The present invention relates to a heat exchanger module having a collector and a heat exchanger. It is substantial for the invention that on a connecting flange of the collector at least one groove equipped for conducting refrigerant is provided. Further, the invention relates to a motor vehicle having at least one such heat exchanger module.
The present invention relates to a heat exchanger module for an air-conditioning system or a heat pump system, which comprises a heat exchanger for cooling refrigerant, which is penetrated by a refrigerant channel for refrigerant, and a collector for drying and storing refrigerant, which is penetrated by a storage channel for refrigerant. It is substantial that the heat exchanger module, furthermore, comprises a coupling device equipped for the mechanical and fluidic connection of heat exchanger and collector, by way of which in the assembled state of the heat exchanger module, the heat exchanger is mechanically fixed to the collector and the refrigerant channel fluidically connected to the storage channel. Furthermore, the invention relates to a method for providing such a heat exchanger module and to a motor vehicle system having at least one such heat exchanger module.
A fluid collector having a housing having a tubular circumferential wall with a first end face having a first opening and with a second end face having a second opening, which is situated opposite the first opening of the first end face, a first cover being provided, which closes the first opening on the first end face, and a second cover being provided, which closes the second opening on the second end face. The tubular circumferential wall has an area with an, in particular, planar connecting surface, on which at least one flange element is arranged and fastened as a connecting element, at least one bore or one channel being provided in the area having the connecting surface, which fluidically connects the interior of the housing to the at least one connecting element.
F25B 43/00 - Dispositions pour la séparation ou la purification des gaz ou des liquides; Dispositions pour la vaporisation des résidus de fluides frigorigènes, p.ex. par la chaleur
A heat exchanger including a heat exchanger block having first fluid channels and second fluid channels, including a fluid collector, the first fluid channels having a first fluid channel section and a second fluid channel section. A first fluid inlet is provided, which is fluidically connected to the first fluid channel section of the first fluid channels. A first fluid outlet is fluidically connected to the first fluid channel section of the first fluid channels. A second fluid inlet is fluidically connected to the second fluid channel section of the first fluid channels. A second fluid outlet is fluidically connected to the second fluid channel section of the first fluid channels. The fluid collector has a third fluid inlet, a third fluid outlet, and a fourth fluid inlet, which is fluidically connected to the second fluid channels. A fourth fluid outlet is fluidically connected to the second fluid channels.
F28D 1/053 - 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 d avec des canalisations d'échange de chaleur immergées dans la masse du fluide avec canalisations tubulaires les canalisations étant rectilignes
F25B 13/00 - Machines, installations ou systèmes à compression, à cycle réversible
F28D 9/00 - Appareils échangeurs de chaleur comportant des ensembles de canalisations fixes en forme de plaques ou de laminés pour les deux sources de potentiel calorifique, ces sources étant en contact chacune avec un côté de la paroi d'une canalisation
A heat exchanger for use in an outdoor environment with a heat pump system is provided. The heat exchanger includes a first set of tubes arranged in a parallel flow manner between a first manifold and a second manifold, wherein central straight portions of adjacent tubes are disposed with a space therebetween along each tube of the first set of tube between the first and second manifolds. A second set of tubes are arranged in a parallel flow manner between a third manifold and a fourth manifold, wherein central straight portions of adjacent tubes within the second set of tubes are at least partially disposed within the space between adjacent tubes of the first set of tubes. A fluid that flows through the first set of tubes additionally flows through the second set of tubes before the fluid returns to again flow through the first set of tubes.
F28D 1/00 - 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 d
A heat exchanger for use in an outdoor environment with a heat pump system is provided. The heat exchanger includes a first set of tubes arranged in a parallel flow manner between a first manifold and a second manifold, wherein central straight portions of adjacent tubes are disposed with a space therebetween along each tube of the first set of tube between the first and second manifolds. A second set of tubes are arranged in a parallel flow manner between a third manifold and a fourth manifold, wherein central straight portions of adjacent tubes within the second set of tubes are at least partially disposed within the space between adjacent tubes of the first set of tubes. A fluid that flows through the first set of tubes additionally flows through the second set of tubes before the fluid returns to again flow through the first set of tubes.
The present invention relates to a filter medium comprising an antimicrobial compound, a method for producing the filter medium, the filter element, a filter system as well as the use of the filter medium for the filtration of water in the combustion chamber of an internal combustion engine.
B01D 39/16 - Autres substances filtrantes autoportantes en substance organique, p.ex. fibres synthétiques
F02M 25/022 - Appareils spécifiques conjugués aux moteurs pour ajouter des substances non combustibles ou de petites quantités de combustible secondaire, à l’air comburant, au combustible principal ou au mélange air-combustible ajoutant une émulsion d'eau et de combustible, de l'eau ou de la vapeur
F02M 25/025 - Appareils spécifiques conjugués aux moteurs pour ajouter des substances non combustibles ou de petites quantités de combustible secondaire, à l’air comburant, au combustible principal ou au mélange air-combustible ajoutant une émulsion d'eau et de combustible, de l'eau ou de la vapeur ajoutant de l'eau
8.
ELECTRIC COMPRESSOR WITH ISOLATION CONSTRAINT SYSTEM
An electric compressor includes a housing, refrigerant inlet port, a refrigerant outlet port, an inverter section, a motor section, a compression device and a front cover. The housing defines an intake volume and a discharge volume. The refrigerant inlet port is coupled to the housing and is configured to introduce the refrigerant to the intake volume. The compression device is a scroll-type compression device configured to compress the refrigerant. The refrigerant outlet port is coupled to the housing and is configured to allow compressed refrigerant to exit the scroll-type electric compressor from the discharge volume.
F04C 18/02 - Pompes à piston rotatif spécialement adaptées pour les fluides compressibles du type à engrènement, c. à d. avec un mouvement de translation circulaire des organes coopérants, chaque organe possédant le même nombre de dents ou de parties équivalentes de prise
F04C 29/00 - "MACHINES" À LIQUIDES À DÉPLACEMENT POSITIF, À PISTON ROTATIF OU OSCILLANT; POMPES À DÉPLACEMENT POSITIF, À PISTON ROTATIF OU OSCILLANT - Parties constitutives, détails ou accessoires de pompes ou d'installations de pompage spécialement adaptées pour les fluides compressibles non couverts dans les groupes
F04C 29/02 - Lubrification; Séparation du lubrifiant
A freeze protection method for a fuel cell system is disclosed. The fuel cell system includes an evaporative cooler device equipped for cooling a heat exchanger of a fuel cell device of the fuel cell system having a feed line, through which during the operation of the fuel cell system, water is pumped to a sprinkling device of the evaporative cooler device and by way of the sprinkling device, the water is applied onto the heat exchanger equipped for temperature-controlling a fuel cell stack of the fuel cell device. The method includes blowing out the evaporative cooler device as part of a deactivation method of the fuel cell system.
H01M 8/04223 - Dispositions auxiliaires, p.ex. pour la commande de la pression ou pour la circulation des fluides pendant le démarrage ou l’arrêt; Dépolarisation ou activation, p.ex. purge; Moyens pour court-circuiter les éléments à combustible défectueux
H01M 8/04029 - Dispositions auxiliaires, p.ex. pour la commande de la pression ou pour la circulation des fluides relatives à l’échange de chaleur Échange de chaleur par des liquides
The invention relates to a method for sprinkling a heat exchanger of a fuel cell vehicle with a fluid. The heat exchanger comprises a sprinkling surface and at least one group with at least one part surface. All part surfaces of all groups together fully represent the sprinkling surface.
The invention relates to a method for sprinkling a heat exchanger of a fuel cell vehicle with a fluid. The heat exchanger comprises a sprinkling surface and at least one group with at least one part surface. All part surfaces of all groups together fully represent the sprinkling surface.
In the method, all part surfaces of the group are sprinkled with the fluid within a sprinkling period and not sprinkled within a drying period.
The invention relates to a method for sprinkling a heat exchanger of a fuel cell vehicle with a fluid. The heat exchanger comprises a sprinkling surface and at least one group with at least one part surface. All part surfaces of all groups together fully represent the sprinkling surface.
In the method, all part surfaces of the group are sprinkled with the fluid within a sprinkling period and not sprinkled within a drying period.
The invention also relates to a sprinkling system for carrying out the method.
A humidifying device (1) for a fuel cell comprises a plurality of flat membrane components (2k) through which moisture can pass and which are stacked, and a spacer (3), which is provided between two adjacent flat membrane components (2k, 2k + 1) and thus forms a flow channel for a fluid. The spacer (3) has on one side abutting parts (31) which abut one of the two flat membrane parts (2k, 2k + 1), on the other side abutting parts (32) which abut another of the two flat membrane parts, and through bores (33) which, in the stacking direction (Z direction) of the plurality of flat membrane components (2k), connect spaces (A1, A2) on both sides of the spacer (3).
H01M 8/04119 - Dispositions pour la commande des paramètres des réactifs, p.ex. de la pression ou de la concentration des réactifs gazeux avec apport simultané ou évacuation simultanée d’électrolyte; Humidification ou déshumidification
A sliding member may include a metallic base, at least one intermediate bonding layer disposed on the metallic base, and a multilayer protective coating disposed on the intermediate bonding layer. The at least one intermediate bonding layer may be composed of at least one metal. The multilayer protective coating may include a plurality of CrAlN layers and a plurality of Cr(Al)N layers arranged in an alternating manner. The multilayer protective coating may include a plurality of periodicity layer groups, each of which may be defined by a CrAlN layer and an adjacent Cr(Al)N layer. The plurality of CrAlN layers may have a higher Al content than the plurality of Cr(Al)N layers. A thickness ratio of the CrAlN layer to the Cr(Al)N layer in each periodicity layer group may be from 1 to 10. The multilayer protective coating may have a total Al content of 15 to 40 atom-%.
C23C 28/00 - Revêtement pour obtenir au moins deux couches superposées, soit par des procédés non prévus dans un seul des groupes principaux , soit par des combinaisons de procédés prévus dans les sous-classes et
F16J 9/26 - Segments de piston, leurs logements; Segments d'étanchéité de structure similaire en général caractérisés par l'emploi de matériaux particuliers
The present invention relates to a system (1) which has at least one component package (2) each with at least one electronic component (3), in particular a semiconductor component (4). The respective component (3) has a first outer surface (6) and a second outer surface (7) facing away from the first outer surface (6). Improved cooling efficiency and simplified manufacture are achieved by providing for at least one of the outer surfaces (6, 7) of the components (3) a cooler (11), wherein a flow path (12) in the cooler (11) substantially locally extends over the associated outer surface (6, 7). The invention further relates to an electric application (100) comprising such a system (1).
H01L 23/373 - Refroidissement facilité par l'emploi de matériaux particuliers pour le dispositif
H01L 23/473 - Dispositions pour le refroidissement, le chauffage, la ventilation ou la compensation de la température impliquant le transfert de chaleur par des fluides en circulation par une circulation de liquides
14.
ELECTRIC COMPRESSOR HAVING A COMPRESSION DEVICE WITH A FIXED SCROLL HAVING A MODIFIED SCROLL FLOOR AND A FIXED SCROLL HAVING A MODIFIED SCROLL FLOOR
An electric compressor includes a housing, refrigerant inlet port, a refrigerant outlet port, an inverter section, a motor section, a compression device and a front cover. The housing defines an intake volume and a discharge volume. The refrigerant inlet port is coupled to the housing and is configured to introduce the refrigerant to the intake volume. The compression device is a scroll-type compression device configured to compress the refrigerant. The refrigerant outlet port is coupled to the housing and is configured to allow compressed refrigerant to exit the scroll-type electric compressor from the discharge volume.
F04C 18/02 - Pompes à piston rotatif spécialement adaptées pour les fluides compressibles du type à engrènement, c. à d. avec un mouvement de translation circulaire des organes coopérants, chaque organe possédant le même nombre de dents ou de parties équivalentes de prise
F04C 18/00 - Pompes à piston rotatif spécialement adaptées pour les fluides compressibles
F04C 29/12 - Dispositions pour l'admission ou l'échappement du fluide de travail, p.ex. caractéristiques de structure de l'admission ou de l'échappement
F04C 29/02 - Lubrification; Séparation du lubrifiant
15.
ELECTRIC COMPRESSOR WITH OIL SEPARATOR AND OIL SEPARATOR FOR USE IN AN ELECTRICAL COMPRESSOR
An electric compressor includes a housing, refrigerant inlet port, a refrigerant outlet port, an inverter section, a motor section, a compression device and a front cover. The housing defines an intake volume and a discharge volume. The refrigerant inlet port is coupled to the housing and is configured to introduce the refrigerant to the intake volume. The compression device is a scroll-type compression device configured to compress the refrigerant. The refrigerant outlet port is coupled to the housing and is configured to allow compressed refrigerant to exit the scroll-type electric compressor from the discharge volume.
F04C 29/00 - "MACHINES" À LIQUIDES À DÉPLACEMENT POSITIF, À PISTON ROTATIF OU OSCILLANT; POMPES À DÉPLACEMENT POSITIF, À PISTON ROTATIF OU OSCILLANT - Parties constitutives, détails ou accessoires de pompes ou d'installations de pompage spécialement adaptées pour les fluides compressibles non couverts dans les groupes
F04C 18/02 - Pompes à piston rotatif spécialement adaptées pour les fluides compressibles du type à engrènement, c. à d. avec un mouvement de translation circulaire des organes coopérants, chaque organe possédant le même nombre de dents ou de parties équivalentes de prise
F04C 29/02 - Lubrification; Séparation du lubrifiant
16.
