According to the present invention, a molded biocoke 23 is produced by a method comprising: a mixing step for mixing a coconut shell material (biomass raw material 21) that is coconut shell or coconut shell charcoal from which impurities have been removed and a caking agent 22 with a mixer 13 to obtain a mixture; a molding step for performing pressure molding on the mixture by a molding machine 14 to obtain a molded body; and a heating step for heating the molded body with a heating furnace 15 in a non-oxidizing atmosphere.
C10B 53/02 - Distillation destructive spécialement conçue pour des matières premières solides particulières ou sous forme spéciale de matières contenant de la cellulose
C10L 5/44 - Combustibles solides à base essentielle de matières d'origine non minérale de matières végétales
04 - Huiles et graisses industrielles; lubrifiants; combustibles
Produits et services
Plant based solid fuels; charcoal for use as fuel; wood chips for use as fuel; lump charcoal [fuel]; combustible briquettes; lignite; coal; solid fuels; coke; biomass fuel; biofuel; fuel.
An exhaust device for an internal combustion engine includes an exhaust manifold including branch pipe portions respectively connected to cylinders of the internal combustion engine in which exhaust strokes are executed at different timings, and a collecting pipe portion to which the branch pipe portions are collected and connected at a downstream side of the branch pipe portions, a catalyst provided at a downstream side of the collecting pipe portion in the exhaust manifold, an exhaust pipe provided at a downstream side of the catalyst, a sensor detecting a state of exhaust gas and provided in the exhaust pipe, and a connecting wall portion connecting the catalyst and the exhaust pipe and extending in a different direction with respect to a first central axis of the catalyst along a flow direction of the exhaust gas.
This ferritic spheroidal graphite cast iron contains 3.0% to 3.6% by mass of C, 4.0% to 5.0% by mass of Si, 0.020% to 0.10% by mass of Mg, 1.0% or less of Mn, 0.10% by mass or less of P, and 0.015% by mass or less of S, with the balance being Fe and inevitable impurities.
A metal material supply device which is annexed to a metal melting furnace has a vibration trough for transporting metal material to be supplied to a crucible; the transported metal material is discharged from a material discharge port that is provided at the front end of the vibration trough; the metal material supply device is movable between a material supply position where the material discharge port is disposed above the crucible and a retracted position from the material supply position, and supplies the metal material to the crucible at the material supply position; the upper end of the metal material supplied to the crucible and piled up is detected by a microwave level meter, and the material supply operation by driving the vibration trough is controlled on the basis of the detected value.
A flexible flywheel includes: a shaft fastening portion fixed to an end portion of an engine crankshaft; an annular inertia ring provided around the shaft fastening portion; a plurality of elastic spoke portions that extend in the radial direction between the shaft fastening portion and the inertia ring and connect the shaft fastening portion and the inertia ring to each other, and that absorb vibration acting on the crankshaft by undergoing deflection; and weight portions provided between adjacent elastic spoke portions, side edge-side boundary ends, to which boundaries with the weight portions are connected, are provided on both sides edges of the elastic spoke portion, respectively, when the elastic spoke portions are vibrated, stress concentrates on the side edge-side boundary ends.
21 - Ustensiles, récipients, matériaux pour le ménage; verre; porcelaine; faience
27 - Revêtements de sols et de murs
40 - Traitement de matériaux; recyclage, purification de l'air et traitement de l'eau
42 - Services scientifiques, technologiques et industriels, recherche et conception
Produits et services
Tweezers; braiders [hand tools]; hoes [hand tools]; digging
forks [spading forks]; rakes [hand tools]; lasts
[shoemakers' hand tools]; electric flat irons; electric
razors and electric hair clippers; edge tools [hand tools];
bladed or pointed hand tools and swords; hand tools, hand
operated, other than bladed or pointed hand tools; egg
slicers, non-electric; non-electric planes for flaking dried
bonito blocks [katsuo-bushi planes]; can openers,
non-electric; spoons; cheese slicers, non-electric; pizza
cutters, non-electric; forks [cutlery]; table cutlery
[knives, forks and spoons]; dressmakers' chalk sharpeners;
fire pans for carrying live charcoal [juno]; fireplace
bellows [hand-tools]; fire tongs; bludgeons; shaving cases;
pedicure sets; eyelash curlers; manicure sets; ice axes;
diving knives; diving knife holders; palette knives. Toilets [water-closets]; prefabricated bath installations
sold as a unit; air conditioners for industrial purposes;
freezing machines and apparatus for industrial purposes;
laundry dryers, electric, for industrial purposes; towel
steamers for hairdressing purposes; hair drying machines for
beauty salon use; hair steamers for beauty salon use;
shampoo basins for barbers' shop use; cooking apparatus and
installations for commercial use; industrial dish drying
machines; dish disinfectant apparatus for commercial use;
kitchen sinks incorporating integrated worktops for
commercial use; kitchen sinks for commercial use; solar
water heaters; water purifying apparatus for industrial
purposes; light shades; shades for lighting; globes for
lamps; lamp bases; lamp casings; lamp mantles; electric
lamps and other lighting apparatus; household electrothermic
appliances; washers for water taps; washers for water
faucets; gas water heaters for household purposes; gas-fired
water heaters; non-electric cooking heaters for household
purposes; kitchen sinks incorporating integrated worktops
for household purposes; kitchen sinks for household
purposes; household tap-water filters, non-electric;
standing paper lanterns [andon]; portable paper lanterns
[chochin]; gas lamps; oil lamps; lamp chimneys; warming
pans, non-electric; pocket warmers; hot water bottles;
toilet stool units with a washing water squirter; toilet
bowls; seats for use with japanese style toilet bowls; bath
fittings; stoves [space heaters] for household purposes,
non-electric. Pastes and other adhesives for stationery or household
purposes; sealing wax; printers' reglets; printing type;
addressing machines; ink ribbons; automatic stamp affixing
machines; electric staplers for offices; sealing machines
for offices; stamp cancelling machines; drawing instruments;
typewriters; checkwriters; mimeographs; relief duplicators;
paper shredders for office use; franking machines for office
use; rotary duplicators; marking templates; decorators'
paintbrushes; industrial packaging containers of paper; bags
[pouches] of plastics, for packaging; food wrapping plastic
film for household purpose; garbage bags of paper for
household purposes; garbage bags of plastic; paper patterns;
tailors' chalk; banners of paper; flags of paper; hygienic
hand towels of paper; towels of paper; table napkins of
paper; hand towels of paper; handkerchiefs of paper;
shipping tags; printed paper for lot, other than toy;
assorted pieces of colored paper [paper toy];
transfer-pictures [paper toy]; origami folding paper; cutout
pictures of paper; chiyogami [assorted pieces of japanese
paper with colorful patterns printed thereon]; colouring
pictures; paper and cardboard; modelling clay; molds for
modelling clays [artists' materials]; clay for arts and
crafts; modelling clay for manufacturing ceramics;
stationery; printed matter; paintings and calligraphic
works; photographs [printed]; photograph stands; modelling
materials. Purse frames; horseshoes; leathercloth; synthetic leather;
leather and fur, unworked or semi-worked; industrial
packaging containers of leather; clothing for domestic pets;
bags; luggages; pouches; vanity cases, not fitted; umbrellas
and their parts; parasols [sun umbrellas]; walking sticks;
hiking sticks; mountaineering sticks; wading staffs;
trekking sticks; canes; folding walking sticks; metal parts
of canes and walking-sticks; handles for canes and walking
sticks; saddlery. Meerschaum; yellow amber; industrial packaging containers of
wood, bamboo or plastics; hand-held flat fans; hand fans;
beds for household pets; dog kennels; nesting boxes for
small birds; water tanks for household purposes, not of
metal or masonry; hanging boards [japanese style pegboards
using positional hooks]; tool chests, not of metal, empty;
towel dispensers, not of metal; furniture; indoor window
blinds [shade] [furniture]; blinds of reed, rattan or bamboo
[sudare]; bead curtains for decoration; window shades; wind
chimes; oriental single panel standing partition [tsuitate];
oriental folding partition screens [byoubu]; benches; ritual
equipment; pocket mirrors; pocket mirror bags; picture
frames; plaster sculptures; plastic sculptures; wooden
sculptures; wood carvings; tusks [raw or partly worked
material]; whalebones; shells and crusts; artificial horns;
ivory [unworked or partly worked material]; animal horns;
animal teeth; tortoiseshells [unworked or partly worked
material]; animal bone [unworked or partly worked material];
coral [unworked or partly worked]; flower stands
[furniture]. Semi-worked glass, except building glass; figured plate
glass, not for building; modified sheet glass, not for
building; unworked or semi-worked glass, not for building;
cosmetic utensils; industrial packaging containers of glass
or porcelain; industrial packaging bottles of plastics;
plastic bottles for packaging; cooking pots and pans,
non-electric; coffee-makers, non-electric; japanese cast
iron kettles, non-electric [tetsubin]; kettles,
non-electric; dinnerware, other than knives, forks and
spoons; dishware; cookware; kitchen utensils and containers,
not including gas water heaters for household use,
non-electric cooking heaters for household purposes, kitchen
sinks incorporating integrated worktops for household
purpose and kitchen sinks for household purpose; cleaning
tools and washing utensils; candle extinguishers;
candlesticks; flower pots; planters [pots]; hydroponic plant
pots for home gardening; watering cans; chamber pots; piggy
banks; coin banks; boxes of metal for dispensing paper
towels; soap dispensers; toilet paper holders; glass
ornaments; vases; flower bowls; upright signboards of glass
or ceramics; perfume burners; earthenware; porcelain ware;
glassware. Bath mats for wash places; tatami mats; floor coverings;
wall hangings, not of textile; artificial turf; gymnastic
mats; wallpaper. Treatment or processing of clothing or fur, including
drying; metalworking and metal treatment; processing of
rubber; processing of plastics; firing pottery; pottery
firing; treatment of materials for the manufacture of
ceramic goods; ceramic processing; timber processing; paper
treating and working; stone treating; processing of bamboo,
tree barks, rattan, vines or other mineral vegetable
materials, other than processing of ingredients; engraving
of sealing stamps; rental of metal treating machines and
tools; rental of glassware manufacturing machines and
apparatus; manufacture of furniture and plastic parts to
order and specification of others; glass working and
treatment; manufacture and treatment of processed glasses;
manufacture of glass arts, crystal arts, glass works and
crystal works to order and specification of others;
providing material treatment information; custom 3d printing
for others. Providing meteorological information; architectural
services; surveying; geological research; designing of
machines, apparatus, instruments [including their parts] or
systems composed of such machines, apparatus and
instruments; furniture design services; rug design services;
design services of curtains; design services of tablecloths;
design services of tea cups; design services of tea pots;
design services of candle stands; design services of silver
works; design services of drinking glasses; design services
of table napkins; design services of flower arrangements;
design services of artificial flowers; design services of
vases, flower organs and flower stands; design services;
creating or maintaining web sites for others; computer
software design, computer programming, or maintenance of
computer software; technological advice relating to
computers, automobiles and industrial machines; testing,
inspection or research of pharmaceuticals, cosmetics or
foodstuffs; research on building construction or city
planning; testing or research on prevention of pollution;
testing or research on electricity; testing or research on
civil engineering; testing, inspection or research on
agriculture, livestock breeding or fisheries; testing or
research on machines, apparatus and instruments; rental of
measuring apparatus; rental of computers; providing computer
programs on data networks; rental of laboratory apparatus
and instruments; rental of technical drawing instruments.
Metal bicycle locks; keys of metal; locks of metal, other
than electric; metal locks and keys therefor; bicycle locks
of metal; locks of metal for vehicles; metal security lock
cylinders; security locks of metal; padlocks of metal, other
than electronic; split rings of common metal for keys;
chains of metal for keys; safety chains of metal; hardware
of metal, small; wheel clamps [boots].
A flexible flywheel includes: a shaft fastening portion fixed to an end portion of an engine crankshaft; an annular inertia ring provided around the shaft fastening portion; a plurality of elastic spoke portions which extend in the radial direction between the shaft fastening portion and the inertia ring and connect the shaft fastening part and the inertia ring to each other, and that absorb vibration acting on the crankshaft by undergoing deflection; and weight portions provided between adjacent ones of the elastic spoke portions. The fastening portion, inertial ring, elastic spoke portions, and weight portions are formed integrally by casting or forging.
