase B and a solid phase C that are glass respectively corresponding to the liquid phase B and the liquid phase C, thereby obtaining a solid dispersed system in which the solid phase C which is a dispersoid is dispersed in the solid phase B which is a dispersion medium; and treating the solid dispersed system with a solvent with respect to the solid phase B to dissolve and remove the solid phase B and recover the solid phase C.
The objective of the present invention is to provide a material which is able to be used as a heat-resistant elastic material that is applicable to heat-resistant structures. The present invention provides a phenyl group-containing organic-inorganic hybrid prepolymer that is produced by a condensation reaction of (A) a polydimethyl siloxane having a silanol group, which is reactive with a metal and/or a semimetal alkoxide, at both ends or at one end and having a weight average molecular weight of from 3,000 to 80,000 (inclusive), and (B) a metal and/or a semimetal alkoxide and/or (C) an oligomer of the above-mentioned alkoxide, a part or the whole of said oligomer having a phenyl group introduced thereinto.
C08G 77/44 - Polymères séquencés ou greffés contenant des segments de polysiloxanes ne contenant que des segments de polysiloxanes
C08G 79/00 - Composés macromoléculaires obtenus par des réactions créant dans la chaîne principale de la macromolécule une liaison contenant des atomes autres que le silicium, le soufre, l'azote, l'oxygène et le carbone, avec ou sans ces derniers éléments
After a molded product on which inner ribs (12) for bridging a cap body (2) and a tamper evidence band (3) are formed is obtained, slits (10) are formed from portions of an outer wall surface (3g), the portions corresponding to the inner ribs (12), toward the inside in the radial direction. As a result, the cap body (2) and the tamper evidence band (3) are separated, and portions (10a) remaining after the slit (10) is formed in the inner ribs (12) serve as connection portions (11). Thus, bridges (8) are formed on a resin cap (1). The circumferential dimension (a) of the connection portions (11) of the bridges (8) is set to be in the range from 0.65 to 1.10 mm, and the depth of the slits (10) is increased to reduce the dimension (b) of the connection portions (11) in the radial direction. As a result of the configuration, the strength of a specific portion of each of the bridges (8) is maintained, and the bridges (8) can be broken quickly.
This invention provides a cap and a container which can be satisfactorily cleaned even by a pasteurizer or the like which only sprinkles the top surface side of the container with water. This cap is provided with a skirt wall which extends vertically downward from the outer periphery of the top wall and which is engaged through threads with the mouth of a container. The cap is provided with: cleaning holes for introducing a cleaning liquid, the cleaning holes being located at the upper part of the skirt wall; and discharge openings for discharging the cleaning liquid, the discharge openings being located below the skirt wall. The cap enables satisfactory cleaning because, even if a pasteurizer or the like which only sprinkles the top surface side of the container with cleaning liquid is used, the cleaning liquid efficiently flows into the cap from the cleaning holes located at the upper part of the skirt wall.
[Problem] To provide a lead-free glass composition, which is capable of suppressing or preventing the problem of warping, at relatively low cost. [Solution] The present invention relates to a lead-free glass composition for forming conductors, which is characterized by containing 5.0-25.0% by weight of B2O3, 10.0-35.0% by weight of SiO2, 5.0-20.0% by weight of R2O (wherein R represents at least one element selected from among Li, Na and K), 25.0-45.0% by weight of ZnO and 10.0-35.0% by weight of Bi2O3.