ELECTRIC COMPRESSOR HAVING A SWING LINK AND INTEGRATED LIMIT PIN AND SWING LINK AND INTEGRATED LIMIT PIN FOR USE IN AN ELECTRIC COMPRESSOR
An electric compressor includes a housing, refrigerant inlet port, a refrigerant outlet port, an inverter section, a motor section, a compression device and a front cover. The housing defines an intake volume and a discharge volume. The refrigerant inlet port is coupled to the housing and is configured to introduce the refrigerant to the intake volume. The compression device is a scroll-type compression device configured to compress the refrigerant. The refrigerant outlet port is coupled to the housing and is configured to allow compressed refrigerant to exit the scroll-type electric compressor from the discharge volume.
F04C 29/00 - "MACHINES" À LIQUIDES À DÉPLACEMENT POSITIF, À PISTON ROTATIF OU OSCILLANT; POMPES À DÉPLACEMENT POSITIF, À PISTON ROTATIF OU OSCILLANT - Parties constitutives, détails ou accessoires de pompes ou d'installations de pompage spécialement adaptées pour les fluides compressibles non couverts dans les groupes
F04C 18/02 - Pompes à piston rotatif spécialement adaptées pour les fluides compressibles du type à engrènement, c. à d. avec un mouvement de translation circulaire des organes coopérants, chaque organe possédant le même nombre de dents ou de parties équivalentes de prise
F04C 29/02 - Lubrification; Séparation du lubrifiant
An electric compressor includes a housing, refrigerant inlet port, a refrigerant outlet port, an inverter section, a motor section, a compression device and a front cover. The housing defines an intake volume and a discharge volume. The refrigerant inlet port is coupled to the housing and is configured to introduce the refrigerant to the intake volume. The compression device is a scroll-type compression device configured to compress the refrigerant. The refrigerant outlet port is coupled to the housing and is configured to allow compressed refrigerant to exit the scroll-type electric compressor from the discharge volume.
F04C 18/02 - Pompes à piston rotatif spécialement adaptées pour les fluides compressibles du type à engrènement, c. à d. avec un mouvement de translation circulaire des organes coopérants, chaque organe possédant le même nombre de dents ou de parties équivalentes de prise
F04C 18/00 - Pompes à piston rotatif spécialement adaptées pour les fluides compressibles
F04C 29/12 - Dispositions pour l'admission ou l'échappement du fluide de travail, p.ex. caractéristiques de structure de l'admission ou de l'échappement
F04C 29/02 - Lubrification; Séparation du lubrifiant
18.
BATTERY DEVICE AND VEHICLE COMPONENT COMPRISING SAME
The present invention relates to a battery device (1) comprising individual battery cells (2, 3), in particular pouch cells, which are connected together in an electrically conductive manner and have electrically conductive contact lugs (4, 5) for producing the electrical contact. It is essential to the invention that at least one such contact lug (4, 5) is placed in a multilayer fold (6) made of contiguous individual layers (7, 8) which are arranged flat on top of one another and are integrally connected, by welding, to one another and to an electrically conductive connector (9) of the battery device (1). The invention also relates to a vehicle component comprising at least one such battery device (1).
H01M 50/516 - Procédés pour interconnecter les batteries ou cellules adjacentes par soudage, brasage ou brasage tendre
H01M 50/503 - Interconnecteurs pour connecter les bornes des batteries adjacentes; Interconnecteurs pour connecter les cellules en dehors d'un boîtier de batterie caractérisées par la forme des interconnecteurs
H01M 50/507 - Interconnecteurs pour connecter les bornes des batteries adjacentes; Interconnecteurs pour connecter les cellules en dehors d'un boîtier de batterie comprenant un arrangement de plusieurs barres omnibus réunies dans une structure de conteneur, p.ex. modules de barres omnibus
H01M 50/528 - Connexions électriques fixes, c. à d. non prévues pour être déconnectées
The invention relates to a battery cell module (1) comprising a cell stack (4) of battery cells (5) and a housing (2) through which coolant fluid can flow. The battery cell module (1) has a conductor group (7) for each cell stack (4), having a conductor (8) and a flexible contact element (10). The contact element (10) has a temperature sensor (11) around which coolant fluid can flow.
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
H01M 10/613 - Refroidissement ou maintien du froid
H01M 50/204 - Bâtis, modules ou blocs de multiples batteries ou de multiples cellules
H01M 50/249 - Montures; Boîtiers secondaires ou cadres; Bâtis, modules ou blocs; Dispositifs de suspension; Amortisseurs; Dispositifs de transport ou de manutention; Supports spécialement adaptés aux aéronefs ou aux véhicules, p.ex. aux automobiles ou aux trains
H01M 50/502 - Interconnecteurs pour connecter les bornes des batteries adjacentes; Interconnecteurs pour connecter les cellules en dehors d'un boîtier de batterie
20.
STATOR FOR AN ELECTRIC MACHINE, AND ELECTRIC MACHINE
The invention relates to a stator (1) for an electric machine. The stator (1) comprises a housing (2), which surrounds a housing interior space (3), and multiple stator laminations (4), which are arranged in the housing interior space (3), are stacked one on top of the other in an axial direction (A) and together form a laminated core (5). The laminated core (5) is radially spaced from the housing (2) such that a fluid path (7) through which a cooling medium (K) can flow for the purposes of cooling the stator (1) is formed by an intermediate space (6) that is formed between the housing (2) and the laminated core (5). The stator (1) furthermore comprises a rib structure (9) for diverting the cooling medium (K) as it flows through the fluid path (7), said rib structure being arranged on an outer circumference (11), which radially inwardly delimits the fluid path (7), of the laminated core (5). Here, the rib structure (9) comprises a plurality of ribs (10) which protrude radially outwardly from the laminated core (5) and project into the fluid path (7).
H02K 9/19 - Dispositions de refroidissement ou de ventilation pour machines avec enveloppe fermée et circuit fermé de refroidissement utilisant un agent de refroidissement liquide, p.ex. de l'huile
H02K 1/20 - Parties fixes du circuit magnétique avec des canaux ou des conduits pour l'écoulement d'un agent de refroidissement
21.
METHOD FOR DETERMINING AN OUTPUT TEMPERATURE OF A FLUID
The invention relates to a method for determining an output temperature of a fluid after flowing through a PTC heater with a PTC heating element. In the method a current of the PTC heating element, a supply voltage of the PTC heating element and a duty cycle of the supply voltage are determined, and the output temperature of the fluid is calculated based on the current (I), the supply voltage and the duty cycle (PWM). The invention also relates to a PTC heater for carrying out the method.
B60H 1/00 - Dispositifs de chauffage, de refroidissement ou de ventilation
G01K 1/022 - Moyens d’indication ou d’enregistrement spécialement adaptés aux thermomètres pour l’enregistrement
G01K 13/024 - Thermomètres spécialement adaptés à des fins spécifiques pour mesurer la température de fluides en mouvement ou de matériaux granulaires capables de s'écouler de gaz en mouvement
22.
ELECTRIC COMPRESSOR WITH ISOLATION CONSTRAINT SYSTEM
An electric compressor includes a housing, refrigerant inlet port, a refrigerant outlet port, an inverter section, a motor section, a compression device and a front cover. The housing defines an intake volume and a discharge volume. The refrigerant inlet port is coupled to the housing and is configured to introduce the refrigerant to the intake volume. The compression device is a scroll- type compression device configured to compress the refrigerant. The refrigerant outlet port is coupled to the housing and is configured to allow compressed refrigerant to exit the scroll-type electric compressor from the discharge volume.
F04C 18/02 - Pompes à piston rotatif spécialement adaptées pour les fluides compressibles du type à engrènement, c. à d. avec un mouvement de translation circulaire des organes coopérants, chaque organe possédant le même nombre de dents ou de parties équivalentes de prise
F04C 29/00 - "MACHINES" À LIQUIDES À DÉPLACEMENT POSITIF, À PISTON ROTATIF OU OSCILLANT; POMPES À DÉPLACEMENT POSITIF, À PISTON ROTATIF OU OSCILLANT - Parties constitutives, détails ou accessoires de pompes ou d'installations de pompage spécialement adaptées pour les fluides compressibles non couverts dans les groupes
F04C 29/02 - Lubrification; Séparation du lubrifiant
An electric compressor includes a housing, refrigerant inlet port, a refrigerant outlet port, an inverter section, a motor section, a compression device and a front cover. The housing defines an intake volume and a discharge volume. The refrigerant inlet port is coupled to the housing and is configured to introduce the refrigerant to the intake volume. The compression device is a scrolltype compression device configured to compress the refrigerant. The refrigerant outlet port is coupled to the housing and is configured to allow compressed refrigerant to exit the scroll-type electric compressor from the discharge volume.
F04C 18/02 - Pompes à piston rotatif spécialement adaptées pour les fluides compressibles du type à engrènement, c. à d. avec un mouvement de translation circulaire des organes coopérants, chaque organe possédant le même nombre de dents ou de parties équivalentes de prise
F04C 18/00 - Pompes à piston rotatif spécialement adaptées pour les fluides compressibles
F04C 29/12 - Dispositions pour l'admission ou l'échappement du fluide de travail, p.ex. caractéristiques de structure de l'admission ou de l'échappement
F04C 29/02 - Lubrification; Séparation du lubrifiant
24.
ELECTRIC COMPRESSOR BEARING OIL COMMUNICATION APERTURE
An electric compressor includes a housing, refrigerant inlet port, a refrigerant outlet port, an inverter section, a motor section, a compression device and a front cover. The housing defines an intake volume and a discharge volume. The refrigerant inlet port is coupled to the housing and is configured to introduce the refrigerant to the intake volume. The compression device is a scroll-type compression device configured to compress the refrigerant. The refrigerant outlet port is coupled to the housing and is configured to allow compressed refrigerant to exit the scroll-type electric compressor from the discharge volume.
F04C 29/02 - Lubrification; Séparation du lubrifiant
F04C 18/02 - Pompes à piston rotatif spécialement adaptées pour les fluides compressibles du type à engrènement, c. à d. avec un mouvement de translation circulaire des organes coopérants, chaque organe possédant le même nombre de dents ou de parties équivalentes de prise
F04C 29/00 - "MACHINES" À LIQUIDES À DÉPLACEMENT POSITIF, À PISTON ROTATIF OU OSCILLANT; POMPES À DÉPLACEMENT POSITIF, À PISTON ROTATIF OU OSCILLANT - Parties constitutives, détails ou accessoires de pompes ou d'installations de pompage spécialement adaptées pour les fluides compressibles non couverts dans les groupes
25.
ELECTRIC COMPRESSOR WITH A MULTICAVITY PULSATION MUFFLER SYSTEM
An electric compressor includes a housing, refrigerant inlet port, a refrigerant outlet port, an inverter section, a motor section, a compression device and a front cover. The housing defines an intake volume and a discharge volume. The refrigerant inlet port is coupled to the housing and is configured to introduce the refrigerant to the intake volume. The compression device is a scroll-type compression device configured to compress the refrigerant. The refrigerant outlet port is coupled to the housing and is configured to allow compressed refrigerant to exit the scroll-type electric compressor from the discharge volume.
F04C 2/02 - Machines ou pompes à piston rotatif du type à engrènement, c. à d. avec un mouvement de translation circulaire des organes coopérants, chaque organe possédant le même nombre de dents ou de parties équivalentes de prise
B60H 1/00 - Dispositifs de chauffage, de refroidissement ou de ventilation
F04C 29/02 - Lubrification; Séparation du lubrifiant
The invention relates to a rechargeable battery arrangement (1) comprising a housing (3), in which at least two energy storage cells (5) held by way of a cell carrier (4) are arranged. The features provided according to the invention are – that a dielectric coolant (6) for cooling the energy storage cells (5) is able to flow through the housing (3) at least in part, – that each energy storage cell (5) has at least one cell contact lug (7) projecting through the cell carrier (4), – that at least two cell contact lugs (7) are electrically conductively connected to one another via a cell connector (8), – that the cell connector (8) bears on the cell carrier (4) in a bearing region (9), – that the cell carrier (4) has in the bearing region (9) at least one groovelike channel (10) covered by the cell connector (8), with the result that dielectric coolant (6) is able to flow behind the cell connector (8) there and cool it.
H01M 10/6566 - Moyens dans l'écoulement du gaz pour guider l'écoulement autour d'un ou plusieurs éléments, p.ex. collecteurs, chicanes ou autres barrières
H01M 50/204 - Bâtis, modules ou blocs de multiples batteries ou de multiples cellules
H01M 50/249 - Montures; Boîtiers secondaires ou cadres; Bâtis, modules ou blocs; Dispositifs de suspension; Amortisseurs; Dispositifs de transport ou de manutention; Supports spécialement adaptés aux aéronefs ou aux véhicules, p.ex. aux automobiles ou aux trains
H01M 50/502 - Interconnecteurs pour connecter les bornes des batteries adjacentes; Interconnecteurs pour connecter les cellules en dehors d'un boîtier de batterie
H01M 50/516 - Procédés pour interconnecter les batteries ou cellules adjacentes par soudage, brasage ou brasage tendre
The present invention relates to a battery (1), in particular a traction battery (2), having a housing (4) and battery cells (5) which are arranged in the housing (4) and are arranged in a flow path (3) of a cooling fluid passing through the housing (4). An increased power density of the battery (1) is achieved by virtue of the fact that a heat sink (8) which is arranged between two successive battery cells (5) and has a protruding section (10) delimits, with an end face (6) of at least one of the associated battery cells (5), a cavity (11) through which the flow path (3) passes. The invention also relates to a motor vehicle (100) comprising such a battery (1).
H01M 10/60 - Chauffage ou refroidissement; Commande de la température
H01M 10/653 - Moyens de commande de la température associés de façon structurelle avec les éléments caractérisés par des matériaux électriquement isolants ou thermiquement conducteurs
A device, e.g., a heat exchanger, is disclosed. The device includes a first component and a second component. The first component has at least a first surface portion and a second surface portion. The first surface portion and the second surface portion are located opposite to one another and are spaced apart from one another. The first component includes a first support groove provided at the first surface portion and a functional groove provided at the first surface portion. The functional groove is arranged spaced apart from the first support groove at least in some sections. The functional groove is structured and arranged for partially receiving a second component for a substance-to-substance bond.
