The invention relates to an electric motor device (10) comprising: a first circuit branch (12) and a second circuit branch (14) connected in parallel with the first circuit branch (12), the first circuit branch (12) comprising a main winding (16) and the second circuit branch (14) comprising an auxiliary winding (18) and a capacitor (20); and a phase-angle controller (22) connected in series with the main winding (16). The aim of the invention is to provide an electric motor device of this type with improved power control. This is achieved in that the phase-angle controller (22) is connected in parallel with the second circuit branch (14).
H02P 1/42 - Dispositions de démarrage de moteurs électriques ou de convertisseurs dynamo-électriques pour faire démarrer des machines dynamo- électriques ou des convertisseurs dynamo-électriques pour faire démarrer individuellement un moteur d'induction monophasé
H02P 23/04 - Dispositions ou procédés pour la commande de moteurs à courant alternatif caractérisés par un procédé de commande autre que la commande par vecteur spécialement adaptés pour amortir les oscillations des moteurs, p. ex. pour la réduction du pompage
H02P 25/04 - Moteurs monophasés, p. ex. moteurs à condensateur
2.
OPERATING A HOUSEHOLD APPLIANCE WITH A BLDC DRIVE MOTOR
A method operates a household appliance, in which, in order to start up a BLDC drive motor of the household appliance, an actual rotational speed of a rotor of the BLDC drive motor is increased in a controlled manner from an idle state by a deterministic target control torque, and an actual angle and the actual rotational speed of the rotor are determined by high-frequency injection. In the event that the actual rotational speed reaches or exceeds a first threshold rotational speed, the actual rotational speed is controlled to a target rotational speed. In the event that the actual rotational speed reaches or exceeds a second threshold rotational speed, the actual angle and the actual rotational speed are determined from an EMF signal. Specifically, the method is used for starting up the BLDC drive motor, which drives a reciprocating compressor of a refrigeration circuit of a household refrigeration appliance.
The invention relates to a core temperature sensor (KTF) for use with a microwave cooking appliance which generates microwaves within a specific microwave frequency band in order to treat food to be cooked, the core temperature sensor (KTF) having: at least one temperature sensor (TS); an antenna (ANT); a high-frequency oscillator (1), the output signal of which can be fed into the antenna (ANT) and the signal frequency of which lies outside the microwave frequency of the microwave cooking appliance; a modulation device (OOK), which is designed to generate a pulse sequence from the output signal of the high-frequency oscillator (1) by means of an amplitude modulation process, said pulse sequence corresponding to digital temperature data (OST) generated by means of the at least one temperature sensor (TS); and an electric energy storage device (BAT) for supplying electrically operated components (MCU, TS, OSZ-AMP) of the core temperature sensor (KTF). The invention also relates to a system having a core temperature sensor and a cooking appliance, having a receiver for receiving electromagnetic waves emitted by the core temperature sensor and a control device which is designed to operate the cooking appliance on the basis of information contained in the received electromagnetic waves.
G01K 1/024 - Moyens d’indication ou d’enregistrement spécialement adaptés aux thermomètres pour l’indication à distance
H04L 27/02 - Systèmes à courant porteur à modulation d'amplitude, p. ex. utilisant la manipulation par tout ou rienModulation à bande latérale unique ou à bande résiduelle
The present invention relates to a cooling appliance (1), in particular a household cooling appliance, comprising a body (2), a machine compartment (4) at least partially surrounded by the body (2), at least one cooling circuit component (5) located in the machine compartment (4), a base tray (6) defining a base of the machine compartment (4), and an evaporation tray (7) which seats onto the base tray (6) and defines an inner space (10) for collecting condensation water (W) of the cooling appliance (1). In the invention, the evaporation tray (7) comprises a detachable evaporation assembly (11) having a vibration generation part (15) arranged to evaporate the condensation water (W) by generating ultrasonic vibrations. The invention also discloses a method for evaporating condensation water (W) collected in an inner space (10) of an evaporation tray (7) of a cooling appliance (1).
The utility model relates to the technical field of household appliances, and specifically, to a bracket for a circuit board assembly. The circuit board assembly includes a circuit board having a conductive contact pin and an electrical connector configured to be connected to the conductive contact pin. The bracket includes an accommodating portion configured to accommodate the circuit board and a limiting portion configured to prevent the circuit board from being separated from the bracket. The limiting portion includes a first limiting structure. The first limiting structure at least cooperates with the electrical connector to limit displacement of the circuit board in at least one direction in the accommodating portion. The utility model further relates to a circuit board assembly for a household appliance, and a household appliance. Therefore, the bracket can effectively limit the circuit board in the accommodating portion of the bracket, and prevent the circuit board from being displaced or falling off during use in at least one direction, thereby improving reliability and stability of the circuit board assembly. In addition, adverse stress caused to the circuit board during assembly can be avoided, thereby reducing a damage risk of the circuit board, and improving assembly efficiency and a product yield.
H05K 7/14 - Montage de la structure de support dans l'enveloppe, sur cadre ou sur bâti
H01R 12/72 - Dispositifs de couplage pour circuits imprimés rigides ou structures similaires se couplant avec la bordure des circuits imprimés rigides ou des structures similaires
H01R 12/75 - Dispositifs de couplage pour circuits imprimés rigides ou structures similaires se raccordant à des câbles à l'exclusion des câbles plats ou à rubans
7.
COOLING DEVICE HAVING A COVER ASSEMBLY, COVER ASSEMBLY AND METHOD FOR ASSEMBLING A COVER ASSEMBLY
A cooling device includes a body, a first user compartment, an inner frame including side and rear panels, a second compartment separated from the first by the rear panel, a cooling unit in the second compartment, a unit cover on the rear panel enclosing and separating the cooling unit from the first compartment. The unit cover has a cover front surface facing the first compartment. A partition wall separates the first compartment into first and second storage parts with the partition wall on the cover front surface. The cover front surface has a first cover surface facing the first storage part and an assembly surface adjacent the first cover surface and having a thickness. An outer coating coats the first cover surface and the thickness. The assembly surface is hidden by the partition wall on the unit cover. A cover assembly and method for assembly thereof are also provided.
A refrigeration appliance includes a storage compartment, two side walls delimiting the storage compartment in a width direction of the refrigeration appliance, a push-pull container located within the storage compartment, a partition plate located above the push-pull container, and a protrusion located on at least one of the side walls. The protrusion is configured to provide a mounting position for the push-pull container and the partition plate. A recess for mounting the partition plate is provided on the protrusion. The partition plate is accommodated in the recess of the protrusion, which makes full use of the side wall space occupied by the protrusion, eliminates a need to provide an additional space for mounting the partition plate, and significantly improves space utilization efficiency.
A control unit is provided for controlling a user interface of a household appliance which includes a set of control elements. The control unit is configured to detect a sequence of actuations of the set of control elements, and to classify the detected sequence of actuations as being a normal sequence or an abnormal sequence. The control unit is configured to cause the user interface to be locked, if the detected sequence of actuations is classified to be an abnormal sequence. A household appliance having a user interface and a method for controlling a user interface are also provided.
The invention relates to a method for operating a cooking device (1) with a cooking chamber (2), in which, during an operation of an electric motor (14) of a vapor fan (12), at least one operating variable (U_i, I_i, D_s) of the electric motor (14) is tracked and, on the basis of the at least one tracked operating variable (U_i, I_i, D_s), at least one conclusion is drawn about a heat treatment process of a cooking product (G) located in the cooking chamber (2). The invention also relates to a cooking device (1) which is designed to carry out the method.
The invention relates to an induction energy transmission system (10), in particular an induction cooking system, comprising a placement surface (12), comprising a supply unit (14) which has at least one supply induction element (16) arranged below the placement surface (12) for inductively providing energy, comprising at least one placement item (18) which has at least one receiving unit (20) comprising at least one receiving induction element (22) for receiving the inductively provided energy, and comprising an open-loop and/or closed-loop control unit (24) for providing open-loop and/or closed-loop control of the supply unit (14) in order to transmit energy between the supply unit (14) and the receiving unit (20), wherein the open-loop and/or closed-loop control unit (24) is intended to use a parameter set (26) to provide open-loop and/or closed-loop control of the supply unit (14) and to receive at least one parameter (28) from the placement item (18). In order to provide improved ease of use for an induction energy transmission system (10), the open-loop and/or closed-loop control unit (24) is provided to switch off, in at least one operating state, the frequency modulation of the supply unit (14) depending on the at least one parameter (28) received from the at least one placement item (18).
(Method for operating an extractor hood and extractor hood) The invention relates to a method for operating an extractor hood (3), in which, during the operation of an electric motor (8) of an extractor fan (6), at least one operating variable (U_i, I_i, D_s) of the electric motor (8) is recorded and, on the basis of the at least one recorded operating variable (U_i, I_i, D_s), at least one conclusion is drawn regarding at least one heat treatment process from which vapor (S) is being extracted by the extractor hood (3). The invention also relates to an extractor hood (3) which is designed to carry out the method. The invention also relates to a system (1, 3) having a cooking device (1) with a hob (2) and an extractor hood (3), the extractor hood (3) being provided in order to extract vapor (S) rising from food (G) being heat-treated on the hob (2).
In order to increase efficiency, the invention proposes an electrical device (10), having at least one insulated gate driver (12) for controlling at least one gate electrode (32), wherein the gate driver (12) has: at least one transformer (14) for transferring a driver signal, generated via a modulation of a carrier signal, from a primary side (20) to a secondary side (30) of the gate driver (12); a rectifying unit (34) on the secondary side (30); and a latch unit (36) for discharging the gate electrode (32), the latch unit (36) being connected between the gate electrode (32) and the rectifying unit (34).