F16F 15/10 - Suppression des vibrations dans les systèmes rotatifs par utilisation d'organes mobiles avec le système lui-même
F16F 15/315 - Volants caractérisés par la disposition du support, p. ex. montages, cages, fixation de l'élément d'inertie à l'arbre
F16F 15/121 - Suppression des vibrations dans les systèmes rotatifs par utilisation d'organes mobiles avec le système lui-même utilisant des organes élastiques ou des organes amortisseurs de friction, p. ex. entre un arbre en rotation et une masse giratoire montée dessus utilisant des ressorts comme organes élastiques, p. ex. des ressorts métalliques
Metal bicycle locks; metal keys for locks; locks of metal, other than electric; metal locks and keys therefor; bicycle locks of metal; locks of metal for vehicles; metal security lock cylinders; security locks of metal; padlocks of metal, other than electronic; split rings of common metal for keys; chains of metal for keys; metal hardware, namely, carabiners of metal; metal wheel clamps
After an annular plate is blanked from a metal flat plate in a blanking step, an inner peripheral portion of the annular plate is deformed upward in a burring step. As a result, a hat-shaped intermediate product having an upstanding tubular portion and an annular plate portion is formed. After that, an outer peripheral portion of the annular plate portion is folded step by step toward an inner peripheral side of the annular plate portion. As a result, a folded portion composed of a first folded portion and a second folded portion is formed, whereby a connection portion having a second flange portion is formed.
B21D 19/08 - Mise en forme ou autres traitements des bords, p. ex. des bords des tubes par l'action unique ou successive d'outils presseurs, p. ex. de mors d'étaux
F01N 13/18 - Structure facilitant la fabrication, l'assemblage ou le démontage
F16L 23/032 - Raccords à brides les brides étant raccordées par des organes tendus axialement caractérisés par la forme ou la composition des brides
12.
FERRITIC SPHEROIDAL GRAPHITE CAST IRON, DIFFERENTIAL CASE, AND DIFFERENTIAL DEVICE
This ferritic spheroidal graphite cast iron contains 3.0-3.6 mass% of C, 4.0-5.0 mass% of Si, 0.020-0.10 mass% of Mg, at most 1.0 mass% of Mn, at most 0.10 mass% of P, and at most 0.015 mass% of S, with the remainder consisting of Fe and inevitable impurities.
A metal material supply device (30) which is annexed to a metal melting furnace (10) has a vibration trough (54) for transporting metal material to be supplied to a crucible (11). The transported metal material is discharged from a material discharge port (57) that is provided at the front end of the vibration trough (54). The metal material supply device (30) is movable between a material supply position where the material discharge port (57) is disposed above the crucible (11) and a retracted position from the material supply position, and supplies the metal material to the crucible (11) at the material supply position. The upper end of the metal material supplied to the crucible (11) and piled up is detected by a microwave level meter (71), and the material supply operation by driving the vibration trough (54) is controlled on the basis of the detected value.
Each of a plurality of logistics boxes 30 provided in a logistics box housing includes a housing space 41 that houses a load, and an open/close door 32 having an electronic lock. A first bag-shaped body 33 is provided inside the housing space 41. The first bag-shaped body 33 can be switched between: a standby state wherein the first bag-shaped body is contracted and thereby brought close to a ceiling surface 42 forming the housing space 41; and a pressing state wherein the first bag-shaped body is expanded by being introduced with air and thereby presses, from above, the load housed in the housing space 41.
B65D 81/05 - Réceptacles, éléments d'emballage ou paquets pour contenus présentant des problèmes particuliers de stockage ou de transport ou adaptés pour servir à d'autres fins que l'emballage après avoir été vidés de leur contenu spécialement adaptés pour protéger leur contenu des dommages mécaniques maintenant le contenu en position éloignée des parois de l'emballage ou des autres pièces du contenu
A flexible flywheel 10 is equipped with: a shaft fastening part 11 fixed to an end portion of an engine crankshaft; an annular inertia ring 12 provided around the shaft fastening part 11; a plurality of elastic spoke parts 16 that extend in the radial direction between the shaft fastening part 11 and the inertia ring 12 and fasten the shaft fastening part and the inertia ring to each other, and that absorb vibration acting on the crankshaft by undergoing deflection; and weight parts 14 provided between adjacent elastic spoke parts 16. Lateral edge-side boundary ends 44, 45, to which boundary lines 42, 43 with the weight parts 14 are connected, are provided at lateral edges 31, 32 of the elastic spoke parts 16, respectively. When the elastic spoke parts 16 are vibrated, stress concentrates on the lateral edge-side boundary ends 44, 45.
A flexible flywheel 10 is equipped with: a shaft fastening part 11 secured to an end portion of an engine crankshaft; an annular inertia ring 12 provided around the shaft fastening part 11; a plurality of elastic spoke parts 13 that extend in the radial direction between the shaft fastening part 11 and the inertia ring 12 and fasten the shaft fastening part and the inertia ring to each other, and that absorb vibration acting on the crankshaft by undergoing deflection; and weight parts 14 provided between adjacent elastic spoke parts 13. The fastening part 11, inertial ring 12, elastic spoke parts 13, and weight parts 14 are formed integrally by casting or forging.
An upper substrate 11 having upper electrodes 13 formed thereon is disposed in a three-dimensional printer, and P-type elements 20p are built up on the upper electrodes 13, whereby a first intermediate product 23 is produced. Subsequently, a lower substrate 12 having lower electrodes 14 formed thereon is disposed in the three-dimensional printer, and N-type elements 20n are built up on the lower electrodes 14, whereby a second intermediate product 26 is produced. Subsequently, the first intermediate product 23 and the second intermediate product 26 are caused to face each other. After that, the P-type elements 20p of the first intermediate product 23 are joined to the lower electrodes 14 of the second intermediate product 26, and the N-type elements 20n of the second intermediate product 26 are joined to the upper electrodes 13 of the first intermediate product 23.
H01L 35/32 - DISPOSITIFS À SEMI-CONDUCTEURS; DISPOSITIFS ÉLECTRIQUES À L'ÉTAT SOLIDE NON PRÉVUS AILLEURS - Détails fonctionnant exclusivement par effet Peltier ou effet Seebeck caractérisés par la structure ou la configuration de la cellule ou du thermocouple constituant le dispositif
H01L 35/34 - Procédés ou appareils spécialement adaptés à la fabrication ou au traitement de ces dispositifs ou de leurs parties constitutives
After an annular plate is blanked from a metal flat plate in a blanking step, an inner peripheral portion of the annular plate is deformed upward in a burring step. As a result, a hat-shaped intermediate product having an upstanding tubular portion and an annular plate portion is formed. After that, an outer peripheral portion of the annular plate portion is folded step by step toward an inner peripheral side of the annular plate portion. As a result, a folded portion 24 composed of a first folded portion 45 and a second folded portion 49 is formed, whereby a connection portion 13 having a second flange portion 22 is formed.
B21D 19/08 - Mise en forme ou autres traitements des bords, p. ex. des bords des tubes par l'action unique ou successive d'outils presseurs, p. ex. de mors d'étaux
B21D 19/14 - Renforcement des bords, p. ex. par armature des bords
F16L 23/04 - Raccords à brides les brides étant raccordées par des organes tendus dans le plan radial
F01N 13/18 - Structure facilitant la fabrication, l'assemblage ou le démontage
B21D 19/00 - Mise en forme ou autres traitements des bords, p. ex. des bords des tubes
19.
Disc rotor, production apparatus therefor, roller, and disc rotor production method
This disc rotor has a hat portion having a cylindrical portion and a sliding plate portion having an insertion hole into which the cylindrical portion is inserted, being connected together with the hat portion in a state in which the cylindrical portion protrudes from the insertion hole. The coupling is achieved by pinching an inner peripheral edge of the sliding plate portion between a first portion and a second portion that are formed in the cylindrical portion. The second portion is formed by plastically deforming an outer peripheral side of the cylindrical portion toward the first portion.
F16D 65/12 - DisquesTambours pour freins à disques
B21D 53/34 - Fabrication d'autres objets particuliers de roues ou de pièces similaires de tambours de freins
B21H 1/02 - Fabrication d'articles en forme de solides de révolution de disquesFabrication d'articles en forme de solides de révolution de roues pleines
B21H 1/00 - Fabrication d'articles en forme de solides de révolution
B21D 39/00 - Utilisation de procédés permettant d'assembler des objets ou des parties d'objets, p. ex. revêtement par des tôles, autrement que par placageDispositifs de mandrinage des tubes
B24B 7/16 - Machines ou dispositifs conçus pour une seule opération particulière pour meuler des faces d'extrémités de pièces, p. ex. de calibres, de rouleaux, d'écrous ou de segments de piston
A door impact beam, which is a vehicle body component, is formed in such a way as to have an elongated shape, and includes a hat-shaped main body portion. A pair of matchings are provided in each of a right end edge portion and a left end edge portion of an outer edge portion of the door impact beam. The matchings are formed in a linking portion where a first cutting line in an upstream process and a second cutting line in a downstream process intersect, in a manufacturing stage for manufacturing the door impact beam through a plurality of stages of punching.
B60R 19/04 - Pare-chocs, c.-à-d. éléments pour recevoir ou absorber les chocs pour protéger les véhicules ou dévier les chocs provenant d'autres véhicules ou objets formés de plusieurs sections
B62D 25/00 - Sous-ensembles de carrosserieÉléments ou détails de ceux-ci non prévus ailleurs
An exhaust gas receiver 21 is provided between an expanded passage portion 132 of an upstream connection member 13 and a catalyst end surface 111. The exhaust gas receiver 21 extends along the entire circumference of a catalyst accommodation case 12. The exhaust gas receiver 21 extends from an upstream opening end portion 121 of the catalyst accommodation case 12 toward an inner part of the passage of the expanded passage portion 132 such that the exhaust gas receiver 21 separates from the expanded passage portion 132, and a space 211 is defined between the exhaust gas receiver 21 and the catalyst end surface 111. Flows of bypass exhaust gas hitting against the catalyst end surface 111 and bouncing off the catalyst end surface 111 hit against and are received by the exhaust gas receiver 21.
F01N 3/10 - Silencieux ou dispositifs d'échappement comportant des moyens pour purifier, rendre inoffensifs ou traiter les gaz d'échappement pour rendre les gaz d'échappement inoffensifs par conversion thermique ou catalytique des composants nocifs des gaz d'échappement
F02B 37/18 - Commande des pompes par dérivation des gaz d'échappement
F01N 13/18 - Structure facilitant la fabrication, l'assemblage ou le démontage
F02B 37/00 - Moteurs caractérisés par l'utilisation de pompes entraînées au moins temporairement par les gaz d'échappement
F01N 3/20 - Silencieux ou dispositifs d'échappement comportant des moyens pour purifier, rendre inoffensifs ou traiter les gaz d'échappement pour rendre les gaz d'échappement inoffensifs par conversion thermique ou catalytique des composants nocifs des gaz d'échappement caractérisés par les méthodes d'opérationCommande spécialement adaptés à la conversion catalytique
An outer housing 12 formed of a sheet metal is provided such that its open end portion 312 surrounds an outer edge portion 26 of an inner housing 11 formed by casting. An outer protrusion 216, an annular protrusion 227, and a connecting portion 27 are provided on the outer edge portion 26 of the inner housing 11. The open end portion 312 of the outer housing 12 is joined to a protruding end 217 of the outer protrusion 216, a protruding end 228 of the annular protrusion 227, and an end edge 271 of the connecting portion 27, whereby the inner housing 11 and the outer housing 12 are integrated.
F02C 6/12 - Turbocompresseurs de suralimentation, c.-à-d. ensembles fonctionnels destinés à augmenter la sortie de puissance mécanique des moteurs à piston à combustion interne en augmentant la pression de suralimentation
There is provided a manufacturing method of a terminal plate including a conductive plate and a terminal that is welded to the conductive plate and that is made of a different material from a material of the conductive plate. This manufacturing method comprises an overlapping process of laying an end portion of the terminal on the conductive plate; a pressing process of pressing part of overlapping surfaces of the conductive plate and the terminal, after the overlapping process; and a welding process of welding at least part of a remaining region excluding the pressed part of the overlapping surfaces, by friction stir welding.