A cover member for a motor unit is disclosed. The cover member is interposed between a motor and a control substrate for controlling operation of the motor. The motor has a bus bar terminal electrically connected to a coil of a stator of the motor. The control substrate has a connection terminal that is fitted to the bus bar terminal and is made to electrically connect the control substrate to the stator. The cover member has a through hole, through which the bus bar terminal pierces, and an enclosing part for enclosing a fitting location for the bus bar terminal and the connection terminal, as seen in a piercing direction of the bus bar terminal.
A system may include at least one stationary inductive charging device for inductively charging a motor vehicle and at least one compressor. The charging device may include a base plate, a cover, an interior volume defined between the base plate and the cover, a coil, a magnetic flux guiding unit, an intermediate wall, an inlet, and an outlet. The intermediate wall may divide the interior volume into a distribution chamber and a receiving chamber. The coil and the magnetic flux guiding unit may be arranged in the receiving chamber. The inlet may be arranged on a pressure side of the compressor such that compressed gas flows into the distribution chamber via the inlet. The intermediate wall may define at least one passage fluidically connecting the distribution chamber and the receiving chamber such that gas flows into the receiving chamber via the passage with reduced pressure.
An electric compressor includes a housing, refrigerant inlet port, a refrigerant outlet port, an inverter section, a motor section, a compression device and a front cover. The housing defines an intake volume and a discharge volume. The refrigerant inlet port is coupled to the housing and is configured to introduce the refrigerant to the intake volume. The compression device is a scroll-type compression device configured to compress the refrigerant. The refrigerant outlet port is coupled to the housing and is configured to allow compressed refrigerant to exit the scroll-type electric compressor from the discharge volume.
F04C 2/02 - Machines ou pompes à piston rotatif du type à engrènement, c. à d. avec un mouvement de translation circulaire des organes coopérants, chaque organe possédant le même nombre de dents ou de parties équivalentes de prise
32.
ELECTRIC COMPRESSOR WITH SCROLL BEARING INJECTION ORIFICE
An electric compressor includes a housing, refrigerant inlet port, a refrigerant outlet port, an inverter section, a motor section, a compression device and a front cover. The housing defines an intake volume and a discharge volume. The refrigerant inlet port is coupled to the housing and is configured to introduce the refrigerant to the intake volume. The compression device is a scroll-type compression device configured to compress the refrigerant. The refrigerant outlet port is coupled to the housing and is configured to allow compressed refrigerant to exit the scroll-type electric compressor from the discharge volume.
F04C 2/02 - Machines ou pompes à piston rotatif du type à engrènement, c. à d. avec un mouvement de translation circulaire des organes coopérants, chaque organe possédant le même nombre de dents ou de parties équivalentes de prise
F04C 15/00 - "MACHINES" À LIQUIDES À DÉPLACEMENT POSITIF, À PISTON ROTATIF OU OSCILLANT; POMPES À DÉPLACEMENT POSITIF, À PISTON ROTATIF OU OSCILLANT - Parties constitutives, détails ou accessoires des "machines", des pompes ou installations de pompage non couverts par les groupes
33.
ELECTRIC COMPRESSOR HAVING A COMPRESSION DEVICE WITH A FIXED SCROLL HAVING A MODIFIED SCROLL FLOOR AND A FIXED SCROLL HAVING A MODIFIED SCROLL FLOOR
An electric compressor includes a housing, refrigerant inlet port, a refrigerant outlet port, an inverter section, a motor section, a compression device and a front cover. The housing defines an intake volume and a discharge volume. The refrigerant inlet port is coupled to the housing and is configured to introduce the refrigerant to the intake volume. The compression device is a scroll-type compression device configured to compress the refrigerant. The refrigerant outlet port is coupled to the housing and is configured to allow compressed refrigerant to exit the scroll-type electric compressor from the discharge volume.
F04C 2/02 - Machines ou pompes à piston rotatif du type à engrènement, c. à d. avec un mouvement de translation circulaire des organes coopérants, chaque organe possédant le même nombre de dents ou de parties équivalentes de prise
34.
ESTIMATING THE STATE OF HEALTH OF A RECHARGEABLE BATTERY
A method for estimating the State of Health (SoH) of a rechargeable battery. The method may include obtaining a first value of State of Charge of the battery and subjecting the battery to a DC power charging. The method may further include after having performed the DC power charging, obtaining a second value of State of Charge of the battery and computing energy provided to the battery. The method may further include computing the State of Health using the following formula SoH=(DE)/(SoCEND−SoCSTART). In some embodiments, DE may be the energy provided to the battery during the DC power charging, SoCSTART may be the first value of SoC of the battery, and SoCEND may be the second value of SoC of the battery.
G01R 31/392 - Détermination du vieillissement ou de la dégradation de la batterie, p.ex. état de santé
G01R 31/3835 - Dispositions pour la surveillance de variables des batteries ou des accumulateurs, p.ex. état de charge ne faisant intervenir que des mesures de tension
H02J 7/00 - Circuits pour la charge ou la dépolarisation des batteries ou pour alimenter des charges par des batteries
35.
INDUCTIVE CHARGING DEVICE FOR A VEHICLE CHARGING SYSTEM
The present invention relates to an inductive charging device (1) for a vehicle charging system (8), having an energy transmission winding (4) and at least one flux guiding element (5). An inductive charging device of the invention includes a near-positioning transmission unit (NAH-POS) suitable to generate at least one near-positioning signal (NAH-SIG) as well as a far-positioning transmission unit (FERN-POS) suitable to generate at least one far-positioning signal (FERN-SIG). The invention further relates to a method for positioning a vehicle (2).
B60L 53/38 - Moyens pour l’ajustement automatique ou assisté de la position relative des dispositifs de charge et des véhicules spécialement adaptés au chargement en utilisant le transfert d'énergie par induction
B60L 53/36 - Moyens pour l’ajustement automatique ou assisté de la position relative des dispositifs de charge et des véhicules par le positionnement du véhicule
B60L 53/126 - Procédés pour associer un véhicule et une station de charge, p.ex. en établissant une relation directe entre un transmetteur d'énergie sans fil et un récepteur d'énergie sans fil
36.
CHARGING SYSTEM COMPRISING INDUCTION CHARGING DEVICES
The present invention relates to a charging system (1) comprising stationary induction charging devices (2), which are spaced apart from each other, for wireless power transfer. Increased efficiency of the charging system (1) with increased convenience is achieved by way of the respective induction charging device (2) having a positioning device (4) for positioning a mobile induction charging device (101) for the stationary induction charging device (2) and the stationary induction charging devices (2) being divided into groups (6), wherein the positioning devices (4) of the respective group (6) are activated when a motor vehicle (100) approaches the group (6). The invention also relates to a car park system (300) comprising a car park (200) and such a charging system (1).
B60L 53/36 - Moyens pour l’ajustement automatique ou assisté de la position relative des dispositifs de charge et des véhicules par le positionnement du véhicule
B60L 53/38 - Moyens pour l’ajustement automatique ou assisté de la position relative des dispositifs de charge et des véhicules spécialement adaptés au chargement en utilisant le transfert d'énergie par induction
B60L 53/126 - Procédés pour associer un véhicule et une station de charge, p.ex. en établissant une relation directe entre un transmetteur d'énergie sans fil et un récepteur d'énergie sans fil
B60L 53/67 - Commande de plusieurs stations de charge
G05D 1/02 - Commande de la position ou du cap par référence à un système à deux dimensions
G05D 1/03 - Commande de la position ou du cap par référence à un système à deux dimensions utilisant des systèmes de transmission par proximité de champ, p.ex. du type à boucle inductive
H04B 5/00 - Systèmes de transmission à induction directe, p.ex. du type à boucle inductive
B60L 53/30 - PROPULSION DES VÉHICULES À TRACTION ÉLECTRIQUE; FOURNITURE DE L'ÉNERGIE ÉLECTRIQUE À L'ÉQUIPEMENT AUXILIAIRE DES VÉHICULES À TRACTION ÉLECTRIQUE; SYSTÈMES DE FREINS ÉLECTRODYNAMIQUES POUR VÉHICULES, EN GÉNÉRAL; SUSPENSION OU LÉVITATION MAGNÉTIQUES POUR VÉHICULES; CONTRÔLE DES PARAMÈTRES DE FONCTIONNEMENT DES VÉHICULES À TRACTION ÉLECTRIQUE; DISPOSITIFS ÉLECTRIQUES DE SÉCURITÉ POUR VÉHICULES À TRACTION ÉLECTRIQUE Échange d'éléments d’emmagasinage d'énergie dans les véhicules électriques - Détails de construction des stations de charge
B60L 53/39 - Moyens pour l’ajustement automatique ou assisté de la position relative des dispositifs de charge et des véhicules spécialement adaptés au chargement en utilisant le transfert d'énergie par induction avec activation sensible à la position des bobines primaires
B60L 53/66 - Transfert de données entre les stations de charge et le véhicule
B60L 53/68 - Surveillance ou commande hors site, p.ex. télécommande
G08G 1/14 - Systèmes de commande du trafic pour véhicules routiers indiquant des places libres individuelles dans des parcs de stationnement
The present invention relates to a sensor system (25) for a vehicle (2) having a mobile inductive charging device (1a), which can be fastened to and/or in the vehicle (2) via an interface. The sensor system (25) has a primary sensor unit (18prim) and a secondary sensor unit (18sek). The sensor system (25) is suitable for positioning the vehicle (2) in a defined position in relation to a stationary inductive charging device (1b). The primary sensor unit (18prim) and the secondary sensor unit (18sek) are arranged spaced apart from each other and the primary sensor unit (18prim) is mechanically connected to the mobile inductive charging device (1a) and/or integrated in it.
B60L 53/35 - Moyens pour l’ajustement automatique ou assisté de la position relative des dispositifs de charge et des véhicules
B60L 53/38 - Moyens pour l’ajustement automatique ou assisté de la position relative des dispositifs de charge et des véhicules spécialement adaptés au chargement en utilisant le transfert d'énergie par induction
B60L 53/39 - Moyens pour l’ajustement automatique ou assisté de la position relative des dispositifs de charge et des véhicules spécialement adaptés au chargement en utilisant le transfert d'énergie par induction avec activation sensible à la position des bobines primaires
38.
INDUCTIVE CHARGING DEVICE FOR A VEHICLE CHARGING SYSTEM
The invention relates to an inductive charging device (1, 1a) for a vehicle charging system (8), comprising an energy transmission winding and at least one flux-guiding element and at least one first sensor winding and a second sensor winding. The flux-guiding element is suitable for guiding a magnetic field during an energy transmission process taking place between another inductive charging device (1, 1b) and the energy transmission winding. The first sensor winding and the second sensor winding are arranged around at least one of the at least one flux-guiding elements. The first sensor winding has a first radial longitudinal direction and the second sensor winding has a second radial longitudinal direction. The first radial longitudinal direction is at least approximately perpendicular to the vehicle longitudinal direction or to the target vehicle longitudinal direction and the second radial longitudinal direction is at least approximately arranged in the vehicle longitudinal direction (6) or in the target vehicle longitudinal direction.
B60L 53/122 - Circuits ou procédés pour entraîner la bobine primaire, c. à d. en alimentant la bobine en énergie électrique
B60L 53/126 - Procédés pour associer un véhicule et une station de charge, p.ex. en établissant une relation directe entre un transmetteur d'énergie sans fil et un récepteur d'énergie sans fil
B60L 53/36 - Moyens pour l’ajustement automatique ou assisté de la position relative des dispositifs de charge et des véhicules par le positionnement du véhicule
B60L 53/38 - Moyens pour l’ajustement automatique ou assisté de la position relative des dispositifs de charge et des véhicules spécialement adaptés au chargement en utilisant le transfert d'énergie par induction
B60L 53/39 - Moyens pour l’ajustement automatique ou assisté de la position relative des dispositifs de charge et des véhicules spécialement adaptés au chargement en utilisant le transfert d'énergie par induction avec activation sensible à la position des bobines primaires
B60L 55/00 - Dispositions relatives à la fourniture d'énergie emmagasinée dans un véhicule à un réseau électrique, c. à. d. du véhicule au réseau [V2G]
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
H02J 50/12 - Circuits ou systèmes pour l'alimentation ou la distribution sans fil d'énergie électrique utilisant un couplage inductif du type couplage à résonance
H02J 50/90 - Circuits ou systèmes pour l'alimentation ou la distribution sans fil d'énergie électrique mettant en œuvre la détection ou l'optimisation de la position, p.ex. de l'alignement
39.
INDUCTIVE CHARGING DEVICE FOR A VEHICLE CHARGING SYSTEM
Disclosed is an inductive charging device (1) for a vehicle charging system (8), comprising an energy transmission winding (4), at least one energy transmission flux guiding element (5energ) and at least one positioning signal coil (41), wherein: - the energy transmission flux guiding element (5energ) is suitable to guide a magnetic field during an energy transmission process between another inducting charging device (1) and the energy transmission coil (4); - the positioning signal coil (41) includes a positioning signal winding (42) and at least one positioning flux guiding element (5pos); - the positioning flux guiding element (5pos) is suitable to guide a magnetic field during a positioning process; - the at least one energy transmission flux guiding element (5energ) is separate from the at least one positioning flux guiding element (5pos); and - the positioning signal winding (42) is suitable to generate a positioning signal (40) during a positioning process.
