An intake control device 1 includes a body 3 that internally constitutes an intake passage 2, and a valve body 4 that is disposed in the intake passage 2. The intake passage 2 includes a directional continuation section 13 in which a first major axis direction d1 and a second major axis direction d2 are continuously substantially parallel from a downstream opening 6 of the body 3. The body 3 includes a seal plane 14 configured along a plane that intersects a portion of the directional continuation section 13. The valve body 4 includes a valve plane 15 configured of a plane abutting on the seal plane 14, and slides with respect to the seal plane 14 via the valve plane 15 to adjust the opening degree of the intake passage 2.
F02D 9/14 - Obturateurs d'étranglement spécialement adaptés à cet effetAménagements de ces obturateurs sur les conduits comportant des éléments d'obturateurs glissantsObturateurs d'étranglement spécialement adaptés à cet effetAménagements de ces obturateurs sur les conduits comportant des éléments d'obturateurs se déplaçant le long du conduit les éléments glissant perpendiculairement au conduit
A gate-driving power device according to the present invention provides DC power to each of a plurality of gate drive circuits with which a power converter is provided. The power converter comprises a voltage converter and one or more AC/DC converter circuits. The voltage converter comprises a voltage conversion upper-arm switching element and a voltage conversion lower-arm switching element. The AC/DC converter circuit comprises an AC/DC upper arm switching element and an AC/DC lower arm switching element. The gate-driving power device comprises a power unit for providing shared DC power to at least two out of the voltage conversion upper-arm switching element, the voltage conversion lower-arm switching element, the AC/DC upper-arm switching element, and the AC/DC lower-arm switching element.
H02M 1/08 - Circuits spécialement adaptés à la production d'une tension de commande pour les dispositifs à semi-conducteurs incorporés dans des convertisseurs statiques
H02M 7/48 - Transformation d'une puissance d'entrée en courant continu en une puissance de sortie en courant alternatif sans possibilité de réversibilité par convertisseurs statiques utilisant des tubes à décharge avec électrode de commande ou des dispositifs à semi-conducteurs avec électrode de commande
H02P 27/04 - Dispositions ou procédés pour la commande de moteurs à courant alternatif caractérisés par le type de tension d'alimentation utilisant une tension d’alimentation à fréquence variable, p. ex. tension d’alimentation d’onduleurs ou de convertisseurs
3.
ROUGH ROAD TRAVELING DETERMINATION DEVICE AND ABNORMALITY DETERMINATION DEVICE
A rough road traveling determination device 2 for determining whether a vehicle has travelled a rough road is provided with: a vehicle speed moving average calculation unit 22 for calculating a short-term moving average and a long-term moving average of vehicle speeds of the vehicle; a determination parameter calculation unit 23 for calculating an integrated value which is obtained by integrating the absolute value of the difference between the short-term moving average and the long-term moving average of the vehicle speed, in a monitoring period corresponding to the vehicle speed; a fluctuation observation unit 24 for counting the number of times a large-small relationship between the short-term moving average and the long-term moving average of the vehicle speed is reversed in the monitoring period; and a rough road determination unit 25 that, when the integrated value is greater than a preset first threshold value and the number of times is greater than a preset second threshold value, determines that the vehicle has travelled a rough road.
B60W 40/06 - Calcul ou estimation des paramètres de fonctionnement pour les systèmes d'aide à la conduite de véhicules routiers qui ne sont pas liés à la commande d'un sous-ensemble particulier liés aux conditions ambiantes liés à l'état de la route
F02D 45/00 - Commande électrique non prévue dans les groupes
4.
Mechano-electrical integrated power conversion device and drive device for electric automobile
A mechano-electrical integrated power conversion device includes power drive unit and voltage converter that are housed within a single housing box and formed as a module. The box includes box body, upper lid member, and side lid member. The box body includes: a box body main portion disposed above a casing of an electric motor; and a box body remainder portion connected integrally to a side wall of the box body main portion and extending downwardly to a side of the casing. The upper lid member is mounted on the box body main portion, a first housing chamber being defined therebetween and housing the power drive unit. The side lid member is mounted on a side open end part of the box body remainder portion, a second housing chamber being defined between the box body remainder portion and the side lid member and housing the voltage converter.
B60L 53/22 - Détails de structure ou aménagements des convertisseurs de charge spécialement adaptés pour recharger des véhicules électriques
B60L 3/00 - Dispositifs électriques de sécurité sur véhicules propulsés électriquementContrôle des paramètres de fonctionnement, p. ex. de la vitesse, de la décélération ou de la consommation d’énergie
B60R 16/023 - Circuits électriques ou circuits de fluides spécialement adaptés aux véhicules et non prévus ailleursAgencement des éléments des circuits électriques ou des circuits de fluides spécialement adapté aux véhicules et non prévu ailleurs électriques pour la transmission de signaux entre des parties ou des sous-systèmes du véhicule
H05K 7/14 - Montage de la structure de support dans l'enveloppe, sur cadre ou sur bâti
H05K 7/20 - Modifications en vue de faciliter la réfrigération, l'aération ou le chauffage
In this gear position failure detection device (1), a clutch state estimation unit (17g) includes a release area value calculation unit (17i) for calculating, on the basis of the output of a crank angle sensor (21), the value of a release area which is defined by the rotation speed of an engine and the valve opening degree of an intake control valve provided in the engine, and in which a main clutch (61) may be disengaged or half-clutched. When the throttle opening degree calculated on the basis of the output of a throttle opening degree sensor (22) deviates from the release range, the clutch state estimation unit (17g) determines that the main clutch (61) is connected, and allows the failure determination unit (17h) to execute a failure determination.
F16H 59/24 - Entrées de commande vers des transmissions transmettant un mouvement rotatif pour changements de vitesse ou pour mécanismes d'inversion les entrées étant fonction du couple ou du couple demandé fonction de l'ouverture du papillon
F16H 59/44 - Entrées de commande vers des transmissions transmettant un mouvement rotatif pour changements de vitesse ou pour mécanismes d'inversion les entrées étant fonction d'une vitesse fonction de la vitesse de la machine
F16H 59/70 - Entrées de commande vers des transmissions transmettant un mouvement rotatif pour changements de vitesse ou pour mécanismes d'inversion les entrées étant fonction de l'état de la transmission fonction du rapport établi
F16H 61/12 - Détection d'un dysfonctionnement ou d'un dysfonctionnement potentiel, p. ex. dispositif de sécurité positive
Provided is a technique that is capable of preventing a sealing member that seals a semiconductor element from leaking from between a resin case and a heat dissipation body. A power conversion device (10) includes a heat dissipation body (40) that has a mounting surface (41) on which semiconductor elements (31 to 33) are mounted, a resin case (50) that has an adhesion surface (51) that is adhered to the mounting surface (41) and accommodates the semiconductor elements (31 to 33), and a sealing member (12) that seals the semiconductor elements (31 to 33) in the case (50). The heat dissipation body (40) has, on the mounting surface (41), a first surrounding portion (60) that surrounds the semiconductor elements (31 to 33). The case (50) has, on the adhesion surface (51), a second surrounding portion (70) that surrounds the semiconductor elements (31 to 33). The first surrounding portion (60) and the second surrounding portion (70) engage with each other through corresponding recesses and protrusions.
H02M 7/48 - Transformation d'une puissance d'entrée en courant continu en une puissance de sortie en courant alternatif sans possibilité de réversibilité par convertisseurs statiques utilisant des tubes à décharge avec électrode de commande ou des dispositifs à semi-conducteurs avec électrode de commande
A power conversion device comprising: an all solid state battery; a power converter that converts power between the all solid state battery and a load; and a thermal coupling member that thermally couples the all solid state battery and the power converter.
H02M 7/48 - Transformation d'une puissance d'entrée en courant continu en une puissance de sortie en courant alternatif sans possibilité de réversibilité par convertisseurs statiques utilisant des tubes à décharge avec électrode de commande ou des dispositifs à semi-conducteurs avec électrode de commande
H05K 7/20 - Modifications en vue de faciliter la réfrigération, l'aération ou le chauffage
37 - Services de construction; extraction minière; installation et réparation
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
Installation, repair or maintenance of carburetors and fuel
injectors for internal combustion engines for two-wheeled
motor vehicles; installation, repair or maintenance of
carburetors and fuel injectors for internal combustion
engines; installation, repair or maintenance of non-electric
prime movers and their parts and fittings; installation,
repair or maintenance of electronic control units for
vehicles and their parts and fittings; installation, repair
or maintenance of power transmissions and gearing and their
parts and fittings; installation, repair or maintenance of
air-conditioning apparatus or ventilating apparatus for
automobiles, and their parts and fittings; installation,
repair or maintenance of compressors and their parts and
fittings for air-conditioning apparatus for automobiles;
repair or maintenance of two-wheeled motor vehicles;
installation, repair or maintenance of parts and fittings
for two-wheeled motor vehicles; repair or maintenance of
automobiles; installation, repair or maintenance of parts
and fittings for automobiles. Manufacturing or processing to order of carburetors and fuel
injectors for internal combustion engines for two-wheeled
motor vehicles; manufacturing or processing to order of
carburetors and fuel injectors for internal combustion
engines; manufacturing or processing to order of
non-electric prime movers and their parts and fittings;
manufacturing or processing to order of electronic control
units for vehicles and their parts and fittings;
manufacturing or processing to order of power transmissions
and gearing and their parts and fittings; manufacturing or
processing to order of air-conditioning apparatus or
ventilating apparatus for automobiles, and their parts and
fittings; manufacturing or processing to order of
compressors and their parts and fittings for
air-conditioning apparatus for automobiles; manufacturing or
processing to order of two-wheeled motor vehicles;
manufacturing or processing to order of parts and fittings
for two-wheeled motor vehicles; manufacturing or processing
to order of automobiles; manufacturing or processing to
order of parts and fittings for automobiles. Computer software design, computer programming, or
maintenance of computer software; design of carburetors and
fuel injectors for internal combustion engines for
two-wheeled motor vehicles; design of carburetors and fuel
injectors for internal combustion engines; design of
non-electric prime movers and their parts and fittings;
design of electronic control units for vehicles and their
parts and fittings; design of power transmissions and
gearing and their parts and fittings; design of
air-conditioning apparatus or ventilating apparatus for
automobiles, and their parts and fittings; design of
compressors and their parts and fittings for
air-conditioning apparatus for automobiles; design of
two-wheeled motor vehicles; design of parts and fittings for
two-wheeled motor vehicles; design of automobiles; design of
parts and fittings for automobiles; testing or inspection of
carburetors and fuel injectors for internal combustion
engines for two-wheeled motor vehicles; testing or
inspection of carburetors and fuel injectors for internal
combustion engines; testing or inspection of non-electric
prime movers and their parts and fittings; testing or
inspection of electronic control units for vehicles and
their parts and fittings; testing or inspection of power
transmissions and gearing and their parts and fittings;
testing or inspection of air-conditioning apparatus or
ventilating apparatus for automobiles, and their parts and
fittings; testing or inspection of compressors and their
parts and fittings for air-conditioning apparatus for
automobiles; testing or inspection of two-wheeled motor
vehicles; testing or inspection of parts and fittings for
two-wheeled motor vehicles; testing or inspection of
automobiles; testing or inspection of parts and fittings for
automobiles; quality control of carburetors and fuel
injectors for internal combustion engines for two-wheeled
motor vehicles; quality control of carburetors and fuel
injectors for internal combustion engines; quality control
of non-electric prime movers and their parts and fittings;
quality control of electronic control units for vehicles and
their parts and fittings; quality control of power
transmissions and gearing and their parts and fittings;
quality control of air-conditioning apparatus or ventilating
apparatus for automobiles, and their parts and fittings;
quality control of compressors and their parts and fittings
for air-conditioning apparatus for automobiles; quality
control of two-wheeled motor vehicles; quality control of
parts and fittings for two-wheeled motor vehicles; quality
control of automobiles; quality control of parts and
fittings for automobiles.
As a time period included in a time period from releasement of a connection state in which a multiplexor (131a) is connected to signal lines (L1, L2, L3) until setting of a connection state in which the multiplexor (131a) becomes connected to the signal lines (L1, L2, L3) next time, an electronic control unit (1) sets a conversion halt time period for securing a return time for the charges of capacitors (C1, C2, C3) to return to charges corresponding to the voltages (Vin1, Vin2, Vin3) of analog signals inputted to the signal lines (L1, L2, L3) and for halting the operation of the A/D conversion of an A/D converter (131b).
[Problem] To provide a technique capable of ensuring the quality of a card edge terminal portion. [Solution] An electronic control device (10) includes two circuit boards (20, 30) in which card edge terminal portions (27, 36) face in the same direction, and board surfaces (21, 31) face each other. Each card edge terminal portion (27, 36) has a plurality of terminals (42) provided on the board surface, and an electrically insulating printed layer (70) surrounding each terminal (42). The surface of the printed layer (70) is set higher than a contact surface (42a) of each terminal (42) in the thickness direction of the circuit board (20).