H01M 8/2483 - Détails des groupements d'éléments à combustible caractérisés par les collecteurs d’admission internes
B23K 20/12 - Soudage non électrique par percussion ou par une autre forme de pression, avec ou sans chauffage, p. ex. revêtement ou placage la chaleur étant produite par frictionSoudage par friction
H01M 8/0258 - CollecteursSéparateurs, p. ex. séparateurs bipolairesInterconnecteurs caractérisés par la configuration des canaux, p. ex. par le champ d’écoulement du réactif ou du réfrigérant
The purpose of the present invention is to provide a melting material supply apparatus which is capable of contributing to improvements in the working environment and the melting efficiency of a metal melting furnace, and which is also capable of making melting work more efficient. This melting material supply apparatus for supplying a melting material to a crucible is provided with: a melting material supply unit for supplying the melting material to the crucible; and a furnace lid for closing an opening provided in the upper part of the crucible. The furnace lid is supported in a horizontal state by a furnace lid-supporter, and is capable of being moved between a position in which the opening is closed, and a standby position located above a hood. When the furnace lid is in the standby position, the opening is open, and the melting material can be supplied into the crucible therefrom.
A hybrid metal melting furnace uses a furnace lid to hold molten metal, while inhibiting reduction in the service life of burners of the furnace lid caused by long periods of exposure to high heat. This hybrid metal melting furnace includes a crucible for accommodating metal to be melted; and an induction coil causing induced current to flow through and heat the metal. A furnace lid which closes an opening in the crucible includes: a first furnace lid having burners for injecting flames into the crucible; and a second furnace lid which does not have the burners. When melting the metal, the first furnace lid is disposed in a position in which the opening is closed. When holding the molten metal in the crucible, the first furnace lid is removed from the opening, and the second furnace lid is disposed in the position in which the opening is closed.
F27D 1/18 - Montures de portesPortes, couvercles ou couvercles amovibles
F27D 11/06 - Chauffage par induction, c.-à-d. dans lequel le matériau à chauffer ou son contenant, ou bien les éléments incorporés dans celui-ci, constitue le secondaire d'un transformateur
F27B 14/14 - Aménagement des dispositifs de chauffage
09 - Appareils et instruments scientifiques et électriques
20 - Meubles et produits décoratifs
Produits et services
Telecommunication devices and apparatus and their structural
replacement parts and fittings; apparatus for recording,
transmission or reproduction of sound and their structural
replacement parts and fittings; audio equipment and its
structural replacement parts and fittings; audio equipment
and its structural replacement parts and fittings, namely,
surround sound systems, personal stereo systems, car
stereos, digital audio players, stereo acoustic couplers,
audio amplifiers, audio headphones, audio equalizers and
audio mixers; cabinets and enclosures for telecommunication
devices and apparatus; mounting racks adapted for
telecommunications hardware; cabinets and enclosures for
audio equipment; racks adapted for audio equipment; stands
for audio equipment; loudspeakers and their structural
replacement parts and fittings; audio speakers; audio
speakers for automobiles; horns for loudspeakers; signal
processing apparatus for speaker systems; audio speaker
enclosures; racks adapted for loudspeakers; speaker stands;
racks adapted for apparatus for recording, transmission or
reproduction of sound, data and images; vibration dampeners
for audio equipment; vibration dampeners for electronic
audio equipment; vibration dampeners for apparatus for
recording, transmission or reproduction of sound, data and
images; vibration dampening boards for audio equipment;
vibration dampening boards for electronic audio equipment;
vibration dampening boards for apparatus for recording,
transmission or reproduction of sound, data and images;
diaphragms [acoustics]; audio amplifiers for mobile phones,
personal digital assistants, portable audio players and
other portable terminals; stands for mobile phones, personal
digital assistants, portable audio players and other
portable terminals; stands with amplification function for
mobile phones, personal digital assistants, portable audio
players and other portable terminals; personal digital
assistants in the shape of a watch; smartphones; electronic
machines and apparatus and their structural replacement
parts and fittings; electronic machines and apparatus and
their structural replacement parts and fittings, namely,
computer hardware for telecommunications, personal
computers; computer programs for processing digital music
files, reproduction of music, and computer programs for
creating and editing music and sounds; phonograph records;
phonograph records featuring music; downloadable music
files. Furniture; storage racks; storage racks for electronic
machines and apparatus; storage racks for audio equipment.
A vehicle forced-induction device includes a first exhaust turbine type forced-induction unit and a second exhaust turbine type forced-induction unit. The first forced-induction unit includes an outlet pipe. The outlet pipe includes a first tubular portion and an annular first flange. The second forced-induction unit includes an inlet pipe. The inlet pipe includes a second tubular portion and an annular second flange. The forced-induction device includes a fastener that includes an annular groove. The annular groove has a shape in which a width of the annular groove decreases toward a groove bottom. The fastener is wound around the first and second flanges along a circumference of the first and the second flanges, thereby housing the first and second flanges in the annular groove. The fastener fastens the first and second flanges to urge the first and second flanges toward each other.
F02B 37/00 - Moteurs caractérisés par l'utilisation de pompes entraînées au moins temporairement par les gaz d'échappement
F01D 25/24 - Carcasses d'enveloppeÉléments de la carcasse, p. ex. diaphragmes, fixations
F16L 23/08 - Raccords à brides les brides étant raccordées par des organes tendus dans le plan radial raccordées par broche et écrou fileté disposés tangentiellement
29.
DISC ROTOR, PRODUCTION DEVICE THEREFOR, ROLLER, AND DISC ROTOR PRODUCTION METHOD
This disc rotor 10 has a hat part 11 having a cylindrical part 21 and a sliding plate part 12 having an insertion hole in which the cylindrical part 21 is inserted, wherein the hat part 11 and the sliding plate part 12 are coupled together in a state in which the cylindrical part 21 is protruding out of the insertion hole. The coupling is achieved by pinching an inner peripheral edge 13 of the sliding plate part 12 between a first pinching section 25 and a second pinching section 26 that are formed in the cylindrical part 21. The second pinching section 26 is formed by plastically deforming an outer peripheral side of the cylindrical part 21 so as to come closer toward the first pinching section 25.
F16D 65/12 - DisquesTambours pour freins à disques
B21D 39/00 - Utilisation de procédés permettant d'assembler des objets ou des parties d'objets, p. ex. revêtement par des tôles, autrement que par placageDispositifs de mandrinage des tubes
B21D 53/34 - Fabrication d'autres objets particuliers de roues ou de pièces similaires de tambours de freins
B21H 1/00 - Fabrication d'articles en forme de solides de révolution
30.
Composite structure and manufacturing method thereof
A composite structure having a laminated structure made of fiber reinforced plastic and metallic material comprises a base member(s) made of metallic material; and a reinforcement member(s) made of fiber reinforced plastic, the reinforcement member(s) comprising: a first reinforcement part(s) made of fiber reinforced plastic including reinforcement fibers which are aligned in a uni-direction, and a second reinforcement part(s) made of fiber reinforced plastic including at least reinforcement fibers which are aligned in a crossing direction relative to the uni-direction in which the reinforcement fibers of the first reinforcement part(s) are aligned, and interposed between the base member(s) and the first reinforcement part(s), the reinforcement member(s) further comprising a thermosetting resin included in a bonding site with the base member(s).
B32B 5/12 - Produits stratifiés caractérisés par l'hétérogénéité ou la structure physique d'une des couches caractérisés par les caractéristiques de structure d'une couche comprenant des fibres ou des filaments caractérisés par la disposition relative des fibres ou filaments des couches adjacentes
B29C 70/08 - Façonnage de matières composites, c.-à-d. de matières plastiques comprenant des renforcements, des matières de remplissage ou des parties préformées, p. ex. des inserts comprenant uniquement des renforcements, p. ex. matières plastiques auto-renforçantes des renforcements fibreux uniquement comprenant des combinaisons de différentes formes de renforcements fibreux incorporés dans une matrice, formant une ou plusieurs couches, avec ou sans couches non renforcées
B29C 70/46 - Façonnage ou imprégnation par compression pour la fabrication d'objets de longueur définie, c.-à-d. d'objets distincts utilisant des moules opposables, p. ex. pour déformer des préimprégnés [SMC] ou des "prepregs"
B32B 5/02 - Produits stratifiés caractérisés par l'hétérogénéité ou la structure physique d'une des couches caractérisés par les caractéristiques de structure d'une couche comprenant des fibres ou des filaments
B32B 15/08 - Produits stratifiés composés essentiellement de métal comprenant un métal comme seul composant ou comme composant principal d'une couche adjacente à une autre couche d'une substance spécifique de résine synthétique
B32B 15/14 - Produits stratifiés composés essentiellement de métal adjacent à une couche fibreuse ou filamenteuse
B32B 5/26 - Produits stratifiés caractérisés par l'hétérogénéité ou la structure physique d'une des couches caractérisés par la présence de plusieurs couches qui comportent des fibres, filaments, grains ou poudre, ou qui sont sous forme de mousse ou essentiellement poreuses une des couches étant fibreuse ou filamenteuse un autre couche également étant fibreuse ou filamenteuse
B32B 7/00 - Produits stratifiés caractérisés par la relation entre les couchesProduits stratifiés caractérisés par l’orientation relative des éléments caractéristiques entre les couches, ou par les valeurs relatives d’un paramètre mesurable entre les couches, c.-à-d. produits comprenant des couches ayant des propriétés physiques, chimiques ou physicochimiques différentes Produits stratifiés caractérisés par la jonction entre les couches
31.
METHOD OF MANUFACTURING SKELETON MEMBER FOR VEHICLE
A method of manufacturing a skeleton member for a vehicle, said method having an extruding step and a pressing step, and said member having one or more groove-shaped parts extending in a prescribed direction. In the extruding step, a plate-shaped member is manufactured by an extrusion molding process, the plate-shaped member having: one or more strip-shaped first plate-shaped parts extending in a prescribed direction; and strip-shaped second plate-shaped parts extending in the prescribed direction at the widthwise end parts of the first plate-shaped parts, the second plate-shaped parts having a lower plate thickness than the first plate-shaped parts. In the pressing step, the plate-shaped member is pressed so that at least some of the bottom wall part of a groove-shaped part is configured from a first plate-shaped part, and the side wall parts of a groove-shaped part are configured from second plate-shaped parts.
An internal combustion engine includes: a cylinder block including multiple cylinders; a cylinder head; and a turbocharger including an inlet port connected to an exhaust outlet of the cylinder head. The inlet port includes a first wall portion located between one cylinder out of the two outermost cylinders and the central axis of the inlet port in the cylinder array direction, and a second wall portion located on the opposite side of the central axis of the inlet port from the first wall portion. The first wall portion includes a thick-walled portion that is greater in thickness than the second wall portion, and a thin-walled portion that is smaller in thickness than the thick-walled portion and is located upstream of the thick-walled portion in the direction of exhaust gas flow.
F02B 37/02 - Passages pour les gaz entre l'orifice d'échappement du moteur et l'entraînement de la pompe, p. ex. réservoirs
F01N 13/08 - Autres aménagements ou adaptations des tubulures d'échappement
F01N 13/18 - Structure facilitant la fabrication, l'assemblage ou le démontage
F02B 67/10 - Moteurs caractérisés par l'agencement d'appareils auxiliaires non prévu ailleurs, p. ex. un appareil ayant des fonctions différentesEntraînement non prévu ailleurs de ces appareils auxiliaires par les moteurs d'appareils d'alimentation ou de balayage
F02F 1/40 - Culasses de cylindres avec moyens pour diriger, guider ou diffuser le liquide
F02F 1/42 - Forme ou disposition des canalisations d'admission ou d'échappement dans les culasses de cylindres
The purpose of the present invention is to obtain a vehicle body component such that problems relating to conventionally proposed technology can be solved, thereby preventing increases in the number of components or manufacturing steps for reinforcement, for example. A bumper reinforce (10) includes a first component (11) and a second component (21) that are formed from channel steel with approximately U-shaped lateral cross section, and is configured by connecting the ends of the components (11, 21). Connecting portions (13, 23) of the first component (11) and the second component (21) respectively have slits (31, 41) along a direction in which the components (11, 21) are arranged. The components (11, 21) are connected with the components (11, 21) overlapping each other in a staggered manner on both upper and lower sides across the slits (31, 41).