B60L 53/126 - Procédés pour associer un véhicule et une station de charge, p.ex. en établissant une relation directe entre un transmetteur d'énergie sans fil et un récepteur d'énergie sans fil
B60L 53/35 - Moyens pour l’ajustement automatique ou assisté de la position relative des dispositifs de charge et des véhicules
B60L 53/36 - Moyens pour l’ajustement automatique ou assisté de la position relative des dispositifs de charge et des véhicules par le positionnement du véhicule
B60L 53/38 - Moyens pour l’ajustement automatique ou assisté de la position relative des dispositifs de charge et des véhicules spécialement adaptés au chargement en utilisant le transfert d'énergie par induction
The present invention relates to a system (1) for inductive energy transfer, which system has at least one stationary induction charging device (2, 2a) and at least one mobile induction charging device (2, 2b), which induction charging devices interact during a charging operation for inductive energy transfer. A positioning device (4) generates, in one of the induction charging devices (2, 2a), at least two transmission signals (5, 5a, 5b) with different frequencies, which are received at the other induction charging device (2, 2b) as a superimposed reception signal. The positioning device (4) determines an associated amplitude from the reception signal for the respectively received transmission signal (5, 5a, 5b). This leads to simplified determination of the relative position with reduced complexity of hardware and reduced costs, The invention also relates to a computer program product for determining the amplitudes.
B60L 53/122 - Circuits ou procédés pour entraîner la bobine primaire, c. à d. en alimentant la bobine en énergie électrique
B60L 53/126 - Procédés pour associer un véhicule et une station de charge, p.ex. en établissant une relation directe entre un transmetteur d'énergie sans fil et un récepteur d'énergie sans fil
B60L 53/36 - Moyens pour l’ajustement automatique ou assisté de la position relative des dispositifs de charge et des véhicules par le positionnement du véhicule
B60L 53/38 - Moyens pour l’ajustement automatique ou assisté de la position relative des dispositifs de charge et des véhicules spécialement adaptés au chargement en utilisant le transfert d'énergie par induction
B60L 53/39 - Moyens pour l’ajustement automatique ou assisté de la position relative des dispositifs de charge et des véhicules spécialement adaptés au chargement en utilisant le transfert d'énergie par induction avec activation sensible à la position des bobines primaires
G01D 5/20 - Moyens mécaniques pour le transfert de la grandeur de sortie d'un organe sensible; Moyens pour convertir la grandeur de sortie d'un organe sensible en une autre variable, lorsque la forme ou la nature de l'organe sensible n'imposent pas un moyen de conversion déterminé; Transducteurs non spécialement adaptés à une variable particulière utilisant des moyens électriques ou magnétiques influençant la valeur d'un courant ou d'une tension en faisant varier l'inductance, p.ex. une armature mobile
H04B 5/00 - Systèmes de transmission à induction directe, p.ex. du type à boucle inductive
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
H02J 50/12 - Circuits ou systèmes pour l'alimentation ou la distribution sans fil d'énergie électrique utilisant un couplage inductif du type couplage à résonance
H02J 50/90 - Circuits ou systèmes pour l'alimentation ou la distribution sans fil d'énergie électrique mettant en œuvre la détection ou l'optimisation de la position, p.ex. de l'alignement
41.
FRICTION BRAKE AND VEHICLE POWER SHIFT TRANSMISSION HAVING THE SAME
A friction brake for a vehicle power shift transmission is disclosed. The friction brake includes a load gear that is rotatably driveable about a centre longitudinal. A friction braking device is provided for decelerating and/or fixing the load gear. An actuating device for actuating the friction braking device, the actuating device includes an moveable spreading piston. The moveable spreading piston while performing a spread along the centre longitudinal axis automatically materialising as a function of a load torque provided on the load gear, provides a braking force for actuating the friction braking device.
The present invention relates to a fin device for heat exchangers having corrugated fins, which extend along a main direction and comprise fin walls with louvres and fin folds. With respect to the corrugated fins, fin walls that are adjacent in the main direction are each interconnected via a fin fold, while in addition, fin walls that are adjacent in the main direction each delimit between them a fluid channel. Furthermore, the corrugated fins are lined up one behind the other in a transverse direction extending transversely to the main direction, so that the fluid channels of the corrugated fins lead into one another. It is substantial that corrugated fins that are adjacent in the transverse direction are arranged offset to one another in the main direction by a spacing referred to as fin offset and are fixed to one another in that their adjacent fin folds are directly and in particular integrally connected to one another. The present invention, furthermore, relates to a heat exchanger having fin devices and to a method for manufacturing such a fin device.
F28F 1/12 - Eléments 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 ces moyens étant uniquement à l'extérieur de l'élément tubulaire
F28D 1/053 - 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 d avec des canalisations d'échange de chaleur immergées dans la masse du fluide avec canalisations tubulaires les canalisations étant rectilignes
43.
METHOD FOR OPERATING A SYSTEM COMPRISING A CAR PARK AND AT LEAST ONE MOTOR VEHICLE
The present invention relates to a method for operating a system (1) comprising a car park (10) and at least one motor vehicle (100), wherein the car park (10) has parking spaces (11) which each have a stationary induction charging device (12). The respective stationary induction charging device (12) generates, for orienting the respective motor vehicle (100), an orientation field (18) which is oriented parallel to a parking direction (P) of the associated parking space (11), wherein at least two adjacent stationary induction charging devices (12) generate orientation fields (18) with different frequencies. The invention also relates to such a system (1).
B60L 53/36 - Moyens pour l’ajustement automatique ou assisté de la position relative des dispositifs de charge et des véhicules par le positionnement du véhicule
B60L 53/38 - Moyens pour l’ajustement automatique ou assisté de la position relative des dispositifs de charge et des véhicules spécialement adaptés au chargement en utilisant le transfert d'énergie par induction
B60L 53/126 - Procédés pour associer un véhicule et une station de charge, p.ex. en établissant une relation directe entre un transmetteur d'énergie sans fil et un récepteur d'énergie sans fil
B60L 53/67 - Commande de plusieurs stations de charge
B62D 15/02 - Indicateurs de direction ou aides de direction
G05D 1/02 - Commande de la position ou du cap par référence à un système à deux dimensions
G05D 1/03 - Commande de la position ou du cap par référence à un système à deux dimensions utilisant des systèmes de transmission par proximité de champ, p.ex. du type à boucle inductive
H04B 5/00 - Systèmes de transmission à induction directe, p.ex. du type à boucle inductive
44.
INDUCTIVE CHARGING DEVICE FOR A VEHICLE CHARGING SYSTEM
The invention relates to an inductive charging device (1) for a vehicle charging system (8) comprising an energy transmission winding (4) and at least one flux-guiding element (5). An inductive charging device according to the invention has a close-range positioning transmitter (NAH-POS) which is suitable for generating at least one close-range positioning signal (NAH-SIG), and a remote-positioning transmitter (FERN-POS) which is suitable for generating at least one remote-positioning signal (FERN-SIG).
B60L 53/38 - Moyens pour l’ajustement automatique ou assisté de la position relative des dispositifs de charge et des véhicules spécialement adaptés au chargement en utilisant le transfert d'énergie par induction
B60L 53/36 - Moyens pour l’ajustement automatique ou assisté de la position relative des dispositifs de charge et des véhicules par le positionnement du véhicule
B60L 53/126 - Procédés pour associer un véhicule et une station de charge, p.ex. en établissant une relation directe entre un transmetteur d'énergie sans fil et un récepteur d'énergie sans fil
The invention relates to a method for positioning a vehicle (2) having a mobile inductive charging device (1a) in a defined position in relation to a stationary inductive charging device (1b). A positioning signal is generated in one of the two inductive charging devices (1a, 1b). The positioning signal induces at least one voltage signal (13a, 13b) in the other of the two inductive charging devices (1a, 1b). A relative distance between the mobile inductive charging device (1a) and the stationary inductive charging device (1b) is approximated from the induced voltage signal (13a, 13b).
B60L 53/126 - Procédés pour associer un véhicule et une station de charge, p.ex. en établissant une relation directe entre un transmetteur d'énergie sans fil et un récepteur d'énergie sans fil
B60L 53/35 - Moyens pour l’ajustement automatique ou assisté de la position relative des dispositifs de charge et des véhicules
B60L 53/36 - Moyens pour l’ajustement automatique ou assisté de la position relative des dispositifs de charge et des véhicules par le positionnement du véhicule
B60L 53/38 - Moyens pour l’ajustement automatique ou assisté de la position relative des dispositifs de charge et des véhicules spécialement adaptés au chargement en utilisant le transfert d'énergie par induction
The invention relates to an elliptical ring groove piston, wherein the piston comprises a piston head and a skirt portion, an inner cooling gallery for cooling the piston is provided inside the piston head, and the inner cooling gallery is provided with an oil inlet for a cooling medium to enter and an oil outlet for the cooling medium to flow out after heat exchange; and ring lands and ring grooves arc provided on the outer side of the piston head, and the piston is provided with a first ring groove adjacent to the top of the piston. It is essential in that, on a section of the first ring groove, the profile of a bottom diameter of the first ring groove is elliptical, and the direction of the major axis of the ellipse generally coincides with a connecting line which connects a center line of the oil outlet of the inner cooling gallery and an axis of the piston.
F02F 3/22 - Pistons comportant des moyens de refroidissement les moyens consistant en un fluide circulant dans ou le long du piston le fluide étant un liquide
F16J 9/22 - Segments pour empêcher l'usure des gorges ou logements du même genre
47.
RADIATOR ATTACHMENT FOR ATTACHING A RADIATOR TO A MOTOR VEHICLE
The invention relates to a radiator attachment for attaching a radiator to a motor vehicle. In detail, the radiator attachment comprises a tank bottom, from which a spreading element, formed in a clamp-like manner, projects transversely, preferably perpendicularly, along an axial direction. The radiator attachment further comprises a detent body, extending along the axial direction and surrounding a body interior, from which detent body two inner detent elements project into the body interior. At least one outwardly projecting detent hook projects at a first of the two axial ends. Here, the spreading element of the tank bottom, received in the body interior, is engaged with the two inner detent elements. The radiator attachment further comprises a socket of an elastomer, in particular of a rubber, extending along the axial direction and lying externally against the detent body, which socket is engaged with the at least one detent hook.
The invention relates to a method (5) for establishing the degradation of a humidifier (4) of a fuel cell system (1) having a fuel cell stack (2) and the humidifier (4). The fuel cell stack (2) comprises multiple fuel cells (3) with cathodes.
The invention relates to a method (5) for establishing the degradation of a humidifier (4) of a fuel cell system (1) having a fuel cell stack (2) and the humidifier (4). The fuel cell stack (2) comprises multiple fuel cells (3) with cathodes.
In the method:
a starting parameter of the fuel cell stack (2) is determined in a step A;
based on the starting parameter, a humidification of the cathodes is evaluated in a step B;
in the case that the humidification of the cathodes is too low, a control parameter is determined and a control variable correspondingly readjusted in a step C;
a diagnostic parameter is determined in a step D and based on the diagnostic parameter, the degradation of the humidifier (4) established.
The invention relates to a method (5) for establishing the degradation of a humidifier (4) of a fuel cell system (1) having a fuel cell stack (2) and the humidifier (4). The fuel cell stack (2) comprises multiple fuel cells (3) with cathodes.
In the method:
a starting parameter of the fuel cell stack (2) is determined in a step A;
based on the starting parameter, a humidification of the cathodes is evaluated in a step B;
in the case that the humidification of the cathodes is too low, a control parameter is determined and a control variable correspondingly readjusted in a step C;
a diagnostic parameter is determined in a step D and based on the diagnostic parameter, the degradation of the humidifier (4) established.
The invention also relates to the fuel cell system (1) for carrying out the method (5).
H01M 8/04119 - Dispositions pour la commande des paramètres des réactifs, p.ex. de la pression ou de la concentration des réactifs gazeux avec apport simultané ou évacuation simultanée d’électrolyte; Humidification ou déshumidification
H01M 8/04492 - Humidité; Humidité ambiante; Teneur en eau
H01M 8/04029 - Dispositions auxiliaires, p.ex. pour la commande de la pression ou pour la circulation des fluides relatives à l’échange de chaleur Échange de chaleur par des liquides
The invention relates to a built rotor shaft (1) of an electric motor (2),
having a hollow shaft (3) into which on the longitudinal end-side a shaft end piece (5) with a joining region (4) is introduced,
having a channel (6) for cooling medium conduction which connects an interior (7) of the hollow shaft (3) with an environment (8),
wherein the channel (6) comprises an opening (9) arranged in the hollow shaft (3) and a channel section (10) communicatingly connected therewith in the joining region (4) of the shaft end piece (5).
By way of this, a cost-effective design can be achieved.
(FIG. 2)
H02K 7/00 - Dispositions pour la mise en œuvre d'énergie mécanique associées structurellement aux machines dynamo-électriques, p.ex. association structurelle avec des moteurs mécaniques d'entraînement ou des machines dynamo-électriques auxiliaires
H02K 1/32 - Parties tournantes du circuit magnétique avec des canaux ou des conduits pour l'écoulement d'un agent de refroidissement
The invention relates to a pump device (1) for conveying cooling fluid W. The pump device (1) comprises a housing (2) in which a fluid channel (3), through which the cooling fluid W to be conveyed can flow, is arranged, and a drive unit (4) for driving the cooling fluid W guided through the fluid channel (3). Furthermore, the pump device (1) comprises an electric sensor unit (5) that comprises at least one sensor (6), more particularly a temperature sensor for determining at least one measurement variable that characterises the cooling fluid. The sensor unit (5) can be arranged at least partially in the fluid channel (3). The sensor (6) can be arranged as a temperature sensor outside the fluid channel (3) and be coupled thereto in a heat-conducting manner.