[Problem] To provide an electronic control device that can increase the number of terminals constituting a card edge terminal portion without increasing the width of a circuit board. [Solution] This electronic control device (10) comprises: a rectangular circuit board (20) on which electronic components (41-45) are mounted; two card edge terminal portions (31, 32) provided along two sides (21, 22) of the circuit board (20); and a resin sealing member (50) that exposes the plurality of card edge terminal portions (31, 32) and integrally seals the electronic components (41-45) and the circuit board (20).
H05K 1/11 - Éléments imprimés pour réaliser des connexions électriques avec ou entre des circuits imprimés
H01L 25/07 - Ensembles consistant en une pluralité de dispositifs à semi-conducteurs ou d'autres dispositifs à l'état solide les dispositifs étant tous d'un type prévu dans une seule des sous-classes , , , , ou , p. ex. ensembles de diodes redresseuses les dispositifs n'ayant pas de conteneurs séparés les dispositifs étant d'un type prévu dans la sous-classe
H01L 25/18 - Ensembles consistant en une pluralité de dispositifs à semi-conducteurs ou d'autres dispositifs à l'état solide les dispositifs étant de types prévus dans plusieurs différents groupes principaux de la même sous-classe , , , , ou
H05K 3/28 - Application de revêtements de protection non métalliques
A solder material comprises 0.5% (% by weight, same as below) or more and less than 2.5% of Ag, 0.3 to 0.5% of Cu, 5.5 to 6.4% of In and 0.5 to 1.4% of Sb, with the remainder made up by unavoidable impurities and Sn. Alternatively, the solder material comprises 2.5 to 3.3% of Ag, 0.3 to 0.5% of Cu, 2.5% or more and less than 5.5% of In and 0.5 to 1.4% of Sb, with the remainder made up by unavoidable impurities and Sn. The solder material may comprise 2.5 to 3.3% of Ag, 0.3 to 0.5% of Cu, 5.5 to 6.4% of In, and more than 1.4% and 3.4% or less of Sb, with the remainder made up by unavoidable impurities and Sn. In each of the solder material, Bi is not substantially contained.
A water heating heater (10) comprises: a first heat exchanger (12) in which an inlet-side header tank (20) having an inlet part (30) is connected to a first header tank (24) by means of a plurality of first tubes (26); and a second heat exchanger (14) in which an outlet-side header tank (40) having an outlet part (48) is connected to a second header tank (42) by means of a plurality of second tubes (44). Furthermore, a plurality of heat generation bodies (16) are sandwiched between the first tube (26) and the second tube (44). In addition, a first fastening bracket (58) of the inlet-side header tank (20) and a second fastening bracket (60) of the outlet-side header tank (40) are interconnected by a first fastening bolt (66), and a first connection block (62) of the first header tank (24) and a second connection block (64) of the second header tank (42) are interconnected by a second fastening bolt.
H05B 3/40 - Éléments chauffants ayant la forme de tiges ou de tubes
B60H 1/03 - Dispositifs de chauffage, de refroidissement ou de ventilation la chaleur étant prélevée de l'installation de propulsion et à partir d'une source autre que l'installation de propulsion
B60H 1/22 - Dispositifs de chauffage, de refroidissement ou de ventilation la chaleur étant prélevée autrement que de l'installation de propulsion
An intake device (10) is provided with a throttle body (12) having a valve (20) that can rotate relative to a body (16), and an intake pipe (14) provided downstream of the throttle body (12) and connected to an internal combustion engine, an intake passage (24) of the intake pipe (14) being provided with a flow adjustment part (26) that guides the air supplied from the throttle body (12) in the direction in which the intake passage (24) extends, and the flow adjustment part (26) being provided to an upstream end that is on the throttle body (12)-side in the intake passage (24) and also being provided so as to connect to an inner peripheral surface (24a) of the intake passage (24) at a position of non-contact when the valve (20) is fully open.
F02D 9/10 - Obturateurs d'étranglement spécialement adaptés à cet effetAménagements de ces obturateurs sur les conduits comportant des volets pivotants
F02D 9/08 - Obturateurs d'étranglement spécialement adaptés à cet effetAménagements de ces obturateurs sur les conduits
This electric power conversion device provided with a multiphase converter in which a plurality of chopper circuits each including a switching element and a reactor connected to the switching element are connected in parallel, is characterized by being provided with: a single electric current sensor which is provided on the primary side of the chopper circuits and which detects a phase current flowing through each of the reactors during both an ON state and an OFF state of the corresponding switching element; and a drift current detection unit which detects a drift current of the phase current in the multiphase converter on the basis of the phase current detected by the electric current sensor, wherein the electric current sensor detects the phase current so that the directions of the respective phase currents flowing through the reactors are identical to one another.
H02M 3/155 - Transformation d'une puissance d'entrée en courant continu en une puissance de sortie en courant continu sans transformation intermédiaire en courant alternatif par convertisseurs statiques utilisant des tubes à décharge avec électrode de commande ou des dispositifs à semi-conducteurs avec électrode de commande utilisant des dispositifs du type triode ou transistor exigeant l'application continue d'un signal de commande utilisant uniquement des dispositifs à semi-conducteurs
A sensor unit (20) is provided inside a casing (52) with an intake pressure sensor (94) and an outside air pressure sensor (96), and the intake pressure sensor (94) and the outside air pressure sensor (96) are disposed between a bottom wall (54) of the casing (52) and a wiring surface (98) of a board (92). Further, a first pressure sensing portion (110) of the intake pressure sensor (94) and a second pressure sensing portion (118) of the outside air pressure sensor (96) are exposed respectively to first and second pressure sensing spaces (112, 120) enclosed by the bottom wall (54), the first pressure sensing space (112) communicates with an intake passage (16) by way of an intake pressure detection passage (74) provided in the casing (52), and the second pressure sensing space (120) communicates with a space portion (128) of the casing (52), which opens to the outside, by way of first and second outside air pressure detection passages (80, 82).
G01L 15/00 - Dispositifs ou appareils pour la mesure simultanée de plusieurs valeurs de la pression des fluides
F02D 35/00 - Commande non électrique des moteurs en fonction des conditions extérieures ou intérieures aux moteurs, non prévue ailleurs
F02D 45/00 - Commande électrique non prévue dans les groupes
G01K 13/02 - Thermomètres spécialement adaptés à des fins spécifiques pour mesurer la température de fluides en mouvement ou de matériaux granulaires capables de s'écouler
Provided is a fuel pump module in which: a pump unit in which both a fuel pump having a suction port connected to a fuel filter and an electric motor are accommodated in a pump housing is accommodated inside a module case arranged outside a fuel tank; and a vapor discharging hole for discharging vapor from a pump chamber of the fuel pump is formed in the pump housing. A fuel reservoir chamber (54) that stores fuel returned from a regulator (33) is formed inside the module case (27) and is in communication with the vapor discharging hole (53). A returning pipe (56) that returns the fuel containing vapor from the fuel reservoir chamber (54) into the fuel tank is disposed adjacent to the module case (27). The vapor discharging hole (53) is arranged below an upper end of an opening end (56a) of the return pipe (56) opening to the module case (27). Thus, the need for an expensive pressure sensor or the like is eliminated, making it possible to detect the clogging of the fuel filter at low cost.
F02M 37/40 - Dispositions d'épuration du combustible liquide spécialement conçues pour les moteurs à combustion interne ou aménagées sur ceux-ci, p. ex. aménagées dans le système d'alimentation caractérisées par des filtres ou des agencements de filtres avec des moyens de détection de colmatage
F02M 37/08 - Alimentation au moyen de pompes entraînées entraînées par moyen électrique
F02M 37/20 - Appareils ou systèmes pour transférer le combustible liquide des réservoirs de stockage aux carburateurs ou aux injecteursDispositions d'épuration du combustible liquide spécialement conçues pour les moteurs à combustion interne ou aménagées sur ceux-ci caractérisées par des moyens d'éviter le tampon de vapeur
F02M 37/34 - Dispositions d'épuration du combustible liquide spécialement conçues pour les moteurs à combustion interne ou aménagées sur ceux-ci, p. ex. aménagées dans le système d'alimentation caractérisées par des filtres ou des agencements de filtres par la structure du filtre, p. ex. en nid d’abeille, à mailles ou fibreuse
This fuel supply device is provided with a fuel pump module (40) which is disposed outside a fuel tank and ejects fuel in the fuel tank out of the fuel tank. The fuel pump module (40) is provided with a housing (43) in which a pump body (41) is housed. The housing (43) includes: an opening part (47b) at an end in a first direction (longitudinal direction) which enables maintenance of a functional component (fuel filter (53)) in the housing (43); and a nozzle part (46) at an outer peripheral portion clear of the end in the first direction which allows the pump body (41) to supply or discharge fuel.
The present invention provides a heat radiation device and a refrigeration cycle which have improved heat radiation efficiency and can be made more compact. A core 21 is fitted into at least an inlet side of a tube 2-1, groove sections 23 are provided spirally on the outer circumference of the core 21, a spiral flow path 25 having a polygonal cross-section is provided between the groove sections 23 and the tube inner wall, and a heat radiation section 3 is provided on the outer circumference side of the spiral flow path 25.
F28F 1/04 - Éléments tubulaires de section transversale non circulaire polygonale, p. ex. rectangulaire
F28D 1/047 - Appareils échangeurs de chaleur comportant des ensembles de canalisations fixes pour une seule des sources de potentiel calorifique, les deux sources étant en contact chacune avec un côté de la paroi de la canalisation, dans lesquels l'autre source de potentiel calorifique est une grande masse de fluide, p. ex. radiateurs domestiques ou de moteur de voiture avec des canalisations d'échange de chaleur immergées dans la masse du fluide avec canalisations tubulaires les canalisations étant courbées, p. ex. en serpentin ou en zigzag
F28F 1/40 - Éléments tubulaires ou leurs ensembles avec moyens pour augmenter la surface de transfert de chaleur, p. ex. avec des ailettes, avec des saillies, avec des évidements les moyens étant uniquement à l'intérieur de l'élément tubulaire
20.
METHOD FOR MANUFACTURING RESIN MOLDED BODY AND MOLDING DIE FOR MOLDING SAME
In the present invention, in one die 21, a plurality of electroconductive busbars 11, which are bonded to each other by a tie bar 12, are set. In another die 31 the bond is broken by the advancement of a cutting punch 32, which is set advanceably and retreatably, inside a cavity in a molding die 20. The cavity is for filling with a resin, where once the bond has been broken, the inside of the cavity is filled with the resin. A shape-forming surface of the other die 31, which is a die reference surface 33 that forms the product shape of a resin molded body 1 and that is disposed away from the busbars 11 forms a reference surface 5 of the resin molded body 1. Part of a side surface 34 of the cutting punch 32 remains exposed inside the cavity of the molding die 20 even when the cutting punch has retreated, and as a result, part of a wall surface 6 that extends at an angle with respect to the reference surface 5 of the resin molded body 1 is formed by the side surface 34.
B29C 45/14 - Moulage par injection, c.-à-d. en forçant un volume déterminé de matière à mouler par une buse d'injection dans un moule ferméAppareils à cet effet en incorporant des parties ou des couches préformées, p. ex. moulage par injection autour d'inserts ou sur des objets à recouvrir
B29C 33/14 - Moules ou noyauxLeurs détails ou accessoires comportant des moyens incorporés pour positionner des inserts, p. ex. marquages contre la paroi du moule
H01R 43/24 - Assemblage par moulage sur les pièces de contact
A fluid control valve 1 comprises a metal body 3, a valve body 4 that adjusts the amount of fluid flowing through a flow path 2, a resin case 5 attached to the body 3, and a plurality of fastening parts 9 that fasten the body 3 to the case 5. Each fastening part 9 comprises a screw-receiving part 10 provided in the body 3, and a screw member 11 that, by being screwed to the screw-receiving part 10 through a corresponding portion of the case 5, fastens the screw-receiving part 10 and the corresponding portion to each other. Each screw member 11 is provided with a fitting part 12 that is exposed to the inside of the case 5, and that fits with a tool that applies rotational force to the screw member 11.
F16K 31/04 - Moyens de fonctionnementDispositifs de retour à la position de repos électriquesMoyens de fonctionnementDispositifs de retour à la position de repos magnétiques utilisant un moteur
F02D 9/02 - Commande des moteurs par étranglement des conduits d'amenée de l'air ou du mélange air-combustible ou par étranglement des conduits d'échappement par étranglement des conduits d'amenée
F02D 9/10 - Obturateurs d'étranglement spécialement adaptés à cet effetAménagements de ces obturateurs sur les conduits comportant des volets pivotants
F02D 11/10 - Dispositions ou adaptations pour le déclenchement non automatique de la commande du moteur, p. ex. démarrage par l'opérateur caractérisées par des liaisons non mécaniques de la commande, p. ex. par des liaisons de commande à fluide ou par des liaisons de commande à relais de puissance ou puissance assistée électriques
F16K 27/02 - Structures des logementsMatériaux utilisés à cet effet des soupapes de levage
An internal combustion engine misfire detector (1) detects misfires in a 4-stroke internal combustion engine and has: a crank angle speed calculation unit (2) which calculates the crank angle speed in accordance with the rotational speed of the engine at each prescribed crank angle; a determination parameter calculation unit (4) which calculates a reference value for the crank angle speed, calculates a relative crank angle speed as the deviation between the reference value and the crank angle speed, and calculates the integrated value of the relative crank angle speed; and a misfire determination unit (5) which determines if a misfire occurred on the basis of the integrated value, wherein the determination parameter calculation unit (4) sets an integration interval for the integrated value in accordance with the RPM of the internal combustion engine.