B60R 19/04 - Pare-chocs, c.-à-d. éléments pour recevoir ou absorber les chocs pour protéger les véhicules ou dévier les chocs provenant d'autres véhicules ou objets formés de plusieurs sections
B62D 27/02 - Assemblages entre sous-ensembles de la carrosserie rigides
B62D 21/10 - Châssis, c.-à-d. armature sur laquelle une carrosserie peut être montée dans lesquels l'armature principale est du genre plaque
B62D 21/15 - Châssis, c.-à-d. armature sur laquelle une carrosserie peut être montée comportant des moyens amortisseurs de chocs, p. ex. châssis conçus pour changer de forme ou de dimensions d'une façon définitive ou temporaire à la suite d'une collision avec un autre corps
B60R 19/02 - Pare-chocs, c.-à-d. éléments pour recevoir ou absorber les chocs pour protéger les véhicules ou dévier les chocs provenant d'autres véhicules ou objets
The purpose of the present invention is to provide a melting material supply device which is capable of contributing to improvements in the working environment and the melting efficiency of a metal melting furnace, and which is also capable of making melting work more efficient. This melting material supply device 10 for supplying a melting material to a crucible 31 is provided with: a melting material supply part 12 for supplying the melting material to the crucible 31; and a furnace lid 13 for closing an opening 32 provided in the upper part of the crucible 31. The furnace lid 13 is supported in a horizontal state by a furnace lid-supporting part 40, and is capable of being moved between a position in which the opening 32 is closed, and a standby position located above a hood part 24. When the furnace lid 13 is in the standby position, the top of the opening 32 is open, and the melting material can be supplied into the crucible 31 therefrom.
The purpose of the present invention is to provide a hybrid metal melting furnace which is capable of using a furnace lid to hold molten metal, while inhibiting reduction in the service life of burners provided to the furnace lid caused by exposure to high heat for long periods of time. This hybrid metal melting furnace 10 is provided with: a crucible 11 in which a metal to be melted is accommodated; and an induction coil 24 which causes an induced current to flow through the metal to be melted, to heat the metal to be melted. A furnace lid 13, 14 which closes the top of an opening 21 in the crucible 11 includes: a first furnace lid 13 having, provided thereto, burners 41 for injecting flames into the crucible 11; and a second furnace lid 14 which does not have the burners 41 provided thereto. When melting the metal to be melted, the first furnace lid 13 is disposed in a position in which the opening 21 is closed. When holding the molten metal in the crucible 11, the first furnace lid 13 is removed from the opening 21, and the second furnace lid 14 is disposed in the position in which the opening 21 is closed.
F27B 14/14 - Aménagement des dispositifs de chauffage
F27D 1/18 - Montures de portesPortes, couvercles ou couvercles amovibles
F27D 11/06 - Chauffage par induction, c.-à-d. dans lequel le matériau à chauffer ou son contenant, ou bien les éléments incorporés dans celui-ci, constitue le secondaire d'un transformateur
A vehicle front section structure includes a front side member, a gusset that juts out from a side face of a front end of the front side member, a bumper reinforcement that is disposed at a front end side of the vehicle body front section, and a crash box that is disposed between front ends of the front side member and the gusset, and an outer side section of the bumper reinforcement, that couples both of the front ends and the outer side section together, and undergoes compressive plastic deformation due to collision load. A flat portion is integrally formed at an end of the bumper reinforcement, with a front face of the flat portion extending along the vehicle width direction and a vehicle up-down direction and, in vehicle front view, overlapping with a side wall portion at the vehicle width direction outer side of the crash box.
B60R 19/34 - Aménagements concernant le montage des pare-chocs sur les véhicules comprenant des moyens de montage susceptibles de céder conçus pour être détruits à l'impact, p. ex. du type pare-chocs global
B62D 21/15 - Châssis, c.-à-d. armature sur laquelle une carrosserie peut être montée comportant des moyens amortisseurs de chocs, p. ex. châssis conçus pour changer de forme ou de dimensions d'une façon définitive ou temporaire à la suite d'une collision avec un autre corps
A vehicle front portion structure includes: a front side member; a load-bearing member provided at an outer side face of a vehicle width direction outer side of the front side member, the load-bearing member including a load transmission portion that protrudes to the vehicle width direction outer side and to a vehicle front from the outer side face; a front bumper reinforcement; an inner side collision-absorbing portion that couples a front end of the front side member with the front bumper reinforcement; and an outer side collision-absorbing portion disposed at the vehicle width direction outer side of the inner side collision-absorbing portion, at least a portion of the outer side collision-absorbing portion being disposed between a front end of the load transmission portion and the front bumper reinforcement, and the outer side collision-absorbing portion being higher in compression strength in the vehicle front-and-rear direction than the inner side collision-absorbing portion.
A catalyst casing-integrated exhaust manifold (manifold converter) includes an exhaust manifold section and a catalyst casing section. The catalyst casing section includes an approximately cylindrically-shaped casing main body holding a catalyst carrier, a conical part interconnecting the casing main body and the exhaust manifold section, and an outlet side shell connected to a downstream side of the casing main body. The exhaust manifold section and the catalyst casing section are formed by pressing a tailored blank by welding at least two metal blanks different in kind of materials and/or having different in thicknesses. In addition, the exhaust manifold section and the conical part of the catalyst casing section are formed of the same metal blank. The catalyst casing-integrated exhaust manifold and method of manufacturing same can reduce a number of components etc., thereby saving manufacturing cost.
In a differential apparatus component (ring gear-integrated with differential case 12), a differential case and a ring gear are formed integrally and seamlessly of cast steel. Cast Steel is preferably composed of 0.3 to 1.0% by mass of silicon (Si), 0.5 to 1.2% by mass of manganese (Mn), 0.1 to 0.5% by mass of vanadium (V), 0.01 to 0.05% by mass of tin (Sn), 0.1 to 1.5% by mass of chromium (Cr), 0.2 to 1.0% by mass of copper (Cu), and the rest composed of iron (Fe) and unavoidable impurities.
A thermoelectric module having a small heat resistance and excellent heat dissipation, thereby causing a large temperature difference between hot and cold sides, is desired. The thermoelectric module comprises a first thermoelectric element(s) having one of P and N type thermoelectric characteristics; a second thermoelectric element(s) having another of P and N type thermoelectric characteristics; and a first electrode(s) configured to electrically connect between cold sides of the first and second thermoelectric elements, the first electrode(s) having an arch shape extending from the first and second thermoelectric elements so as to function as a heat sink.
H01L 35/08 - Jonctions non amovibles, p.ex. obtenues par cémentation, frittage, soudage
H01L 35/30 - DISPOSITIFS À SEMI-CONDUCTEURS; DISPOSITIFS ÉLECTRIQUES À L'ÉTAT SOLIDE NON PRÉVUS AILLEURS - Détails fonctionnant exclusivement par effet Peltier ou effet Seebeck caractérisés par les moyens d'échange de chaleur à la jonction
41.
Austenitic heat-resistant cast steel and method for manufacturing the same
An austenitic heat-resistant cast steel includes 0.1% to 0.6% by mass of C, 1.0% to 3.0% by mass of Si, 0.5% to 1.5% by mass of Mn, 0.05% by mass or less of P, 0.05% to 0.3% by mass of S, 9% to 16% by mass of Ni, 14% to 20% by mass of Cr, 0.1% to 0.2% by mass of N, and the balance of iron and inevitable impurities, in which a matrix structure of the austenitic heat-resistant cast steel is composed of austenite crystal grains, and a ferrite phase is dispersed and interposed between the austenite crystal grains so as to cover the austenite crystal grains.
The purpose of the present invention is to obtain a vehicle body component such that problems relating to conventionally proposed technology can be solved, thereby preventing increases in the number of components or manufacturing steps for reinforcement, for example. A bumper reinforce (10) includes a first component (11) and a second component (21) that are formed from channel steel with approximately U-shaped lateral cross section, and is configured by connecting the ends of the components (11, 21). Connecting portions (13, 23) of the first component (11) and the second component (21) respectively have slits (31, 41) along a direction in which the components (11, 21) are arranged. The components (11, 21) are connected with the components (11, 21) overlapping each other in a staggered manner on both upper and lower sides of the slits (31, 41).
B60R 19/04 - Pare-chocs, c.-à-d. éléments pour recevoir ou absorber les chocs pour protéger les véhicules ou dévier les chocs provenant d'autres véhicules ou objets formés de plusieurs sections
An internal combustion engine includes: a cylinder block including multiple cylinders; a cylinder head; and a turbocharger including an inlet port connected to an exhaust outlet of the cylinder head. The inlet port includes a first wall portion located between one cylinder out of the two outermost cylinders and the central axis of the inlet port in the cylinder array direction, and a second wall portion located on the opposite side of the central axis of the inlet port from the first wall portion. The first wall portion includes a thick-walled portion that is greater in thickness than the second wall portion, and a thin-walled portion that is smaller in thickness than the thick-walled portion and is located upstream of the thick-walled portion in the direction of exhaust gas flow.
F02B 37/02 - Passages pour les gaz entre l'orifice d'échappement du moteur et l'entraînement de la pompe, p. ex. réservoirs
F02B 67/10 - Moteurs caractérisés par l'agencement d'appareils auxiliaires non prévu ailleurs, p. ex. un appareil ayant des fonctions différentesEntraînement non prévu ailleurs de ces appareils auxiliaires par les moteurs d'appareils d'alimentation ou de balayage
44.
Method of manufacturing thermoelectric module, and thermoelectric module
A manufacturing method of a thermoelectric module comprises forming a first wax model in which the first thermoelectric elements are arranged in a predetermined pattern, forming a first mold from the first wax model, casting a group of the first thermoelectric elements by pouring molten metal of a first thermoelectric material into the first mold to solidify the molten metal, forming a second wax model that represents arrangement of second thermoelectric elements to form the thermoelectric module by being connected with the first thermoelectric elements, forming a second mold from the second wax model, casting the group of the second thermoelectric elements by pouring molten metal of a second thermoelectric material into the second mold to solidify the molten metal, and connecting the group of the first thermoelectric elements with the group of the second thermoelectric elements electrically in series.
B22D 19/16 - Coulée dans, sur, ou autour d'objets formant partie intégrante du produit final pour fabriquer des moulages composites à partir de métaux différents, p. ex. pour fabriquer des cylindres de laminoirs
H01L 35/32 - DISPOSITIFS À SEMI-CONDUCTEURS; DISPOSITIFS ÉLECTRIQUES À L'ÉTAT SOLIDE NON PRÉVUS AILLEURS - Détails fonctionnant exclusivement par effet Peltier ou effet Seebeck caractérisés par la structure ou la configuration de la cellule ou du thermocouple constituant le dispositif
45.
COMPOSITE STRUCTURE AND MANUFACTURING METHOD THEREOF
There is provided a composite structure, comprising a base member(s) made of metallic material, and a reinforcement member(s) made of fiber reinforced plastic including reinforcement fibers which are aligned in a uni-direction, wherein at least one slit is formed on the reinforcement member(s) so as to extend in an orientation direction of the reinforcement fibers.
B32B 5/02 - Produits stratifiés caractérisés par l'hétérogénéité ou la structure physique d'une des couches caractérisés par les caractéristiques de structure d'une couche comprenant des fibres ou des filaments
B32B 5/12 - Produits stratifiés caractérisés par l'hétérogénéité ou la structure physique d'une des couches caractérisés par les caractéristiques de structure d'une couche comprenant des fibres ou des filaments caractérisés par la disposition relative des fibres ou filaments des couches adjacentes
B32B 5/22 - Produits stratifiés caractérisés par l'hétérogénéité ou la structure physique d'une des couches caractérisés par la présence de plusieurs couches qui comportent des fibres, filaments, grains ou poudre, ou qui sont sous forme de mousse ou essentiellement poreuses
B32B 5/24 - Produits stratifiés caractérisés par l'hétérogénéité ou la structure physique d'une des couches caractérisés par la présence de plusieurs couches qui comportent des fibres, filaments, grains ou poudre, ou qui sont sous forme de mousse ou essentiellement poreuses une des couches étant fibreuse ou filamenteuse
B32B 5/26 - Produits stratifiés caractérisés par l'hétérogénéité ou la structure physique d'une des couches caractérisés par la présence de plusieurs couches qui comportent des fibres, filaments, grains ou poudre, ou qui sont sous forme de mousse ou essentiellement poreuses une des couches étant fibreuse ou filamenteuse un autre couche également étant fibreuse ou filamenteuse
B32B 7/00 - Produits stratifiés caractérisés par la relation entre les couchesProduits stratifiés caractérisés par l’orientation relative des éléments caractéristiques entre les couches, ou par les valeurs relatives d’un paramètre mesurable entre les couches, c.-à-d. produits comprenant des couches ayant des propriétés physiques, chimiques ou physicochimiques différentes Produits stratifiés caractérisés par la jonction entre les couches
B32B 15/08 - Produits stratifiés composés essentiellement de métal comprenant un métal comme seul composant ou comme composant principal d'une couche adjacente à une autre couche d'une substance spécifique de résine synthétique
B32B 15/14 - Produits stratifiés composés essentiellement de métal adjacent à une couche fibreuse ou filamenteuse
B32B 3/02 - Caractérisés par des caractéristiques de forme en des endroits déterminés, p. ex. au voisinage des bords
B32B 3/26 - Produits stratifiés comprenant une couche ayant des discontinuités ou des rugosités externes ou internes, ou une couche de forme non planeProduits stratifiés comprenant une couche ayant des particularités au niveau de sa forme caractérisés par une couche continue dont le périmètre de la section droite a une allure particulièreProduits stratifiés comprenant une couche ayant des discontinuités ou des rugosités externes ou internes, ou une couche de forme non planeProduits stratifiés comprenant une couche ayant des particularités au niveau de sa forme caractérisés par une couche comportant des cavités ou des vides internes
B29C 70/34 - Façonnage par empilage, c.-à-d. application de fibres, de bandes ou de feuilles larges sur un moule, un gabarit ou un noyauFaçonnage par pistolage, c.-à-d. pulvérisation de fibres sur un moule, un gabarit ou un noyau et façonnage ou imprégnation par compression
B29C 70/40 - Façonnage ou imprégnation par compression
B29C 43/10 - Pressage isostatique, c.-à-d. en utilisant des organes presseurs non rigides coopérant avec des organes rigides ou des matrices
46.