H03K 17/0412 - Modifications pour accélérer la commutation sans réaction du circuit de sortie vers le circuit de commande par des dispositions prises dans le circuit de commande
H02M 1/08 - Circuits spécialement adaptés à la production d'une tension de commande pour les dispositifs à semi-conducteurs incorporés dans des convertisseurs statiques
H03K 17/691 - Commutation ou ouverture de porte électronique, c.-à-d. par d'autres moyens que la fermeture et l'ouverture de contacts caractérisée par l'utilisation de composants spécifiés par l'utilisation, comme éléments actifs, de dispositifs à semi-conducteurs les dispositifs étant des transistors à effet de champ avec une isolation galvanique entre le circuit de commande et le circuit de sortie utilisant un couplage par transformateur
14.
HOUSEHOLD APPLIANCE AND QUALITY MANAGEMENT METHOD, DEVICE, CONTROL DEVICE AND SYSTEM FOR HOUSEHOLD APPLIANCES
A method for quality management for household appliances includes steps of collecting first data indicative of operation or usage of a plurality of household appliances of a predetermined type, and collecting second data indicative of malfunctions or service requirements of household appliances of that type. The first or second data of a household appliance are subjected to a filter that is configurable by a user associated with the household appliance, and machine learning is applied to relate the first data to the second data. A device, a control device and a system for quality management for household appliances are also provided.
A drawer-type steamer includes a steamer drawer configured to be selectively withdrawn rearward or pulled forward. The steamer drawer includes: a steaming cavity, configured to accommodate a to-be-steamed object, where a rear wall of the steaming cavity has a steam inlet, and a front wall of the steaming cavity has a steam outlet; a steam generator, arranged behind the steaming cavity, where steam generated by the steam generator is configured to move forward to enter the steaming cavity through the steam inlet and move forward to exit the steaming cavity through the steam outlet. As a result, an efficient and convenient steamer can be provided.
A gas control valve (100, 151, 161, 162, 164, 169) for supplying gas to a gas burner (145), comprising: a main chamber (110) connected to a gas inlet port (101) of the gas control valve (100), and a set of gas transfer passages (125), each diverting from the main chamber (110) and being connected to a gas outlet port (126, 152) of the gas control valve (100), wherein a selection rotor (113) has a rotor body (114) and a selection passage (115), and the selection rotor (113) is arranged to be rotatable between at least two selection positions (P), wherein in each selection position (P, P1-P9) the rotor body (114) is arranged to block a gas flow from the main chamber (110) to at least one gas transfer passage (125) while the selection passage (115) is arranged to allow a gas flow from the main chamber (110) to at least one other gas transfer passage (125).
A domestic appliance contains: a storage compartment delimited by a wall having a loading opening; a double-door assembly having two doors, wherein a trigger signal is output to a data-processing device when a door is closed; and a camera which is arranged on the wall and is configured to, upon receipt of a trigger signal, capture an image of the loading opening and transmit the image to a data-processing device. The camera has a dead time within which the camera cannot capture an additional image upon receipt of an additional trigger signal, and the data-processing device then generates, upon receipt of a trigger signal and an image captured as a result, an image section from the captured image if no additional trigger signal is received within the dead time. The image section shows the door which initiated the trigger signal, and, if an additional trigger signal is received within the dead time, the data-processing device additionally generates an additional image section from the captured image, which additional image section shows the other door.
The invention relates to a dishwashing composition for cleaning dishware, containing between 22 wt% and 60 wt% of an aminotricarboxylic acid and/or a salt thereof, wherein the aminotricarboxylic acid has the general formula (I) in which R1, R2 and R3 independently of one another are an unsubstituted alkyl group or a substituted alkyl group having chain length C1 to C4; n is 0 or 1; and X is an organic substituent, in particular methyl, ethyl or a combination thereof. The invention further relates to a method of washing dishware and to a machine dishwasher for using the dishwashing composition or for implementing the method.
The invention relates to a solenoid valve (15, 15', 15'') for controlling a fluid flow (16) in a domestic appliance, comprising: a closing element (17) for controlling the fluid flow (16), an armature (20) for actuating the closing element (17), a permanent magnet (25), which is configured to exert a magnetic force on the armature (20), an energisable coil (26) for generating a magnetic field in order to move the armature (20), and a yoke (30, 30') which is configured to bundle the magnetic field generated by the coil (26), wherein the permanent magnet (25) projects beyond the yoke (30, 30') along the armature (20) or is arranged outside same.
F16K 31/06 - Moyens de fonctionnementDispositifs de retour à la position de repos électriquesMoyens de fonctionnementDispositifs de retour à la position de repos magnétiques utilisant un aimant
A47L 15/42 - Machines à laver ou à rincer la vaisselle ou les ustensiles de table Parties constitutives
F16K 31/08 - Moyens de fonctionnementDispositifs de retour à la position de repos électriquesMoyens de fonctionnementDispositifs de retour à la position de repos magnétiques utilisant un aimant utilisant un aimant permanent
F16K 31/56 - Moyens mécaniques d'actionnement sans position intermédiaire stable, p. ex. par à-coup
A gas control valve (100, 151, 161, 162, 164, 169) for supplying gas to a gas burner (145), comprising a transfer layer (137) and a connection layer (140), wherein: gas transfer passages (125) in the transfer layer (137) extend across the transfer layer (137), each of separate connection passages (142) in the connection layer (140) is arranged to fluidly connect two respective gas transfer passages (125), and each gas transfer passage (125) is arranged to fluidly connect two respective connection passages (142).
A method (200) for operating a household appliance (155) to carry out a predetermined household task comprises steps of determining functional capabilities of the household appliance (155); providing an LLM (130) that is trained to perform linguistic operations on an input text; reading into the LLM (130) a text-based, especially generic, recipe for carrying out said household task; and causing or triggering or prompting the LLM (130) to generate, based on the text-based recipe, operating instructions for operating the household appliance (155); such that the household appliance (155) can be operated on the basis of said generated instructions to carry out said household task.
A47J 44/00 - Machines à usages multiples pour préparer la nourriture
G06N 3/044 - Réseaux récurrents, p. ex. réseaux de Hopfield
G06N 3/0442 - Réseaux récurrents, p. ex. réseaux de Hopfield caractérisés par la présence de mémoire ou de portes, p. ex. mémoire longue à court terme [LSTM] ou unités récurrentes à porte [GRU]
The present invention relates to a steam cabinet assembly, including: a bottom plate; a frame, where the frame has a front wall and a rear wall that are opposite along a depth direction and two side walls that are opposite along a width direction, and a steaming cavity of the steam cabinet assembly is defined by the frame and the bottom plate; a steam generator, where the steam generator heats liquid water in the steaming cavity into steam; a water supply unit, where the water supply unit has at least a water storage box, a water pump, and a water supply pipeline, the water supply unit guides, through the water pump, liquid water in the water storage box to flow through the water supply pipeline, and the water supply unit is arranged in only one wall of the frame; and an exhaust unit, where the exhaust unit is arranged in the front wall and has at least an exhaust line, where the exhaust line has an exhaust inlet open towards the steaming cavity and an exhaust outlet open towards an external environment ahead along the depth direction. The present invention further relates to a corresponding kitchen appliance. A compact configuration can be implemented, a kitchen space can be saved, steaming efficiency and use experience of a user can be improved, and a pipeline length in the steam cabinet assembly can be shortened as much as possible.
F24C 15/18 - Disposition des compartiments additionnels autres que ceux de cuisson, p. ex. pour le chauffage ou pour le rangement d'ustensiles ou des bacs à combustiblesAménagements d'appareils additionnels de chauffage ou de cuisson, p. ex. grils
23.
STEAM INSERT, STEAM ACCESSORY SET, AND COOKING APPLIANCE
The present invention relates to a steam insert (2) for being inserted into a cooking appliance pan (4), comprising a base (6) which has a corrugated region (10) for supporting an item to be cooked, and a plurality of through-holes (16) for allowing the passage of rising steam from an evaporator (34), wherein the base (6) has a central region (18) free of through-holes (16) for shielding the evaporator (34). The invention also relates to a steam accessory set consisting of a cooking appliance pan (4) and such a steam insert (2), and to a cooking appliance comprising an evaporator (34) and such a steam accessory set.
The invention relates to a water-conducting domestic appliance (1), in particular a dishwasher, comprising a circulating pump (23) for a washing liquor (F), said circulating pump being operated at a current pump rotational speed (n1); a temperature sensor (36) for detecting a temperature value (T) of the washing liquor (F); and a determining unit (37) for determining an additional pump rotational speed (n2) of the circulating pump (23) on the basis of the detected temperature value (T) and the current pump rotational speed (n1), said determining unit (37) being designed to determine the additional pump rotational speed (n2) such that an additional sound power level of the water-conducting domestic appliance (1), said additional sound power level resulting at the determined additional pump rotational speed (n2), lies below the target sound power level (SLP).
D06F 103/42 - Paramètres surveillés ou détectés pour la commande de machines à laver à usage domestique, de machines lavantes-séchantes ou de sèche-linge relatifs aux filtres ou aux pompes
D06F 103/48 - Courant ou tension du moteur entraînant la pompe
D06F 103/68 - Mode de fonctionnementPhase du programme
D06F 105/46 - Vitesse de rotation du tambourActionnement des moteurs, p. ex. démarrage ou arrêt
25.