C03C 8/04 - Compositions en verre fritté, c.-à-d. broyées ou sous forme de poudre contenant du zinc
C03C 8/18 - Mélanges de frittes vitreuses contenant des additifs, p. ex. des agents opacifiants, des colorants, des agents de broyage contenant des métaux libres
H01B 1/22 - Matériau conducteur dispersé dans un matériau organique non conducteur le matériau conducteur comportant des métaux ou des alliages
H01L 31/04 - Dispositifs à semi-conducteurs sensibles aux rayons infrarouges, à la lumière, au rayonnement électromagnétique d'ondes plus courtes, ou au rayonnement corpusculaire, et spécialement adaptés, soit comme convertisseurs de l'énergie dudit rayonnement e; Procédés ou appareils spécialement adaptés à la fabrication ou au traitement de ces dispositifs ou de leurs parties constitutives; Leurs détails adaptés comme dispositifs de conversion photovoltaïque [PV]
Provided are: a preform that is not prone to formation problems and has few restrictions on the shape of the main body thereof; a synthetic-resin container with a hanging attachment; and a method for forming a container with a hanging attachment. Said preform (20) is provided with the following: a cylindrical main body (21) that has a bottom and will become the main body (2) of the container; and a hanging attachment (4) formed as a single unit with the main body (21) of the preform. Said main body (21) is blow-molded to yield an infusion bottle (1). The hanging attachment (4) has a join part (17) where the main body (16) of the hanging attachment is joined to the main body (21) of the preform. By making said join part (17) narrow, the impact on the stretching of the main body (21) of the preform during blow-molding is reduced.
B65D 1/00 - Réceptacles rigides ou semi-rigides ayant des corps d'une seule pièce formés, p. ex. par coulage d'un matériau en métal, par moulage d'un matériau plastique, par soufflage d'un matériau vitreux, par coulage d'un matériau en céramique, par moulage d'un matériau fibreux cuit ou par étirage d'un matériau en feuille
B65D 1/02 - Bouteilles ou réceptacles similaires, à cols ou à ouvertures rétrécies analogues, conçus pour verser le contenu
B65D 1/08 - Bouteilles ou réceptacles similaires, à cols ou à ouvertures rétrécies analogues, conçus pour verser le contenu adaptées pour verser goutte à goutte
B65D 23/00 - Parties constitutives des bouteilles ou des pots non prévues ailleurs
[Problem] To provide a PTP packaging container which absorbs moisture, oxygen, carbon dioxide, and odors in recesses in order to effectively prevent quality degradation of the contents, and which is further capable of expanding the freedom to select the material of a heat seal layer arranged between the absorbing layer and a bottom member while preventing direct contact of the contents with the absorbing layer. [Solution] A PTP packaging container (1) provided with a bottom member (3) which forms multiple recesses (2) housing contents (S), and a cover material (4) which is bonded to the top surface of the bottom member (3) and keeps contents (S) airtight inside the recesses (2). The cover material (4) is constituted from a sheet body of at least three layers including, in order from the side of the bottom member (3), a first barrier layer (6), an absorption layer (7) and a second barrier layer (8). Communication holes (9) connecting the absorption layer (7) and the recesses (2) are formed by penetrating the first barrier layer (6).
B65D 81/26 - Adaptations pour empêcher la détérioration ou l'altération du contenuApplications au réceptacle ou au matériau d'emballage d'agents de conservation des aliments, de fongicides, d'insecticides ou de produits repoussant les animaux avec dispositifs pour évacuer ou absorber les fluides, p. ex. s'écoulant du contenuEmploi de produits empêchant la corrosion ou de dessiccateurs
B65D 75/34 - Objets ou matériaux enveloppés entre deux feuilles ou flans opposés à bords réunis, p. ex. par adhésifs à pression, pliage, thermosoudage ou soudage une ou les deux feuilles ou flans étant renfoncés pour épouser la forme du contenu et ayant plusieurs renfoncements pour convenir à une suite d'objets ou à des quantités de matériaux
B65D 83/04 - Réceptacles ou paquets comportant des moyens particuliers pour distribuer leur contenu pour distribuer de petits objets en forme d'anneau, de disque, de sphère ou similaire, p. ex. des comprimés ou des pilules
88.
GLASS COMPOSITION FOR SEALING, AND SEALING MATERIAL
The objective of the present invention is to provide: a glass composition, which is useful for forming a glass ceramic that has thermal expansion characteristics suitable for sealing of a ceramic member and the like, and which exhibits good wettability with respect to the surface of the ceramic member and the like at the time of firing; and a sealing material. A glass composition for sealing, which has a compositional ratio wherein, in terms of oxides, SiO2 is 14-21% by mass, Al2O3 is 0-12% by mass, B2O3 is 17-24% by mass, ZnO is 29-51% by mass and MgO is 7-16% by mass, and the like are provided in order to achieve the above-mentioned objective.