COMPOSITE STRUCTURE AND MANUFACTURING METHOD THEREOF
A composite structure having a laminated structure made of fiber reinforced plastic and metallic material comprises a base member(s) made of metallic material; and a reinforcement member(s) made of fiber reinforced plastic, the reinforcement member(s) comprising: a first reinforcement part(s) made of fiber reinforced plastic including reinforcement fibers which are aligned in a uni-direction, and a second reinforcement part(s) made of fiber reinforced plastic including at least reinforcement fibers which are aligned in a crossing direction relative to the uni-direction in which the reinforcement fibers of the first reinforcement part(s) are aligned, and interposed between the base member(s) and the first reinforcement part(s), the reinforcement member(s) further comprising a thermosetting resin included in a bonding site with the base member(s).
B32B 5/02 - Produits stratifiés caractérisés par l'hétérogénéité ou la structure physique d'une des couches caractérisés par les caractéristiques de structure d'une couche comprenant des fibres ou des filaments
B32B 5/12 - Produits stratifiés caractérisés par l'hétérogénéité ou la structure physique d'une des couches caractérisés par les caractéristiques de structure d'une couche comprenant des fibres ou des filaments caractérisés par la disposition relative des fibres ou filaments des couches adjacentes
B32B 5/22 - Produits stratifiés caractérisés par l'hétérogénéité ou la structure physique d'une des couches caractérisés par la présence de plusieurs couches qui comportent des fibres, filaments, grains ou poudre, ou qui sont sous forme de mousse ou essentiellement poreuses
B32B 5/24 - Produits stratifiés caractérisés par l'hétérogénéité ou la structure physique d'une des couches caractérisés par la présence de plusieurs couches qui comportent des fibres, filaments, grains ou poudre, ou qui sont sous forme de mousse ou essentiellement poreuses une des couches étant fibreuse ou filamenteuse
B32B 5/26 - Produits stratifiés caractérisés par l'hétérogénéité ou la structure physique d'une des couches caractérisés par la présence de plusieurs couches qui comportent des fibres, filaments, grains ou poudre, ou qui sont sous forme de mousse ou essentiellement poreuses une des couches étant fibreuse ou filamenteuse un autre couche également étant fibreuse ou filamenteuse
B32B 7/00 - Produits stratifiés caractérisés par la relation entre les couchesProduits stratifiés caractérisés par l’orientation relative des éléments caractéristiques entre les couches, ou par les valeurs relatives d’un paramètre mesurable entre les couches, c.-à-d. produits comprenant des couches ayant des propriétés physiques, chimiques ou physicochimiques différentes Produits stratifiés caractérisés par la jonction entre les couches
B32B 15/08 - Produits stratifiés composés essentiellement de métal comprenant un métal comme seul composant ou comme composant principal d'une couche adjacente à une autre couche d'une substance spécifique de résine synthétique
B32B 15/14 - Produits stratifiés composés essentiellement de métal adjacent à une couche fibreuse ou filamenteuse
B29C 70/34 - Façonnage par empilage, c.-à-d. application de fibres, de bandes ou de feuilles larges sur un moule, un gabarit ou un noyauFaçonnage par pistolage, c.-à-d. pulvérisation de fibres sur un moule, un gabarit ou un noyau et façonnage ou imprégnation par compression
B29C 70/40 - Façonnage ou imprégnation par compression
B29C 70/10 - Façonnage de matières composites, c.-à-d. de matières plastiques comprenant des renforcements, des matières de remplissage ou des parties préformées, p. ex. des inserts comprenant uniquement des renforcements, p. ex. matières plastiques auto-renforçantes des renforcements fibreux uniquement caractérisées par la structure des renforcements fibreux
In a clamp device, a main clamp body includes an elongated tightening groove delimited by groove-forming wall sections. First and second lobe parts are disposed in the vicinity of end portions of two such tightening grooves. The main clamp body presents a ring shape when bolt and nut are mounted in position on the lobe parts disposed facing each other. Each of the lobe parts includes sidewall sections respectively contiguous to the groove delimiting wall sections that delimit the tightening groove. Each lobe part also includes a curved outer end wall section interconnecting the sidewall sections at an outer end of each lobe part and a seat surface wall section contiguous to the sidewall sections and to the outer end wall section. The seat surface wall section provides a bolt/nut seat surface. An arcuately shaped fulcrum part is formed on the curved outer end wall section of each lobe part.
F16L 33/04 - Colliers de serrage pour manches serrés par broche et écrou filetés disposés tangentiellement
F16L 23/08 - Raccords à brides les brides étant raccordées par des organes tendus dans le plan radial raccordées par broche et écrou fileté disposés tangentiellement
F01N 13/18 - Structure facilitant la fabrication, l'assemblage ou le démontage
48.
THERMOELECTRIC ELEMENT, THERMOELECTRIC MODULE AND MANUFACTURING METHOD THEREOF
It is desirable to save labor and time for positioning and connecting between a thermoelectric element and an electrode in manufacturing a thermoelectric module therefrom. The thermoelectric element is formed with a thread portion on at least one end in an electromotive force generating direction.
H01L 35/06 - Jonctions amovibles, p.ex. utilisant un ressort
H01L 35/32 - DISPOSITIFS À SEMI-CONDUCTEURS; DISPOSITIFS ÉLECTRIQUES À L'ÉTAT SOLIDE NON PRÉVUS AILLEURS - Détails fonctionnant exclusivement par effet Peltier ou effet Seebeck caractérisés par la structure ou la configuration de la cellule ou du thermocouple constituant le dispositif
49.
DIFFERENTIAL APPARATUS COMPONENT, DIFFERENTIAL APPARATUS THEREWITH AND MANUFACTURING METHOD THEREOF
In a differential apparatus component including: a differential case configured to accommodate a differential gear mechanism; and a ring gear provided so as to rotate integrally with the differential case, to provide a configuration which can integrate the differential case and the ring gear by casting while desirably ensuring strength properties required for being used as ring gear. In the differential apparatus component (ring gear-integrated with differential case 12), the differential case and the ring gear are formed integrally and seamlessly of cast steel. Cast Steel is preferably composed of 0.3 to 1.0% by mass of silicon (Si), 0.5 to 1.2% by mass of manganese (Mn), 0.1 to 0.5% by mass of vanadium (V), 0.01 to 0.05% by mass of tin (Sn), 0.1 to 1.5% by mass of chromium (Cr), 0.2 to 1.0% by mass of copper (Cu), and the rest composed of iron (Fe) and unavoidable impurities.
A catalyst casing-integrated exhaust manifold (manifold converter) includes an exhaust manifold section and a catalyst casing section. The catalyst casing section includes an ap¬ proximately cylindrically- shaped casing main body holding a catalyst carrier, a conical part inter¬ connecting the casing main body and the exhaust manifold section, and an outlet side shell connected to a downstream side of the casing main body. The exhaust manifold section and the catalyst casing section are formed by pressing a tailored blank by welding at least two metal blanks different in kind of materials and/or having different in thicknesses. In addition, the exhaust manifold section and the conical part of the catalyst casing section are formed of the same metal blank. The catalyst casing-integrated exhaust manifold and method of manufacturing same can reduce a number of components etc., thereby saving manufacturing cost.
This bumper joining structure is provided with: a bumper reinforcement which includes a front section extending in the width direction of the vehicle and which also includes a pair of flanges extending from both edges, in the vertical direction of the vehicle, of the front section and having first joining sections; and crush boxes which each have a cylindrical shape having a pair of end sections in the front-rear direction of the vehicle and also having side surfaces extending in the front-rear direction of the vehicle, one of the end sections being mounted to the front section, the side surfaces including second joining sections joined to the first joining sections, the crush boxes being arranged on the bumper reinforcement with a space between each other in the width direction of the vehicle.
B60R 19/24 - Aménagements concernant le montage des pare-chocs sur les véhicules
B60R 19/34 - Aménagements concernant le montage des pare-chocs sur les véhicules comprenant des moyens de montage susceptibles de céder conçus pour être détruits à l'impact, p. ex. du type pare-chocs global
52.
AUSTENITIC HEAT-RESISTANT CAST STEEL AND METHOD FOR MANUFACTURING THE SAME
An austenitic heat-resistant cast steel includes 0.1 to 0.6% by mass of C, 1.0 to 3.0 % by mass of Si, 0.5 to 1.5 % by mass of Mn, 0.05 % by mass or less of P, 0.05 to 0.3 % by mass of S, 9 to 16 % by mass of Ni, 14 to 20 % by mass of Cr, 0.1 to 0.2 % by mass of N, and the balance of iron and inevitable impurities, in which a matrix structure of the austenitic heat-resistant cast steel is configured of austenite crystal grains, and a ferrite phase is dispersed and interposed between the austenite crystal grains so as to cover the austenite crystal grains.
Conventional methods for manufacturing a composite structure in which a fiber-reinforced plastic member and a metal sheet are bonded have potential for improvement with regard to manufacturing cost and bond strength between the fiber-reinforced plastic member and the metal sheet. The method for manufacturing a composite structure provided has the following steps: (a) preparing a metal sheet having a through-hole penetrating in the sheet thickness direction, a prepreg for constituting a fiber-reinforced plastic sheet, a mold having a pair of dies for obtaining a composite structure having a predetermined shape, the mold being capable of forming, at a position facing an open part on one side of the through-hole, a recess having a larger diameter than the open part on one side of the through-hole, and at least one patch member set in a position opposite the through-hole; (b) placing the prepreg and the metal sheet between the pair of dies; (c) closing the pair of dies together, and while the dies are closed, (ca) the prepreg and the metal sheet being molded in the predetermined shape while the prepreg and the metal sheet are in surface contact with each other, (cb) the prepreg and/or the patch member being pushed into the through-hole, and a shaft part integrated with the prepreg being formed, and (cc) a head part configured from at least the patch part, integrated with the shaft part, and engaged with the metal sheet being formed in the recess.
B29C 65/70 - Assemblage d'éléments préformésAppareils à cet effet par moulage
B29C 43/18 - Moulage par pressage, c.-à-d. en appliquant une pression externe pour faire couler la matière à moulerAppareils à cet effet pour la fabrication d'objets de longueur définie, c.-à-d. d'objets séparés en incorporant des parties ou des couches préformées, p. ex. moulage par pressage autour d'inserts ou sur des objets à recouvrir
It is desired to provide an infrared heating method of a steel sheet that can contribute to manufacture a steel sheet with a desirable characteristic distribution, and that can contribute to save labor in a steel sheet forming step and to simplify steel sheet forming facilities. The infrared heating method comprises the steps of: wholly infrared heating a steel sheet uniformly up to a temperature which is A3 point or above; and temperature distribution controlling, wherein, after the wholly infrared heating step, partial lowering of a light intensity of infrared rays irradiated toward the steel sheet is performed to provide a first region having a temperature of A3 point or above and a second region having a temperature less than A1 point in the steel sheet.
C21D 8/04 - Modification des propriétés physiques par déformation en combinaison avec, ou suivie par, un traitement thermique pendant la fabrication de produits plats ou de bandes pour produire des produits plats ou des bandes pour l'emboutissage profond
F27D 11/12 - Aménagement des éléments pour le chauffage électrique dans ou sur les fours avec champs électromagnétiques agissant directement sur le matériau à chauffer
55.