Provided is a solder material including 2.5-3.3 wt% Ag, 0.3-0.5 wt% Cu, 5.5-6.4 wt% In, and 0.5-1.4 wt% Sb, the remainder being unavoidable impurities and Sn. Specifically, the solder material is a Pb-free solder not including Pb.
This circuit protection device is provided between a direct-current power supply and a protection object circuit that is connected to the direct-current power supply, and protects the protection object circuit from an overvoltage of the direct-current power supply by interrupting the connection between the direct-current power supply and the protection object circuit by means of a specific interrupting element. This circuit protection device is provided with a bypass circuit which suppresses the application of an alternating-current component of the current to the interrupting element.
H02H 3/20 - Circuits de protection de sécurité pour déconnexion automatique due directement à un changement indésirable des conditions électriques normales de travail avec ou sans reconnexion sensibles à un excès de tension
G01R 19/00 - Dispositions pour procéder aux mesures de courant ou de tension ou pour en indiquer l'existence ou le signe
G01R 19/165 - Indication de ce qu'un courant ou une tension est, soit supérieur ou inférieur à une valeur prédéterminée, soit à l'intérieur ou à l'extérieur d'une plage de valeurs prédéterminée
H01M 10/48 - Accumulateurs combinés à des dispositions pour mesurer, tester ou indiquer l'état des éléments, p. ex. le niveau ou la densité de l'électrolyte
H02H 7/18 - Circuits de protection de sécurité spécialement adaptés aux machines ou aux appareils électriques de types particuliers ou pour la protection sectionnelle de systèmes de câble ou de ligne, et effectuant une commutation automatique dans le cas d'un changement indésirable des conditions normales de travail pour pilesCircuits de protection de sécurité spécialement adaptés aux machines ou aux appareils électriques de types particuliers ou pour la protection sectionnelle de systèmes de câble ou de ligne, et effectuant une commutation automatique dans le cas d'un changement indésirable des conditions normales de travail pour accumulateurs
H02J 7/00 - Circuits pour la charge ou la dépolarisation des batteries ou pour alimenter des charges par des batteries
[Solution] An internal combustion engine control device (100) detects a rising edge of pulse output and a falling edge of the pulse output which occur in the order corresponding to predetermined angular ranges defined with respect to the rotation angle of a crankshaft, and involves arithmetic processing including first crank processing as arithmetic processing to be executed upon detecting one of the rising edge and the falling edge and second crank processing as arithmetic processing to be executed upon detecting the other of the rising edge and the falling edge.
A power supply device equipped with battery packs having a plurality of battery cells, and voltage detection devices that detect the voltage of the battery cells. The battery pack has a plurality of battery modules formed by connecting in series a plurality of the battery cells, and at least one of the battery modules is provided with only one battery cell in which is installed a shutoff device that shuts off the conduction path due to an increase in the internal pressure of the battery cell.
H01M 10/48 - Accumulateurs combinés à des dispositions pour mesurer, tester ou indiquer l'état des éléments, p. ex. le niveau ou la densité de l'électrolyte
H02H 7/18 - Circuits de protection de sécurité spécialement adaptés aux machines ou aux appareils électriques de types particuliers ou pour la protection sectionnelle de systèmes de câble ou de ligne, et effectuant une commutation automatique dans le cas d'un changement indésirable des conditions normales de travail pour pilesCircuits de protection de sécurité spécialement adaptés aux machines ou aux appareils électriques de types particuliers ou pour la protection sectionnelle de systèmes de câble ou de ligne, et effectuant une commutation automatique dans le cas d'un changement indésirable des conditions normales de travail pour accumulateurs
H02J 7/02 - Circuits pour la charge ou la dépolarisation des batteries ou pour alimenter des charges par des batteries pour la charge des batteries par réseaux à courant alternatif au moyen de convertisseurs
Provided is an internal combustion engine control device, wherein, when calculating the resistance value of a coil 7a by using the voltage value of a drive voltage, which is applied to the coil 7a in conjunction with fuel injection from an injector 7, and the current value of a current flowing to the coil 7a along with the fuel injection, a CPU 21 calculates the saturation degree of the current value at the time of completing energization of the coil 7a on the basis of the energization time of the coil 7a and the saturation time required for the current value to be saturated, and corrects, on the basis of the saturation degree, the current value at the time of completing energization.
An electronic control device (10) is provided with left and right side surfaces (23L, 23R) and left and right stays (26L, 26R). The left and right stays (26L, 26R) are provided in positions nearer to a back surface (22) than the center of gravity position (G2) of the electronic control device. The left and right stays each have a bottom side (28) extending outward from the side surface, and an inclined side (29) extending from the tip of the bottom side toward the front surface (21) and connecting to the side surface, and the left and right stays each have a right triangle shape.
H05K 5/00 - Enveloppes, coffrets ou tiroirs pour appareils électriques
B60R 16/02 - Circuits électriques ou circuits de fluides spécialement adaptés aux véhicules et non prévus ailleursAgencement des éléments des circuits électriques ou des circuits de fluides spécialement adapté aux véhicules et non prévu ailleurs électriques
H02G 3/16 - Boîtes de distributionBoîtes de connexion ou de dérivation associées par construction à un support pour bornes de connexion de ligne à l'intérieur de la boîte
An electronic control device (10) provided with: a storage case (20) for storing a circuit board in a state with a portion of connectors (11L, 11R) protruding; and an encapsulating material (30) encapsulated inside the storage case (20), wherein the storage case (20) is a resin molded part, the inner surface is a flat surface, and on the outer surface, a plurality of depressed recesses (32) are arranged regularly facing the inner surface.
H05K 5/00 - Enveloppes, coffrets ou tiroirs pour appareils électriques
B29C 33/42 - Moules ou noyauxLeurs détails ou accessoires caractérisés par la forme de la surface de moulage, p. ex. par des nervures ou des rainures
B29C 45/00 - Moulage par injection, c.-à-d. en forçant un volume déterminé de matière à mouler par une buse d'injection dans un moule ferméAppareils à cet effet
B60R 16/02 - Circuits électriques ou circuits de fluides spécialement adaptés aux véhicules et non prévus ailleursAgencement des éléments des circuits électriques ou des circuits de fluides spécialement adapté aux véhicules et non prévu ailleurs électriques
Provided is a pressure reducing valve for gas, the pressure reducing valve being configured such that: a valve body (39) has formed therein a connection passage (58) for connecting a passage (43) and a pressure action chamber (57); a guide hole (61) for guiding the movement of the valve body (39) between a spring chamber (56) and a high-pressure chamber (48) is formed in a body (35a); a spring (59) connected to a piston (54) and pressing the valve body (39) in an opening direction is provided in the spring chamber (56); and a seal member (62) for providing sealing between the high-pressure chamber (48) and the spring chamber (56) is disposed between the guide hole (61) and the valve body (39). Thus, in the provided pressure reducing valve for gas, problems caused by a reduction in the temperature of the pressure reducing valve can be prevented.
F02M 21/02 - Appareils pour alimenter les moteurs en combustibles non liquides, p. ex. en combustibles gazeux stockés sous forme liquide en combustibles gazeux
F16K 31/40 - Moyens de fonctionnementDispositifs de retour à la position de repos actionnés par un fluide et dans lesquels il y a alimentation constante du moteur à fluide par le fluide provenant de la canalisation avec un organe actionné électriquement dans la décharge du moteur
G05D 16/10 - Commande de la pression d'un fluide sans source d'énergie auxiliaire l'élément sensible étant un piston ou un plongeur
Provided is an internal combustion engine control device (1) that controls the operating state of an internal combustion engine mounted in an internal combustion engine mounting body, the control device (1): acquiring the ambient temperature of the internal combustion engine; acquiring an injector temperature, which is the temperature of an injector (7) of the internal combustion engine, from a resistance value of a coil (7a) of the injector (7); calculating an intake temperature increase amount of the internal combustion engine from the ambient temperature and the injector temperature; and calculating an intake temperature of the internal combustion engine by adding the intake temperature increase amount to the ambient temperature.
In an internal combustion engine control device (100), a control unit (102) calculates a differential temperature that is the differential between a first temperature, which is the temperature of the combustion chamber (9)-side of a wall that defines a combustion chamber (9) in an internal combustion engine (1) and is in contact with a coolant, and a representative temperature for the internal combustion engine (1); calculates a reference target differential temperature on the basis of parameters related to the operating state; calculates a second temperature, which is the temperature of the coolant-side of the wall; calculates a target differential temperature by correcting the reference target differential temperature in accordance with the second temperature; and controls the operating state in accordance with the deviation between the target differential temperature and the differential temperature.
A fuel pump module (14) is provided with: an electromagnetic force generation unit (38) that generates an electromagnetic force for driving a pump (24) when being supplied with power and that is arranged in a high-pressure chamber (36); a conductor (41, 42) that supplies power from a power source (21) to the electromagnetic force generation unit (38) and that is buried in a housing (15) and has one end connected to the electromagnetic force generation unit (38); and a low-pressure space (45) that stores fuel at pressure lower than that in the high-pressure chamber (36) and that is compartmentalized in the housing (15). An enclosing space (46) that is connected to a low-pressure space (45) and that continuously encloses the conductor (42) is compartmentalized in the housing (15). Thus, the fuel pump module that ensures confinement of the fuel is provided.
F02M 37/10 - Alimentation au moyen de pompes entraînées entraînées par moyen électrique immergées dans le combustible, p. ex. dans le réservoir
F02M 37/00 - Appareils ou systèmes pour transférer le combustible liquide des réservoirs de stockage aux carburateurs ou aux injecteursDispositions d'épuration du combustible liquide spécialement conçues pour les moteurs à combustion interne ou aménagées sur ceux-ci
F04D 5/00 - Pompes avec flux circonférentiel ou transversal
F04D 29/00 - Parties constitutives, détails ou accessoires
In this light illumination control device (1), when an external switch (SW) is switched from an OFF state to an ON state, a switch-on detection unit (6a) detects that a difference value, between a boost circuit (2) output voltage value and a light-emitting diode (D) forward voltage value, has reached a predetermined voltage value or greater, causing a microcontroller (6) to stop the boosting operation of the boost circuit (2), thereby bringing the boost circuit (2) output voltage value to a value lower than the light-emitting diode (D) forward voltage value.
B60Q 1/04 - Agencement des dispositifs de signalisation optique ou d'éclairage, leur montage, leur support ou les circuits à cet effet les dispositifs étant principalement destinés à éclairer la route en avant du véhicule ou d'autres zones de la route ou des environs les dispositifs étant des phares
Provided is a mold 10 for transfer molding comprising a lower mold 11 and an upper mold 12. The lower mold 11 and the upper mold 12 are molds that, when clamped to each other, comprise a cavity 13 to mold resin and a gate 21 to supply the resin to the cavity 13. The gate 21 is formed on both sides across a parting surface 14 between the two clamped molds. The gate 21 is formed with plane-symmetry across the parting surface 14, and an upstream part of a flow path connected to the gate 21 is formed in only one of the two molds and is exposed at the parting surface 14.
B29C 45/02 - Moulage par transfert, c.-à-d. en transférant par un piston le volume déterminé de matière à mouler d'une cavité de charge à une cavité de moulage
H01L 21/56 - Encapsulations, p. ex. couches d’encapsulation, revêtements
A fuel pump module is provided with: a fuel feed pump having a housing (54) which is a circular cylindrical body; an end surface member (55) inserted, as one constituting element of the fuel feed pump, into one open end of the circular cylinder body to close said open end; a resin molded body (58) for constituting a part of a module housing which accommodates the fuel feed pump, and enclosing the end surface member (55); and a wedge piece (59) protruding from the outer surface of the fuel feed pump and biting into the resin molded body (58) to restrict the displacement of the resin molded body (58). The configuration of the provided fuel pump module contributes to the simplification of assembling work and to a reduction in the number of parts and, in addition, enables the close contact between the end surface member and the resin molded body to be reliably maintained.
A fuel supply device (12) comprises: a fuel feed pump (31) having a discharge port (38) connected to a fuel injection device (22) by a fuel flow path; a pressure regulator (56) disposed within a return flow path (54) branching from the fuel flow path and connected to a fuel tank (18); and a check valve (62) disposed in the return flow path (54) at a position between the pressure regulator (56) and the fuel tank (18) and restricting the flow of fuel in one direction from the pressure regulator (56) toward the fuel tank (18). The provided fuel supply device contributes to the simplification of the structure of the fuel tank.