A heat exchanger that can be flowed through in the x-direction based on the heat exchanger,
having at least one first row and a second row of flat tubes, which can be flowed through by a cooling fluid,
having a in the z-direction upper collecting tank, and a lower collecting tank,
wherein the flat tubes in each row in the y-direction based on the heat exchanger are divided into at least three flat tube groups
wherein all flat tubes of a flat tube group are flowed through in the same direction,
wherein a cooling fluid inlet of the heat exchanger is communicatingly connected to a first flat tube group of the first row arranged in the y-direction in a middle region.
A heat exchanger that can be flowed through in the x-direction based on the heat exchanger,
having at least one first row and a second row of flat tubes, which can be flowed through by a cooling fluid,
having a in the z-direction upper collecting tank, and a lower collecting tank,
wherein the flat tubes in each row in the y-direction based on the heat exchanger are divided into at least three flat tube groups
wherein all flat tubes of a flat tube group are flowed through in the same direction,
wherein a cooling fluid inlet of the heat exchanger is communicatingly connected to a first flat tube group of the first row arranged in the y-direction in a middle region.
By way of this, a homogenous temperature distribution can be achieved.
F28D 7/16 - Appareils échangeurs de chaleur comportant des ensembles de canalisations tubulaires fixes pour les deux sources de potentiel calorifique, ces sources étant en contact chacune avec un côté de la paroi d'une canalisation les canalisations étant espacées parallèlement
A motor device for an electric bicycle may include an electric motor, a first connector unit, and/or a second connector unit. The electric motor may include an axis of rotation. The first connector unit may include a first motor connector and a first connecting part. The first connecting part may surround the first motor connector regionally and/or outwardly. The first connector unit may be mounted on the electric motor and may be electrically conductively connected to the electric motor via the first motor connector. The second connector unit may include a second motor connector and a second connecting part. An electrical conductive connection may be established and released directly between the first motor connector and the second motor connector.
H02K 5/22 - Parties auxiliaires des enveloppes non couvertes par les groupes , p.ex. façonnées pour former des boîtes à connexions ou à bornes
B62M 6/55 - Cycles propulsés par le conducteur avec moteur électrique auxiliaire motopropulsés au niveau de parties du vilebrequin
H01R 13/631 - Moyens additionnels pour faciliter l'engagement ou la séparation des pièces de couplage, p.ex. moyens pour aligner ou guider, leviers, pression de gaz pour l'engagement uniquement
A piston ring may include a spacer or expansion element and/or two segments. The segments may have a radial dimension between approximately 1.50 mm and approximately 1.90 mm and a height between approximately 0.30 mm and approximately 0.40 mm. The segments may have a concave profile with recesses between approximately 0.015 mm and approximately 0.030 mm and a clearance of approximately 0.150 mm. The segments may be wound via a matrix box device and a roller. The piston ring may have a circularity, expressed in the form of a decomposition as a Fourier series, with an amplitude for orders higher than 10 which is not greater than 0.10 μm.
F16J 9/26 - Segments de piston, leurs logements; Segments d'étanchéité de structure similaire en général caractérisés par l'emploi de matériaux particuliers
F16J 9/12 - Segments de piston, leurs logements; Segments d'étanchéité de structure similaire en général - Détails
54.
Electric compressor with isolation constraint system
An electric compressor includes a housing, refrigerant inlet port, a refrigerant outlet port, an inverter section, a motor section, a compression device and a front cover. The housing defines an intake volume and a discharge volume. The refrigerant inlet port is coupled to the housing and is configured to introduce the refrigerant to the intake volume. The compression device is a scroll-type compression device configured to compress the refrigerant. The refrigerant outlet port is coupled to the housing and is configured to allow compressed refrigerant to exit the scroll-type electric compressor from the discharge volume.
F04C 18/02 - Pompes à piston rotatif spécialement adaptées pour les fluides compressibles du type à engrènement, c. à d. avec un mouvement de translation circulaire des organes coopérants, chaque organe possédant le même nombre de dents ou de parties équivalentes de prise
F04C 29/00 - "MACHINES" À LIQUIDES À DÉPLACEMENT POSITIF, À PISTON ROTATIF OU OSCILLANT; POMPES À DÉPLACEMENT POSITIF, À PISTON ROTATIF OU OSCILLANT - Parties constitutives, détails ou accessoires de pompes ou d'installations de pompage spécialement adaptées pour les fluides compressibles non couverts dans les groupes
F04C 29/02 - Lubrification; Séparation du lubrifiant
F04C 23/00 - Combinaisons de plusieurs pompes, chacune étant du type à piston rotatif ou oscillant spécialement adaptées pour les fluides compressibles; Installations de pompage spécialement adaptées pour les fluides compressibles; Pompes multiétagées spécialement adaptées pour les fluides compressibles
F04B 17/03 - Pompes caractérisées par leur combinaison avec des machines motrices ou moteurs particuliers qui les entraînent ou par leur adaptation à ceux-ci entraînées par des moteurs électriques
55.
Electric compressor having a swing link and integrated limit pin and swing link and integrated limit pin for use in an electric compressor
An electric compressor includes a housing, refrigerant inlet port, a refrigerant outlet port, an inverter section, a motor section, a compression device and a front cover. The housing defines an intake volume and a discharge volume. The refrigerant inlet port is coupled to the housing and is configured to introduce the refrigerant to the intake volume. The compression device is a scroll-type compression device configured to compress the refrigerant. The refrigerant outlet port is coupled to the housing and is configured to allow compressed refrigerant to exit the scroll-type electric compressor from the discharge volume.
F04C 29/00 - "MACHINES" À LIQUIDES À DÉPLACEMENT POSITIF, À PISTON ROTATIF OU OSCILLANT; POMPES À DÉPLACEMENT POSITIF, À PISTON ROTATIF OU OSCILLANT - Parties constitutives, détails ou accessoires de pompes ou d'installations de pompage spécialement adaptées pour les fluides compressibles non couverts dans les groupes
F04C 29/02 - Lubrification; Séparation du lubrifiant
F04C 18/02 - Pompes à piston rotatif spécialement adaptées pour les fluides compressibles du type à engrènement, c. à d. avec un mouvement de translation circulaire des organes coopérants, chaque organe possédant le même nombre de dents ou de parties équivalentes de prise
The invention relates to a fluid pump (1). The fluid pump (1) includes an impeller unit (2) having an impeller (4) and an impeller housing (3) and to an electric motor (6) having a motor housing (10). On the impeller housing (3), a fluid inlet (5a) and a fluid outlet (5b) are formed. The impeller housing (3) is firmly connected to the motor housing (10) by means of a fastening unit (30).
The invention relates to a fluid pump (1). The fluid pump (1) includes an impeller unit (2) having an impeller (4) and an impeller housing (3) and to an electric motor (6) having a motor housing (10). On the impeller housing (3), a fluid inlet (5a) and a fluid outlet (5b) are formed. The impeller housing (3) is firmly connected to the motor housing (10) by means of a fastening unit (30).
It is substantial that the fluid outlet (5b) with respect to the motor housing (10) can be arranged in one of at least two possible positions (P1.1, P2.1), wherein the possible positions (P1.1, P2.1) differ from one another by an angle of rotation (DW).
The invention relates to a fuel cell system with a humidifier (15) through which the supply air path (3) and the exhaust air path (4) are guided. According to the invention, the fuel cell system comprises an additional moisture return (5). To this end, the exhaust air path (4) communicates fluidically with the supply air path (3) by means of the additional moisture return (5) such that moisture (F) or water (W) can be transported out of the exhaust air (AL) into the supply air (ZL). For this purpose, the additional moisture return (5) has at least one water separator (6), which is arranged in the exhaust air path (4), for separating water (W) from the moist exhaust air (AL), a collector (7) for temporarily storing the separated moisture (F), and a water injector (8) for introducing the separated or/and temporarily stored moisture (F) into the supply air path (3). The water injector (8) comprises a prefilmer lip arranged in the supply air path (3) for atomizing the moisture (F) introduced into the dry supply air (ZL).
H01M 8/04119 - Dispositions pour la commande des paramètres des réactifs, p.ex. de la pression ou de la concentration des réactifs gazeux avec apport simultané ou évacuation simultanée d’électrolyte; Humidification ou déshumidification
A collector, in particular a refrigerant collector for a refrigerant circuit, in particular of a motor vehicle, which is formed with a tubular housing body with a circumferential wall and with a first end face and with a second end face, wherein the housing body at the first end face has a closable first opening, into which a sealing plug can be inserted for closing the first opening, wherein the sealing plug has a circumferential groove into which a sealing element can be inserted for sealing between the sealing plug and the circumferential wall, wherein the circumferential groove has a groove bottom, which slopes in the axial direction. A sealing plug is also provided.
F25B 43/00 - Dispositions pour la séparation ou la purification des gaz ou des liquides; Dispositions pour la vaporisation des résidus de fluides frigorigènes, p.ex. par la chaleur
A variable flow heat exchanger may include a housing and a heat exchange core. The housing may include a first housing and a second housing. The heat exchange core may be arranged between the first housing and the second housing. The heat exchange core may be formed by superposition of multi-layer heat exchange plates. A cooling fluid interface may be arranged on the first housing. A cooled fluid interface may be arranged on the second housing. The cooled fluid interface may include a first interface, a second interface, and a third interface. In a first state, a cooled fluid may flow into the heat exchange core from the first interface and may flow out of the second interface. In a second state, the cooled fluid may flow into the heat exchange core from the first interface and the second interface, respectively, and may flow out of the third interface.
F28D 9/00 - Appareils échangeurs de chaleur comportant des ensembles de canalisations fixes en forme de plaques ou de laminés pour les deux sources de potentiel calorifique, ces sources étant en contact chacune avec un côté de la paroi d'une canalisation
F28F 3/08 - Eléments construits pour être empilés, p.ex. pouvant être séparés pour leur nettoyage
F28F 13/06 - Dispositions pour modifier le transfert de chaleur, p.ex. accroissement, diminution en affectant le mode d'écoulement des sources de potentiel calorifique
The invention relates to a heat exchanger (1), in particular for a motor vehicle. The heat exchanger (1) includes a plurality of tubular bodies (2) stacked onto one another along a stack direction (S), which in each case delimit a first fluid path (3a) for being flowed through by a refrigerant (K). The individual tubular bodies (2) are arranged along the stack direction (S) spaced apart from one another, so that between intermediate spaces (4) formed between the tubular bodies (2) that are adjacent in the stack direction (S), each form a second fluid path (3b) fluidically separated from the first fluid paths (3a) for being flowed through by air. The individual tubular bodies (2) extend transversely, preferentially perpendicularly to the stack direction (S) along a longitudinal direction (L). On a, with respect to the longitudinal direction (L), first longitudinal end (6a) of the tubular bodies (2) a vessel (7) which extends in the stack direction (S) and fluidically communicates with the tubular bodies (2) is arranged. At least one inlet/outlet connector (9) at least partially delimiting a connector interior (10) projects from the vessel (7) to the outside for introducing the refrigerant into a vessel interior (8) surrounded by the vessel (7). The connector interior (10) opens into the vessel interior (8), so that refrigerant can be introduced into the connector interior and via the same conducted on into the vessel interior. The heat exchanger (1) comprises at least one connecting line (5) that can be flowed through by the refrigerant, by means of which the connector interior (10) fluidically communicates with the vessel interior (8).
MAHLE DONGHYUN FILTER SYSTEMS CO., LTD (République de Corée)
MAHLE International GmbH (Allemagne)
Inventeur(s)
Kim, Daejung
Kim, Kihyun
Abrégé
Disclosed is a busbar unit for a hybrid vehicle. The busbar unit for a hybrid vehicle according to embodiments is improved in the assembly method and electrical grounding performance, and thus, the busbar unit for a hybrid vehicle capable of being stably used is provided.
A method for producing a rotor of an electric machine is disclosed. The method may include providing at least two individual parts and individually balancing the at least two individual parts. The method may also include, subsequently to balancing the at least two individual parts, connecting the at least two balanced individual parts to one another such that the rotor is at least unbalance-low.
H02K 15/16 - Procédés ou appareils spécialement adaptés à la fabrication, l'assemblage, l'entretien ou la réparation des machines dynamo-électriques Équilibrage des rotors
The invention relates to a fuel cell system (1) comprising an expansion machine (2) with a high-pressure side (3a) and a low-pressure side (3b) for performing mechanical work, and comprising multiple fuel cells (4) stacked on top of one another, which communicate fluidically with the high-pressure side of the expansion machine (2) via a gas path (5), such that, during operation of the fuel cell system (1), exhaust gas discharged from the fuel cells (4) into the gas path (5) and containing water drives the expansion machine (2). The fuel cell system (1) comprises a water separator (6) arranged in the gas path (5) for separating water from the exhaust gas, and a valve unit (7) arranged between the water separator (6) and the high-pressure side (3a) of the expansion machine (2) for adjusting an amount of exhaust gas to be supplied to the expansion machine (2). The fuel cell system (1) also comprises a bypass gas path (8) through which the exhaust gas can flow, which branches off from the gas path (5) between the fuel cells (4) and the water separator (6) and fluidically communicates with the low-pressure side (3b) of the expansion machine (2), such that exhaust gas can bypass the expansion machine (2) via the bypass gas path (8). In addition, a bypass valve unit (9) is arranged in the bypass gas path (8) for adjusting the amount of exhaust gas flowing through the bypass gas path (8).
H01M 8/04089 - Dispositions pour la commande des paramètres des réactifs, p.ex. de la pression ou de la concentration des réactifs gazeux
H01M 8/04111 - Dispositions pour la commande des paramètres des réactifs, p.ex. de la pression ou de la concentration des réactifs gazeux utilisant un assemblage turbine compresseur
H01M 8/04119 - Dispositions pour la commande des paramètres des réactifs, p.ex. de la pression ou de la concentration des réactifs gazeux avec apport simultané ou évacuation simultanée d’électrolyte; Humidification ou déshumidification
H01M 8/04225 - Dispositions auxiliaires, p.ex. pour la commande de la pression ou pour la circulation des fluides pendant le démarrage ou l’arrêt; Dépolarisation ou activation, p.ex. purge; Moyens pour court-circuiter les éléments à combustible défectueux pendant le démarrage
64.