INFRARED FURNACE, INFRARED HEATING METHOD AND STEEL PLATE MANUFACTURED BY USING THE SAME
An infrared heating method for a steel plate, contributing to laborsaving of the forming step of the steel plate and simplification of forming apparatus while contributing to exact realization of the demanded temperature distribution. An infrared furnace is able to heat a first region and a second region of a work in different temperature regions, provided with a plurality of infrared lamps opposing the work, and a member positioned between the work and the plurality of infrared lamps, to be arranged on a boundary region between the first and second regions.
C21D 8/02 - Modification des propriétés physiques par déformation en combinaison avec, ou suivie par, un traitement thermique pendant la fabrication de produits plats ou de bandes
C21D 9/46 - Traitement thermique, p. ex. recuit, durcissement, trempe ou revenu, adapté à des objets particuliersFours à cet effet pour tôles
C21D 1/18 - DurcissementTrempe avec ou sans revenu ultérieur
F27D 11/12 - Aménagement des éléments pour le chauffage électrique dans ou sur les fours avec champs électromagnétiques agissant directement sur le matériau à chauffer
In applying infrared heating to a mass production process of car body components, it is desirable that reduction in the temperature elevating time is compatible to energy saving and that an infrared furnace is simplified in structure. The infrared furnace includes a plurality of infrared lamps arrayed on one surface side of a work and a reflective surface provided on its opposite surface side. Outputs of the infrared lamps are locally adjusted, or intensity of the infrared rays incident on one work surface is locally adjusted by a member disposed between the infrared lamps and the one surface of the work. In this manner, variations in strength may be imparted to one and the same car part.
F27B 17/00 - Fours d'un genre non couvert par l'un des groupes
F27D 99/00 - Matière non prévue dans les autres groupes de la présente sous-classe
F27B 9/06 - Fours dans lesquels la charge est déplacée mécaniquement, p. ex. du type tunnel Fours similaires dans lesquels la charge se déplace par gravité chauffés sans contact entre gaz de combustion et la chargeFours dans lesquels la charge est déplacée mécaniquement, p. ex. du type tunnel Fours similaires dans lesquels la charge se déplace par gravité chauffés électriquement
F27D 11/12 - Aménagement des éléments pour le chauffage électrique dans ou sur les fours avec champs électromagnétiques agissant directement sur le matériau à chauffer
57.
METHOD OF MANUFACTURING THERMOELECTRIC MODULE, AND THERMOELECTRIC MODULE
A technique of manufacturing a thermoelectric module having high degree of freedom in shape, at low costs is provided. A manufacturing method of a thermoelectric module comprises forming a first wax model 10 in which the first thermoelectric elements are arranged in a predetermined pattern, forming a first mold from the first wax model 10, casting a group of the first thermoelectric elements by pouring molten metal of a first thermoelectric material into the first mold to solidify the molten metal, forming a second wax model 20 that represents arrangement of second thermoelectric elements to form the thermoelectric module by being connected with the first thermoelectric elements, forming a second mold from the second wax model 20, casting the group of the second thermoelectric elements by pouring molten metal of a second thermoelectric material into the second mold to solidify the molten metal, and connecting the group of the first thermoelectric elements with the group of the second thermoelectric elements electrically in series.
Provided are a metal / CFRP composite structure which has lightweight and high strength by combining hot-pressed metal material(s) and carbon fiber reinforced plastic (CFRP) material(s), and its manufacturing method and apparatus. A metal blank material is heated to a temperature at which quenching is possible to obtain a first intermediate product quenched by hot-pressing. The first intermediate product, and a carbon fiber reinforced plastic (CFRP) prepreg comprising carbon fiber and uncured thermoset plastic are set into CFRP forming dies followed by press-forming the prepreg to obtain a secondary intermediate product having the CFRP in intimate contact with a surface of the first intermediate product. The CFRP and the first intermediate product are firmly adhered together by thermal curing of thermoset plastic located in the boundary of the CFRP and the first intermediate product, by subjecting the thermoset plastic contained in the CFRP prepreg to thermal curing, by keeping warm and pressurizing the secondary intermediate product for a predetermined period.
B29C 70/46 - Façonnage ou imprégnation par compression pour la fabrication d'objets de longueur définie, c.-à-d. d'objets distincts utilisant des moules opposables, p. ex. pour déformer des préimprégnés [SMC] ou des "prepregs"
B29C 70/78 - Moulage de matière sur un seul côté de la partie préformée
B32B 5/14 - Produits stratifiés caractérisés par l'hétérogénéité ou la structure physique d'une des couches caractérisés par une couche différant en certains endroits du fait de sa constitution ou de sa structure physique, p. ex. plus dense superficiellement
B29C 35/02 - Chauffage ou durcissement, p. ex. réticulation ou vulcanisation
59.
DIE-QUENCHING METHOD AND APPARATUS OF AN ALUMINUM ALLOY MATERIAL
It is required that a die-quenching method and apparatus of an aluminum alloy material contribute to make aluminum alloy material high strength, and to reduce a number of steps and manufacturing time. The die-quenching method includes steps as follows: solution heating an aluminum alloy material and maintaining a temperature of the aluminum alloy material in a range of a solution temperature; die-quenching the aluminum alloy material whose temperature is maintained in a range of the solution temperature; and artificial-aging the die-quenched aluminum alloy material.
B21J 5/02 - MatriçageÉbarbage par utilisation de matrices particulières
B62D 25/00 - Sous-ensembles de carrosserieÉléments ou détails de ceux-ci non prévus ailleurs
C21D 1/673 - Dispositifs pour trempe pour la trempe en coquille
C22F 1/04 - Modification de la structure physique des métaux ou alliages non ferreux par traitement thermique ou par travail à chaud ou à froid de l'aluminium ou de ses alliages
60.
DIE-QUENCHING APPARATUS AND METHOD OF AN ALUMINUM ALLOY MATERIAL
A die-quenching apparatus and method of an aluminum alloy material contributing to improvement of a formability of the aluminum alloy material is desirable. The die-quenching apparatus comprises a forming die(s) cooling concurrently with forming a heated aluminum alloy material, a holder mechanism clamping the aluminum alloy material for setting the material in the forming die(s), and a heating mechanism heating a holder mechanism.
C22F 1/04 - Modification de la structure physique des métaux ou alliages non ferreux par traitement thermique ou par travail à chaud ou à froid de l'aluminium ou de ses alliages
B21D 22/02 - Estampage utilisant des dispositifs ou outils rigides
C22F 1/047 - Modification de la structure physique des métaux ou alliages non ferreux par traitement thermique ou par travail à chaud ou à froid de l'aluminium ou de ses alliages d'alliages avec le magnésium comme second constituant majeur
C22F 1/05 - Modification de la structure physique des métaux ou alliages non ferreux par traitement thermique ou par travail à chaud ou à froid de l'aluminium ou de ses alliages d'alliages de type Al-Si-Mg, c.-à-d. contenant du silicium et du magnésium en proportions sensiblement égales
A clamp device to develop a flange fastening force relatively larger than heretofore with a nut clamp torque relatively smaller than heretofore is provided. A main clamp body (10) includes an elongated tightening groove (13) of a U- or V-shaped transverse cross-section delimited by a pair of groove-forming wall sections. First and second lobe parts (15) are disposed in the vicinity of end portions of two such tightening grooves. The main clamp body presents a ring shape when bolt (22) and nut (23) are mounted in position on the lobe parts (15) disposed facing each other. Each of the lobe parts (15) includes pair of sidewall sections (51) respectively contiguous to the pair groove delimiting wall sections that delimit the tightening groove (13). Each lobe part also includes a curved outer end wall section (52) interconnecting the pair of sidewall sections at an outer end of each lobe part and a seat surface wall section (53) contiguous to the pair of sidewall sections and to the outer end wall section. The seat surface wall section provides a seat surface for bolt or nut. An arcuately shaped fulcrum part (54) is formed on the curved outer end wall section (52) of each lobe part (15) to extend along the curving direction of the outer end wall section.
F16L 23/08 - Raccords à brides les brides étant raccordées par des organes tendus dans le plan radial raccordées par broche et écrou fileté disposés tangentiellement
62.
METAL PROCESSING METHOD AND METAL ARTICLE PROCESSED THEREBY
Provided are: a metal processing method using a tailored blank material as a raw material allows the further use of the features thereof, facilitates the setting of a boundary for a portion not to receive a predetermined heat treatment, and allows the simplification of the equipment and process management needed in metal processing; and a metal article processed thereby. A metal processing method comprises: a bonding step for preemptively bonding together a metal material having a relatively high elevated temperature by infrared heating and a metal material having a relatively low elevated temperature by infrared heating, to form an integrated metal material; and a heating step for simultaneously and comprehensively heating by infrared the integrated metal material, the infrared heating being concluded after a portion where the elevated temperature is relatively high in the integrated metal material undergoing infrared heating reaches a predetermined temperature corresponding to a predetermined heat treatment, but before a portion where the elevated temperature is relatively low reaches the predetermined temperature.
The purpose of the present invention is a metal melting furnace and a metal melting method that preemptively prevents ignition of exhaust gases, including carbon monoxide, in the vicinity of the exhaust vent and make it possible to preheat a metal material loaded into the furnace unit to efficiently melt the same. A metal melting furnace is provided with the following: a furnace unit (10), provided with a blower port (12) and a hot water outlet (11); a material storage chamber (21) that is adjacent to the upper part of the furnace unit (10) and is for storing a metal material; a material loading door (23) disposed at the border between the furnace unit (10) and the material storage chamber (21) so as to be openable and closable; a fuel burner (16) that is disposed near the base section of the furnace unit (10) and is for heating and melting the metal material; an ignition burner (17) disposed at the vertex section of the furnace unit (10); and a heat discharge passage (26) one end of which opens into the furnace unit (10) and the other end of which opens into the material storage chamber (21). The ignition burner (17) causes carbon monoxide contained in exhaust gases to react with oxygen fed from the blower port (12) to generate secondary exhaust gases, and the secondary exhaust gases are fed from the heat discharge passage (26) into the material storage chamber (21).
A hot press molding method for press-molding a heated material and cooling the material while the material is held in a mold, wherein during the hot pressing of the material, deformations including a part that curves relative to the longitudinal direction of the material are formed at both ends of the material in the longitudinal direction, thus imparting resistance to cooling-induced thermal contraction in the longitudinal direction. In one embodiment of the present invention, the deformations formed in the material during press-molding are small protrusions provided on the surface of both ends of the material in the longitudinal direction. The present invention makes it possible to suppress the thermal contraction of the material during cooling in hot press molding, and thereby prevent the defects associated therewith.
[Problem] To provide a die exchange device for a no-frame type mold making machine in which a die for making a mold can be easily installed on a die base although the die is thick. [Solution] A die carrying-in device (2) comprises: a first movable plate (33f) slidable toward a first die base (12f) in a die carrying-in direction (the direction of an arrow (X1)); and a second movable plate (33s) facing the first movable plate (33f) at a waiting position. Dies (11f, 11s) the positions of which are determined in a height direction are separated from the movable plates (33f, 33s) and are moved toward die bases (12f, 12s) by a die driving source so as to be held by clamp elements (14f, 14s). A cross driving source moves at least one of the first movable plate (33f) and the second movable plate (33s) independent of the other in a direction crossing a die insertion direction (the direction of the arrow (X1)).
Provided is a steel casting pouring apparatus that can contribute to shortening the pouring time for pouring molten steel for casting into a mold sprue. A first axial line of a first pivot is positioned radially to the inside of a first virtual extended line of an outer peripheral wall surface of a furnace body main unit and positioned radially to the outside of a second virtual extended line of an inner peripheral wall surface of a refractory lining of the furnace body main unit. A steel discharge chute part protrudes upwards or at a slant upwards and outwards from the furnace body, and the steel discharge tip of the steel discharge chute part is positioned radially to the inside of the first virtual extended line of the outer peripheral wall surface of the furnace body main unit and positioned radially to the outside of the second virtual extended line of the inner peripheral wall surface of the refractory lining of the furnace body main unit.
Disclosed is a turbine housing comprising a scroll section, an inlet section (25), and an inlet flange (27) which are integrally casted. The inlet section (25) defines and forms a gas introduction path (26) for introducing exhaust gas into a turbine chamber within the scroll section. A tube-like body (30) for ensuring an air gap (31) between the tube-like body (30) and the inner wall of the gas introduction path (26) is inserted in the gas introduction path (26). The tube-like body (30) has an annular plate section (32) at the outer end thereof. The annular plate section (32) of the tube-like body (30) is gripped between the inlet flange (27) and the connection flange (17) of an engine head or of an exhaust manifold, and thus, the tube-like body (30) is supported within the gas introduction path (26). Because the air gap (31) is ensured between the tube-like body and the inner wall of the gas introduction path, the gas introduction path (26) has a substantially double-wall structure, and as a result, the heat-resisting properties and heat-retaining properties of the turbine housing are improved.