F02M 37/14 - Alimentation au moyen de pompes entraînées les pompes étant combinées avec d'autres appareils
F02M 37/00 - Appareils ou systèmes pour transférer le combustible liquide des réservoirs de stockage aux carburateurs ou aux injecteursDispositions d'épuration du combustible liquide spécialement conçues pour les moteurs à combustion interne ou aménagées sur ceux-ci
F02M 69/54 - Aménagement des régulateurs de pression du combustible
Provided is a fuel feeding device wherein the stator of a brushless motor comprises: a stator core formed by joining a plurality of magnetic steel plates stacked while burrs protrude in the same direction; a bobbin mounted to the stator core and comprising a pair of bobbin-constituting members consisting of a resin, the pair of bobbin-constituting members being capable of being divided in the direction of the axis of the stator core; coils wound on the stator core with the bobbin therebetween; and cover sections consisting of a resin, the cover sections being molded using, as insert parts, portions of the bobbin-constituting members and portions of the coils. Protrusions (47, 48) in contact with the stator core (15) are provided in a protruding manner on a surface of the specific bobbin-constituting member (38) of the pair of bobbin-constituting members (38, 39), the surface facing the stator core, the specific bobbin-constituting member (38) being disposed facing the protrusion direction (50) of at least the burrs (14a). As a result, the bobbin is not damaged by the burrs on the stator core side even if the brushless motor is reduced in size.
H02K 3/46 - Fixation des enroulements sur la structure statorique ou rotorique
F02M 37/08 - Alimentation au moyen de pompes entraînées entraînées par moyen électrique
H02K 1/16 - Noyaux statoriques à encoches pour enroulements
H02K 3/34 - Enroulements caractérisés par la configuration, la forme ou la réalisation de l'isolement entre conducteurs ou entre conducteur et noyau, p. ex. isolement d'encoches
H02K 7/14 - Association structurelle à des charges mécaniques, p. ex. à des machines-outils portatives ou des ventilateurs
In a liquid supply device, both ends of a unit case for housing a three-phase brushless motor and a Wesco pump are swaged and engaged with the pump case of the Wesco pump and a covering portion for covering an end of the brushless motor, and three power supply terminals passing through the covering portion are supported by a bobbin. The power supply terminal (20A) integrally has: a fitted substrate portion (36) fitted into the bobbin (17) and fixed; an extended plate portion (37) extended from the fitted substrate portion (36) in the extending direction thereof; a tilting plate portion (39) connected to the extended plate portion (37) and tilting to a side separating from the unit case; and a terminal plate portion (41) connected to the tilting plate portion (39) and extending in parallel with the fitted substrate portion (36) and the extended plate portion (37). A pair of first guide projections (44, 45) that form first winding guiding recess portions (42, 43) between the bobbin (17) and the first guide projections (44, 45) are projected from the extended plate portion (37). This makes it possible to shorten the length of the unit case in the axial direction.
(1) Pipework of metal as parts of air-conditioning installations for vehicles
(2) Oil coolers and intercoolers as parts of air-conditioning installations for vehicles
(3) Air filtering unit for air-conditioning installations for vehicles; air cleaning apparatus; heat pumps; HVAC (heating, ventilation and air conditioning) installations for vehicles
(4) Ventilation [air-conditioning] installations for vehicles; compressors used for ventilation [air-conditioning] installations for vehicles; receiver tanks used for ventilation [air-conditioning] installations for vehicles
(5) Heater cores used for ventilation [air-conditioning] installations for vehicles; evaporators used for ventilation [air-conditioning] installations for vehicles; condensers used for ventilation [air-conditioning] installations for vehicles; heat exchangers used for ventilation [air-conditioning] installations for vehicles
(6) Ventilation [air-conditioning] installations for vehicles; heater cores used for ventilation [air-conditioning] installations for vehicles; evaporators used for ventilation [air-conditioning] installations for vehicles; condensers used for ventilation [air-conditioning] installations for vehicles; compressors used for ventilation [air-conditioning] installations for vehicles; receiver tanks used for ventilation [air-conditioning] installations for vehicles; air cleaning apparatus; heat pumps
A fuel pressure regulator provided with, inside a casing, a high-pressure chamber into which high-pressure fuel can be introduced, a fuel discharge port for discharging the high-pressure fuel introduced into the high-pressure chamber, a low-pressure chamber made to be in communication with the interior of a fuel tank, and a pressure regulation valve capable of regulating the pressure of the fuel in the high-pressure chamber, wherein the pressure regulation valve (V) is provided with at least a valve housing (Vh) fluid-tightly fitted in a receiving hole (M) provided to the casing (C) so that the high-pressure chamber (H) and the low-pressure chamber (L) are in communication with each other, and a valve element (Vv) accommodated inside the valve housing (Vh) and capable of opening/blocking the path between the high-pressure chamber (H) and the low-pressure chamber (L), and the low-pressure chamber (L) includes at least an annular space (Lo) extending to the periphery of the high-pressure chamber (H) and the receiving hole (M) so as to encircle the high-pressure chamber (H) and the receiving hole (M). The peripheral wall of the high-pressure chamber in the casing is thereby protected from impact by loose rocks and the like, and operating noises of the pressure regulation valve and other components are not likely to leak to the exterior.
F02M 37/14 - Alimentation au moyen de pompes entraînées les pompes étant combinées avec d'autres appareils
F02M 37/00 - Appareils ou systèmes pour transférer le combustible liquide des réservoirs de stockage aux carburateurs ou aux injecteursDispositions d'épuration du combustible liquide spécialement conçues pour les moteurs à combustion interne ou aménagées sur ceux-ci
F02M 37/08 - Alimentation au moyen de pompes entraînées entraînées par moyen électrique
In the engine temperature calculation processing of this internal combustion engine control device (1), a CPU (21) calculates the temperature of an injector (7) while reflecting the ambient temperature of an engine, and controls the operating state of the engine on the basis of the temperature of the injector (7).
F02D 45/00 - Commande électrique non prévue dans les groupes
F02D 29/00 - Commande de moteurs, cette commande étant particulière aux dispositifs entraînés, ces dispositifs étant autres que des organes ou accessoires essentiels à la marche du moteur, p. ex. commande de moteur par des signaux extérieurs
F02M 51/00 - Appareils d'injection de combustible caractérisés par une commande électrique
This internal combustion engine control device (1) is provided with a thermistor element (12a), and a thermistor element (12b) disposed in a position away from thermistor element (12a). A CPU (21) calculates the ambient temperature of an engine by using the detection temperature (T1) of thermistor element (12a) to correct the detection temperature (T2) of thermistor element (12b), and controls the operating state of the engine on the basis of the ambient temperature of the engine.
F02D 45/00 - Commande électrique non prévue dans les groupes
F02D 29/00 - Commande de moteurs, cette commande étant particulière aux dispositifs entraînés, ces dispositifs étant autres que des organes ou accessoires essentiels à la marche du moteur, p. ex. commande de moteur par des signaux extérieurs
F02D 35/00 - Commande non électrique des moteurs en fonction des conditions extérieures ou intérieures aux moteurs, non prévue ailleurs
F02D 41/04 - Dispositions de circuits pour produire des signaux de commande introduisant des corrections pour des conditions particulières de fonctionnement
In this fuel supply device, a housing (H), in which at least one portion of a pump unit (U) is embedded, is molded with the at least one portion of the pump unit (U) as an insert component. The pump unit (U) is provided with a discharge port (Coa) of the pump unit (U), and has motor operation wires (T1-T3) on the outside of said discharge port (Coa). The housing (H) is provided with a discharge tube part (Ho) that discharges a high-pressure fuel, and a wire covering part (Ht) that covers the wires (T1-T3). On the boundary between the wires (T1-T3) and the wire covering part (Ht), a closing member (S), which can reliably stop the high-pressure fuel from leaking out along the wires (T1-T3), is arranged surrounding the entire circumference of a portion of the wires. By this means, it is possible to reduce the number of components, improve assembly workability and cut costs.
In this fuel supply device, a pump unit (U) is provided with a fuel pump (P) which has a fuel suction port and a fuel discharge port separated from each other by a distance, and which is provided with a unit case (C) which supports a fuel pump (P) and a motor (M) in the interval between the fuel suction port and the fuel discharge port. A housing (H), in which at least a portion of the unit case (C) is integrally embedded, is molded with the unit case (C) as an insert component. Mounting units (21-23) for mounting said housing to a support body (B), and a fuel discharge unit connected to the fuel discharge port of the pump unit (U) are formed integrally with the housing (H) in the aforementioned molding process. By this means, it is possible to reduce the number of components, improve assembly workability and cut costs, and in addition, at the same time as molding the housing in which the pump unit is embedded, the mounting units for mounting the housing onto the support body and the fuel discharge unit of the pump unit can be accurately and easily formed on the housing.
Provided is a composition for brazing, which contains a flux, a Zn metal powder, a (meth)acrylic resin and an organic solvent, and wherein the organic solvent contains (A1) a monohydric alcohol having 1-5 carbon atoms, (A2) a monohydric alcohol having 6-8 carbon atoms and (A3) a polyhydric alcohol having 3 or less carbon atoms that are bonded by a carbon-carbon bond.
B23K 35/363 - Emploi de compositions spécifiées de flux pour le brasage ou le soudage
F28F 19/06 - Prévention de la formation de dépôts ou de la corrosion, p. ex. en utilisant des filtres en utilisant des revêtements, p. ex. des revêtements vitreux ou émaillés de métal
F28F 21/08 - Structure des appareils échangeurs de chaleur caractérisée par l'emploi de matériaux spécifiés de métal
47.
DEVICE AND METHOD FOR MANUFACTURING FLOW VOLUME CONTROL DEVICE
In a manufacturing device (80) for a flow volume control device (10), a cylinder rod (86) of a cylinder (88) is used to press together a first casing (24) and a second casing (28), and a wire rod (54) is made to generate heat, thereby welding together the inner wall of an engaging groove (52) and an engaging protrusion (40). A load cell (100) detects a load applied to the first casing (24) and the second casing (28), and a load current detection sensor (119a) detects the value of a load current flowing in a cylinder motor (85). On the basis of the load or the load current value, a controller (118) controls the pressing operation of the cylinder (88) with respect to the first casing (24) and second casing (28) when the inner wall of the engaging groove (52) and the engaging protrusion (40) are welded together.
F02M 69/32 - Appareils d'injection de combustible à basse pression caractérisés par des moyens pour faciliter le démarrage ou le ralenti du moteur ou par des moyens pour augmenter la charge de combustible, p. ex. au-dessous des températures normales de fonctionnement ou en cas d'exigence d'une puissance élevée du moteur avec un passage de dérivation d'air autour du clapet d'étranglement d'air ou avec un passage d'arrivée d'air auxiliaire, p. ex. avec un clapet réglable dans ce passage
A valve control device for providing feedback control of a drive mechanism for a waste gate valve provided in a supercharger of an engine, said feedback control being provided on the basis of a target degree of opening for the waste gate valve and a sensor signal indicating the actual degree of opening of the waste gate valve, said valve control device being equipped with a gain setting unit for setting a different control gain for when the waste gate valve is closed and for when the waste gate valve is opened.
A valve control device for controlling a valve drive mechanism on the basis of a valve degree-of-opening signal and an engine startup signal, said valve control device being equipped with: a drive signal generation unit that, when starting of the engine is determined on the basis of the startup signal, generates a test drive signal for test-driving the valve before the generation of a normal drive signal associated with normal driving of the valve; and a fault determination unit that, on the basis of a degree-of-opening signal during the test driving, determines whether a fault has occurred in the drive mechanism. The drive signal generation unit stops generating the test drive signal and the normal drive signal when the fault determination unit determines that a fault has occurred in the drive mechanism.
The present invention relates to an intake manifold device. An intake manifold device (10A) is provided with an intake manifold (12) having an incorporated heat exchanger (14). The intake manifold (12) has a first portion (18) which is located upstream of the heat exchanger (14), and a second portion (20) which is located downstream of the heat exchanger (14) and which is configured from a second resin material less resistant to heat than a first resin material. The first portion (18) and the second portion (20) are joined by welding.
This valve control device is provided with a drive circuit for supplying a drive signal over a prescribed transmission line to an actuator to adjust the opening degree of a valve, and generates a PWM signal on the basis of an externally supplied target opening degree and a sensor signal that indicates the actual opening degree of the valve, and supplies said PWM signal to the drive circuit. This valve control device is provided with a disconnection detection means which detects disconnection of the transmission line on the basis of a monitor signal of the drive signal and the PWM signal.
F16K 37/00 - Moyens particuliers portés par ou sur les soupapes ou autres dispositifs d'obturation pour repérer ou enregistrer leur fonctionnement ou pour permettre de donner l'alarme
F02B 37/18 - Commande des pompes par dérivation des gaz d'échappement
F02D 45/00 - Commande électrique non prévue dans les groupes
This valve control device controls an actuator for operating a valve on the basis of an opening degree signal indicating the opening degree of the valve and a startup signal instructing startup of an engine to which the valve is provided. The valve control device is provided with: a fully-closed-learning processing unit for learning, on the basis of the startup signal and the opening degree signal, a seating position at which the valve body of the valve sits on the valve seat of the valve every time the engine starts up; a target value setting unit for setting, on the basis of the seating position, a soft-landing starting position for when the valve body is seated, and setting a control target value which causes the valve body to decelerate from the soft-landing starting position and causes the valve body to be seated at a prescribed seating speed; and a control drive unit for creating, on the basis of the control target value and the opening degree signal, a drive signal supplied to the actuator.