REFRIGERATION DEVICE AND HEAT EXCHANGER FOR A REFRIGERATION DEVICE
A heat exchanger for a refrigeration device comprises a multiplicity of fins having a plurality of first openings, which are arranged relative to one another, and a plurality of second openings, which are arranged relative to one another and are spaced from the first openings. The fins are spaced from one another such that the first openings and the second openings are in alignment. The heat exchanger also comprises a refrigerant tube which has a multiplicity of first tube sections and a multiplicity of arcuate second tube sections, wherein in each case two first tube sections interconnected by a second tube section extend through an associated first opening and through an associated second opening. Furthermore, the heat exchanger has a defrost heater having an elongate heating element which has a multiplicity of linear sections which are in thermally conductive contact with the first sections of the refrigerant tube and with the fins.
F28D 1/047 - Appareils échangeurs de chaleur comportant des ensembles de canalisations fixes pour une seule des sources de potentiel calorifique, les deux sources étant en contact chacune avec un côté de la paroi de la canalisation, dans lesquels l'autre source de potentiel calorifique est une grande masse de fluide, p. ex. radiateurs domestiques ou de moteur de voiture avec des canalisations d'échange de chaleur immergées dans la masse du fluide avec canalisations tubulaires les canalisations étant courbées, p. ex. en serpentin ou en zigzag
F28F 1/32 - Éléments tubulaires ou leurs ensembles avec moyens pour augmenter la surface de transfert de chaleur, p. ex. avec des ailettes, avec des saillies, avec des évidements ces moyens étant uniquement à l'extérieur de l'élément tubulaire et s'étendant transversalement les moyens ayant des parties engageant d'autres éléments tubulaires
Electric household and kitchen machines and apparatus, included in class 7, in particular electric kitchen machines and apparatus, including grinders, beaters and kneading apparatus, fruit presses, juice extractors, juice centrifuges, mincing machines, cutting apparatus, electrically powered tools, tin openers, knife sharpening apparatus, and machines and apparatus for making beverages and/or preparing food, beverage pumps for dispensing chilled beverages; Electric vending machines for beverages or foods, automatic vending machines; Electric welding devices for wrapping; Electrical waste disposers, namely waste grinders and waste compacting machines; Dishwashers; Electric machines and devices for cleaning laundry and clothing (included in class 07), including washing machines, spin dryers; Ironing presses, ironing machines, included in class 07; Electric household cleaning equipment, including electric window cleaning equipment, electric shoe polishers and vacuum cleaners, wet and dry vacuuming apparatus; Robotic vacuum cleaners, robots for household chores; Parts for all the aforesaid goods, included in class 07; Hoses, pipes and tubes, dust filters and dust filter bags, vacuum cleaners brushes, all of the aforesaid for vacuum cleaners.
This application relates to an electromechanical equipment mounting apparatus, including a first equipment housing, a second equipment housing, and a mounting assembly. The housings are movable relative to each other under an initial force of the power member moving in a preset direction. The mounting assembly includes a first stop member and a second stop member. The mounting assembly includes a locking position and a releasing position. The mounting assembly can move from the releasing position to the locking position under the initial force of the power member moving in the preset direction. The stop members are engaged with each other when the housings move relative to each other, to implement self-locking of the housings, thereby preventing the mechanism from operational loosening and enhancing connection stability.
F16H 1/16 - Transmissions à engrenages pour transmettre un mouvement rotatif sans engrenages à mouvement orbital comportant uniquement deux organes engrenés dont les axes ne sont pas parallèles comportant une vis sans fin et une roue à vis sans fin
A blower unit for a suction device has a blower, which is embodied to effect a suction-air flow along a flow direction running from the suction side to the exhaust-air side of the blower unit during operation. The blower unit furthermore has a blower capsule in which the blower is arranged, and a suction-side bearing and an exhaust-air-side bearing for supporting the blower on the inner side of the blower capsule. In addition, the blower unit contains a protective element arranged on the suction-side bearing, which is embodied to be flowed through by the suction-air flow and to provide contact protection for the blower. The protective element is arranged on the suction-side bearing in such a way that the protective element is at a distance from the inner side of the blower capsule when the blower is in operation.
A47L 9/10 - FiltresSéparateurs de poussièreEnlèvement de la poussièreÉchange automatique des filtres
A47L 5/22 - Caractéristiques de structures des aspirateurs à pompes à air ou compresseurs à moteur, p. ex. fonctionnant par le vide créé par le moteur d'un véhicule à ailettes rotatives
A47L 9/22 - Pièces d'assemblage des ailettes et du moteur
Heizungs-, Dampferzeugungs- und Kochgeräte, insbesondere Herde, Back-, Brat-, Grill-, Toast-, Auftau- und Warmhaltegeräte, Heißwassergeräte, Tauchsieder, eigenbeheizte Kochtöpfe, Mikrowellengeräte, Waffeleisen (elektrisch), Eierkocher, Friteusen (elektrisch); elektrische Tee- und Kaffeemaschinen, Espressomaschinen, Kaffeevollautomaten (soweit in Klasse 11 enthalten); Kühlgeräte, insbesondere Kühlschränke, Kühltruhen, Kühlvitrinen, Getränkekühlapparate, Kühl-Gefrierkombinationsgeräte, Gefriergeräte, Eismaschinen und -apparate; Trockengeräte, insbesondere auch Wäschetrockner, Wäschetrockenmaschinen, Händetrockner, Haartrockengeräte; Infrarotlampen (nicht für medizinische Zwecke); Heizkissen (nicht für medizinische Zwecke), Heizdecken (nicht für medizinische Zwecke); Lüftungsgeräte, insbesondere Ventilatoren; Dunstfilter, Dunstabzugsgeräte und Dunstabzugshauben, Klimaapparate sowie Geräte zur Verbesserung der Luftgüte, Luftbefeuchter, Luftdesodorierungsgeräte, Duftdosierungsgeräte (nicht für den persönlichen Gebrauch); Luftreinigungsapparate, Wasserleitungsgeräte sowie sanitäre Anlagen, insbesondere auch Armaturen für Dampf-, Luft- und Wasserleitungsanlagen; Warmwassergeräte, Speicherwassererhitzer und Durchlaufwassererhitzer; Geschirrspülbecken; Wärmepumpen; Teile aller vorgenannten Waren, soweit in Klasse 11 enthalten; maschinelle Zapfvorrichtungen (Zapfgeräte) für die Abgabe gekühlter Getränke für die Verwendung in Kombination mit Geräten zum Kühlen von Getränken (ausgenommen Verkaufsgeräte).
Electric household and kitchen machines and apparatus, included in class 7, in particular electric kitchen machines and apparatus, including grinders, beaters and kneading apparatus, fruit presses, juice extractors, juice centrifuges, mincing machines, cutting apparatus, electrically powered tools, tin openers, knife sharpening apparatus, and machines and apparatus for making beverages and/or preparing food, beverage pumps for dispensing chilled beverages; Electric vending machines for beverages or foods, automatic vending machines; Electric welding devices for wrapping; Electrical waste disposers, namely waste grinders and waste compacting machines; Dishwashers; Electric machines and devices for cleaning laundry and clothing (included in class 07), including washing machines, spin dryers; Ironing presses, ironing machines, included in class 07; Electric household cleaning equipment, including electric window cleaning equipment, electric shoe polishers and vacuum cleaners, wet and dry vacuuming apparatus; Robotic vacuum cleaners, robots for household chores; Parts for all the aforesaid goods, included in class 07; Hoses, pipes and tubes, dust filters and dust filter bags, vacuum cleaners brushes, all of the aforesaid for vacuum cleaners.
The invention relates to a fume extraction device (10) having at least one control unit (12). For increased ease of use and efficiency, according to the invention, the control unit (12) is designed to determine at least one operating cooking variable as a function of at least one parameter and to output said operating cooking variable via an output unit (14).
The invention relates to a hob device (10) having at least one sensor unit (12), at least one control unit (14) and at least one analysis environment (16), wherein the control unit (14) is at least intended to provide at least one functionality on the basis of at least one signal detected by the sensor unit (12), wherein the detected signal is suitable at least for determining an imminent cooking state of a heated cooking product (18), in particular for determining an imminent over-cooking state. In order to provide a hob device (10) having improved properties with regard to user convenience and application safety, the invention proposes that the analysis environment (16) is at least intended to determine an availability of the at least one functionality in at least one operating state on the basis of the signal detected by the sensor unit (12).
A cooling device includes at least two subparts provided in at least one part suitable for storage of at least one material, an inner rear wall in each subpart, at least one cold air input part on inner rear walls, an evaporator in the part forming cold air suitable for passage by the cold air input part to the subpart by at least one fan. At least one air transfer path transfers cold air by the cold air input part from the evaporator to the subpart. At least one air feeding channel transfers air in the subpart, for feeding to at least one air input part opening into the evaporator, by at least one air feeding opening in the subpart. At least two air input parts opening into the evaporator are substantially not overlapping with each other, aligned and side-by-side in a width direction.
F25D 11/02 - Dispositifs autonomes déplaçables associés à des machines frigorifiques, p. ex. réfrigérateurs ménagers avec compartiments de refroidissement à des températures différentes
F25D 17/06 - Dispositions pour la circulation des fluides de refroidissementDispositions pour la circulation de gaz, p. ex. d'air, dans les enceintes refroidies pour la circulation de gaz, p. ex. convection naturelle par circulation d'air forcée
35.