The purpose of the present invention is to provide: a pump-equipped container configured so that the container body is thin-walled and is effectively prevented from deforming when the operation section is depressed; and a dispensing pump used for the pump-equipped container. This pump-equipped container (1) is provided with a container body (2) which has a mouth (15) and a dispensing pump (20) which is removably attached to the mouth (15). The dispensing pump (20) is provided with a pump body (22) which is removably attached to the mouth (15), a support member (31) which has a lower end in contact with the bottom (5) of the container body (2) to receive a downward load acting on the mouth (15), and a leg member (32) which is provided to the support member (31), can be switched between a closed leg position at which the leg member (32) can be inserted through the mouth (15) and an open leg position at which the leg member (32) is expanded outward in the radial direction of the support member (31), and, at the open leg position, makes contact with the bottom (5) of the container body (2) to receive an obliquely downward load acting on the mouth (15).
In a glass product forming machine having molds 1A and 1B each composed of a pair of split molds 11 and 12, and a mold cooling device X for cooling the molds 1A and 1B to control the temperatures thereof, in order to prevent the occurrence of a defect such as deformation or cracks in a formed article due to a temperature difference between the split molds 11 and 12, the mold cooling device X is configured to include: cooling mechanisms 3R and 3L provided to the respective split molds, the cooling mechanisms each individually applying cooling air to each of the split molds 11 and 12 of the molds 1A and 1B; valve mechanisms 30R and 30L for individually opening and closing each of paths for introducing cooling air to the respective cooling mechanisms 3R and 3L; temperature detection means for detecting the temperature of at least one of the split molds; and a temperature control device 9 for generating and outputting control signals for controlling the opening and closing operations of the respective valve mechanisms 30R and 30L on the basis of the detected temperature value by the temperature detection means.
The purpose of the present invention is to provide a heat resistant organic/inorganic hybrid material. In order to do so, a phenyl group is introduced to part or all of the polydimethylsiloxane and/or the metallic and/or semi-metallic alkoxide in an organic/inorganic hybrid prepolymer manufactured by a dehydrating polycondensation reaction between polydimethylsiloxane and a metallic and/or semi-metallic alkoxide.
Provided is a resin cap which is easy to produce and makes it possible to prevent adhesion of ink on the back surface of a top plate during the printing process without causing an increase in weight. A one-piece resin cap (1) comprises: a top plate (2); a side wall part (3) which extends axially in one direction from an outer peripheral edge (2a) of the top plate (2); and an inner ring (6) which extends as a single unit from a back surface (2b) of the top plate (2) toward the inside, and adheres to the inside surface of a container opening. The width of the interval between a printing blanket (51) and a mandrel (50) is increased without changing the thickness of the top plate (2), by forming, on the back surface (2b) of the top plate (2), a rib (13) for preventing the mandrel (50) from directly touching the back surface (2b) when printing is performed on the front surface (2d) of the top plate (2).
B65D 41/34 - Capuchons filetés ou analogues, ou couvercles en forme de capuchons
B65D 41/04 - Capuchons ou couvercles en forme de capuchons filetés ou similaires, fixés par rotation
B65D 49/12 - Arrangements ou dispositifs pour empêcher le réemplissage des réceptacles par destruction d'une partie du réceptacle par le fait de l'ouvrir
Provided is a container capable of increasing its self-standing stability both in the filled state and in the volume reduction state. Disclosed is a substantially cylindrical container provided with a barrel portion which can be folded by a gusset, wherein the container is provided with a sheet-shaped bottom portion for closing a lower opening of the barrel portion in a substantially cylindrically opened state, and a peripheral portion of a sheet-shaped bottom structure body constituting the bottom portion is jointed to the lower end portion of a cylindrical barrel structure body which constitutes the barrel portion and can be folded by the gusset.