EXHAUST COMPONENT, COMPRESSOR INCLUDING THE SAME, AND AIR CONDITIONING SYSTEM
The present invention relates to an exhaust component for a compressor, the compressor being provided with an exhaust port, wherein the exhaust component comprises: an exhaust valve body, the exhaust valve body being arranged at the exhaust port, and the exhaust valve body being provided with an exhaust hole; a guiding structure, the guiding structure being mounted in the exhaust valve body; and an exhaust valve sheet, the exhaust valve sheet being sleeved onto the guiding structure and moving in the exhaust valve body without being driven by an elastic force, so that when the compressor runs for exhausting, the exhaust valve sheet moves along the guiding structure to cause the exhaust port to be in communication with the exhaust hole; and when the compressor stops, the exhaust valve sheet moves towards the exhaust port side to cut off a flow path between the exhaust port and the exhaust hole.
F04B 39/10 - Adaptation ou aménagement des organes de distribution
F04C 28/06 - Commande, surveillance ou dispositions de sécurité pour les pompes ou les installations de pompage spécialement adaptées pour les fluides compressibles spécialement adaptées pour arrêter, pour démarrer, pour le ralenti ou pour un fonctionnement à charge nulle
F04C 29/12 - Dispositions pour l'admission ou l'échappement du fluide de travail, p.ex. caractéristiques de structure de l'admission ou de l'échappement
The invention relates to a fluid pump (1) for a fuel cell system. The fluid pump (1) thereby has an impeller unit (2) comprising an impeller (4), an inlet side (2a) comprising a fluid inlet (5a), and an outlet side (2b) comprising a fluid outlet (5b). In addition, the fluid pump (1) has an electric motor (6). The fluid pump (1) also has a guide channel (23) for the cooling fluid, wherein the guide channel (23) fluidically connects the inlet side (2a) and the outlet side (2b) via the impeller (4) and via the motor (6).
The invention relates to a fluid pump (1) for a fuel cell system. The fluid pump (1) thereby has an impeller unit (2) comprising an impeller (4), an inlet side (2a) comprising a fluid inlet (5a), and an outlet side (2b) comprising a fluid outlet (5b). In addition, the fluid pump (1) has an electric motor (6). The fluid pump (1) also has a guide channel (23) for the cooling fluid, wherein the guide channel (23) fluidically connects the inlet side (2a) and the outlet side (2b) via the impeller (4) and via the motor (6).
According to the invention, the fluid pump (1) is designed in such a way that all of the surfaces within the guide channel (23), to which the cooling fluid can be applied directly, do not separate any ions into the cooling fluid.
The invention relates to a fluid pump (1) for a fuel cell system. The fluid pump (1) thereby has an impeller unit (2) comprising an impeller (4), an inlet side (2a) comprising a fluid inlet (5a), and an outlet side (2b) comprising a fluid outlet (5b). In addition, the fluid pump (1) has an electric motor (6). The fluid pump (1) also has a guide channel (23) for the cooling fluid, wherein the guide channel (23) fluidically connects the inlet side (2a) and the outlet side (2b) via the impeller (4) and via the motor (6).
According to the invention, the fluid pump (1) is designed in such a way that all of the surfaces within the guide channel (23), to which the cooling fluid can be applied directly, do not separate any ions into the cooling fluid.
The invention also relates to the fuel cell system comprising the fluid pump (1).
H02K 5/20 - Enveloppes ou enceintes caractérisées par leur configuration, leur forme ou leur construction avec des canaux ou des conduits pour la circulation d'un agent de refroidissement
F04D 13/06 - Ensembles comprenant les pompes et leurs moyens d'entraînement la pompe étant entraînée par l'électricité
F04D 29/58 - Refroidissement; Chauffage; Réduction du transfert de chaleur
H01M 8/04029 - Dispositions auxiliaires, p.ex. pour la commande de la pression ou pour la circulation des fluides relatives à l’échange de chaleur Échange de chaleur par des liquides
H02K 7/08 - Association structurelle avec des paliers
H02K 9/19 - Dispositions de refroidissement ou de ventilation pour machines avec enveloppe fermée et circuit fermé de refroidissement utilisant un agent de refroidissement liquide, p.ex. de l'huile
H02K 11/33 - Circuits d’entraînement, p.ex. circuits électroniques de puissance
H02K 21/16 - Moteurs synchrones à aimants permanents; Génératrices synchrones à aimants permanents avec des induits fixes et des aimants tournants avec des aimants tournant à l'intérieur des induits avec des noyaux d'induits annulaires à pôles saillants
The invention relates to a fluid pump (1), which comprises an impeller unit (2) with an impeller (4) and an electric motor (6) with a motor housing (10). The impeller unit (2) comprises an inlet side (2a) with a fluid inlet (5a) and an outlet side (2b) with a fluid outlet (5b), wherein a guide channel (26) fluidically connects the inlet side (2a) and the outlet side (2b) via the impeller (4).
The invention relates to a fluid pump (1), which comprises an impeller unit (2) with an impeller (4) and an electric motor (6) with a motor housing (10). The impeller unit (2) comprises an inlet side (2a) with a fluid inlet (5a) and an outlet side (2b) with a fluid outlet (5b), wherein a guide channel (26) fluidically connects the inlet side (2a) and the outlet side (2b) via the impeller (4).
It is substantial for the invention that the guide channel (26) is additionally realised in regions by a cooling fluid jacket (27) formed in the motor housing (10).
A method for manufacturing a position indicator sensor wheel for a camshaft is disclosed. The position indicator includes an axially extending passage for connecting to the camshaft and at least one radially projecting tooth. The method includes providing a sheet from a sheet material; introducing the passage into the sheet; and roughening a radial inner surface of the passage in at least one rough portion.
A filter module is disclosed. The filter module includes a pump with a pump housing and a filter device with a filter housing. A first thread is arranged on the pump housing, and a second thread configured complementary to the first thread is arranged on the filter housing, so that the pump is able to be screwed via the pump housing to the filter housing of the filter device. The pump housing includes a housing cover, a middle part and a lower part. The housing cover is screwed to the middle part and the middle part is screwed to the lower part.
B01D 35/00 - Dispositifs filtrants ayant des particularités non couvertes spécifiquement par les groupes , applications non couvertes spécifiquement par les groupes ; Dispositifs auxiliaires pour la filtration; Structure du carter de filtre
The present invention relates to a charging device (1) for an electric motor vehicle (2), having a charging station (4) which has a communication circuit arrangement (5) which has an electrical line path (6) in which an electrical oscillator (9) for generating a pulse-width-modulated electrical communication signal (10) is arranged, and having a charging cable device (11), which has a connection cable (12) and a connection plug (16), for electrically communicatively connecting the charging station (4) to the electric motor vehicle (2). The charging cable (12) has an electrical cable line path (13) which is electrically communicatively connected to the line path (6), wherein the connection plug (16) arranged on the connection cable (12) has an electrical plug line path (19) which is electrically communicatively connected to the cable line path (13). It is essential that the charging device (1) has an electrical resistance component (23) which is electrically communicatively integrated into the plug line path (19) remotely from the connection cable (12).
B60L 53/16 - Connecteurs, p.ex. fiches ou prises, spécialement adaptés pour recharger des véhicules électriques
B60L 53/18 - Câbles spécialement adaptés pour recharger des véhicules électriques
B60L 53/30 - PROPULSION DES VÉHICULES À TRACTION ÉLECTRIQUE; FOURNITURE DE L'ÉNERGIE ÉLECTRIQUE À L'ÉQUIPEMENT AUXILIAIRE DES VÉHICULES À TRACTION ÉLECTRIQUE; SYSTÈMES DE FREINS ÉLECTRODYNAMIQUES POUR VÉHICULES, EN GÉNÉRAL; SUSPENSION OU LÉVITATION MAGNÉTIQUES POUR VÉHICULES; CONTRÔLE DES PARAMÈTRES DE FONCTIONNEMENT DES VÉHICULES À TRACTION ÉLECTRIQUE; DISPOSITIFS ÉLECTRIQUES DE SÉCURITÉ POUR VÉHICULES À TRACTION ÉLECTRIQUE Échange d'éléments d’emmagasinage d'énergie dans les véhicules électriques - Détails de construction des stations de charge
70.
ELECTRIC ROTARY TRANSFORMER FOR INDUCTIVE ENERGY TRANSMISSION
The invention relates to an electric rotary transformer (1) for inductive energy transmission. According to the invention, the rotary transformer (1) comprises a rotary transformer stator (3) comprising a primary coil (2) and a rotary transformer rotor (6) designed to be rotatable with respect to the rotary transformer stator (3) about a rotational axis (D) extending along an axial direction (A) relative to the rotary transformer stator (3) and having a secondary coil (5), wherein the secondary coil (5) can be or is inductively coupled to the primary coil (2). The rotary transformer (1) also comprises a transformer core (4) made from a magnetic material and which is arranged stationary relative to the primary coil (2) and which at least partially surrounds the primary coil (2) and the secondary coil (5). The primary coil (2) has an electrically energisable primary coil winding (7), and the secondary coil (5) has an electrically energisable secondary coil winding (8). Furthermore, the primary coil winding (7) and the secondary coil winding (8) are arranged side by side along the axial direction (A) or perpendicular to the axial direction (A) and each comprises an electrically conductive stranded wire (9, 10) or at least one electrically conductive winding wire.
A bearing is disclosed. The bearing includes a first half shell and an eccentric second half shell, the first half shell and the second half shell configured to connect at a joint to form a cylindrical bearing. The first half shell has a first crown thickness at a first crown of the first half shell, and a first wall thickness between the first crown and the joint. The second half shell has a second crown thickness at a second crown of the second half shell, and a second wall thickness between the second crown and the joint. The second crown thickness is greater than the first crown thickness, and the first wall thickness is equal to the second wall thickness at a point of equal thickness between 10 and 60 degrees from the joint.
The present invention relates to a transmission oil cooler (1), in particular for a transmission (2) of a motor vehicle (3), in particular of an electric vehicle, - comprising a housing (4) that has a housing upper part (5) and a housing lower part (6) and in or on which a heat exchanger (7) is arranged, - wherein the housing lower part (6) is designed to also function as a transmission housing cover (8) for a transmission housing (9) that can be connected thereto. As a result, the number of interfaces and the complexity of assembly can be reduced.
A method for aligning a vehicle to an ADAS calibration target may include providing a support bearing a camera arrangement and the calibration target, positioning the vehicle and the support so that the calibration target and the camera arrangement are in front of the vehicle, and moving the vehicle until a front license plate of the vehicle is detected by the camera arrangement. The method may also include acquiring one or more images and in response to detecting the front license plate in the images, identifying the corresponding alphanumeric code. The method may further include querying a first database to retrieve a model of the vehicle associated with said alphanumeric code, querying a second database to retrieve a predetermined position that is associated with the model of the vehicle, and providing commands to a driver for driving the vehicle so as the vehicle reaches said predetermined position.
B60W 50/08 - Interaction entre le conducteur et le système d'aide à la conduite
G06V 20/62 - Texte, p.ex. plaques d’immatriculation, textes superposés ou légendes des images de télévision
G06V 10/56 - Extraction de caractéristiques d’images ou de vidéos relative à la couleur
G06V 10/44 - Extraction de caractéristiques locales par analyse des parties du motif, p.ex. par détection d’arêtes, de contours, de boucles, d’angles, de barres ou d’intersections; Analyse de connectivité, p.ex. de composantes connectées
G06T 7/73 - Détermination de la position ou de l'orientation des objets ou des caméras utilisant des procédés basés sur les caractéristiques
G06F 16/535 - Filtrage basé sur des données supplémentaires, p.ex. sur des profils d'utilisateurs ou de groupes
74.
ROTOR FOR AN EXTERNALLY EXCITED ELECTRIC SYNCHRONOUS MACHINE
The invention relates to a rotor (1) for an externally excited electric synchronous machine (2), in particular for a traction motor of a vehicle, comprising - a rotor shaft (3) which extends along an axial direction, and - a winding support (4) which is rotationally fixed to the rotor shaft (3) and which has at least two, preferably four a more, electrically energizable rotor windings (5) in order to generate a magnetic rotor field, wherein - the winding support (4) is made of a laminated core with a plurality of sheet-metal parts which are stacked one over the other along the axial direction and which are made of a ferromagnetic material, and - the winding support (4) is designed to be closed on the outer circumference of the winding support so as to bridge the rotor windings (5). In this manner a closed rotor structure is achieved which allows high rotational speeds.
A heating, ventilation, and air conditioning (HVAC) module includes an air inlet, a first valve, a second valve, and a third valve. The air inlet includes a first inlet portion that receives a first input air and a second inlet portion to receive a second input air. The blower is in communication with the air inlet. The blower includes a first airflow section and a second airflow section. The first valve is disposed in the inlet and controls flow of the first input air and the second input air through the first airflow section. The second valve is disposed adjacent to the first valve and is configured to control flow of the first input air and the second input air through the second airflow section. The third valve is disposed in the second valve and selectively restricts leakage of the first input air into the first airflow section.