INDUCTION HOB DEVICE, INDUCTION HOB AND METHOD FOR OPERATING AN INDUCTION HOB DEVICE
The invention relates to an induction hob device (10) comprising a main supply switch (12), at least one filter unit (14) which has at least one filter capacitor (16), at least one rectifier unit (18), at least one bus capacitor (20), at least one inverter unit (22, 24), and at least one bus discharge unit (26) which is provided for discharging the bus capacitor (20). In order to provide a generic device having improved properties in terms of efficiency, the invention proposes that the at least one bus discharge unit (26) and the at least one inverter unit (22, 24) can be operated simultaneously in at least one operating state.
The invention relates to a filter system (17) for a domestic dishwasher (1), comprising a filter support (38) and at least one filter insert part (36, 37), wherein the filter support (38) has a plurality of connecting elements (40) for fastening the at least one filter insert part (36, 37) on the filter support (38), wherein each of the plurality of connecting elements (40) has an upper connecting-element part (48) and a lower connecting-element part (49), which are connected to one another within a plurality of cutouts (45) in the at least one filter insert part (36, 37), wherein the plurality of cutouts (45) are arranged along the plurality of connecting elements (40), and wherein each of the plurality of cutouts (45) is in the form of a slot.
A household dishwasher includes a dishwasher cavity, and a receptacle for receiving items to be washed. The receptacle is designed for movement out of the dishwasher cavity in a pull-out direction and for movement into the dishwasher cavity in an insertion direction oriented counter to the pull-out direction. A spray arm is rotatably mounted on the receptacle for supplying the items to be washed with washing liquor and/or fresh water. A spray arm rotating device is attached to the receptacle and includes a movement element which is movably mounted on the receptacle and supported in or on the dishwasher cavity in order to set the spray arm to rotate, when the receptacle is moved into the dishwasher cavity in the insertion direction.
The invention relates to an operating element (13) to rotate a shaft (12) in an electrical household appliance (1), in particular to operate a gas valve shaft of a gas valve (4) of a gas cooking hob (1), wherein the operating element (13) comprises a cap-shaped actuating element (14) with an outer surface (35), which can be operated by an operator manually, a cavity (25) and at least one opening (17) in the outer surface (35) into the cavity (25); and a coupling element (18) arranged at least partially inside the cavity (25), made of a light transmitting material able to transmit light through the opening (17) to the operator and configured to connect the actuating element (14) to the shaft (12) in a rotationally fixed manner. To improve the illumination of the operating element, it further comprises a shield (19) made of a translucent material covering the opening (17) at least partially.
The invention relates to a power electronics device (10a; 10b; 10c) for a small domestic appliance (12a), comprising at least one wireless power receiving unit (14a; 14b; 14c), in particular an induction receiving unit, and comprising at least one first main electrical load (16a; 16b; 16c). In order to be able to wirelessly operate small domestic appliances providing an advantageously large number of different and complex functions, it is proposed that the power electronics device (10a; 10b; 10c) comprises at least one further main electrical load (18a; 18b; 18c) and at least one power transfer unit (20a) in order to selectively supply electrical power (P1, P2) received by the wireless power receiving unit (14a; 14b; 14c) to the at least one first main electrical load (16a; 16b; 16c) and/or the at least one further main electrical load (18a; 18b; 18c).
H02J 50/10 - Circuits ou systèmes pour l'alimentation ou la distribution sans fil d'énergie électrique utilisant un couplage inductif
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
An ice-making system that can produce ice pellets and can control the hardness of the ice pellets. For example, the ice-making system can include a housing defining an ice-making chamber. The housing can receive liquid. The ice-making system can further include a heat exchange system that can freeze the liquid in the housing to produce ice. The ice-making system can also include an extrusion head coupled with the housing. The extrusion head can include a plurality of openings that can receive the ice. Additionally, the ice-making system can include an auger positioned in a center of the housing. The auger can move the ice toward the extrusion head. The ice-making system can further include a heating element positioned proximate and external the extrusion head. A temperature of the heating element can be based on a preselected ice hardness level.
F25C 1/147 - Production de glace par congélation de l'eau des surfaces refroidies, p. ex. pour former des plaques pour produire des couches minces qui seront dégagées par raclage ou clivage, p. ex. sous forme de flocons des parois intérieures des corps refroidis en utilisant des tarières
F25C 5/08 - Appareils pour concasser, enlever ou recueillir la glace sans utiliser de scies en chauffant les corps en contact avec la glace
The invention relates to a hob apparatus, in particular an induction hob apparatus, comprising a support plate (10), a fume extraction unit (12) arranged below the support plate (10), and a cooling air fan unit (14) which has a cooling air fan wheel (18) which can be rotated about an axis of rotation (16) and which suctions cooling air (20) parallel to the axis of rotation (16) in at least one operating state. In order to advantageously further develop an apparatus of the type in question, it is proposed for the axis of rotation (16) to be arranged in a plane parallel to the support plate (10).
Embodiments of this application provide a heat exchanger, including: a flat tube (1), having a plurality of flat tube sections (11) extending in a first direction and arranged in a second direction transverse to the first direction; and a fin (2), arranged between adjacent flat tube sections (11) in a thermally conductive manner. In a third direction perpendicular to the first direction and the second direction, a width of the fin (2) is greater than a width of the flat tube (1), so that the fin (2) has a first fin portion (201) that does not exceed beyond the flat tube (1) in the third direction and a second fin portion (202) located outside the flat tube (1) in the third direction. In addition, this application further provides a corresponding refrigerator. According to some embodiments of this application, a heat exchange area can be increased, and heat exchange efficiency can be improved without increasing a volume of the heat exchanger and with a demand for additional raw materials being reduced to an extent as small as possible.
F28D 1/047 - Appareils échangeurs de chaleur comportant des ensembles de canalisations fixes pour une seule des sources de potentiel calorifique, les deux sources étant en contact chacune avec un côté de la paroi de la canalisation, dans lesquels l'autre source de potentiel calorifique est une grande masse de fluide, p. ex. radiateurs domestiques ou de moteur de voiture avec des canalisations d'échange de chaleur immergées dans la masse du fluide avec canalisations tubulaires les canalisations étant courbées, p. ex. en serpentin ou en zigzag
F28D 21/00 - Appareils échangeurs de chaleur non couverts par l'un des groupes
F28F 1/12 - Éléments tubulaires ou leurs ensembles avec moyens pour augmenter la surface de transfert de chaleur, p. ex. avec des ailettes, avec des saillies, avec des évidements ces moyens étant uniquement à l'extérieur de l'élément tubulaire
F28F 9/00 - CartersBoîtes de distributionSupports auxiliaires pour les élémentsÉléments auxiliaires dans les carters
F28F 17/00 - Enlèvement de la glace ou de l'eau des appareils échangeurs de chaleur
F28F 21/08 - Structure des appareils échangeurs de chaleur caractérisée par l'emploi de matériaux spécifiés de métal
43.
METHOD FOR OPERATING A COOKWARE DETECTION SYSTEM OF AN INDUCTION HOB DEVICE, AND INDUCTION HOB DEVICE
The invention relates to a method (10a; 10d) for operating a cookware detection system of an induction hob device (12a; 12b), comprising at least one induction unit (14a; 14b), at least one control unit (16a; 16b), and at least one cookware detection unit (18a; 18b), wherein, in at least one determination step (20a; 20d), at least one position of at least one unheated item of cookware (22a; 22b) is determined by means of a detection signal (24a) of the cookware detection unit (18a; 18b). In order to provide a method (10a; 10d) for operating a cookware detection system having improved properties with regard to user comfort, according to the invention at least one time-related parameter of the detection signal (24a) is adjusted in at least one adjustment step (26a; 26d) following the determination step (20a; 20d).
An ice-making system that can produce ice pellets and can control the hardness of the ice pellets. For example, the ice-making system can include a housing defining an ice-making chamber. The housing can receive liquid. The ice-making system can further include a heat exchange system that can freeze the liquid in the housing to produce ice. The ice-making system can also include an extrusion head coupled with the housing. The extrusion head can include a plurality of openings that can receive the ice. Additionally, the ice-making system can include an auger positioned in a center of the housing. The auger can move the ice toward the extrusion head. The ice-making system can further include a heating element positioned proximate and external the extrusion head. A temperature of the heating element can be based on a preselected ice hardness level.
The invention relates to a domestic appliance device (10a; 10b), in particular a hob device, comprising at least one vibratable component (12a; 12b), at least one sensor unit (14a; 14b) for detecting airborne sound (16a; 16b), and at least one protective unit. In order to counteract uncontrolled operation of the domestic appliance device (10a; 10b), in particular uncontrolled boiling and/or boiling over, in an advantageously cost-effective manner, it is proposed that the protective unit and the vibratable component (12a; 12b) surround the sensor unit (14a; 14b) in such a way that the sensor unit (14a; 14b) predominantly detects airborne sound (16a; 16b) from the vibratable component (12a; 12b).
The invention relates to a domestic cooking appliance (1, 2), in particular a cooking drawer (2), having a cooking chamber (7) with a loading opening (6) which is open at the top and with a lid (8) for closing the loading opening (6), wherein the lid (8) is connected to a hinge (19) which is inserted into a hinge receptacle (68), which itself is inserted into the rest of the domestic cooking appliance (1, 2).