B65D 30/20 - Sacs, sachets ou réceptacles analogues caractérisés par leur forme ou leur conception comportant des plis, p. ex. pour faciliter le repliage
B65D 30/16 - Sacs, sachets ou réceptacles analogues caractérisés par leur forme ou leur conception à parois d'extrémité rigides, p. ex. gardant leur forme même à vide
B65D 30/28 - Sacs, sachets ou réceptacles analogues caractérisés par leur forme ou leur conception triangulaires ou coniques
With the aim of obtaining an organic-inorganic hybrid prepolymer and an organic-inorganic polymer (a product of gelling of the prepolymer) which are free from clusters of an inorganic component, provided is an organic-inorganic hydrid prepolymer which is produced by reacting a polydimethylsiloxane that has one or two terminal silanol groups with a metal and/or semimetal alkoxide oligomer through polycondensation accompanied with hydrolysis to introduce the metal and/or semimetal alkoxide to one or both terminals of the polydimethylsiloxane.
A glass composition for reflective materials which comes to exhibit excellent light-reflecting properties upon firing is provided to thereby provide a material for firing in which an inorganic filler is used in a limited amount to avoid problems concerning sinterability and which forms a reflective material having excellent light-reflecting properties. The material for firing improves the luminescent efficiency of light-emitting element packages. The glass composition for reflective materials, which is intended to configure at least the reflective surface of a reflective material that reflects light, comprises SiO2, Al2O3, etc. in respective given proportions in terms of oxide amount.
C03C 8/20 - Mélanges de frittes vitreuses contenant des additifs, p. ex. des agents opacifiants, des colorants, des agents de broyage contenant des composés du titaneMélanges de frittes vitreuses contenant des additifs, p. ex. des agents opacifiants, des colorants, des agents de broyage contenant des composés du zirconium
C03C 3/083 - Compositions pour la fabrication du verre contenant de la silice avec 40 à 90% en poids de silice contenant de l'oxyde d'aluminium ou un composé du fer
C03C 3/085 - Compositions pour la fabrication du verre contenant de la silice avec 40 à 90% en poids de silice contenant de l'oxyde d'aluminium ou un composé du fer contenant un oxyde d'un métal divalent
C03C 3/087 - Compositions pour la fabrication du verre contenant de la silice avec 40 à 90% en poids de silice contenant de l'oxyde d'aluminium ou un composé du fer contenant un oxyde d'un métal divalent contenant de l'oxyde de calcium, p. ex. verre à vitre ordinaire ou verre pour récipients creux
C03C 3/091 - Compositions pour la fabrication du verre contenant de la silice avec 40 à 90% en poids de silice contenant du bore contenant de l'aluminium
C03C 3/093 - Compositions pour la fabrication du verre contenant de la silice avec 40 à 90% en poids de silice contenant du bore contenant de l'aluminium contenant du zinc ou du zirconium
F21V 7/22 - Réflecteurs pour sources lumineuses caractérisés par les matériaux, traitements de surface ou revêtements
H01L 33/60 - DISPOSITIFS À SEMI-CONDUCTEURS NON COUVERTS PAR LA CLASSE - Détails caractérisés par les éléments du boîtier des corps semi-conducteurs Éléments de mise en forme du champ optique Éléments réfléchissants
F21Y 101/02 - Structure miniature, p. ex. diodes électroluminescentes (LED)
Disclosed is a method for producing polarizing glass that reduces the deviance of the angle of the polarization axis in polarizing glass, and which is a simpler method than the conventional one. Said method contains a step (a) for preparing glass that contains dispersed metal halide particles, a step (b) for obtaining glass that contains dispersed and arranged shape-anisotropic metal halide particles that are transformed in a prescribed direction by applying a load onto said glass when the same is in a heated and softened state, and a step (c) for reducing said shape-anisotropic metal halide particles in the glass into shape-anisotropic metal particles, wherein the step (b) is repeated at least once, and during at least one performing of the repeated step (b), the transformation direction of said glass is the opposite direction of the direction in which said glass was transformed during the first time that the step (b) was performed.