The present invention relates to an intake manifold device. An intake manifold device (10A) is provided with an intake manifold (12) formed integrally by the injection molding of a resin material. The housing (18) of the intake manifold (12), the housing (18) encasing a heat exchanger (14), has formed therein an opening (22) into which the heat exchanger (14) can be inserted and which is open in the direction perpendicular to both the direction in which gas flows through the heat exchanger (14) and the direction in which a plurality of branch pipes (30a-30c) are arranged. The heat exchanger (14) is provided with a cover (40) which is mounted to the intake manifold (12) so as to close the opening (22).
The present invention suppresses power consumption, suppresses an increase in the number of components, and achieves a cost reduction and ease of control. Downstream of an air channel 3, a ventilation passage 22 that communicates with a foot discharge port 23 for a driver seat, a foot discharge port 24 for a rear seat, and a foot discharge port 25 for a passenger seat is partitioned by a second partition member 26 into the foot discharge port 23 for a driver seat, and all other foot discharge ports 24, 25. A foot damper 27 for a driver seat, said damper being capable of opening and closing the foot discharge port 23 for a driver seat, and an integrated foot damper 28, which is capable of integrally opening and closing the foot discharge ports 24, 25 for a rear seat and passenger seat, are provided upstream of the ventilation passage 22. By opening the foot damper 27 for a driver seat and closing the integrated foot damper 28, air is discharged in a concentrated manner only at the driver seat.
B60H 1/00 - Dispositifs de chauffage, de refroidissement ou de ventilation
B60H 1/12 - Dispositifs de chauffage, de refroidissement ou de ventilation la chaleur étant prélevée de l'installation de propulsion du liquide de refroidissement de l'installation d'un autre radiateur que le radiateur principal l'autre radiateur étant situé dans un conduit pouvant être mis en communication avec l'atmosphère extérieure utilisant un compresseur d'air
In an internal combustion engine control device (100), a control unit (107b) controls the operating state of an internal combustion engine (1) on the basis of a difference ΔTCC between a first temperature TCC corresponding to the temperature of a first site in a wall portion defining a combustion chamber of the internal combustion engine (1), and a second temperature TE corresponding to the temperature of a second site in the wall portion, where said second site is further toward an outer wall surface than the first site.
F02D 45/00 - Commande électrique non prévue dans les groupes
F02D 35/00 - Commande non électrique des moteurs en fonction des conditions extérieures ou intérieures aux moteurs, non prévue ailleurs
F02D 43/00 - Commande électrique simultanée de plusieurs fonctions, p. ex. allumage, mélange air-combustible, recirculation, suralimentation ou traitement des gaz d'échappement
The present invention suppresses thermal degradation of an air conditioning case 2 and furthermore increases the independence of temperature adjustment control. The air conditioning case 2 is partitioned by a partition member 10 into a first air channel 11 and a second air channel 12. An interior condenser 19, which is a heat exchanger for heating, is inserted into a cutout portion 31 formed in the partition member 10 and is disposed across the first air channel 11 and the second air channel 12. In the interior condenser 19, a portion in contact with the air conditioning case 2 is covered by a heat-resistant cover 35a, 35b. The heat-resistant cover 35a, 35b is provided with frame members 36a, 36b that come into contact and mate with edges 31a, 31b of the cutout portion 31 of the partition member 10.
B60H 1/00 - Dispositifs de chauffage, de refroidissement ou de ventilation
B60H 1/08 - Dispositifs de chauffage, de refroidissement ou de ventilation la chaleur étant prélevée de l'installation de propulsion du liquide de refroidissement de l'installation d'un autre radiateur que le radiateur principal
In a secondary battery charging control device (100), when charging a secondary battery (101), a charging control unit (132) detects a rotational phase of a rotor of a three-phase AC generator (110) and applies a drive control signal to a plurality of switching elements (131a, 131b, 131c, 131d, 131e, 131f), said drive control signal representing the amount of delay angle delayed from a reference phase synchronized with the rotational phase of the rotor of the three-phase AC generator (110). In addition, a predetermined limit value is set in advance for the amount of delay angle, and the amount of delay angle is set to the predetermined limit value when the amount of delay angle exceeds the predetermined limit value.
H02J 7/14 - Circuits pour la charge ou la dépolarisation des batteries ou pour alimenter des charges par des batteries pour la charge de batteries par des générateurs dynamo-électriques entraînés à vitesse variable, p. ex. sur véhicule
H02M 7/12 - Transformation d'une puissance d'entrée en courant alternatif en une puissance de sortie en courant continu sans possibilité de réversibilité par convertisseurs statiques utilisant des tubes à décharge avec électrode de commande ou des dispositifs à semi-conducteurs avec électrode de commande
The present invention provides an engine control device that controls an engine of a vehicle, having: an instantaneous-interruption determining circuit; a holding circuit; and a control unit. The instantaneous-interruption determining circuit includes a first capacitor and a first resistor that discharges and charges the first capacitor at a first time constant. The holding circuit includes a second capacitor and a second resistor that discharges and charges the second capacitor at a second time constant equal to or larger than the first time constant. The control unit controls the engine on the basis of the voltage states of the first capacitor and the second capacitor. Furthermore, the control unit starts to charge the first capacitor after starting to charge the second capacitor. Even if the control unit of the engine control device is reset due to a temporary reduction in battery voltage, information indicating the engine control state immediately before the reset can be held.
The present invention relates to an air conditioning device for a vehicle. An inside air/outside air switching unit (14) constituting an air conditioning device (10) for a vehicle is configured in such a manner that one side surface (42a) of the lower casing portion (42) of a casing (34) is provided with a plurality of first flow regulation fins (46), the one side surface (42a) being located at a distance from an air conditioning case (12) in which a blower (16) is accommodated. The first flow regulation fins (46) deflect air toward the air conditioning case (12) and inhibit the generation of a swirl flow, the air having been taken in into the casing (34) from either an outside air intake port (30) or an inside air intake port (32). A bell mouth (24), within the air conditioning case (12), facing the blower (16) is provided with second flow regulation fins (48) for conducting air in the same direction as the rotational direction of the blower (16) while swirling the air. The second flow regulation fins (48) cause air to be sucked from a suction port (22) toward the blower (16) while being swirled in the same direction as the rotational direction of the blower (16), and as a result, suction resistance is reduced.
The present invention relates to a flow control device (10) including a first casing (24) and a second casing (28). The first casing (24) and/or the second casing (28) is constituted of a resin composition comprising a thermoplastic resin and an elastomer. An engaging projecting part (40) is provided to the first casing (24), while an engaging groove (52) is formed in the second casing (28). The engaging projecting part (40) is inserted into the engaging groove (52), and a wire (54) which has been disposed beforehand in the engaging groove (52) is thereafter caused to generate heat, thereby softening the outer wall of the engaging projecting part (40) and the walls of the engaging groove (52). The softened resin composition is hardened by stopping the wire (54) from generating heat.
F16K 27/04 - Structures des logementsMatériaux utilisés à cet effet des tiroirs
F02M 69/32 - Appareils d'injection de combustible à basse pression caractérisés par des moyens pour faciliter le démarrage ou le ralenti du moteur ou par des moyens pour augmenter la charge de combustible, p. ex. au-dessous des températures normales de fonctionnement ou en cas d'exigence d'une puissance élevée du moteur avec un passage de dérivation d'air autour du clapet d'étranglement d'air ou avec un passage d'arrivée d'air auxiliaire, p. ex. avec un clapet réglable dans ce passage
F16K 27/00 - Structures des logementsMatériaux utilisés à cet effet
An air conditioning device (10) for a vehicle is configured in such a manner that: an evaporator (16) and a heater core (18) are arranged within an air conditioning case (12) so as to be tilted and substantially parallel to each other; and the heater core (18) is provided above the evaporator (16) in the gravitational direction. A second passage (46) located between the evaporator (16) and the heater core (18) is formed so that the bottom surface (46a) of the second passage (46) connects the lower end (44a) of a first heat exchanger (44) for the evaporator (16) and the lower end (58a) of a second heat exchanger (58) for the heater core (18). Consequently, air which flows through the second passage (46) is smoothly conducted to the heater core (18) side along the bottom surface (46a).
In an air conditioning case (12) that constitutes a vehicle air conditioning device (10), foot air-blowing ports (32a, 32b) respectively open onto both lateral walls (22a, 24a) that are substantially orthogonal to a ventilating surface (18a) of a heater core (18) through which air passes. A plate-like air blowing guide (40) is provided so as to face the foot air-blowing ports (32a, 32b). The air blowing guide (40) extends substantially parallel along the width direction of the air conditioning case (12) and projects at a predetermined height toward a first inner wall surface (36) of the air conditioning case (12) which is on the vehicle front side. Warm air that has passed through the heater core (18) strikes the air blowing guide (40) and is thereby guided to the width-direction outer side and introduced to the foot air blowing ports (32a, 32b).
[Problem] To provide a squeeze pin circuit for die casting, with which satisfactory squeeze pin operation is possible even when using an existing core circuit, as well as a hydraulic circuit including the same. [Solution] This squeeze pin circuit (10) drives a squeeze pin which is attached to a directional switching valve (58) for switching the direction of hydraulic pressure with respect to a core cylinder (64), and which is used for localized pressurization of molten metal filling a cavity, the circuit being characterized by being provided with a squeeze pin cylinder (12) that is connected to the directional switching valve (58) and is used to drive the squeeze pin, and a flow rate adjustment unit (24) attached to a hydraulic line (32) linking the directional switching valve (58) and the head (16) side of the squeeze pin cylinder (12), making pressure compensation and temperature compensation possible.
B22D 17/22 - Moules métalliquesPlaques de moulesSupports de moulesÉquipement de refroidissement des moulesAccessoires pour l'extraction et l'éjection des pièces hors du moule
The present invention relates to a casting die device (50) and a casting method. The casting die device (50) has a core pin (92) for forming an inner hole (14) in a casted article (10). The core pin (92) is a hollow body, and a pressurizing pin (96) is inserted into a hollow inner part (94) of the core pin (92). Vibrations from a vibrator (120) of a micro vibration machine (118) are imparted to the pressurizing pin (96) via a vibration transmission member (112). The vibrations further propagate to the core pin (92) from the pressurizing pin (96), and then propagate to the area surrounding the core pin (92) in a molten metal (66) that has been poured into a cavity (60).
B22D 17/22 - Moules métalliquesPlaques de moulesSupports de moulesÉquipement de refroidissement des moulesAccessoires pour l'extraction et l'éjection des pièces hors du moule
A filter insertion opening (36) into which a filter (20) is inserted is formed in an indoor-air/outdoor-air switching unit (12) which constitutes an air conditioning device (10) for a vehicle, and a guide section (40) for guiding the filter (20) downstream in the insertion direction is provided on the inner wall surface (52) of a casing (18) so as to face the filter insertion opening (36). The guide section (40) has: a first lower guide (42) facing the filter insertion opening (36) and tilted upward; and a second lower guide (44) formed downstream of the first lower guide (42) in the insertion direction and tilted downward. When inserting the filter (20) from the filter insertion opening (36), the filter (20) is guided along the first lower guide (42) and therefore is inserted while being tilted such that the end of the filter (20), which is located downstream in the insertion direction, is lifted up. Consequently, for example, even if a vehicle body-side structure is disposed above and close to the filter insertion opening (36), the filter (20) can be inserted without contact with the structure.
This fuel supply device comprises a first housing (1) that is provided with: a base section (7) that comprises an attachment flange (6); a pump holding wall (8) that rises from the base section (7); and a surrounding wall (10) that rises from an inner peripheral edge section of the flange (6) so as to surround the pump holding wall (8) and that demarcates a fuel storage section (9). A second housing (2) that holds a fuel pump (4) in conjunction with the pump holding wall (8) is connected to the first housing (1) via a snap-fit mechanism (55), a filter (17) is arranged in the fuel storage section (9), and the pump holding wall (8) and the second housing (2) are connected to each other via the snap-fit mechanism (55) that is arranged above the surrounding wall (10) and on the inside of the surrounding wall (10) from a planar view. As a result, the surrounding wall that surrounds the filter and the snap-fit mechanism that connects the first and the second housings are arranged apart from each other in the axial direction and it is possible to reduce the diameter of the fuel supply device.