A method for making bread includes arranging a predetermined amount and number of ingredients for making a dough in an agitator vessel, mixing the ingredients to form the dough, allowing fermenting of the dough, and baking the dough at a predetermined temperature for a predetermined time. A monitoring of fermentation of the dough occurs by using a VOC sensor. The VOC sensor provides a sensor signal dependent on a concentration of VOC molecules set free from the dough during fermenting. The sensor signal is analyzed to determine a current fermentation status of the dough. The current fermentation status is compared with a predefined fermentation status, and, dependent on the comparison, a control signal is provided which indicates that baking should be started.
In a method for controlling a cooktop, an object is detected and information relating to the object is determined. After detecting a voice instruction, the detected voice instruction is processed with at least one part of the determined information to provide a processing result. The cooktop is controlled based on the processing result.
By the present invention, a cooling device (1) is described which comprises a body (2) which has a body inner wall (34) provided in a manner encircling at least one storage compartment and a body outer wall (3) provided in a distanced manner to the body inner wall (34), an evaporator assembly (9) which at least partially extends in a longitudinal direction (x) of the body inner wall (34) and which has an evaporator (10); wherein the evaporator assembly (9) comprises an evaporator heater (13) which has heater horizontal part (37a) in a manner extending in the longitudinal direction (x), and wherein in order to provide return of the air, which exists in a first storage compartment (7) which has an inner space (39) where the evaporator assembly (9) is at least partially positioned, to the evaporator (10), the evaporator assembly (9) has at least one return channel (28) provided at a side facing the first storage compartment (7). In the invention, the return channel (28) is provided in a manner opening to a lower part (38) of the evaporator (10) in a manner not overlapping with the heater horizontal part (37a) in a depth direction (z) which is from the first storage compartment (7) towards the evaporator assembly (9).
F25D 17/06 - Dispositions pour la circulation des fluides de refroidissementDispositions pour la circulation de gaz, p. ex. d'air, dans les enceintes refroidies pour la circulation de gaz, p. ex. convection naturelle par circulation d'air forcée
F25D 21/08 - Enlèvement du givre par chauffage électrique
50.
DOMESTIC APPLIANCE DEVICE, DOMESTIC APPLIANCE, AND METHOD FOR ASSEMBLING A DOMESTIC APPLIANCE DEVICE OF THIS TYPE
The invention relates to a domestic appliance device (10a; 10b), in particular a hob device, for a domestic appliance (12a), in particular for a hob, comprising at least one support unit (14a; 14b) and at least one vibration sensor unit (16a; 16b) arranged on the support unit (14a; 14b). In order to simplify the assembly and repair capability of a domestic appliance (12a) comprising the domestic appliance device (10a; 10b), it is proposed that the support unit (14a; 14b) has at least one first contact region (18a, 38a, 38a'; 18b, 38b) and at least one further contact region (20a; 20b, 40b) for arranging on the domestic appliance (12a) and at least one spring element (22a, 24a, 26a; 22b) which elastically connects the contact regions (18a, 20a, 38a, 38a'; 18b, 20b, 38b, 40b) to each other.
The invention relates to a lid (8) to be placed on a cooking chamber (7), which is open at the top, of a domestic cooking appliance (1, 2), wherein the lid (8) has a plate pack (12, 15) comprising an outer plate (12) and an inner plate (15), which is spatially separated from the outer plate when viewed horizontally; at least one fastening element (13) is adhesively bonded to an underside of the outer plate (12); and a peripheral frame (14), which is composed of a plurality of frame sections (14A - 14D) and which bears the inner plate (15), is fastened to the at least one fastening element (13). The invention additionally relates to a domestic cooking appliance (1, 2) having a cooking drawer (2), in particular a steam treatment drawer (2), which has a cooking chamber (7) with a loading opening (6) at the top and with a lid (8) according to one of the preceding claims for closing the loading opening (6). The invention also relates to a method for fitting a lid to a domestic cooking appliance (1, 2).
F24C 15/04 - Portes adaptées spécialement aux poêles ou aux fours avec hublots de surveillance
F24C 15/18 - Disposition des compartiments additionnels autres que ceux de cuisson, p. ex. pour le chauffage ou pour le rangement d'ustensiles ou des bacs à combustiblesAménagements d'appareils additionnels de chauffage ou de cuisson, p. ex. grils
52.
METHOD AND APPARATUS FOR DETERMINING COOKER HOOD OPERATING STRATEGY, DEVICE, STORAGE MEDIUM, AND PROGRAM PRODUCT
This application relates to a method and an apparatus for determining a cooker hood operating strategy, a device, a storage medium, and a program product. The method includes: controlling a cooker hood to enter a user-oriented engineering mode, and in the engineering mode, receiving a customization instruction issued by a user is received through a human-computer interaction interface, to determine a primary evaluation indicator and a secondary evaluation indicator of a cooker hood operating parameter customized by the user; and adjusting the cooker hood operating parameter according to the primary evaluation indicator and the secondary evaluation indicator, to obtain a target operating parameter satisfying a user customization condition, and configuring a target operating level according to the target operating parameter. In this application, in the user-oriented engineering mode, an evaluation indicator during operation of a cooker hood is determined according to the customization instruction of the user, and operation of the cooker hood is controlled according to the evaluation indicator customized by the user. For users with different requirements, in the control method of this application, a cooker hood operating state that balances performance and user satisfaction can be achieved, to reduce operating noise of the cooker hood, thereby improving user experience.
The invention is based on an induction hob device (10a-10d) comprising at least one step-up converter unit (12a-12d), the step-up converter unit (12a-12d) having at least one emission induction unit (14a-14d). In order to reduce the number of components, the invention proposes that the emission induction unit (14a-14d) is intended to function as a boost inductance unit (16a-16d).
A cooling device has a cooling part, an inner rear wall that exists in the cooling part, an air distribution opening provided at the inner rear wall, an air channel through which the cold air passes and which is connected to the other side of the inner rear wall, an air passage gap configured to correspond to the air distribution opening at the air channel, an air transfer part connected to the air channel and which provides transfer of the cold air to the air channel, an air feeding opening adapted for passing the air, which exists in the cooling part, to an evaporator air input part, by an air feeding channel, and an air channel surface extension which can exist at an air channel front surface to allow passage of different amounts of air, by at least two air distribution openings, from the air channel to the cooling part.
F25D 17/08 - Dispositions pour la circulation des fluides de refroidissementDispositions pour la circulation de gaz, p. ex. d'air, dans les enceintes refroidies pour la circulation de gaz, p. ex. convection naturelle par circulation d'air forcée en utilisant des conduits
F25D 17/06 - Dispositions pour la circulation des fluides de refroidissementDispositions pour la circulation de gaz, p. ex. d'air, dans les enceintes refroidies pour la circulation de gaz, p. ex. convection naturelle par circulation d'air forcée
Apparatus for heating, steam generating and cooking, in particular stoves, baking, roasting, grilling, toasting, defrosting and heating devices, water heaters, immersion heaters, slow-cookers, microwave ovens, waffle irons (electric), egg-boilers, deep-fat fryers (electric); Electrical tea and coffee makers, espresso coffee machines, automatic coffee machines (included in class 11); Refrigerating apparatus, in particular refrigerators, chest freezers, refrigerated cabinets, beverage-cooling apparatus, fridge-freezers, freezers, ice machines and apparatus; Drying apparatus, in particular including tumble dryers, laundry drying machines, hand dryers, hair dryers; Infrared lamps, not for medical purposes; Heating pads (not for medical purposes), electric blankets (not for medical purposes); Apparatus for ventilating, in particular fans; Extractor hood filters, extractor hood equipment and extractor hoods, air conditioning apparatus and devices for improving air quality, air humidifiers, air deodorisers, fragrance dispensing apparatus (not for personal use); Air purifying apparatus, apparatus for water supply and sanitary purposes, in particular including fittings for steam generating, ventilating and water supply installations; Water heaters, storage water heaters and instantaneous water heaters; Kitchen sinks; Heat pumps; Parts for all the aforesaid goods, included in class 11; Mechanical taps (dispensers) for dispensing chilled beverages for use in combination with apparatus for chilling beverages (other than vending machines).
A coupling system connects to different suction-air-guiding components of a suction device. The coupling system has a first coupling element with a connecting piece and a second coupling element with a receiving region for the connecting piece. The first coupling element further has a first plug-in unit, and the second coupling element has a second plug-in unit which forms an electrically conductive plug-in connection together with the first plug-in unit of the first coupling element. The connecting piece has a guide contour, and the second coupling element has a guide contour which is complementary thereto. The first plug-in unit has a depression with a wall which, starting from the bearing surface of the first coupling element, extends along the longitudinal axis into the housing of the first coupling element, and the guide contour on the connecting piece of the first coupling element extends along the longitudinal axis into the depression.
A suction unit is described for a hand-held suction apparatus. The suction unit creates a suction air flow to suck up dirt particles. The suction unit has a housing with a rear wall and a hand grip arranged on the rear wall such that the hand grip and the rear wall border a cut-out for a user to arrange fingers of a hand when gripping the hand grip. The suction unit has an electrically operated display element on the rear wall of the housing facing the cut-out so as to output visual information. The display element has a first part-display which is arranged on a first side of the hand grip and a second part-display which is arranged on a second side of the hand grip lying opposite the first side. The display element is configured such that the first and second part-displays display the same visual information.
A coupling system connects to different suction-air-guiding components of a suction apparatus. The coupling system contains a first coupling element having a tubular connecting piece and a second coupling element having a tubular receiving area for the connecting piece. The first coupling element further has a first plug-in unit and the second coupling element has a second plug-in unit which is configured to form, with the first plug-in unit of the first coupling element, an electrically conductive plug-in connection, and which has a protective wall which protrudes compared to the contact surface of the second coupling element. The tubular connecting piece has a guide contour, and the second coupling element has a guide contour complementary thereto which, beginning at the protective wall of the second plug-in unit, extends along the longitudinal axis into the receiving area.