C03B 23/037 - Finition des feuilles de verre par étirage
C03B 23/047 - Finition des tubes ou des tiges par étirage
C03C 3/066 - Compositions pour la fabrication du verre contenant de la silice avec moins de 40% en poids de silice contenant du bore contenant du zinc
C03C 3/068 - Compositions pour la fabrication du verre contenant de la silice avec moins de 40% en poids de silice contenant du bore contenant des terres rares
C03C 3/072 - Compositions pour la fabrication du verre contenant de la silice avec moins de 40% en poids de silice contenant du plomb contenant du bore
C03C 3/074 - Compositions pour la fabrication du verre contenant de la silice avec moins de 40% en poids de silice contenant du plomb contenant du bore contenant du zinc
C03C 3/11 - Compositions pour la fabrication du verre contenant de la silice avec 40 à 90% en poids de silice contenant un halogène ou de l'azote
C03C 3/118 - Compositions pour la fabrication du verre contenant de la silice avec 40 à 90% en poids de silice contenant un halogène ou de l'azote contenant du fluor contenant du bore contenant de l'aluminium
C03C 4/00 - Compositions pour verres ayant des propriétés particulières
Disclosed is a gob forming device that is provided with a molten glass forming mechanism (1) that has an orifice (11) on the bottom, and a cutting mechanism (2) that forms gobs (g) by cutting the molten glass formed and dangling from the orifice (11). The gob forming device is further provided with the following: a cutting position adjustment mechanism for adjusting height by changing the position of the cutting mechanism (2), a gob monitoring device (6) for three-dimensionally viewing the falling gobs (g), an image processing device (7), which determines whether or not the length (L) of the gobs (g) is appropriate by requesting the length (L) of the gobs (g) from the gob (g) spatial position data obtained by the gob monitoring device (6), and, when determined not to be appropriate, calculates the correction data in order to correct the height of the cutting mechanism (2) based on the difference between the set value and the measured value of the length (L) of the gobs, and a control device (8) for changing the position of the cutting mechanism (2) by controlling the operation of the cutting position adjustment mechanism based on the correction data.
A synthetic resin pilfer-proof cap which enables whether the cap has been opened or not to be easily visually confirmed. The front end surface (22) of a flap (16) has formed thereon a sloped surface. In a view of an axial cross-section of a cap body (1) taken so as to include the center axis thereof, the inner angle (α) formed between the sloped surface and the inner surface (25) of the flap (16) in the radial direction is an obtuse angle greater than 90 degrees. When the cap is in a closed state, the flap (16) is in a state in which the flap (16) is in contact at the sloped surface thereof with a protrusion section (52) of the container mouth section (50) and is elastically deformed and pivoted outward in the radial direction about the base end section (16a) as the support point. When a band (3) descends after a bridge (2) is cut, the flap (16) pivots inward in the radial direction due to the elastic restoration force of the flap (16) and interferes with the protrusion section (52) to prevent the band (3) from ascending to the height at which the band (3) is located before the bridge (2) is cut.
B65D 55/02 - Dispositifs de blocageMoyens pour empêcher ou indiquer l'ouverture ou l'enlèvement de la fermeture non autorisés
B65D 41/34 - Capuchons filetés ou analogues, ou couvercles en forme de capuchons
B65D 49/12 - Arrangements ou dispositifs pour empêcher le réemplissage des réceptacles par destruction d'une partie du réceptacle par le fait de l'ouvrir
99.
LEAD GLASS COMPOSITION AND COMPOSITION FOR FORMING CONDUCTIVE MATERIAL WHICH COMPRISES SAME
Disclosed is a lead glass composition which has a relatively low softening point and can be crystallized. The lead glass composition is characterized by comprising, in mol%, 46-63% of PbO, 34-45% of SiO2, 0.5-25% of Bi2O3, 2-13% of ZnO, 0-3% of B2O3, 0-1.5% of Al2O3, and 0-1.4% of ZrO2.