F02M 37/10 - Alimentation au moyen de pompes entraînées entraînées par moyen électrique immergées dans le combustible, p. ex. dans le réservoir
F02M 37/00 - Appareils ou systèmes pour transférer le combustible liquide des réservoirs de stockage aux carburateurs ou aux injecteursDispositions d'épuration du combustible liquide spécialement conçues pour les moteurs à combustion interne ou aménagées sur ceux-ci
F02M 37/20 - Appareils ou systèmes pour transférer le combustible liquide des réservoirs de stockage aux carburateurs ou aux injecteursDispositions d'épuration du combustible liquide spécialement conçues pour les moteurs à combustion interne ou aménagées sur ceux-ci caractérisées par des moyens d'éviter le tampon de vapeur
Provided is a fuel supply device in which a fuel pump (4) is held by the pump holding wall (8) of a first housing (1) and the fitted wall (22) of a second housing (2) and the pump holding wall (8), and the fitted wall (22) are connected via a snap-fit mechanism (55). The snap-fit mechanism (55) is configured from: an elastic piece (56) that fits the fitted wall (22) to the inner periphery of the pump holding wall (8) and that extends from the tip of the pump holding wall (8) and comes into contact with the outer surface of the fitted wall (22); a locking hole (57) that is provided to the tip section of the elastic piece (56); and a locking claw (58) that is provided so as to protrude from the outer surface of the fitted wall (22) and that engages with the locking hole (57) as a result of the elastic force of the elastic piece (56). A regulating wall (60) that regulates bending of the elastic piece (56) in the radially outward direction is provided to the second housing (2). As a result, it is possible to provide a fuel supply device in which the engaged state of a snap-fit mechanism can be easily released without interference from an attachment flange.
F02M 37/10 - Alimentation au moyen de pompes entraînées entraînées par moyen électrique immergées dans le combustible, p. ex. dans le réservoir
F02M 37/00 - Appareils ou systèmes pour transférer le combustible liquide des réservoirs de stockage aux carburateurs ou aux injecteursDispositions d'épuration du combustible liquide spécialement conçues pour les moteurs à combustion interne ou aménagées sur ceux-ci
A throttle motor (26) is arranged between an upper surface of an engine (2) and an air intake passage as seen from the side of a vehicle. Furthermore, the throttle motor (26) is arranged such that a horizontal line (H1) passing through the lower end of the throttle motor (26) overlaps a chain tensioner (33) and an axial center section (26a) of the throttle motor (26) is misaligned from the chain tensioner (33) in a forward-rearward direction.
F02D 11/10 - Dispositions ou adaptations pour le déclenchement non automatique de la commande du moteur, p. ex. démarrage par l'opérateur caractérisées par des liaisons non mécaniques de la commande, p. ex. par des liaisons de commande à fluide ou par des liaisons de commande à relais de puissance ou puissance assistée électriques
F02D 9/10 - Obturateurs d'étranglement spécialement adaptés à cet effetAménagements de ces obturateurs sur les conduits comportant des volets pivotants
F02B 61/02 - Adaptations des moteurs à l'entraînement des véhicules ou des hélicesAssociation des moteurs avec une transmission mécanique pour entraîner des bicyclettes
F02B 67/00 - 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
F02B 67/06 - 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 à entraînement mécanique des appareils auxiliaires entraînés par chaînes, courroies ou autres organes sans fin
B62K 11/00 - Motocyclettes, vélomoteurs ou scooters avec une ou deux roues
B62J 99/00 - Matière non prévue dans les autres groupes de la présente sous-classe
An inside air/outside air switching unit (14) for constituting an air conditioning device (10) for a vehicle has a filter (52) received in a replaceable manner within a second casing (40) of the inside air/outside air switching unit (14). The filter (52) is held such that the upper end and lower end of the filter (52) are inserted into a set of first and second protrusions (48, 50) protruding from the inner wall surfaces (46a, 46b) of the second casing (40). When the filter (52) is not installed, the first and second protrusions (48, 50) function as air flow resistance increase means for increasing air flow resistance when air having been taken in into the second casing (40) flows. Consequently, the rate of air flow when the air filter (52) is not installed is reduced by a turbulent flow generated by the first and second protrusions (48, 50) and can thereby be set substantially equal to the rate of air flow when the filter (52) is installed.
In the present invention, two heating devices (a capacitor (13) and a heater core (14)) for heating are disposed close to each other in series. An air flow path is formed in the interior of a housing (2) of an HVAC unit (1). In the housing (2), two attachment/detachment openings (31, 32) are formed in mutually different surfaces. The capacitor (13) for a heat pump cycle is inserted from the attachment/detachment opening (31) in the lower surface of the housing (2) and is thereby attached to the housing. The heater core (14) is inserted from the attachment/detachment opening (32) in the lateral surface of the housing (2) and is thereby attached to the housing. An electric heater (a PTC heater (15)) may be attached in place of the heater core (14).
B60H 1/00 - Dispositifs de chauffage, de refroidissement ou de ventilation
B60H 1/08 - Dispositifs de chauffage, de refroidissement ou de ventilation la chaleur étant prélevée de l'installation de propulsion du liquide de refroidissement de l'installation d'un autre radiateur que le radiateur principal
B60H 1/22 - Dispositifs de chauffage, de refroidissement ou de ventilation la chaleur étant prélevée autrement que de l'installation de propulsion
Two types of heating devices (a heater core and a PTC heater) for heating can be selectively attached. An air flow path is formed in the interior of a housing (2) of an HVAC unit (1). A heater core (14) and a PCT heater (15) are selectively attached to an attachment/detachment opening (32) in the lateral surface of the housing (2). The attachment/detachment opening (32) is formed so as to match the heater core (14). The PTC heater (15) is accommodated inside a frame (33) having outer diameter dimensions in accordance with the attachment/detachment opening (32), and the PTC heater is attached via the frame (33). The frame (33) has a temperature-sensor holding part (34).
B60H 1/00 - Dispositifs de chauffage, de refroidissement ou de ventilation
B60H 1/08 - Dispositifs de chauffage, de refroidissement ou de ventilation la chaleur étant prélevée de l'installation de propulsion du liquide de refroidissement de l'installation d'un autre radiateur que le radiateur principal
B60H 1/22 - Dispositifs de chauffage, de refroidissement ou de ventilation la chaleur étant prélevée autrement que de l'installation de propulsion
Provided is a centrifugal fan having a support section, a plurality of blades, and a mounting section, in which a rotation shaft is attached to the mounting shaft and made to rotate in a prescribed direction so that air taken in from the front of the support section is blown out radially. Each of the blades comprises: a primary wing section that has a trailing edge which is parallel to the central axis of rotation and a leading edge end section which is parallel to the central axis of rotation, and the thickness of the primary wing section gradually grows thinner toward the trailing edge and the leading edge end section; and an auxiliary wing section that extends from the leading edge end section of the primary wing section toward the interior of the centrifugal fan. When viewed along the central axis of rotation direction, the auxiliary wing section has a length from the leading edge end section of the primary wing section to the leading edge of the auxiliary wing section that is a greater on the support-section side than on an intake side, and the thickness of the auxiliary wing section is constant across the entire area of the auxiliary wing section.
The present invention relates to a casting die device (50) and a casting method used to obtain a cast product (10) in which an inner bore (14), at least one end of which is open, is formed. The casting die device (50) has a core pin (46) for forming the inner bore (14) in the cast product (10), and a vibration-transmitting member (90) for transmitting vibrations from a vibrator (98) of a micro-vibration machine (100) to the core pin (46). When casting is being performed, vibrations from the vibrator (98) are imparted to the core pin (46) by way of the vibration-transmitting member (90). The vibrations also propagate to sites surrounding the core pin (46), in molten metal (66) that has been poured into a cavity (60).
B22D 17/22 - Moules métalliquesPlaques de moulesSupports de moulesÉquipement de refroidissement des moulesAccessoires pour l'extraction et l'éjection des pièces hors du moule
In this vehicular air-conditioning device (10), an inner wall surface (14a) along a width direction of an air-conditioning casing (14) is provided with guide portions (28) each extending in a vertical direction. The guide portions (28) are recessed on the outside in the width direction, forming recesses with respect to the inner wall surface (14a). When an evaporator (16) is inserted from above the air-conditioning casing (14) and assembled inside, second seal portions (56a, 56b) of side plates (50a, 50b) disposed on side surfaces of the evaporator (16) are respectively inserted into the guide portions (28), whereby the evaporator is guided along the vertical direction. The guide portions (28) further include an entry portion (38) disposed at an upper end portion of a first guide wall (30) and expanding in a direction away from a second guide wall (32). Thus, the evaporator (16) can be inserted into the air-conditioning casing (14) from above in a preferable manner.
A method for manufacturing a valve housing for a pressure adjustment valve whereby a molding device (61), which demarcates a cavity (64) corresponding to a valve housing (36) comprising a tubular part (36a) and an end wall part (36b), is provided with a circular gate (67), which opens at an outer end surface (64a) of the cavity (64) corresponding to the end wall part (36b), and is oriented toward an inner end surface (64b) of the cavity, and a synthetic resin (70) in which short fibers (69) are combined is injected into the cavity (64) from this circular gate (67), thereby causing this synthetic resin (70) to collide with the inner end surface (64b) and then to fill each part of the cavity (64). Thus, it is possible to provide a manufacturing method with which no weld line is generated and with which a valve housing can be effectively strengthened by means of short fibers, when a valve housing is formed by injection molding.
F16K 17/04 - Soupapes ou clapets de sûretéSoupapes ou clapets d'équilibrage ouvrant sur excès de pression d'un côtéSoupapes ou clapets de sûretéSoupapes ou clapets d'équilibrage fermant sur insuffisance de pression d'un côté actionnés par ressort
F02M 37/00 - Appareils ou systèmes pour transférer le combustible liquide des réservoirs de stockage aux carburateurs ou aux injecteursDispositions d'épuration du combustible liquide spécialement conçues pour les moteurs à combustion interne ou aménagées sur ceux-ci
F16K 27/00 - Structures des logementsMatériaux utilisés à cet effet
A pressure regulation valve regulates pressure within a fuel passage (28) to a predetermined value, the fuel passage (28) feeding a fuel to the fuel injection valve (I) of an engine, the fuel being discharged from a fuel pump (P). The pressure regulation valve is provided with: a high-pressure port (37) connecting either to the fuel passage (28) or to a pressure regulation passage (35) connecting to the fuel passage (28); a valve chamber (42) connecting to the high-pressure port (37) through a circular conical valve seat (38) and open to a low-pressure section; a spherical valve body (39) housed within the valve chamber (42) and opening and closing the high-pressure port (37) in cooperation with the valve seat (38); and a pressure regulation spring (40) for pressing, with a predetermined set load, the spherical valve body (39) in the direction in which the spherical valve body (39) sits on the valve seat (38). The taper angle (θ) of the circular conical valve seat (38) is set in the range of 20° to 36°. The above-described configuration can prevent the occurrence of noise caused by the vibration of the spherical valve body in the diameter direction of the valve seat during pressure regulation operation in which the spherical valve body is open.
F02M 37/00 - Appareils ou systèmes pour transférer le combustible liquide des réservoirs de stockage aux carburateurs ou aux injecteursDispositions d'épuration du combustible liquide spécialement conçues pour les moteurs à combustion interne ou aménagées sur ceux-ci
F02M 55/02 - Conduits entre pompes d'injection et injecteurs
F02M 59/44 - Détails, parties constitutives ou accessoires, non couverts dans les groupes ou présentant un intérêt autre que celui visé par ces groupes
A vehicular electronic control device (10, 100) that has the following: a heat-generating component (20), a substrate (30) on which said heat-generating component (20) is mounted, and a containing case (40) that contains the heat-generating component (20) and the substrate (30). The heat-generating component (20) and the substrate (30) are sealed inside the containing case (40) by a resin part (60) that fills the interior of the containing case (40). This vehicular electronic control device (10, 100) is also provided with a metal heat-diffusing cover (50) that is attached to a first mounting surface (30a) of the substrate (30) so as to cover the heat-generating component (20) with a prescribed separation therebetween and is sealed inside the containing case (40) by the resin part (60) filling the interior of said containing case (40).
Provided is an electronic control device (10), in which on a substrate (30) the following are formed: a first wiring pattern (111) that shares the electrical wiring (111a, 111b, 111c) of an upstream side switching element group (101, 103, 105); and a second wiring pattern (112) that shares the electrical wiring (112a, 112b, 112c) of a downstream side switching element group (102, 104, 106). At least one of the first wiring pattern (111) and the second wiring pattern (112) is a solid pattern.