A luminaire for mounting in a depression in a wall of a domestic appliance comprises a housing with a longitudinal wall, which extends in a longitudinal direction and has a reflector surface; a lighting device, which extends in the longitudinal direction and has a lighting means that faces the reflector surface with respect to a transverse direction, for emitting light in the direction of the reflector surface; and a translucent panel extending in the longitudinal direction for allowing the light emitted by the lighting means to pass through, said panel being positioned between the lighting device and the reflector surface with respect to the transverse direction. The reflector surface comprises a first reflector region, which faces the translucent panel with respect to the transverse direction and in which the reflector surface is concavely curved, and a second reflector region, which faces away from the translucent panel with respect to the transverse direction and in which the reflector surface is convexly curved.
PIPE DEVICE FOR A DOMESTIC REFRIGERATION APPLIANCE WITH SPECIFICALLY SHAPED OVERLAPPING REGION OF PIPES WHICH IS SOLDERED, AND DOMESTIC REFRIGERATION APPLIANCE AND METHOD
One aspect of the invention relates to pipe devices (12) for domestic refrigeration appliances (1) having specific cavity regions (19a, 19b) for soldered connections between the pipes (13, 14) of the pipe device (12). Further aspects relate to a domestic refrigeration appliance (1) and a method.
A separating unit for a suction apparatus includes a collecting container for particles of dirt, which is surrounded by a housing wall. The collecting container extends along a longitudinal axis. The separating unit also includes an ejection and/or a compacting element which is configured to be moved inside the collecting container, starting from an initial position along the longitudinal axis to a compacting position in order to compact particles of dirt disposed in the collecting container and/or to eject them from the collecting container. The separating unit is configured in such a way that a radial force, with which the ejection and/or compacting element acts in the radial direction on the inside of the housing wall, is lower at the compacting position than at the initial position. A suction apparatus having the separating unit is also provided.
A separating unit for a suction apparatus includes a collection container within a housing wall. A filter unit within the container retains dirt particles from suction air flowing on the filter surface. The container has an inlet opening at the wall closed by a flap having a total surface covering the opening and being fastened to the wall at a main edge. The flap has a main desired bending point on the main edge, enabling bending of the total surface about a main bending axis. The flap has a linear desired bending point enabling bending of a partial area of the total surface facing away from the main edge about an additional bending axis. The flap allows bending of the partial area away from the wall by force acting on the flap from outside, exposing a partial area of the opening corresponding to the partial area of the total surface.
A separating unit for a suction apparatus includes a collecting container enclosed by a housing wall. The collecting container has an inlet opening for a suction air flow disposed on the housing wall, which is covered with a flexible flap. The flexible flap is fastened to the housing wall at a leading edge of the flap and has a first portion and a subsequent second portion along the leading edge. The flap is configured to be bent into the collecting container away from the housing wall by an external force acting on the flap and as a result exposes the inlet opening at least in part. The separating unit is configured such that the bending away of the first portion of the flap is more greatly restricted than the bending away of the second portion of the flap. A suction apparatus having the separating unit is also provided.
A separating unit for a suction apparatus includes a collecting container surrounded by a housing wall extending along a longitudinal axis and having an inlet opening for a suction air flow. The separating unit causes the suction air flow entering through the inlet opening into the collecting container to have a flow direction in a circumferential direction relative to the longitudinal axis. An annular diversion element has a surface acting on the suction air flow entering into the collecting container. The surface of the diversion element, at least partially, runs helically along the inside of the housing wall around the longitudinal axis. The surface of the diversion element has a step with first and second edges mutually spaced apart along the longitudinal axis. The step of the surface runs at an angle relative to the longitudinal axis. A suction apparatus having the separating unit is also provided.
A47L 9/16 - Agencement ou disposition des cyclones ou autres dispositifs à action centrifuge
A47L 5/22 - Caractéristiques de structures des aspirateurs à pompes à air ou compresseurs à moteur, p. ex. fonctionnant par le vide créé par le moteur d'un véhicule à ailettes rotatives
A47L 9/10 - FiltresSéparateurs de poussièreEnlèvement de la poussièreÉchange automatique des filtres
A separator unit includes a collecting container enclosed by a housing wall, extending along a longitudinal axis, and having an inlet opening disposed on the housing wall for a suction airflow. The separator unit is configured in such a manner that a suction airflow that is passing through the inlet opening into the collecting container has a flow direction running in the circumferential direction with regard to the longitudinal axis. The separator unit includes a diversion element which is positioned downstream along the flow direction and has a surface which acts on the suction airflow. The normal vector of an obliquely positioned section of the surface of the diversion element runs in an oblique manner with respect to the longitudinal axis. A suction apparatus having the separator unit is also provided.
A47L 9/16 - Agencement ou disposition des cyclones ou autres dispositifs à action centrifuge
A47L 5/22 - Caractéristiques de structures des aspirateurs à pompes à air ou compresseurs à moteur, p. ex. fonctionnant par le vide créé par le moteur d'un véhicule à ailettes rotatives
A47L 9/10 - FiltresSéparateurs de poussièreEnlèvement de la poussièreÉchange automatique des filtres
COUPLING SYSTEM FOR A SUCTION APPARATUS HAVING MUTUALLY ORIENTED ELECTRICAL PLUG-IN UNITS AND GUIDE CONTOURS, COUPLING ELEMENTS, SUCTION AIR-GUIDING COMPONENT AND SUCTION APPARATUS
A coupling system for connecting different suction air-guiding components of a suction apparatus includes a first coupling element having a tubular connecting piece and a second coupling element having a tubular receiving region for the connecting piece. The first coupling element includes a first plug-in unit and the second coupling element includes a second plug-in unit, which is configured so as to form an electrically conductive plug-in connection with the first plug-in unit of the first coupling element. The connecting piece has a guide contour that faces the first plug-in unit, and the second coupling element has a guide contour that is complementary thereto and that faces the second plug-in unit. A first coupling element and a second coupling element for a coupling system, as well as a suction air-guiding component for a suction apparatus and a suction apparatus, are also provided.
A47L 5/22 - Caractéristiques de structures des aspirateurs à pompes à air ou compresseurs à moteur, p. ex. fonctionnant par le vide créé par le moteur d'un véhicule à ailettes rotatives
A47L 9/28 - Montage de l'équipement électrique, p. ex. adaptation ou fixation à l'aspirateurCommande des aspirateurs par des moyens électriques
68.
METHOD FOR OPERATING A REFRIGERATION APPLIANCE AND REFRIGERATION APPLIANCE
A method for controlling a refrigeration appliance includes providing storage compartments each assigned a desired temperature and a temperature sensor measuring an actual temperature of the storage compartment. A main storage compartment is determined by maximum heat intake of all storage compartments. First auxiliary storage compartments are cooled simultaneously with the main storage compartment. A refrigerant circuit has a compressor with adjustable conveying capacity, a condenser, and at least one evaporator. A control unit has a closed-loop controller for closed-loop control of conveying capacity. Each storage compartment is allocated switch-on and switch-off temperatures in addition to the desired temperature. The refrigerant circuit has actuators guiding refrigerant and/or an air circuit has actuators guiding cold air. A refrigeration requirement for each storage compartment is checked. The control unit actuates the compressor and the actuators to supply storage compartments, which can be cooled simultaneously, with a refrigeration requirement.
F25D 11/02 - Dispositifs autonomes déplaçables associés à des machines frigorifiques, p. ex. réfrigérateurs ménagers avec compartiments de refroidissement à des températures différentes
F25D 17/04 - Dispositions pour la circulation des fluides de refroidissementDispositions pour la circulation de gaz, p. ex. d'air, dans les enceintes refroidies pour la circulation de gaz, p. ex. convection naturelle
F25D 17/06 - Dispositions pour la circulation des fluides de refroidissementDispositions pour la circulation de gaz, p. ex. d'air, dans les enceintes refroidies pour la circulation de gaz, p. ex. convection naturelle par circulation d'air forcée
F25D 29/00 - Disposition ou montage de l'appareillage de commande ou de sécurité
69.
DOMESTIC APPLIANCE AND LUMINAIRE FOR A DOMESTIC APPLIANCE
A luminaire for mounting in a depression in a wall of a domestic appliance comprises a housing having a longitudinal wall which extends in a longitudinal direction and has a reflector surface; a lighting device which extends in the longitudinal direction and has a lighting means facing the reflector surface with respect to a transverse direction in order to emit light in the direction of the reflector surface; and a translucent panel extending in the longitudinal direction for allowing the light emitted by the lighting means to pass through, said panel being positioned between the lighting device and the reflector surface with respect to the transverse direction and being integrally formed with the housing.
F21V 33/00 - Combinaisons structurales de dispositifs d'éclairage avec d'autres objets, non prévues ailleurs
70.
DOMESTIC APPLIANCE CONTROL DEVICE COMPRISING A RING AS AN CONTROL ELEMENT AND A PARAMETER VALUE CHANGE STEP SIZE THAT IS DEPENDENT ON THE ROTATIONAL SPEED OF THE RING, DOMESTIC APPLIANCE, AND METHOD
One aspect of the invention relates to a domestic appliance control device (5) comprising a rotatably mounted control element (6) and a display unit (11) on which values of an operating parameter can be optically displayed in a stationary display region (11a), wherein the modification of a value to be displayed in this display region (11a) is linked to the rotation of the control element (6), and a rotational speed of the control element (6) is linked to a step size of the value change in such a way that a first step size of the value change per reference travel of the control element (6) is linked to a first rotational speed, and a second step size, which is different from the first, of the value change per said reference travel of the control element (6) is linked to a second rotational speed, which is different from the first.