F02B 39/00 - Parties constitutives, détails ou accessoires non couverts par les groupes , et relatifs aux pompes d'alimentation ou de balayage entraînées
F02B 37/02 - Passages pour les gaz entre l'orifice d'échappement du moteur et l'entraînement de la pompe, p. ex. réservoirs
[Problem] To provide a collision reinforcement material for a vehicle, the collision reinforcement material being configured so that, when a load is inputted therein during a collision of the vehicle, a reduction in the bending rigidity is prevented as much as possible even if the deformation progresses. [Solution] A collision reinforcement material (such as a door impact beam) for a vehicle is provided with a long body section (10). The body section (10) is configured in such a manner that a pair of wall sections (11), a pair of corner curve sections (12), a center flange section (13), and a pair of outer peripheral flange sections (14) are continuously interconnected with each other so that the body section (10) has an open, hat-shaped cross-sectional shape. The body section (10) is divided into three portions (P1, P2, P3). The width (C1) of the center flange section in the portion (P1) is greater than the width (C2) of the center flange section in the portion (P2). The cross-sectional area of the corner curve sections (12) in the portion (P1) is less than the cross-sectional area of the corner curve section in the portion (P2). The cross-sectional height (H1) of the portion (P1) is greater than the cross-sectional height (H2) of the portion (P2). The portion (P3) is provided as a gradually changing portion for smoothly connecting the portion (P1) and the portion (P2).
The present invention provides a process for producing a hot stamp molded article, which comprises a hot rolling step, a winding step, a cold rolling step, a continuous annealing step and a hot stamping step, wherein the continuous annealing step comprises a heating step of heating a cold-rolled steel sheet to a temperature of not lower than Ac1˚C and lower than Ac3˚C, a cooling step of cooling the cold-rolled steel sheet from the highest heating temperature to 660˚C at a cooling rate of 10˚C/s or less, and a retaining step of retaining the cold-rolled steel sheet at a temperature ranging from 550 to 660˚C for 1 to 10 minutes.
Ferritic spheroidal graphite cast iron includes: 3.1 to 3.5 percent by mass of carbon; 4.1 to 4.5 percent by mass of silicon; 0.8 percent by mass or below of manganese; 0.1 to 0.6 percent by mass of molybdenum; 0.1 to 1.0 percent by mass of chromium; 0.03 to 0.1 percent by mass of phosphorus; 0.03 percent by mass or below of sulfur; 0.02 to 0.15 percent by mass of magnesium; and iron.
An iron (Fe)-based austenitic heat-resistant cast steel includes, based on a total of 100 mass% (indicated below simply as "%"): 0.4 to' 0:8% of carbon (C), 3.0% or less of silicon (Si), 0.5 to 2.0% of manganese (Mn), 0.05%» or less of phosphorus (P), 0.03 to 0.2% of sulfur (S), 18 to 23% of chromium (Cr), 3.0 to 8.0% of nickel. (Ni) and 0.05 to 0.4%) of nitrogen (N). A ratio of chromium (Cr) to carbon (C) is in a range of 22.5 ≤ Cr/C ≤ 57.5. The cast steel includes one or two or more of vanadium (V), molybdenum (Mo), tungsten (W) and niobium (Nb) in a total amount of less than 0.2%.
A fuel cell separator in which the adhesion of a conductive coating formed on the surface of the fuel cell separator is further improved. The fuel cell separator (20) includes a metal substrate (24) molded from titanium, and a conductive coating (30) that exhibits conductivity and is formed on the surface of the metal substrate (24), wherein the conductive coating (30) contains conductive particles, and the average particle size of the conductive particles is not less than 1 nm and not more than 100 nm. The average particle size of the conductive particles is preferably not less than 1 nm and not more than 10 nm, and more preferably not less than 1 nm and not more than 5 nm.
A heating device and a heating method which is able to quickly and accurately partition each region of a material to be heated and heat up each of the region to a required temperature, and a shape and required temperature of each region is different from each other. A heating device for heating a material to be heated by applying an electromagnetic wave to the material, wherein a plate member(s) which shields, absorbs and/or reflects the irradiated electromagnetic radiation and has a predetermined pattern contour can be placed, at least partially, close to the material to be heated.
C21D 9/46 - Traitement thermique, p. ex. recuit, durcissement, trempe ou revenu, adapté à des objets particuliersFours à cet effet pour tôles
F27B 9/06 - Fours dans lesquels la charge est déplacée mécaniquement, p. ex. du type tunnel Fours similaires dans lesquels la charge se déplace par gravité chauffés sans contact entre gaz de combustion et la chargeFours dans lesquels la charge est déplacée mécaniquement, p. ex. du type tunnel Fours similaires dans lesquels la charge se déplace par gravité chauffés électriquement
F27B 9/24 - Fours dans lesquels la charge est déplacée mécaniquement, p. ex. du type tunnel Fours similaires dans lesquels la charge se déplace par gravité caractérisés par le trajet de la charge pendant le traitementFours dans lesquels la charge est déplacée mécaniquement, p. ex. du type tunnel Fours similaires dans lesquels la charge se déplace par gravité caractérisés par le procédé de déplacement de la charge pendant le traitement la charge se déplaçant sur un trajet sensiblement rectiligne sur un transporteur
F27D 11/12 - Aménagement des éléments pour le chauffage électrique dans ou sur les fours avec champs électromagnétiques agissant directement sur le matériau à chauffer
It is an object to provide a gas cupola for melting a charging material efficiently by a combustion flame of a combustion burner. The gas cupola includes a furnace body having a melting chamber 10 and a molten metal discharge port 11 for discharging the molten metal and a plurality of combustion burners 4 forming a combustion flame 41. The combustion burner 4 melts the charging material 2 in the melting chamber 10 by ejecting the combustion flame 41 to the charging material 2 in the melting chamber 10. Each combustion burner 4 generates a hollow shaped melting portion 42 at the charging material 2 of the melting chamber 10 by the combustion flame 41 ejected from each combustion burner 4. In the cross sectional view of the furnace body 1 taken along a horizontal direction, the combustion burners 4 are arranged so that the adjacently positioned two hollow shaped melting portions 42 overlap with each other. When the charging material 2 is melting, each hollow shaped melting portion 42 communicates with the molten metal discharge port 11.
The method casts a disk rotor which can restrain partial abrasion in a sliding ring part, particularly, in the circumferential outer surface. A mold includes a casting cavity to cast the sliding ring part, an outer circumference forming surface, an inner circumference forming surface, a gate group including a plurality of gates formed in the outer circumference forming surface at positions spaced apart from each other at predetermined intervals with respect to a circumferential direction, each of the gates having a central line P2 inclined at an angle greater than 0° and less than 90° with respect to a normal line passing through a center of the casting cavity in a radial direction, and runners. A melt is injected from the gates into the casting cavity at angles θ1, θ2 and θ3 which are greater than 0° and less than 90° with respect to the normal lines, and is solidified.
Disclosed is a ferritic heat-resistant cast steel which is inexpensive, and which is greatly improved in toughness and thermal fatigue properties at ambient temperature and is therefore improved in reliability. Also disclosed is an exhaust system component. The ferritic heat-resistant cast steel comprises 0.10 to 0.40% by mass of carbon, 0.5 to 2.0% by mass of silicon, 0.2 to 1.2% by mass of manganese, 0.3% by mass or less of phosphorus, 0.01 to 0.4% by mass of sulfur, 14.0 to 21.0% by mass of chromium, 0.05 to 0.6% by mass of niobium, 0.01 to 0.8% by mass of aluminum and 0.15 to 2.3% by mass of nickel, with the remainder being iron and unavoidable impurities. The ferritic heat-resistant cast steel has a ferritic structure.
Ferritic spheroidal graphite cast iron includes: 3.1 to 3.5 percent by mass of carbon; 4.1 to 4.5 percent by mass of silicon; 0.8 percent by mass or below of manganese; 0.1 to 0.6 percent by mass of molybdenum; 0.1 to 1.0 percent by mass of chromium; 0.03 to 0.1 percent by mass of phosphorus; 0.03 percent by mass or below of sulfur; 0.02 to 0.15 percent by mass of magnesium; and iron.
A high-strength quenched formed article has a zinc plating layer which is formed at a post-quenching formed steel sheet surface, and which contains 30 g/m2 or more of a phase that contains 5% or more by mass but 30% or less by mass of Fe, and which also contains 0.15% or more by mass but less than 2% by mass of at least one of Al and Si in a separate fashion or a composite fashion, and contains Zn, which makes up substantially a rest portion of the zinc plating layer, and an inevitable impurity, wherein the high-strength quenched formed article has a high-strength portion having a post-quenching-formation tensile strength of 1000 MPa or more, and a low-strength portion having a post-quenching-formation tensile strength of 800 MPa or less.
C21D 1/673 - Dispositifs pour trempe pour la trempe en coquille
C21D 8/02 - Modification des propriétés physiques par déformation en combinaison avec, ou suivie par, un traitement thermique pendant la fabrication de produits plats ou de bandes
C21D 9/46 - Traitement thermique, p. ex. recuit, durcissement, trempe ou revenu, adapté à des objets particuliersFours à cet effet pour tôles
79.
TURBOCHARGER AND MANUFACTURING METHOD FOR TURBOCHARGER
A turbocharger (1) includes: a turbine wheel (2) that is driven by exhaust gas from an engine and supported rotatably by a rotary shaft (3); and a turbine housing (6) that forms an exhaust gas passage that leads the exhaust gas to the turbine wheel (2), wherein the turbine housing (6) includes a housing main body (7) constituted by a plate-form member and a reinforcement member (20) that forms the exhaust gas passage together with the housing main bod (7)y and reinforces the housing main body, the reinforcement member includes a pair of annular portions (21,22) having a substantially annular shape and provided about an axial center of the rotary shaft (3) at an interval in an axial direction of the rotary shaft, and a connecting portion (24) that connects the pair of annular portions (21,22), and the pair of annular portions and the connecting portion are molded integrally by implementing deformation processing on the plate -form member.
F01D 9/02 - InjecteursLogement des injecteursAubes de statorTuyères de guidage
B21D 28/30 - Perforation, c.-à-d. découpage de trous dans des pièces annulaires, p. ex. dans des jantes
F01D 25/24 - Carcasses d'enveloppeÉléments de la carcasse, p. ex. diaphragmes, fixations
80.
POWDER-CONTAINING OIL-BASED LUBRICATING AGENT FOR MOLD, ELECTROSTATIC COATING METHOD USING THE POWDER-CONTAINING OIL-BASED LUBRICATING AGENT, AND ELECTROSTATIC COATING APPARATUS
Disclosed are : an oil-based lubricating agent that can be coated on a mold for use in high-pressure casting, gravity casting, low-pressure casting and forging to prevent seizing particularly in high-temperature sites and under high-load conditions; a method for coating the oil-based lubricating agent; and a coating apparatus for coating the oil-based lubricating agent. Specifically disclosed are : a powder-containing oil-based lubricating agent for a mold, which comprises 60 to 99% by mass of an oil-based lubricating agent formed of an oil, 0.3 to 30% by mass of a solubilizing agent, 0.3 to 15% by mass of an inorganic powder, and not more than 7.5% by mass of water and is intended to be electrostatically coated on a mold; an electrostatic coating method which comprises electrostatically coating the powder-containing oil-based lubricating agent on a mold; and an electrostatic coating apparatus which comprises a static electricity applying device for applying static electricity to the powder-containing oil-based lubricating agent and an electrostatic coating gun installed on a multiaxial robot.
C10M 169/04 - Mélanges de matériaux de base et d'additifs
B05D 1/04 - Procédés pour appliquer des liquides ou d'autres matériaux fluides aux surfaces réalisés par pulvérisation comportant l'emploi d'un champ électrostatique
C10N 30/00 - Propriétés physiques ou chimiques particulières améliorées par l'additif caractérisant la composition lubrifiante, p. ex. additifs multifonctionnels
A heating device and a heating method which are able to quickly and accurately heat a set region of each portion of a material to be heated to a required temperature of heating, and the portion has an optional shape and has different temperature of heating from each other. A heating device and a heating method heat a material to be heated by applying an electromagnetic wave to the material, wherein a plate material having a predetermined pattern and shielding, absorbing and/or reflecting the rays of the applied electromagnetic wave can be at least partially mounted close to the material to be heated.