H05K 7/20 - Modifications en vue de faciliter la réfrigération, l'aération ou le chauffage
H01L 23/36 - Emploi de matériaux spécifiés ou mise en forme, en vue de faciliter le refroidissement ou le chauffage, p. ex. dissipateurs de chaleur
H01L 25/07 - Ensembles consistant en une pluralité de dispositifs à semi-conducteurs ou d'autres dispositifs à l'état solide les dispositifs étant tous d'un type prévu dans une seule des sous-classes , , , , ou , p. ex. ensembles de diodes redresseuses les dispositifs n'ayant pas de conteneurs séparés les dispositifs étant d'un type prévu dans la sous-classe
H01L 25/18 - Ensembles consistant en une pluralité de dispositifs à semi-conducteurs ou d'autres dispositifs à l'état solide les dispositifs étant de types prévus dans plusieurs différents groupes principaux de la même sous-classe , , , , ou
H02M 7/48 - Transformation d'une puissance d'entrée en courant continu en une puissance de sortie en courant alternatif sans possibilité de réversibilité par convertisseurs statiques utilisant des tubes à décharge avec électrode de commande ou des dispositifs à semi-conducteurs avec électrode de commande
A fuel supplying device in which an electric motor and a fuel pump are housed in a pump housing having a deaeration hole, an exhaust port, and an intake port to which an intake filter is connected, and a deaeration hole space and a portion in which a vapor phase occurs are communicated inside a fuel tank by a vapor discharge channel, wherein the intake filter (41) is provided with: a bag-shaped filter medium (42); a connecting tube part (44) communicated at one end thereof with the intake port and having at the other end part thereof a lead-out port (43) opening into the filter medium (42); a flange part (45) provided to the other end part of the connecting tube part (44) and provided in connected fashion to the filter medium (42) so that at least a portion of the flange part (45) is disposed in the filter medium (42); and a protective part (46) for restricting a portion of the filter medium (42) facing the lead-out port (43) from displacing more than a predetermined amount toward the lead-out port (43), allowing the circulation of fuel to the connecting tube part (4) from inside the filter medium (42), and protruding toward the inside of the filter medium (42). By this configuration, even when the intake filter becomes clogged, sudden changes in engine behavior are prevented.
F02M 37/10 - Alimentation au moyen de pompes entraînées entraînées par moyen électrique immergées dans le combustible, p. ex. dans le réservoir
F02M 37/20 - Appareils ou systèmes pour transférer le combustible liquide des réservoirs de stockage aux carburateurs ou aux injecteursDispositions d'épuration du combustible liquide spécialement conçues pour les moteurs à combustion interne ou aménagées sur ceux-ci caractérisées par des moyens d'éviter le tampon de vapeur
F02M 37/22 - Dispositions d'épuration du combustible liquide spécialement conçues pour les moteurs à combustion interne ou aménagées sur ceux-ci, p. ex. aménagées dans le système d'alimentation
[Solution] An electronic control device for a vehicle (1) is provided with a printed substrate (3) and a case (4). At least an external connector is mounted on the print substrate, and the case houses the printed substrate (3). A key section (K) is provided on a mounting surface of the case (4).
H02G 3/16 - Boîtes de distributionBoîtes de connexion ou de dérivation associées par construction à un support pour bornes de connexion de ligne à l'intérieur de la boîte
H01R 13/64 - Moyens pour empêcher, bloquer ou éviter le couplage incorrect
H01R 43/00 - Appareils ou procédés spécialement adaptés à la fabrication, l'assemblage, l'entretien ou la réparation de connecteurs de lignes ou de collecteurs de courant ou pour relier les conducteurs électriques
H05K 5/02 - Enveloppes, coffrets ou tiroirs pour appareils électriques Détails
81.
AIR INTAKE DEVICE FOR ENGINE FOR TWO-WHEELED MOTOR VEHICLE
An air intake device for an engine for a two-wheeled motor vehicle is configured in such a manner that the center of a throttle sensor (18), the center of an intake air temperature sensor (19), and the center of an intake air pressure sensor (20) are provided at the apexes of a triangle (35) formed in a sensor housing (17) and located upstream in an air intake passage (2) relative to the axis (Y) of a valve shaft (5a). In the sensor housing (17), the throttle sensor (18), the intake air temperature sensor (19), and the intake air pressure sensor (20) are concentrically installed upstream in the air intake passage (2) relative to the axis (Y) of the valve shaft (5a). This configuration enables, independently particularly of the intake air pressure sensor (19), a reduction in the axial length of a throttle body (1) located downstream in the air intake passage (2) relative to the valve shaft (5a). Consequently, the size and weight of the throttle body (1) are capable of being reduced, and simultaneously, the size of the sensor housing (17) is capable of being reduced.
F02D 35/00 - Commande non électrique des moteurs en fonction des conditions extérieures ou intérieures aux moteurs, non prévue ailleurs
F02D 9/10 - Obturateurs d'étranglement spécialement adaptés à cet effetAménagements de ces obturateurs sur les conduits comportant des volets pivotants
82.
THROTTLE BODY ASSEMBLY WITH ATTACHED BYPASS CONTROL DEVICE
In this throttle body assembly with an attached bypass control device, a control base body (5) is connected to an attachment surface (1a) on one side of a throttle body (1); on the attachment surface (1a) are formed a first communication groove (16) continuous with the downstream end of an upstream passage (14) of a bypass (13), and a second communication groove (17) continuous with the upstream end of a downstream path (15) of the bypass (13). On the control base body (5) are formed a valve guide hole (7), an inlet hole (11) allowing the first communication groove (16) to communicate with the valve guide hole (7), and a measurement hole (10) which allows the second communication groove (17) to communicate with the valve guide hole (7) and which is opened and closed by the control valve (12). The valve guide hole (7), the control valve (12) and an electric motor (20) are disposed such that the common axis (Y) of these is perpendicular to the axis (X) of an intake path (2), and the measurement hole (10) and the downstream end of the downstream path (15) are arranged offset (S) from each other along the axis (X) of the intake path (2).
F02M 69/32 - Appareils d'injection de combustible à basse pression caractérisés par des moyens pour faciliter le démarrage ou le ralenti du moteur ou par des moyens pour augmenter la charge de combustible, p. ex. au-dessous des températures normales de fonctionnement ou en cas d'exigence d'une puissance élevée du moteur avec un passage de dérivation d'air autour du clapet d'étranglement d'air ou avec un passage d'arrivée d'air auxiliaire, p. ex. avec un clapet réglable dans ce passage
F02D 9/10 - Obturateurs d'étranglement spécialement adaptés à cet effetAménagements de ces obturateurs sur les conduits comportant des volets pivotants
A flow volume control device wherein a first connecting flange (35) made of a synthetic resin is provided extending in a direction orthogonal to the axial direction of an attachment hole (19) on a control substrate (5), a second connecting flange (36) made of a synthetic resin and opposing the first connecting flange (35) is provided on a stator (20a) of an actuator (20), an adhesion recess (39) is provided on the opposing surface of the first or the second connecting flange (35, 36), an adhesion protrusion (40) that is inserted into the adhesion recess (39) is provided on the opposing surface of the other flange, an electrically heated wire (44) that causes the periphery of the bottom part of the adhesion recess (39) and the periphery of the tip part of the adhesion protrusion (40) to adhere to each other is arranged between the bottom part of the adhesion recess and the tip part of the adhesion protrusion, and adhesion-limiting parts (45, 46) are provided respectively on the first and second connecting flanges (35, 36) such that, when the adhesion depth of the bottom part and the tip part reaches a prescribed value, the flanges are in contact with each other while that prescribed value is maintained. Thus is provided a device which is equipped with a connecting structure for a control substrate and an actuator and which has fewer parts and a simple structure, and is inexpensive.
F02D 9/02 - Commande des moteurs par étranglement des conduits d'amenée de l'air ou du mélange air-combustible ou par étranglement des conduits d'échappement par étranglement des conduits d'amenée
F02M 69/00 - Appareils d'injection de combustible à basse pression
84.
ELECTRONIC CIRCUIT DEVICE AND METHOD FOR MANUFACTURING SAME
Provided is an electronic circuit device that forms a parting line so as to not allow the intrusion of moisture inside a connector and that allows for a reduction in manufacturing costs, and a method for manufacturing the same. The electronic circuit device (1) is provided with a resin sealing member (6, 7) for sealing a circuit substrate (2) having electronic components (4) mounted thereon and having a terminal section (5) formed at one end section, the resin sealing member (6) being provided with a parting line (9) that is formed to extend around an axis in the direction for inserting the terminal section (5). The electronic circuit device (1) is obtained by a manufacturing method that uses a die apparatus (21) comprising: an upper die (22) provided with a first cavity section (24) having a shape that follows the contour of the half section (6) of the resin sealing member on the side opposite the terminal section (5); and a lower die (23) provided with a second cavity section (27) having a shape that follows the contour of the half section (7) of the resin sealing member at the terminal section (5) side.
H01R 13/52 - Boîtiers protégés contre la poussière, les projections, les éclaboussures, l'eau ou les flammes
B29C 45/14 - Moulage par injection, c.-à-d. en forçant un volume déterminé de matière à mouler par une buse d'injection dans un moule ferméAppareils à cet effet en incorporant des parties ou des couches préformées, p. ex. moulage par injection autour d'inserts ou sur des objets à recouvrir
H01R 12/72 - Dispositifs de couplage pour circuits imprimés rigides ou structures similaires se couplant avec la bordure des circuits imprimés rigides ou des structures similaires
H01R 43/24 - Assemblage par moulage sur les pièces de contact
H05K 1/11 - Éléments imprimés pour réaliser des connexions électriques avec ou entre des circuits imprimés
H05K 3/00 - Appareils ou procédés pour la fabrication de circuits imprimés
H05K 3/28 - Application de revêtements de protection non métalliques
[Problem] To correctly obtain a learning value of a control parameter even if a power ON/OFF operation is repeated. [Solution] An electronic control device (1) has a flash memory (12) for storing a learning value of a control parameter. The flash memory (12) has a plurality of blocks (31, 32), and if there is no free space in the first block (31) when power is activated, checks whether there is a group of learning values in the block (31). If a group of learning values are uniformly arranged in the second block (32), new learning values are written to the next block. Meanwhile, if a group of learning values are not uniformly arranged in the second block (32), the data in the second block (32) is erased and then the new learning values are written to the second block (32).
Provided is a stacked coil in which a plurality of conductor plates made of conductive metal of annular shape at least partially divided by slits are stacked while sequentially offsetting the positions of the slits, the slits in conductor plates situated adjacently in the stacking direction for the purpose of imparting helical shape to the energizing path in the stacked state being joined one end to the other, wherein the plurality of conductor plates (6) are stacked while being mutually insulated, one side of a slit (8) of one conductor plate (6) of conductor plates (6) that are adjacently situated in the stacking direction being connected to other side of the slit (8) of the other conductor plate (6) by a pressure fit joint portion (5) so as to produce an electrical connection. In so doing, ease of fabrication without undue time and effort is possible, and cost reductions can be achieved.
H01F 41/04 - Appareils ou procédés spécialement adaptés à la fabrication ou à l'assemblage des aimants, des inductances ou des transformateursAppareils ou procédés spécialement adaptés à la fabrication des matériaux caractérisés par leurs propriétés magnétiques pour la fabrication de noyaux, bobines ou aimants pour la fabrication de bobines
H02K 3/26 - Enroulements caractérisés par la configuration, la forme ou le genre de construction du conducteur, p. ex. avec des conducteurs en barre constitués par des conducteurs imprimés
H02K 15/04 - Procédés ou appareils spécialement adaptés à la fabrication, l'assemblage, l'entretien ou la réparation des machines dynamo-électriques d'enroulements avant leur montage dans les machines
A fuel injection valve comprising: a valve assembly (10) comprising a valve body (13) that works in conjunction with a valve seat (7) and opens and closes a nozzle hole (9), a connecting rod (14) connected to the rear end of this valve body (13), and a movable core (12) connected to the rear end of this connecting rod (14) and facing the front end of a fixed core (5); and a coil (22) arranged so as to encompass the fixed core (5), and which attracts the movable core (12) to the fixed core (5) by electric current passing therethrough, and opens the valve body (13). The fuel injection valve has: a fuel chamber (55) that connects to a fuel supply unit, provided between the connecting rod (14) and a valve housing (3); an outside fuel passage (57) that connects the fuel chamber (55) to the nozzle hole (9) when the valve body (13) is open, provided between the valve body (13) and the valve housing (3); and an inside fuel passage (56) provided inside the valve body (13) and that, when the valve body (13) is open, connects the fuel chamber (55) to the nozzle hole (9) in parallel to the outside fuel passage (57). As a result, the fuel passage around the valve body can be increased and the fuel injection amount can be increased, without increasing the opening stroke of the valve body.
A fuel injection valve having provided therein: a central fuel passage (49) connected to a fuel supply unit in the center section of a fixed core (5) and a movable core (12); a valve body (13) formed in a hollow cylindrical shape; an inside fuel passage (56) inside the valve body (13), connected to a nozzle hole (9) when the valve body (13) is open; and a vertical groove (54) on the outer circumference of a connecting rod (14), that linearly connects the central fuel passage (49) to the inside fuel passage (56). As a result, a fuel injection valve can be provided in which the flowpath resistance between the central fuel passage and the nozzle hole is reduced as much as possible, and the fuel injection amount can be increased without increasing the opening stroke of the valve body or the amount of time the valve body is open.