A sensor device for attaching to an outer circumference of a pipe comprises a column-shaped sensor head extending along a sensor longitudinal axis, a first snap-on clip for partially engaging around the outer circumference of the pipe, and a second snap-on clip arranged at a distance from the first snap-on clip along the longitudinal axis for partially engaging around the outer circumference of the pipe. The first and the second snap-on clips are each formed integrally with the sensor head, extend in an arcuate manner from the sensor head and have a free end which is situated at a distance from the sensor head, and therefore the pipe can be guided through between the free ends of the snap-on clips and the sensor head and can be clamped between the sensor head and the snap-on clips.
G01K 1/143 - SupportsDispositifs de fixationDispositions pour le montage de thermomètres en des endroits particuliers pour la mesure de la température de surfaces
G01K 13/02 - Thermomètres spécialement adaptés à des fins spécifiques pour mesurer la température de fluides en mouvement ou de matériaux granulaires capables de s'écouler
G01D 11/30 - Supports spécialement adaptés à un instrumentSupports spécialement adaptés à un ensemble d'instruments
F25D 29/00 - Disposition ou montage de l'appareillage de commande ou de sécurité
72.
DOOR HAVING A MOVABLE HANDLE WITH A SPECIFIC BEARING PART, AND DOMESTIC APPLIANCE
One aspect of the invention relates to a door (4, 100) for a domestic appliance (1), having a door leaf (6, 101) and having a handle (12, 102) which can be moved relative to the door leaf (6, 101) and is arranged on the door leaf (6, 101), wherein the handle (12, 102) has a handle rod (13, 103) and handle blocks (14, 15, 104, 105) which protrude therefrom in the direction of the door leaf (6, 101), wherein the handle (12, 102) has a bar-like bearing part (17) which is concomitantly moved during movement and on which the handle blocks (14, 15, 104, 105) are arranged, wherein the door leaf (6, 101) has a panel assembly (7) with a plurality of plate-like door panels (8, 9), which are arranged so as to be spaced apart from one another in the depth direction (z) of the door (4, 100), characterized in that an intermediate space (20), which is upwardly open in the basic position of the door (4, 100), is formed by the spaced arrangement of the door panels (8, 9), wherein the bearing part (17) has a covering part (19), by means of which the intermediate space (20) is covered from above and freed to the rear in a basic position of the handle (12), and the intermediate space (20) is covered to the rear in a pivoting position of the handle (12).
Electric household and kitchen machines and apparatus, included in class 7, in particular electric kitchen machines and apparatus, including grinders, beaters and kneading apparatus, fruit presses, juice extractors, juice centrifuges, mincing machines, cutting apparatus, electrically powered tools, tin openers, knife sharpening apparatus, and machines and apparatus for making beverages and/or preparing food, beverage pumps for dispensing chilled beverages; electric vending machines for beverages or foods, automatic vending machines; electric welding devices for wrapping; electrical waste disposers, namely waste grinders and waste compacting machines; dishwashers; electric machines and devices for cleaning laundry and clothing (included in class 07), including washing machines, spin dryers; ironing presses, ironing machines, included in class 07; electric household cleaning equipment, including electric window cleaning equipment, electric shoe polishers and vacuum cleaners, wet and dry vacuuming apparatus; robotic vacuum cleaners, robots for household chores; parts for all the aforesaid goods, included in class 07; hoses, pipes and tubes, dust filters and dust filter bags, vacuum cleaners brushes, all of the aforesaid for vacuum cleaners
Electric household and kitchen machines and apparatus,
included in this class, in particular electric kitchen
machines and apparatus, including grinders, beaters and
kneading apparatus, fruit presses, juice extractors, juice
centrifuges, mincing machines, cutting apparatus,
electrically powered tools, tin openers, knife sharpening
apparatus, and machines and apparatus for making beverages
and/or preparing food, beverage pumps for dispensing chilled
beverages; electric vending machines for beverages or foods,
automatic vending machines; electric welding devices for
wrapping; electrical waste disposers, namely waste grinders
and waste compacting machines; dishwashers; electric
machines and devices for cleaning laundry and clothing
(included in this class), including washing machines, spin
dryers; ironing presses, ironing machines, included in this
class; electric household cleaning equipment, including
electric window cleaning equipment, electric shoe polishers
and vacuum cleaners, wet and dry vacuuming apparatus;
robotic vacuum cleaners, robots for household chores; parts
for all the aforesaid goods, included in this class; hoses,
pipes and tubes, dust filters and dust filter bags, vacuum
cleaners brushes, all of the aforesaid for vacuum cleaners. Apparatus for heating, steam generating and cooking, in
particular stoves, baking, roasting, grilling, toasting,
defrosting and heating devices, water heaters, immersion
heaters, slow-cookers, microwave ovens, waffle irons
(electric), egg-boilers, deep-fat fryers (electric);
electrical tea and coffee makers, espresso coffee machines,
automatic coffee machines (included in this class);
refrigerating apparatus, in particular refrigerators, chest
freezers, refrigerated cabinets, beverage-cooling apparatus,
fridge-freezers, freezers, ice machines and apparatus;
drying apparatus, in particular including tumble dryers,
laundry drying machines, hand dryers, hair dryers; infrared
lamps, not for medical purposes; heating pads (not for
medical purposes), electric blankets (not for medical
purposes); apparatus for ventilating, in particular fans;
extractor hood filters, extractor hood equipment and
extractor hoods, air conditioning apparatus and devices for
improving air quality, air humidifiers, air deodorising
apparatus, deodorising apparatus, not for personal use; air
purifying apparatus, apparatus for water supply and sanitary
purposes, in particular including fittings for steam
generating, ventilating and water supply installations;
water heaters, storage water heaters and instantaneous water
heaters; kitchen sinks; heat pumps; parts for all the
aforesaid goods, included in this class; mechanical taps
(dispensers) for dispensing chilled beverages for use in
combination with apparatus for chilling beverages (other
than vending machines).
Electric household and kitchen machines and apparatus,
included in this class, in particular electric kitchen
machines and apparatus, including grinders, beaters and
kneading apparatus, fruit presses, juice extractors, juice
centrifuges, mincing machines, cutting apparatus,
electrically powered tools, tin openers, knife sharpening
apparatus, and machines and apparatus for making beverages
and/or preparing food, beverage pumps for dispensing chilled
beverages; electric vending machines for beverages or foods,
automatic vending machines; electric welding devices for
wrapping; electrical waste disposers, namely waste grinders
and waste compacting machines; dishwashers; electric
machines and devices for cleaning laundry and clothing
(included in this class), including washing machines, spin
dryers; ironing presses, ironing machines, included in this
class; electric household cleaning equipment, including
electric window cleaning equipment, electric shoe polishers
and vacuum cleaners, wet and dry vacuuming apparatus;
robotic vacuum cleaners, robots for household chores; parts
for all the aforesaid goods, included in this class; hoses,
pipes and tubes, dust filters and dust filter bags, vacuum
cleaners brushes, all of the aforesaid for vacuum cleaners. Apparatus for heating, steam generating and cooking, in
particular stoves, baking, roasting, grilling, toasting,
defrosting and heating devices, water heaters, immersion
heaters, slow-cookers, microwave ovens, waffle irons
(electric), egg-boilers, deep-fat fryers (electric);
electrical tea and coffee makers, espresso coffee machines,
automatic coffee machines (included in this class);
refrigerating apparatus, in particular refrigerators, chest
freezers, refrigerated cabinets, beverage-cooling apparatus,
fridge-freezers, freezers, ice machines and apparatus;
drying apparatus, in particular including tumble dryers,
laundry drying machines, hand dryers, hair dryers; infrared
lamps, not for medical purposes; heating pads (not for
medical purposes), electric blankets (not for medical
purposes); apparatus for ventilating, in particular fans;
extractor hood filters, extractor hood equipment and
extractor hoods, air conditioning apparatus and devices for
improving air quality, air humidifiers, air deodorising
apparatus, deodorising apparatus, not for personal use; air
purifying apparatus, apparatus for water supply and sanitary
purposes, in particular including fittings for steam
generating, ventilating and water supply installations;
water heaters, storage water heaters and instantaneous water
heaters; kitchen sinks; heat pumps; parts for all the
aforesaid goods, included in this class; mechanical taps
(dispensers) for dispensing chilled beverages for use in
combination with apparatus for chilling beverages (other
than vending machines).
The invention relates to a refrigeration appliance, in particular a domestic refrigeration appliance, comprising a heat exchanger housing which is arranged on a rear wall of the inner container and has an outlet opening for ejecting air into a storage compartment delimited by the inner container, and an intermediate base which, together with a base of the inner container, delimits a sub-compartment within the storage compartment. The outlet opening is located above the intermediate base and thus outside the sub-compartment. A gap is therefore provided between an end of the intermediate base facing the rear wall and the heat exchanger housing, and an air-guiding structure is arranged at the outlet opening of the heat exchanger housing, the air-guiding structure being designed to guide the air ejected through the outlet opening through the gap into the sub-compartment.