C03C 3/102 - Compositions pour la fabrication du verre contenant de la silice avec 40 à 90% en poids de silice contenant du plomb
C03C 3/07 - Compositions pour la fabrication du verre contenant de la silice avec moins de 40% en poids de silice contenant du plomb
C03C 3/074 - Compositions pour la fabrication du verre contenant de la silice avec moins de 40% en poids de silice contenant du plomb contenant du bore contenant du zinc
C03C 3/105 - Compositions pour la fabrication du verre contenant de la silice avec 40 à 90% en poids de silice contenant du plomb contenant de l'aluminium
C03C 3/108 - Compositions pour la fabrication du verre contenant de la silice avec 40 à 90% en poids de silice contenant du plomb contenant du bore
C03C 8/18 - Mélanges de frittes vitreuses contenant des additifs, p. ex. des agents opacifiants, des colorants, des agents de broyage contenant des métaux libres
H01B 1/22 - Matériau conducteur dispersé dans un matériau organique non conducteur le matériau conducteur comportant des métaux ou des alliages
H01B 3/08 - Isolateurs ou corps isolants caractérisés par le matériau isolantEmploi de matériaux spécifiés pour leurs propriétés isolantes ou diélectriques composés principalement de substances inorganiques quartzIsolateurs ou corps isolants caractérisés par le matériau isolantEmploi de matériaux spécifiés pour leurs propriétés isolantes ou diélectriques composés principalement de substances inorganiques verreIsolateurs ou corps isolants caractérisés par le matériau isolantEmploi de matériaux spécifiés pour leurs propriétés isolantes ou diélectriques composés principalement de substances inorganiques laine de verreIsolateurs ou corps isolants caractérisés par le matériau isolantEmploi de matériaux spécifiés pour leurs propriétés isolantes ou diélectriques composés principalement de substances inorganiques laine de laitierIsolateurs ou corps isolants caractérisés par le matériau isolantEmploi de matériaux spécifiés pour leurs propriétés isolantes ou diélectriques composés principalement de substances inorganiques émaux vitreux
H01L 31/04 - Dispositifs à semi-conducteurs sensibles aux rayons infrarouges, à la lumière, au rayonnement électromagnétique d'ondes plus courtes, ou au rayonnement corpusculaire, et spécialement adaptés, soit comme convertisseurs de l'énergie dudit rayonnement e; Procédés ou appareils spécialement adaptés à la fabrication ou au traitement de ces dispositifs ou de leurs parties constitutives; Leurs détails adaptés comme dispositifs de conversion photovoltaïque [PV]
NATIONAL INSTITUTE OF ADVANCED INDUSTRIAL SCIENCE AND TECHNOLOGY (Japon)
NIHON YAMAMURA GLASS CO., LTD. (Japon)
Inventeur(s)
Kitamura, Naoyuki
Fukumi, Kohei
Nishii, Junji
Nakamura, Junichi
Hidaka, Tatsuo
Ikeda, Takuro
Hashima, Hidekazu
Abrégé
Disclosed is optical glass which has low deformation point and high refractive index and is suitable for mold press forming, especially for glass imprinting of a nanostructure. Specifically disclosed is optical glass which contains, in terms of oxides, 15-30% by mole of P2O5, 5-35% by mole of Bi2O3 and 40-75% by mole of ZnO, while containing halogen (X), which is composed of chlorine (Cl) and/or bromine (Br), at a molar ratio relative to oxygen, namely X/O of 0.005-0.5. In addition, the optical glass contains one or more alkali metal elements (R), which are selected from among lithium, sodium and potassium, in the form of R2O in an amount of 15% by mole or less. The optical glass contains the halogen (X), which is composed of chlorine (Cl) and/or bromine (Br), in the form of ZnX2 or RX.
C03C 3/23 - Compositions pour la fabrication du verre contenant un oxyde mais pas de silice contenant un halogène et au moins un oxyde, p. ex. de l'oxyde de bore
G02B 1/00 - Éléments optiques caractérisés par la substance dont ils sont faitsRevêtements optiques pour éléments optiques