An operating method for operating a cooling system for a motor vehicle, in particular for an electrically powered motor vehicle, wherein the cooling system has a first cooling circuit, a second cooling circuit, and at least one coolant circuit;
wherein the first cooling circuit has at least one first component to be temperature-controlled and an indirect condenser, which are arranged in two sections extending parallel to one another, with a first switching point which is arranged on the first or second branching point and which controls the inflow of a cooling medium into the first component to be temperature-controlled and the indirect condenser;
wherein the second cooling circuit has at least one second component to be temperature-controlled and a chiller;
wherein the first and second cooling circuits can be connected by means of a first and second connecting section, and a second switching point, which controls the inflow of the cooling medium into at least the first connecting section, is arranged at least on the first connecting section;
wherein a third switching point, which controls the inflow of cooling medium into the chiller, is arranged in the second cooling circuit;
wherein, in the first cooling circuit, a radiator is arranged downstream of the second connecting section, and a fourth switching point, which controls the inflow of cooling medium into the radiator, is arranged upstream of the radiator,
characterized in that
the first, second, third, and fourth switching point are controlled at least as a function of an ambient temperature Tu.
A cooling system for a motor vehicle, in particular for an electrically powered motor vehicle, having
a first cooling circuit, a second cooling circuit, and at least one coolant circuit,
wherein the first cooling circuit has:
at least one first component to be temperature-controlled
a heat exchanger designed as an indirect condenser for transferring heat between
the first cooling circuit and the coolant circuit,
wherein the second cooling circuit has:
at least one second component to be temperature-controlled
a heat exchanger designed as a chiller for transferring heat between the second cooling circuit and the coolant circuit,
wherein the first and second cooling circuit can be connected by means of a first connecting section and a second connecting section, and, at least on the first connecting section, a second switching point is arranged
wherein the second switching point connects the first connecting section to the first cooling circuit in such a way that a cooling medium flows completely or at least partially through the first connecting section.
The invention relates to a bipolar element (1) for a fuel cell (10). The bipolar element (1) comprises a metal film (3) functioning as a bipolar plate (2). A fibre structure (6) comprising metal fibres (5) is arranged on an upper side or/and on an underside of the film (3). The fibre structure (6) preferably consists of the fibres (5). According to the invention, the fibres (5) of the fibre structure (6) are integrally bonded to the film (3) by means of a solder connection (8). The solder connection (8) generates a highly electrically conductive transition between the film and the fibres of the fibre structure. In this manner, the fibre structure (6) or microfibre structure can, in turn, function as a gas diffusion layer. According to the invention, the fibres (5) of the fibre structure (6) have a fibre diameter of at most 10 µm.
H01M 8/0245 - Composites sous forme de produits en couches ou enrobés
H01M 8/10 - PROCÉDÉS OU MOYENS POUR LA CONVERSION DIRECTE DE L'ÉNERGIE CHIMIQUE EN ÉNERGIE ÉLECTRIQUE, p.ex. BATTERIES Éléments à combustible; Leur fabrication Éléments à combustible avec électrolytes solides
A heat exchanger may include a plurality of first core plates and second core plates stacked alternatingly, and a first flow path through which a first fluid may flow and a second flow path through which a second fluid may flow. The first flow path and the second flow path may be disposed between the plurality of first core plates and second core plates and alternatingly formed to be adjacent. A first passage hole may form a first flow-through portion at the first flow path and a second passage hole may form a second flow-through portion at the second flow path. The first flow path may be isolated from the second flow path. The first flow-through portion and the second flow-through portion may include an edge portion having an angle in a second direction perpendicular to flow paths. The core plates may include a boss portion that protrudes.
F28D 9/00 - Appareils échangeurs de chaleur comportant des ensembles de canalisations fixes en forme de plaques ou de laminés pour les deux sources de potentiel calorifique, ces sources étant en contact chacune avec un côté de la paroi d'une canalisation
A heat exchanger may include a stacked plurality of plates and a fin plate brazed to each other. Each set of adj acent said plates of the plurality of the plates may define a flow path between plates. Each plurality of the plates may include a flow-through portion penetrating through the plates and through which a fluid is flowable. At least one set of the flow-through portions may be provided at one of the flow paths such that the fluid is flowable from one side of a flow-through portion to an other side of a flow-through portion. The flow-through portion may be disposed outside the fin plate. Each plurality of the plates may further include a through hole disposed outside the fin plate. Each plurality of the plates may further include a first boss portion formed in a substantially elliptical shape surrounding the flow-through portion and the through hole.
F28D 9/00 - Appareils échangeurs de chaleur comportant des ensembles de canalisations fixes en forme de plaques ou de laminés pour les deux sources de potentiel calorifique, ces sources étant en contact chacune avec un côté de la paroi d'une canalisation
F28F 3/02 - Eléments ou leurs ensembles avec moyens pour augmenter la surface de transfert de chaleur, p.ex. avec des ailettes, avec des évidements, avec des ondulations
An evaporator for a refrigerant circuit, in particular of a motor vehicle, with a tube/fin block with a multiplicity of tubes and fins, with a first collecting tank on one side of the tube/fin block and with a second collecting tank on the other side of the tube/fin block. The first collecting tank has an inlet chamber and an outlet chamber, wherein the inlet chamber is provided with a refrigerant inlet connection and the outlet chamber is provided with a refrigerant outlet connection, wherein a first baffle and a second baffle are arranged in the inlet chamber, which baffles are arranged spaced apart from one another in the inlet chamber.
F28D 7/16 - Appareils échangeurs de chaleur comportant des ensembles de canalisations tubulaires fixes pour les deux sources de potentiel calorifique, ces sources étant en contact chacune avec un côté de la paroi d'une canalisation les canalisations étant espacées parallèlement
A filter device includes a functional element and a filter element arranged in a filter housing. The filter element includes an enclosure positioned about a central axis and below filter material of the filter element. The enclosure includes an enclosure wall that defines an inner volume that is in fluid communication with an orifice of the functional element when the filter element is positioned over the functional element.
F02M 37/42 - Installation ou enlèvement des filtres
B01D 36/00 - Circuits ou combinaisons de filtres avec d'autres dispositifs de séparation
F02M 37/24 - 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 moyens de séparation de l’eau
B01D 29/11 - Filtres à éléments filtrants stationnaires pendant la filtration, p.ex. filtres à aspiration ou à pression, non couverts par les groupes ; Leurs éléments filtrants avec des éléments filtrants en forme de sac, de cage, de tuyau, de tube, de manchon ou analogue
B01D 35/00 - Dispositifs filtrants ayant des particularités non couvertes spécifiquement par les groupes , applications non couvertes spécifiquement par les groupes ; Dispositifs auxiliaires pour la filtration; Structure du carter de filtre
The present invention relates to an air-conditioning module (2) for a helmet (1), in particular a motorbike helmet, comprising at least one heat pump assembly (8) and at least one first fan (12) and at least one second fan (13). The heat pump assembly (8) has a first heat pump side (9) and a second heat pump side (10). The heat pump assembly (8) is suitable for pumping heat from the first heat pump side (9) to the second heat pump side (10) and/or from the second heat pump side (10) to the first heat pump side (9). The air-conditioning module (2) has fastening means for arrangement in or on the upper region of the helmet (1). The first fan (12) and/or the second fan (13) are air-guidingly connected to the ambient air (17). During operation, the first fan (12) directs air past the first heat pump side (9) and into the helmet (1). During operation, the second fan (13) directs air (4) out of the helmet interior and past the second heat pump side (10).
An induction assembly may include a coil carrier, a coil winding, a core assembly, and a heat exchanger. The coil carrier may include an upper wall, a lower wall located opposite the upper wall, and a receiving space. The coil winding may be disposed in the receiving space. The core assembly may form a coil with the coil winding. The core assembly may include at least two core bodies that are spaced apart from one another by a gap. The heat exchanger may include an inner panel spaced apart from the core assembly and an outer wall located opposite the inner panel. The outer wall may limit a flow space through which a flow path of a cooling fluid for controlling a temperature of the induction assembly leads.
H01F 27/30 - Fixation ou serrage de bobines, d'enroulements ou de parties de ceux-ci entre eux; Fixation ou montage des bobines ou enroulements sur le noyau, dans l'enveloppe ou sur un autre support
85.
POWER SHIFT TRANSMISSION, METHOD OF OPERATING THE SAME AND BICYCLE HAVING A POWER SHIFT TRANSMISSION
A power shift transmission for a vehicle driveable by motor power and/or pedal power may include a transmission device which transmits a torque introducible on a drive in a transmission ratio settable via a plurality of gears to an output. The power shift transmission may also include two shifting devices via which the transmission device is shiftable for setting the transmission ratio of the transmission device.
B62M 6/55 - Cycles propulsés par le conducteur avec moteur électrique auxiliaire motopropulsés au niveau de parties du vilebrequin
B62M 11/18 - Transmissions caractérisées par l'engrènement de roues dentées ou le contact de roues à friction de rapport variable avec engrenages planétaires avec plusieurs ensembles d'engrenages planétaires
F16D 41/24 - Roues libres ou embrayages à roue libre spécialement adaptés aux bicyclettes
A heat exchanger of an electrically driven motor vehicle, which includes a tube/rib block having a multiplicity of tubes and having a multiplicity of ribs. The tubes being arranged essentially in parallel to each other and spaced a distance apart, and the ribs each being arranged between two adjacent tubes. The ribs touching the two adjacent tubes, at least one manifold being arranged on one of the sides of the tube/rib block for the purpose of supplying fluid to tubes of the tube/rib block and for removing fluid from tubes of the tube/rib block. A cover device is arranged downstream and/or upstream from the tube/rib block for controlling the air flow through the tube/rib block temporarily or in certain regions for the defined removal of water from the tube/rib block. A method for operating a heat exchanger is also provided.
F28F 17/00 - Enlèvement de la glace ou de l'eau des appareils échangeurs de chaleur
F28F 1/12 - Eléments 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 ces moyens étant uniquement à l'extérieur de l'élément tubulaire
B60H 1/00 - Dispositifs de chauffage, de refroidissement ou de ventilation
The invention relates to a stationary inductive charging device (1), comprising a coil (2) for generating an alternating electromagnetic field, power electronics (3) for supplying power to the coil (2) and for energising the coil (2), and a cooling plate (8) which is connected in a heat-transferring manner to components (7) of the power electronics (3) and to the coil (2). Efficient cooling of the power electronics (3) and the coil (2) results from a cooling device (14) which has a cooling duct system (15) having a plurality of cooling ducts (17) running in the cooling plate (8) and carrying a coolant, and a conveying device (16) driving the coolant in the cooling duct system (15). Efficient heat dissipation from the cooling plate (8) or from the coolant results from a ventilation device (21) that has an air duct system (22) comprising at least one air-carrying air duct (24) connected to the cooling plate (8) in a heat-transferring manner, at least one fan (23) for driving the air in the air duct system (22), at least one air inlet (26) communicating with the surroundings (25) of the inductive charging device (1) and at least one air outlet (27) communicating with the surroundings (25).
B60L 53/302 - Refroidissement des équipements de charge
F28D 1/03 - 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 d avec des canalisations d'échange de chaleur immergées dans la masse du fluide avec des canalisations en forme de plaques ou de laminés
The invention relates to an induction charging device (1) comprising a charging arrangement (2) having at least one electric component (3, 3a, 3b) and comprising at least one housing (4) having a housing cover (5) and a housing base (6). The housing cover (5) and the housing base (6) are attached to one another and the charging arrangement (2) is accommodated in an interior space (8) formed by the two parts. The housing base (6) is made of a heat-conductive material and the component (3, 3a, 3b) of the charging arrangement (2) is at least partly connected to the housing base (6) so as to transfer heat.
B60L 53/30 - PROPULSION DES VÉHICULES À TRACTION ÉLECTRIQUE; FOURNITURE DE L'ÉNERGIE ÉLECTRIQUE À L'ÉQUIPEMENT AUXILIAIRE DES VÉHICULES À TRACTION ÉLECTRIQUE; SYSTÈMES DE FREINS ÉLECTRODYNAMIQUES POUR VÉHICULES, EN GÉNÉRAL; SUSPENSION OU LÉVITATION MAGNÉTIQUES POUR VÉHICULES; CONTRÔLE DES PARAMÈTRES DE FONCTIONNEMENT DES VÉHICULES À TRACTION ÉLECTRIQUE; DISPOSITIFS ÉLECTRIQUES DE SÉCURITÉ POUR VÉHICULES À TRACTION ÉLECTRIQUE Échange d'éléments d’emmagasinage d'énergie dans les véhicules électriques - Détails de construction des stations de charge
B60L 53/302 - Refroidissement des équipements de charge
The present invention relates to a stationary inductive charging device (1), - having a coil (2) and a power electronics (3) for energy supply and for driving the coil (2), - having a refrigerant plate (4) which is connected at its plate upper side (5) to components (6) of the power electronics (3) and to the coil (2) in a heat-transferring manner, - having a refrigerant device (14) which has a refrigerant duct system (15) running in the refrigerant plate (4) with a plurality of refrigerant ducts (17) carrying a refrigerant, and a compressor (16) driving the refrigerant in the refrigerant duct system (15) as well as a condenser (18), an evaporator (50) and an expansion valve (19), - having a ventilation device (20) which has an air duct system (21) comprising at least one air-carrying air duct (23) connected to the plate upper side (5) in a heat-transferring manner, at least one fan (22) for driving the air in the air duct system (21), at least one air inlet (25) communicating with the surroundings (24) of the inductive charging device (1) and at least one air outlet (26) communicating with the surroundings (24).
The present invention relates to an induction charging unit (1) for an energy transmission system, comprising a cooling device (3) which defines a component-mounting area (2) and is designed for dissipating thermal energy, comprising at least one electrical power component (4) and comprising a clamping device (5). It is important for the at least one electrical power component (4) to be clamped onto the component-mounting area (2) of the cooling device (3) using the clamping device (5). The invention also relates, in particular, to an energy transmission system for inductively charging a battery-electric vehicle with electrical energy, the energy transmission system having such an induction charging unit (1).