[Problem] To provide: a degassing device which does not require valve cooling and which can be mounted in the degassing passage of a die using a simple configuration; and a molding device using the degassing device. [Solution] A degassing device is provided with: a valve body (20) which can perform the operation of opening and closing the degassing passage (114) of a die (102) provided with a cavity (108); and an air cylinder (48) and a solenoid valve (66), which operate the valve body (20). The degassing device is characterized in that the air cylinder (48) and the solenoid valve (66) are disposed outside the die (102) while being separated from the valve body (20), and in that the valve body (20) and the air cylinder (48) are connected by a flexible, force transmission means (wire (44) and link mechanism (40)) for transmitting force from the air cylinder (48).
B22D 17/22 - Moules métalliquesPlaques de moulesSupports de moulesÉquipement de refroidissement des moulesAccessoires pour l'extraction et l'éjection des pièces hors du moule
A fuel injection valve comprising a valve assembly (10) comprising a valve body (13), a connecting rod (14) connected to the rear end thereof, and a movable core (12) connected to the rear end of the connecting rod (14). A fuel chamber (55) is provided between the connecting rod (14) and the valve housing (3) and an outside fuel passage (57) connecting the fuel chamber (55) to a nozzle hole (9) when the valve body (13) is open is provided between the valve body (13) and a valve housing (3). The valve body (13) is configured by: an annular valve section (13a) having an inside fuel passage (56) on the inside thereof that is capable of being connected to the nozzle hole (9); and a connecting tube section (13b) connected to the rear end thereof and to which a connecting end section (14a) of the connecting rod (14) fits. A first cutout (50) that connects the fuel chamber (55) to the outside fuel passage (57) is provided in the connecting tube section (13b) and a second cutout (52) that connects the first cutout (50) to the inside fuel passage (56) is provided in the connecting end section (14a). As a result, the fuel passage around the valve body can be increased and the fuel injection amount can be increased, without increasing the opening stroke of the valve body.
A fuel injection valve in which a valve body (13) is configured by: an annular valve section (13a) facing a valve seat (7); and a connecting tube section (13b) connected to the rear end of this valve section (13a) and to which a connecting end section (14a) of the front section of a connecting rod (14) fits and is joined. The connecting tube section (13b) has a journal section (13b1) that slidably fits on to the inner circumferential surface of a valve housing (3); an outside fuel passage (57) is formed in an annular shape so as to encompass the valve section (13a) and has a first cutout (50) that connects the outside fuel passage (57) to the fuel chamber (55), provided in the connecting tube section (13b); the inside of the valve section (13a) is formed into a tubular inside fuel passage (56) that connects to a nozzle hole (9) when the valve body (13) is open; and a second cutout (52) that connects this inside fuel passage (56) to the fuel chamber (55) is provided in the connecting end section (14a). As a result, the fuel passage around the valve body can be increased and the fuel injection amount can be increased, without increasing the open stroke of the valve body.
F02M 61/18 - Buses d'injection, p. ex. comportant des sièges de clapets
F02M 21/02 - Appareils pour alimenter les moteurs en combustibles non liquides, p. ex. en combustibles gazeux stockés sous forme liquide en combustibles gazeux
A fuel injection valve comprising: a valve assembly (10) comprising a valve body (13), a movable core (12), and a connecting rod (14); a central fuel passage (49) that penetrates a fixed core (5) and the movable core (12); a fuel chamber (55) formed between the connecting rod (14) and a valve housing (3); and an outside fuel passage (57) formed between the valve body (13) and the valve housing (3), and which can connect the fuel chamber (55) to a nozzle hole (9). A rear-side recessed section (51a) that opens to the central fuel passage (49) and a rear cutout (52a) that opens this rear-side recessed section (51a) to the fuel chamber (55) are provided in the rear end section of the connecting rod (14); the valve body (13) is formed in a hollow cylindrical shape; an inside fuel passage (56) capable of connecting to the nozzle hole (9) is provided on the inside of the valve body (13); a front-side recessed section (51b) that opens to the inside fuel passage (56) and a front cutout (52b) that opens this front-side recessed section (51b) to the fuel chamber (55) are formed in the front end section of the connecting rod (14). As a result, the flowpath resistance between the central fuel passage and the nozzle hole can be reduced as much as possible, and the fuel injection amount can be increased without increasing the opening stroke of the valve body or the amount of time the valve body is open.
In an engine air intake control device, a control interior face (8a) is formed on the interior face of a valve guide hole, a measuring hole to the control interior face (8a) is opened, and a control exterior face (8b) is formed on the exterior face of a control valve to slide in contact with the control interior face (8a). A first pressing section (35a) of a rotational stop means (26), between a control valve and a slide piece, presses the slide piece so that the control exterior face (8b) is brought in contact with the control interior face (8a) by pressing a first pressure receiver (36a) when operating a screw shaft (29) in forward, and a second pressing section (35b) presses the slide piece so that the control exterior face (8b) is brought in contact with the control interior face (8a) by pressing a second pressure receiver (36b) when operating the screw shaft (29) in reverse. Thus, a gap can be prevented by always having the interior face of the valve guide hole in which the measuring hole is opened and the exterior face of the control vale in contact, with manufacturing errors or assembly errors having no substantial impact.
F02M 69/32 - Appareils d'injection de combustible à basse pression caractérisés par des moyens pour faciliter le démarrage ou le ralenti du moteur ou par des moyens pour augmenter la charge de combustible, p. ex. au-dessous des températures normales de fonctionnement ou en cas d'exigence d'une puissance élevée du moteur avec un passage de dérivation d'air autour du clapet d'étranglement d'air ou avec un passage d'arrivée d'air auxiliaire, p. ex. avec un clapet réglable dans ce passage
A fuel injection valve comprises: a spring retainer (36) which is disposed and affixed within a stationary core (5) and which has a hollow section serving as a center fuel passage (50) for connecting the inside of a fuel inlet cylinder (6) to the inside of a valve housing (3); and a return spring (33) which is provided in a compressed position between a rear spring seat (35) at the front end of the spring retainer (36) and the front spring seat (34) of a movable core (12) and which presses a valve body (13) toward a valve seat (7). An outer fuel passage (51) which connects the inside of the fuel inlet cylinder (6) to the inside of the valve housing (3) and which extends parallel to the center fuel passage (50) is formed between the spring retainer (36) and the stationary core (5). As a result of this configuration, the cross-sectional area of the fuel passage around the spring retainer can be increased without impairing the function of the spring retainer which serves as a seat for the return spring.
F02M 21/02 - Appareils pour alimenter les moteurs en combustibles non liquides, p. ex. en combustibles gazeux stockés sous forme liquide en combustibles gazeux
In a pressure reducing valve, a coupling mechanism (39) which couples a valve stem (27) of a pressure reducing valve body (10) to a diaphragm rod (38) is configured by way of: a bottomed linkage hole (40) provided on the diaphragm rod (38); a reduced-diameter stem portion (27a) provided on the valve stem, and first and second large-diameter stem portions (27b and 27c) disposed on both sides, in the axial direction, of the reduced-diameter stem portion (27a); a holding plate (41) which has a latch recess portion (41a) which is open on one side and allows loose insertion of the reduced-diameter stem portion (27a), and which is fit into the linkage hole (40); and retaining rings (44) which engage first retaining grooves (42) of the outer peripheral surface of the holding plate (41) and second retaining grooves (43) of the inner periphery of the linkage hole (40) so as to allow enlargement along the diameter direction of the valve stem (27). To the linkage hole (40), a set spring (58) which biases the holding plate (41) toward the valve opening side of the pressure reducing valve body (10) is compressedly disposed. As a result, when opening and closing the pressure reducing valve body, occurrence of noise caused by rattling within the coupling unit for the diaphragm rod and the valve stem is prevented so as to provide a silent pressure reducing valve.
G05D 16/06 - Commande de la pression d'un fluide sans source d'énergie auxiliaire l'élément sensible étant un organe élastique cédant à la pression, p. ex. un diaphragme, un soufflet, une capsule
F02M 21/02 - Appareils pour alimenter les moteurs en combustibles non liquides, p. ex. en combustibles gazeux stockés sous forme liquide en combustibles gazeux
F02M 37/00 - Appareils ou systèmes pour transférer le combustible liquide des réservoirs de stockage aux carburateurs ou aux injecteursDispositions d'épuration du combustible liquide spécialement conçues pour les moteurs à combustion interne ou aménagées sur ceux-ci
F16K 17/30 - Soupapes ou clapets limiteurs de débit fonctionnant par différence de pression entre deux points de l'écoulement et agissant directement sur l'élément d'obturation dans un sens uniquement sous l'action d'un ressort
96.
GAS FILTER, MOLD DEVICE, MOLD INTERIOR INFORMATION MEASUREMENT SENSOR, METHOD FOR REMOVING GAS IN MOLD, AND METHOD FOR MANUFACTURING INJECTION-MOLDED PRODUCT
[Problem] To provide a gas filter capable of reliably removing gas from a cavity in a mold, a mold device using this gas filter, a mold interior information measurement sensor, a method for removing gas in a mold, and a method for manufacturing an injection-molded product. [Solution] A gas filter (50) that removes gas from a cavity (14) in a mold (12), and is equipped with a rod-shaped member formed of metal and having slit-shaped space parts (54) penetrating in the axial direction thereof.
B22D 17/22 - Moules métalliquesPlaques de moulesSupports de moulesÉquipement de refroidissement des moulesAccessoires pour l'extraction et l'éjection des pièces hors du moule
In the present invention, at the time of starting an engine using gaseous fuel, energization of a shut-off valve is started and gaseous fuel injection by energization control of a gaseous fuel injection valve is started. Subsequent to starting energization of the shut-off valve, on the basis of high-pressure pipe pressure recognized from the output signal of a pressure sensor, in a case where it was determined that a gaseous fuel tank is filled with gaseous fuel and thereafter determined that a second valve of the shut-off valve is not open, fuel injection is switched to liquid fuel injection by energization control of the liquid fuel-injection valve.
F02M 21/02 - Appareils pour alimenter les moteurs en combustibles non liquides, p. ex. en combustibles gazeux stockés sous forme liquide en combustibles gazeux
F02D 19/06 - Commande des moteurs caractérisés par l'emploi de combustible non liquide, de combustibles multiples ou de substances non combustibles ajoutées au mélange carburant particulière aux moteurs fonctionnant avec des combustibles multiples, p. ex. alternativement du fuel léger et du fuel lourd, et autres que les moteurs indifférents au combustible utilisé
F02D 41/06 - Dispositions de circuits pour produire des signaux de commande introduisant des corrections pour des conditions particulières de fonctionnement pour le démarrage ou le réchauffage du moteur
A fuel supply device in which an electric motor and a fuel pump are accommodated and held in a pump housing having an intake port, a discharge port, and a deaeration hole, and an intake filter for filtering fuel in a fuel tank is connected to an intake port; wherein a gas-phase portion in a fuel tank (5) and a deaeration hole (15) are communicated by a passage (41), the pressure of fuel discharged from a discharge port (14) is detected by a detection means (45), and when the detection value of the detection means (45) is lower than the pressure of states of no clogging in an intake filter (39), a filter clogging determination means (46) determines that there is clogging in the intake filter (39). It is thereby possible to quickly and accurately perceive that there is clogging in the intake filter.
F02M 37/22 - Dispositions d'épuration du combustible liquide spécialement conçues pour les moteurs à combustion interne ou aménagées sur ceux-ci, p. ex. aménagées dans le système d'alimentation
F02M 37/10 - Alimentation au moyen de pompes entraînées entraînées par moyen électrique immergées dans le combustible, p. ex. dans le réservoir
[Problem] Provided is a die casting apparatus configured so that a sensor, which can reliably and easily acquire information on the interior of the die such as gas pressure or metal pressure inside the cavity or metal temperature, can be easily fitted in the die. [Solution] A peninsular detection cavity into which molten metal is filled in the same manner as the product cavity is formed in continuity with the product cavity. The formation site of said peninsular section (detection cavity) is formed so as to protrude from the entrance portion of the exhaust pathway or from a selected surface portion of the die cast product and is formed at a position where the sensor measurement rod can be removed easily from the die. The sensor measurement rod is inserted here and gas pressure, metal pressure, or metal temperature is detected by the sensor.
B22D 17/22 - Moules métalliquesPlaques de moulesSupports de moulesÉquipement de refroidissement des moulesAccessoires pour l'extraction et l'éjection des pièces hors du moule
A fuel injection valve equipped with a cylinder pressure sensor, wherein a fuel injection valve (I) that directly injects fuel into the combustion chamber (Ec) of an engine (E) from the front end of a valve housing part (2) is mounted in an injection valve attachment hole (7) provided in the engine (E). A cylindrical cylinder pressure sensor (10), the front end of which faces the combustion chamber (Ec), and a cylindrical signal circuit tube (11), which is fitted and connected to the inner circumferential surface of the rear-end part of the cylinder pressure sensor (10), are fitted onto and affixed to the outer circumferential surface of the valve housing part (2) housed in the injection valve attachment hole (7) of this fuel injection valve (I). Thus, it is possible to provide a fuel injection valve equipped with a cylinder pressure sensor for which the signal transmission means connected to the cylinder pressure sensor does not vibrate in the injection valve attachment hole, and thus the durability thereof can be maintained.