F27D 11/12 - Aménagement des éléments pour le chauffage électrique dans ou sur les fours avec champs électromagnétiques agissant directement sur le matériau à chauffer
A fuel cell separator in which the adhesion of a conductive coating formed on the surface of the fuel cell separator is further improved. The fuel cell separator (20) includes a metal substrate (24) molded from titanium, and a conductive coating (30) that exhibits conductivity and is formed on the surface of the metal substrate (24), wherein the conductive coating (30) contains conductive particles, and the average particle size of the conductive particles is not less than 1 nm and not more than 100 nm. The average particle size of the conductive particles is preferably not less than 1 nm and not more than 10 nm, and more preferably not less than 1 nm and not more than 5 nm.
Provided is a gas cupola capable of melting a charge efficiently with the burning flames of combustion burners. The gas cupola comprises a furnace casing (1) having a melting chamber (10) and a molten metal discharge port (11) for discharging molten metal, and a plurality of combustion burners (4) for forming burning flames (41). The combustion burners (4) jet the burning flames (41) into a charge (2) in the melting chamber (10) to thereby melt the charge (2) in the melting chamber (10). Each of the combustion burners (4) creates a hollow molten portion (42) having a hollow shape in the charge (2) in the melting chamber (10) with the burning flame (41) jetted out from each combustion burner (4). In a sectional view of the furnace casing (1) taken in a horizontal direction, the combustion burners (4) are arranged such that adjacent hollow molten portions (42) overlap each other. At the melting time of the charge (2), each hollow molten portion (42) and the molten metal discharge port (11) communicate with each other.
F27B 1/10 - Parties constitutives, accessoires ou équipements spécialement adaptés à ces types de fours
C21B 11/02 - Fabrication de la fonte brute autrement que dans les hauts fourneaux dans des fours à cubilots
F27B 1/08 - Fours à cuve ou fours verticaux similaires ou à prédominance verticale chauffés autrement que par un combustible solide mélangé à la charge
F27D 17/00 - Dispositions pour l'utilisation de la chaleur perdueDispositions pour l'utilisation ou pour l'élimination des gaz résiduaires
A current density changing portion (22) is formed in a heating process on an upper base side with respect to a center portion of a flat metal plate (10) in the direction of current flow, by passing current from a lower base side to the upper base side of the flat metal plate (10) which is rectangular when viewed from above. As a result, a quenchable portion is formed on the upper base side with respect to the center portion of the flat metal plate (10) in the direction of current flow, and a non-quenchable portion is formed on the lower base side with respect to the center portion of the flat metal plate (10) in the direction of current flow. The flat metal plate (10) is press-formed after the heating process, so a complex die cooling structure is not necessary during press-forming, which enables the die cost to be reduced.
Provided are a quick heating device that is small sized, has a simple structure, consumes less energy, and is easily repairable and replaceable, and a quick heating method. The heating device for heating a flat plate-like material (1) has a heating contact surface (2a) formed by arranging heating elements (2) on heat-insulating base plates (3, 4) at predetermined intervals in a planar predetermined pattern. To heat the material (1), the heating contact surface (2a) is caused to make direct contact with the material (1).
Hot press forming device and method suitable for die quenching in which the time required after the start of heating a blank until the end of forming can be shortened. A hot press forming device that can be downsized and a hot press forming method being carried out suitably in the downsized hot press forming device are also provided. The hot press forming device (1) for hot pressing a blank to obtain a formed product comprises a energization mechanism (3) installed in the hot press forming device (1) and energization heating a charged blank under a conveyance stop state by clamping the blank at a predetermined energizing position (P1), a die quenching type hot press mechanism (4) installed in the hot press forming device (1), disposed by being thermally isolated downstream the energization heating mechanism (3) and hot pressing the energization heated blank at a predetermined processing position (P2), and a mechanism (5) installed in the hot press forming device (1) and conveying the energization heated blank at least from the energization position (P1) to the processing position (P2) for feeding to the hot press mechanism (4).
B21D 24/00 - Agencement des presses, ou systèmes en relation avec les presses, pour l'emboutissage
B21D 43/05 - Avancement du matériau en fonction du mouvement de la matrice ou de l'outil au moyen d'un élément mécanique coopérant avec le matériau spécialement adapté aux presses à étages multiples
87.
CONVEYANCE EQUIPMENT AND HOT PRESS FORMING DEVICE HAVING IT
Conveyance equipment which can prevent or constrain thermal deformation of a work when an energization heated work is conveyed to the downstream process and can perform positioning of the work easily in the downstream process. A hot press forming device having it is also provided. The conveyance equipment (5) for conveying a work energization heated at an energization position (P1) to a processing position (P2) for hot press forming the work isolated from the energization position (P1) along the horizontal direction comprises a holding member for freely clamping the opposite ends of the energization heated work in the longitudinal direction, a drive mechanism for making the holding member traverse at least from the energization position (P1) to the processing position (P2), and a guide member (54) extending between the energization position (P1) and the processing position (P2) located at the same height while inclining such that the processing position (P2) side becomes higher than the energization position (P1) and guiding or supporting the longitudinal-direction middle part of the energization heated work being conveyed toward the processing position (P2).
B21D 43/05 - Avancement du matériau en fonction du mouvement de la matrice ou de l'outil au moyen d'un élément mécanique coopérant avec le matériau spécialement adapté aux presses à étages multiples
Provided is an electrode support structure in which local heating can be prevented from occurring in a workpiece during the electric heating. The electrode support structure is usable for applying a load to the electrodes (4, 5) used for the electric heating of a metal plate, and comprises at least two members, i.e., a first member (1) to which the electrodes (4, 5) are fixed and a second member (2) which receives the load from the first member or connects the first member to a load means (9). The support structure in which the two members are joined to each other through an elastic member (3) can uniformly apply the load to the electrodes for electric heating so that the electrodes can uniformly contact with the workpiece, whereby the workpiece can be uniformly heated.
An energization heating device which can feed an energization heated work stably to the process downstream the energization heating while preventing distortion of the work by energization heating as much as possible. A hot press forming device having it and a energization heating method are also provided. In the energization heating device (3) for energization heating a work to be hot press formed (W) while clamping by a clamp mechanism (30, 31, etc.) and applying tension, the clamp mechanism (30, 31, etc.) comprises a fixed clamp member (30) and a movable clamp member (31), an elevating/lowering cylinder (32) for the fixed clamp member (30) and the movable clamp member (31), and tensioning cylinders (33a, 33b) for driving the movable clamp member (31) along the plane direction of the work (W). During energization heating, the fixed clamp member (30) holds the work (W) while clamping the one side thereof at a fixed position, and the movable clamp member (31) moves while holding the other side of the work (W) as the work (W) deforms thermally, thus applying tension to the work (W) depending on thermal deformation of the work (W).
B21D 43/00 - Dispositifs d'alimentation, de positionnement ou de stockage combinés à des appareils pour travailler ou traiter les tôles, les tubes ou les profilés, disposés dans ces appareils ou spécialement adaptés pour être utilisés en association avec ces appareilsAssociation de dispositifs de coupe avec ces appareils
A method of manufacturing a fuel cell separator in which the corrosion resistance can be improved. A method of manufacturing a fuel cell separator (22) that separates adjacent cells (10) of a fuel cell, the method including subjecting a separator substrate (24) composed of a metal material to gold strike plating, thereby forming a first gold plating layer with a thickness of 10 to 200 nm. An additional gold plating is preferably performed on top of the first gold plating layer formed by gold strike plating, thereby forming a second gold plating layer.
A method for casting a disc rotor contributive to suppression of partial abrasion at the sliding ring portion, especially to suppression of partial abrasion on the outer circumferential surface side. A mold has a cavity for casting the sliding ring portion, a mold surface for molding the outer circumference, a mold surface for molding the inner circumference, a gate group of a plurality of gates formed at intervals on the outer circumference molding surface side in the circumferential direction and having a center line inclining at an angle of more than 0° but less than 90° against a normal passing the center line (P2) of the casting cavity in the radial direction, and a runner. Molten metal is poured into the casting cavity from the gate at inclination angles ϑ1, ϑ2 and ϑ3 which are in the range of more than 0° but less than 90° against the normal, and then solidified.
Disclosed is a fuel cell separator (22) for separating gas between adjacent cells of a fuel battery. This fuel cell separator (22) comprises a separator base (24) made of a titanium material or a stainless steel, an oxide layer (26) formed on the separator base (24) and composed of titanium oxide or chromium oxide, and a conductive layer (28) formed on the oxide layer (26) and composed of gold (Au) or the like. The oxide layer (26) is preferably formed by oxidizing the separator base (24).
C23C 28/00 - Revêtement pour obtenir au moins deux couches superposées, soit par des procédés non prévus dans un seul des groupes principaux , soit par des combinaisons de procédés prévus dans les sous-classes et
H01M 8/10 - Éléments à combustible avec électrolytes solides
This invention provides a process for producing a separator for a fuel cell which can separate a gas present between adjacent cells for a fuel cell. In producing a separator for a fuel cell using a metallic material such as titanium, a conductor having a high level of electrical conductivity is generally formed on the surface of the separator to reduce contact resistance between the separator and a gas diffusing layer and the like. However, there has been a possibility that, during power generation in a fuel cell, an oxide is formed on the surface of the separator resulting in lowered electrical conductivity of the separator. The above problem can be solved by a process for producing a separator for a fuel cell, comprising a titanium base forming step of plastically working a titanium material to form a titanium base and a removing step of pickling the titanium base to remove titanium oxide and titanium carbide from the surface of the titanium base.
This invention provides a casting method characterized by comprising the step of fixing a core to an upper mold to provide an upper mold assembly, the step of pouring a minimized amount of molten metal necessary for providing a cast product into a concave in a lower mold, the step of moving the upper mold assembly at a predetermined first speed and lowering the upper mold assembly to a predetermined height just above the surface of the molten metal in the concave, the step of varying the lowering speed of the upper mold assembly from the first speed to the predetermined second speed to further lowering the upper mold assembly from the predetermined height, the step of detecting information about the state of the upper mold assembly in such a state that the upper mold assembly has been superimposed on or lowered toward the lower mold, and the step of stopping of the lowering of the upper mold assembly after the detection that the state information has reached predetermined state information. The core is fixed to the upper mold depending upon a frictional fitting relationship between mechanical means, an adhesive, and a core-side fitting protrusion and the concave fitting part, or the engagement relationship between a core-side engaging projection and molding sand to be tamped down.
A cast production line apparatus that even without the use of enlarged casting mold shakeout equipment, attains detachment of a cast from foundry sand, and that realizes miniaturization of mold shakeout section. There is provided a cast production line apparatus comprising mixing section (94) for mixing of foundry sand for molding; shaping section (3) for shaping, from the foundry sand for molding, sand casting mold (2) having molding cavity (23) for forming of one or two or more casts (27); melt pouring section (4) for pouring of melt in the molding cavity (23) of the sand casting mold (2); and mold shakeout section (5) for shakeout of the sand casting mold (2) having undergone the melt pouring. In the shakeout of the sand casting mold (2) at the mold shakeout section (5), the shakeout of the sand casting mold (2) is carried out in the state of having the cast (27) supported by means of cast supporting element (52).
B22D 29/00 - Extraction des pièces hors du moule, non limitée à un procédé de coulée couvert par un seul groupe principalExtraction des noyauxManipulation des lingots
B22C 7/00 - ModèlesLeur fabrication si elle n'est pas prévue dans d'autres classes
B22D 31/00 - Coupage du matériau en excès après coulée, p. ex. des jets ou masselottes
B22D 47/02 - Installations de coulée pour le moulage et la coulée
96.
FUEL CELL SEPARATOR, METHOD FOR MANUFACTURING THE FUEL CELL SEPARATOR, AND FUEL CELL
A fuel cell separator (10) is provided with an opening (14) that operates as a manifold. The peripheral area of the fuel cell separator (10) is coated with a resin, in a status where the power generating area is masked by a masking jig. Then, the masking jig is removed, and the power generating area of the fuel cell separator (10) whose peripheral area is masked by a resin coat is coated with a conductive material.
A fuel cell separator (10) is provided with an opening (14) that operates as a manifold. The peripheral area of the fuel cell separator (10) is coated with a resin, in a status where the power generating area is masked by a masking jig. The resin is applied so that the base material of the separator is exposed at a part of the peripheral area. Then, the masking jig is removed, and the power generating area of the fuel cell separator (10) whose peripheral area is masked by a resin coat is coated with a conductive material. The conductive material is applied by permitting electricity to be carried through the part of the peripheral area where the base material of the separator is exposed.