The present invention relates to a system (1) for inductive energy transfer, in particular to a mobile application (100), which system comprises: a stationary induction charging device (2, 2a) having a stationary energy coil (3, 3a); and a mobile induction charging device (2, 2b) having a mobile energy coil (3, 3b). Precise and reliable determination of the relative position of the energy coils (3) in relation to one another is achieved by means of a positioning device (4) which has, in one of the induction charging devices (2), at least four transmission coils (5) and, in the other induction charging device (2), at least one receiver (6), wherein the transmission coils (5) generate mutually distinguishable positioning fields (60) which interact with the at least one receiver (6), wherein the ratio between the positioning fields (60) is used to determine whether the energy coils (3) overlap one another. The invention also relates to an induction charging device (2) of this kind and to a mobile application (100), in particular a motor vehicle (101), having a mobile induction charging device (2, 2b) of this kind.
H02J 50/10 - Circuits ou systèmes pour l'alimentation ou la distribution sans fil d'énergie électrique utilisant un couplage inductif
B60L 53/126 - Procédés pour associer un véhicule et une station de charge, p.ex. en établissant une relation directe entre un transmetteur d'énergie sans fil et un récepteur d'énergie sans fil
H02J 50/90 - Circuits ou systèmes pour l'alimentation ou la distribution sans fil d'énergie électrique mettant en œuvre la détection ou l'optimisation de la position, p.ex. de l'alignement
The invention relates to a ring filter element (6), comprising - an upper end plate (7), - a lower end plate (8), and filter material (9) interposed between the upper end plate (7) and the lower end plate (8). According to the invention, a drying device (11) comprising a drying agent (12) is provided on the ring filter element (6). The invention further relates to a filter device (1) comprising a ring filter element (6) of the above type and comprising a drying device (11) with a drying agent (12) arranged in the region of the filter housing (3).
B01D 29/11 - Filtres à éléments filtrants stationnaires pendant la filtration, p.ex. filtres à aspiration ou à pression, non couverts par les groupes ; Leurs éléments filtrants avec des éléments filtrants en forme de sac, de cage, de tuyau, de tube, de manchon ou analogue
B01D 36/00 - Circuits ou combinaisons de filtres avec d'autres dispositifs de séparation
B01D 37/02 - Revêtement préalable des éléments filtrants ou de la substance filtrante; Addition d'adjuvants de filtration au liquide à filtrer
The invention relates to a stationary inductive charging device (1) for an inductive vehicle charging system for charging a battery of a battery-powered electric vehicle, comprising at least one coil (2) for generating an electromagnetic alternating field, power electronics (3) for supplying power to the coil (2) and for driving the coil (2), a cooling plate (4) which is connected at its plate upper side (5) to components (6) of the power electronics (3) and to the coil (2) in a heat-transferring manner, and a cooling device (14) which has a cooling duct system (15) running in the cooling plate (4) and having cooling ducts (17) carrying a coolant, and a conveying device (16) driving the coolant in the cooling duct system (15). In order to improve heat dissipation, a ventilation device (20) is proposed that comprises an air duct system (21) having at least one air-carrying air duct (23) connected to the plate upper side (5) in a heat-transferring manner, at least one fan (22) for driving the air in the air duct system (21), at least one air inlet (25) communicating with the environment (24) of the inductive charging device (1) and at least one air outlet (26) communicating with the environment (24).
INDUCTION CHARGING APPARATUS, VEHICLE INDUCTION CHARGING APPARATUS, ENERGY TRANSMITTER APPARATUS, COMBINATION OF AN ENERGY TRANSMITTER APPARATUS AND A BATTERY ELECTRIC VEHICLE, AND METHOD FOR BRINGING A BATTERY ELECTRIC VEHICLE EQUIPPED WITH A VEHICLE INDUCTION CHARGING APPARATUS TO AN INDUCTION CHARGING APPARATUS
The present invention relates to a mobile or stationary induction charging apparatus (1) for a charging station (2) designed for charging a battery electric vehicle (100) with electrical energy, comprising a transmission device (12) consisting of at least one electrical transmission coil (20) which is separate from an energy coil (11) of the induction charging apparatus (1) and provides an electromagnetic or magnetic field designated as a guide path marker field. A guide, in particular a guide path (22), for the vehicle induction charging apparatus (101) is marked on the basis of the at least one guide path marker field, on the basis of which guide the vehicle induction charging apparatus (101) and/or the vehicle (100) can be guided to the energy coil (11). The invention relates in particular to a vehicle induction charging apparatus (101), also in particular to an energy transmitter apparatus, also in particular to a combination of an energy transmitter apparatus and a battery electric vehicle (100), and also in particular to a method for bringing a battery electric vehicle (100) equipped with a vehicle induction charging apparatus (101) to an induction charging apparatus (1).
B60L 53/126 - Procédés pour associer un véhicule et une station de charge, p.ex. en établissant une relation directe entre un transmetteur d'énergie sans fil et un récepteur d'énergie sans fil
B60L 53/36 - Moyens pour l’ajustement automatique ou assisté de la position relative des dispositifs de charge et des véhicules par le positionnement du véhicule
H02J 50/90 - Circuits ou systèmes pour l'alimentation ou la distribution sans fil d'énergie électrique mettant en œuvre la détection ou l'optimisation de la position, p.ex. de l'alignement
The invention relates to an induction charging device (1), in particular a stationary and/or inductive induction charging device, for an inductive vehicle-charging system for charging a battery of a battery-powered vehicle. The induction charging device (1) comprises at least one coil (2) for generating an alternating electromagnetic field, said coil extending in a plane running perpendicularly to the vertical direction (H) of the induction charging device (1) and being formed by electrical conductors in the form of strands (3). The induction charging device (1) also comprises a coil carrier structure (4) made of plastic for positioning the strands (3), the strands (3) being at least partially embedded in said coil carrier structure. The induction charging device (1) also comprises a support structure (5) which has a plurality of support elements (6) which each extend in the vertical direction (H) and which are mutually spaced in the longitudinal direction (L) perpendicular to the vertical direction (H) and are supported against the coil carrier structure (4) in the vertical direction. The induction charging device (1) also comprises at least two, preferably a plurality of, magnetic-field-conducting core plates (7) which are made of a magnetically soft material, are mutually spaced and extend in the longitudinal direction (L), wherein each core plate (7) is supported against at least one support element (6).
B60L 53/30 - PROPULSION DES VÉHICULES À TRACTION ÉLECTRIQUE; FOURNITURE DE L'ÉNERGIE ÉLECTRIQUE À L'ÉQUIPEMENT AUXILIAIRE DES VÉHICULES À TRACTION ÉLECTRIQUE; SYSTÈMES DE FREINS ÉLECTRODYNAMIQUES POUR VÉHICULES, EN GÉNÉRAL; SUSPENSION OU LÉVITATION MAGNÉTIQUES POUR VÉHICULES; CONTRÔLE DES PARAMÈTRES DE FONCTIONNEMENT DES VÉHICULES À TRACTION ÉLECTRIQUE; DISPOSITIFS ÉLECTRIQUES DE SÉCURITÉ POUR VÉHICULES À TRACTION ÉLECTRIQUE Échange d'éléments d’emmagasinage d'énergie dans les véhicules électriques - Détails de construction des stations de charge
H01F 27/30 - Fixation ou serrage de bobines, d'enroulements ou de parties de ceux-ci entre eux; Fixation ou montage des bobines ou enroulements sur le noyau, dans l'enveloppe ou sur un autre support
The present invention relates to a method for determining the relative position of a stationary induction charging device (2, 2a) in relation to a mobile induction charging device (2, 2b), which devices interact with one another during a charging operation for inductive energy transfer. Precise and robust determination of the relative position of energy coils (3) of the induction charging devices (2) in relation to one another is achieved in that, relative to one of the energy coils (3), at least two fixed positioning fields (60) are generated, the positioning fields (60) are received at a location that is fixed relative to the other energy coil (3), and the ratio (62) between the positioning fields (60) is determined, wherein, when the determined ratio (62) corresponds to a previously specified ratio range (63), an overlap of the two energy coils (3) is identified. The invention also relates to a computer program product for carrying out the method, to a system (1) which is operated in this way, and to a mobile application (100) comprising a mobile induction charging device (2, 2a) of a system (1) of this kind. In addition, the invention relates to a stationary induction charging device (2, 2a) of a system (1) of this kind.
H02J 50/90 - Circuits ou systèmes pour l'alimentation ou la distribution sans fil d'énergie électrique mettant en œuvre la détection ou l'optimisation de la position, p.ex. de l'alignement
H02J 50/00 - Circuits ou systèmes pour l'alimentation ou la distribution sans fil d'énergie électrique
B60L 53/126 - Procédés pour associer un véhicule et une station de charge, p.ex. en établissant une relation directe entre un transmetteur d'énergie sans fil et un récepteur d'énergie sans fil
The present invention relates to a method for determining the relative position of a stationary induction charging device (2, 2a) in relation to a mobile induction charging device (2, 2b), which devices interact with one another during a charging operation for inductive energy transfer. Precise determination of the relative position of energy coils (3) of the induction charging devices (2) in relation to one another is achieved by generating, in the stationary induction charging device (2, 2a), at least one magnetic approach field (70) with an approach intensity maximum (71), the at least one approach field (70) being fixed relative to the stationary energy coil (3, 3a) of the stationary induction charging device (2, 2a) and the approach intensity maximum (71) of the relevant at least one approach field (70) being at a distance from the stationary energy coil (3, 3a). An approach of the mobile energy coils (3, 3b) of the mobile induction charging device (2, 2b) to the stationary energy coil (3, 3a) is detected if at least one of the at least one approach fields (70) is received in the mobile induction charging device (2, 2b). The invention also relates to a computer program product for executing the method, to a system (1) operated in this way, and to a mobile application (100), in particular a motor vehicle (101), comprising a mobile induction charging device (2, 2a) of such a system (1). The invention also relates to a stationary induction charging device (2, 2a) of such a system (1).
H02J 50/10 - Circuits ou systèmes pour l'alimentation ou la distribution sans fil d'énergie électrique utilisant un couplage inductif
H02J 50/90 - Circuits ou systèmes pour l'alimentation ou la distribution sans fil d'énergie électrique mettant en œuvre la détection ou l'optimisation de la position, p.ex. de l'alignement
H02J 50/00 - Circuits ou systèmes pour l'alimentation ou la distribution sans fil d'énergie électrique
B60L 53/126 - Procédés pour associer un véhicule et une station de charge, p.ex. en établissant une relation directe entre un transmetteur d'énergie sans fil et un récepteur d'énergie sans fil
The present invention relates to a system (1) for inductively transmitting energy, more particularly to a mobile application (100), which system comprises a stationary induction charging device (2, 2a) which has a stationary energy coil (3, 3a), and a mobile induction charging device (2, 2b) which has a mobile energy coil (3, 3b). Precise and robust detection of the position of the energy coils (3) relative to each other is achieved by means of a positioning device (4) which has four transmitting coils (5) in one of the induction charging devices (2) and at least one receiver (6) in the other induction charging device (2). The transmitting coils (5) generate positioning fields (60) which can be distinguished from one another and which interact with the at least one receiver (6). On the basis of the relationship between the positioning fields (60), it is detected whether the energy coils (3) overlap with each other. The invention also relates to an induction charging device (2) of this type and to a mobile application (100), more particularly a motor vehicle (101), having a mobile induction charging device (2, 2b) of this type.
H02J 50/10 - Circuits ou systèmes pour l'alimentation ou la distribution sans fil d'énergie électrique utilisant un couplage inductif
H02J 50/90 - Circuits ou systèmes pour l'alimentation ou la distribution sans fil d'énergie électrique mettant en œuvre la détection ou l'optimisation de la position, p.ex. de l'alignement
H02J 50/00 - Circuits ou systèmes pour l'alimentation ou la distribution sans fil d'énergie électrique
99.
COOLING DEVICE FOR A STATIONARY INDUCTIVE CHARGING DEVICE
The invention relates to a cooling device (1) for a stationary inductive charging device. The cooling device (1) comprises a base (2) and a cover panel (3), between which at least two channel plates (4a, 4b, 4c) are sandwiched. In the process, at least one of the channel plates (4a, 4b, 4c) is provided with at least one opening (5) which forms a cooling channel structure (10) for the through-flow of a cooling medium (K) or which is part of such a cooling channel structure. Furthermore, the base (2), the at least two channel plates (4a, 4b, 4c), and the cover panel (3) are stacked one over the other along a stacking direction (S) and are bonded together by means of a soldered connection.
A cooling system for a fuel cell of a motor vehicle may include a closed coolant circuit through which a coolant is circulatable, a heat exchanger fluidically incorporated in the coolant circuit for cooling the coolant, an open sprinkler circuit through which a sprinkler fluid is flowable for cooling the heat exchanger, and a channel structure fluidically incorporated in the sprinkler circuit. The heat exchanger may include an air inlet surface, an air outlet surface, and a plurality of cooling tubes. The coolant may be flowable through the heat exchanger via the plurality of cooling tubes. Air may be flowable through the heat exchanger from the air inlet surface to the air outlet surface. The channel structure may include a plurality of channels, which may each include a plurality of outlet nozzles via which the sprinkler fluid is appliable to the plurality of cooling tubes.
B60L 58/33 - Procédés ou agencements de circuits pour surveiller ou commander des batteries ou des piles à combustible, spécialement adaptés pour des véhicules électriques pour la surveillance et la commande des piles à combustible pour la commande de la température des piles à combustible, p.ex. en commandant la charge électrique par refroidissement
F28D 3/02 - 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 d avec canalisations tubulaires
F28D 1/053 - 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 d avec des canalisations d'échange de chaleur immergées dans la masse du fluide avec canalisations tubulaires les canalisations étant rectilignes