F25D 17/06 - Dispositions pour la circulation des fluides de refroidissementDispositions pour la circulation de gaz, p. ex. d'air, dans les enceintes refroidies pour la circulation de gaz, p. ex. convection naturelle par circulation d'air forcée
F25D 25/02 - Introduction, port ou déchargement des produits à refroidir par étagères
77.
METHOD FOR OPERATING A DOMESTIC APPLIANCE, AND DOMESTIC APPLIANCE
The invention relates to a method for operating a domestic appliance equipped with a plurality of sensors, at least one closed-loop control sensor of which is used as a measuring element of a closed-loop control for controlling a treatment sequence for treating items to be treated and at least one item sensor of which is used to monitor the treatment state of the item to be treated, wherein if the occurrence of a disturbance is detected during the treatment sequence, at least one pre-disturbance measured value recorded immediately beforehand by the item sensor is kept available, and when a termination of the disturbance is detected: at least one reference value is provided on the basis of the at least one pre-disturbance measured value which was kept available, at least one actual measured value of the item sensor is compared with the at least one reference value, at least one operating setting is changed in order to bring the at least one actual measured value into agreement with the at least one reference value, and when the at least one actual measured value has been brought into agreement with the at least one reference value, the treatment sequence is continued using the settings which would be present in the absence of a disturbance.
The invention relates to a fluid hose (4) for a domestic steam treatment appliance (D), comprising a channel (K) which has a fluid passage opening (9) and a vapour outlet opening (10) and into which a water inlet nozzle (14) opens, wherein there is a sensor leadthrough (19) in a wall (22) of the fluid hose (4), the first end-side opening (20) of which sensor leadthrough is arranged above the fluid passage opening (9).
F24C 15/32 - Aménagements des conduits pour gaz chauds, p. ex. dans ou autour des fours de boulangerie
A47L 13/22 - Balais à franges avec systèmes d'alimentation en liquide
D06F 75/12 - Fers à repasser à chauffage électrique interne avec des moyens pour amener la vapeur sur l'article à repasser la vapeur étant produite par alimentation en eau d'une source extérieure au fer à repasser
The invention relates to a method (S1 - S12) for operating a domestic appliance (1) equipped with at least one sensor (13, 14, 16), wherein if the occurrence of a disturbance is detected (S2) during an operating sequence of the domestic appliance (1), at least one pre-disturbance measured value recorded by the at least one sensor (13, 14) immediately before the disturbance was detected is kept available (S3), and when a termination of the disturbance is detected (S4), the disturbance duration is determined (S7), reference values for a measured value reference curve (RK) relating to the operating sequence are provided (S8) on the basis of the at least one pre-disturbance measured value which was kept available, at least one actual measured value (MW) is compared (S9) with at least one reference value at the same sequence time (t), at least one operating setting of the domestic appliance is changed (S10) in order to bring the actual measured values into agreement with the reference values, and when the actual measured values have been brought (S11) into agreement with the reference values, the operating sequence is continued (S12) using the settings which would be present in the absence of a disturbance.
A suction unit for a handheld vacuum appliance contains a blower configured to generate a main suction air stream from the suction mouth via a separating unit to the blower of the suction unit. The suction unit has a handle with a cavity which is formed by a housing wall and in which an electronics component is arranged. The cavity has an inlet opening in the housing wall. The suction unit has a bypass channel which has an inlet facing toward the cavity and an outlet facing toward the blower. The blower is configured to generate a bypass air stream from the inlet opening, through the cavity and through the bypass channel to the blower. The cavity is covered by a shielding element which is configured to shield the cavity against moisture from the main suction air stream and/or from exhaust air from the blower.
The invention relates to a heat exchanger (100) for a refrigeration device (200), in particular for a domestic refrigeration device, comprising: a heat exchanger tube (1) for conducting refrigerant; a plurality of fins (2) which are connected in a thermally conductive manner to the heat exchanger tube (1), extend in a first direction (X1) and are arranged at a distance from one another in a second direction (X2) which extends transversely to the first direction (X1); and a defrosting heater (3) which is arranged at a distance from the fins (2) in the first direction (X1); wherein at least some of the fins (2) have at least one drip nose (4) at an end (21) facing the defrosting heater (3), which drip nose is designed to promote dripping of water in the first direction (X1).
F25D 21/08 - Enlèvement du givre par chauffage électrique
F28D 1/047 - Appareils échangeurs de chaleur comportant des ensembles de canalisations fixes pour une seule des sources de potentiel calorifique, les deux sources étant en contact chacune avec un côté de la paroi de la canalisation, dans lesquels l'autre source de potentiel calorifique est une grande masse de fluide, p. ex. radiateurs domestiques ou de moteur de voiture avec des canalisations d'échange de chaleur immergées dans la masse du fluide avec canalisations tubulaires les canalisations étant courbées, p. ex. en serpentin ou en zigzag
F28F 1/32 - Éléments tubulaires ou leurs ensembles avec moyens pour augmenter la surface de transfert de chaleur, p. ex. avec des ailettes, avec des saillies, avec des évidements ces moyens étant uniquement à l'extérieur de l'élément tubulaire et s'étendant transversalement les moyens ayant des parties engageant d'autres éléments tubulaires
F28F 17/00 - Enlèvement de la glace ou de l'eau des appareils échangeurs de chaleur
F28F 19/00 - Prévention de la formation de dépôts ou de la corrosion, p. ex. en utilisant des filtres
82.
METHOD FOR OPERATING A MOBILE, SELF-PROPELLED APPLIANCE
A method for operating a mobile, self-propelled appliance, in particular a floor cleaning device such as a vacuum and/or sweeping and/or wiping robot, having a rechargeable battery. A user specifies on a portable additional device, a time window in which the mobile, self-propelled appliance should carry out at least one specified cleaning task and the mobile appliance automatically determines its recharging time of the rechargeable battery in this time window, and/or the user specifies the time period in which the mobile, self-propelled appliance should carry out no cleaning tasks. The mobile, self-propelled appliance automatically determines at an end of the time period to charge the rechargeable battery to its full charge capacity.
A47L 11/40 - Éléments ou parties constitutives des machines non prévus dans les groupes , ou non limités à un de ces groupes, p. ex. poignées, dispositions des interrupteurs, bords, amortisseurs ou leviers
A47L 9/28 - Montage de l'équipement électrique, p. ex. adaptation ou fixation à l'aspirateurCommande des aspirateurs par des moyens électriques
H02J 7/00 - Circuits pour la charge ou la dépolarisation des batteries ou pour alimenter des charges par des batteries
An induction energy transmission system includes a supply unit including a supply induction element designed to inductively provide energy, a placement unit including a receiving induction element designed to receive the inductively provided energy, said placement unit including an operating parameter set, and a control unit designed to control the supply unit and in the event of a signaled modification of an operating parameter of the operating parameter set of the placement unit to introduce a safety period and to adapt the inductively provided energy to the modified operating parameter within the safety period.
H05B 6/06 - Commande, p. ex. de la température, de la puissance
H02J 50/10 - Circuits ou systèmes pour l'alimentation ou la distribution sans fil d'énergie électrique utilisant un couplage inductif
H02J 50/80 - Circuits ou systèmes pour l'alimentation ou la distribution sans fil d'énergie électrique mettant en œuvre l’échange de données, concernant l’alimentation ou la distribution d’énergie électrique, entre les dispositifs de transmission et les dispositifs de réception
The invention relates to a domestic appliance device (10), in particular an induction hob device (20), comprising at least one main supply switch (12), at least one filter unit (14), which has at least one filter capacitor (24), and at least one rectifier (38). In order to increase ease of use and energy efficiency, according to the invention the domestic appliance device (10) has at least one filter discharge unit (26) for discharging at least the filter capacitor (24) and has at least one additional rectifier (28) and at least one additional capacitor (30).
An appliance described herein can include an ice maker and a cooled storage compartment. The ice maker can include a cooling plate coupled to a mold cavity, where the cooling plate includes a cooling tube and an electric heater. The cooling tube can cool the mold cavity during an ice production mode in which an ice billet is formed in the mold cavity by spraying water from a nozzle into the mold cavity. The electric heater can heat the mold cavity during an ice harvesting mode in which the ice billet is released from the mold cavity and guided along a guide ramp to the cooled storage compartment, where the ice billet can remain until needed. The appliance can also include an ice press, which can have one or more interchangeable molds and electric heaters to melt an ice billet into a shape of the molds.
A domestic cooling device contains a body, a storage compartment encircled by the body and foods to be cooled can be placed, and a plate-like separation unit arranged in a removable manner in the storage compartment for separation of the volume of the storage compartment and which essentially has a planar base plate. A module carrier assembly is provided which is configured to carry a function module on the plate-like separation unit, particularly to carry a light module. In the domestic cooling device, the module carrier assembly contains a module carrier body which has a longitudinal light module channel arranged such that the light module shall be positioned therein, and an external auxiliary carrier element is embodied in a manner providing passage of at least one light module cable which carries electricity to the light module, and which can be connected to the module carrier body in a removable manner.
In order to increase cost and/or space efficiency, a domestic appliance device (10a-10d), in particular an induction hob device (20a-20d), is proposed, having a main supply switch (12a-12d), having at least one filter unit (14a-14d) which has at least one filter capacitor (24a-24d), having at least one rectifier (38a-38d), having at least one bus capacitor (18a-18d), having an inrush current limiting unit (16a-16d) connected in parallel with the main supply switch (12a-12d) for limiting an inrush current at least at the bus capacitor (18a-18d) and/or at the filter capacitor (24a-24d), and having at least one bus discharge unit (26a-26d) at least for discharging the bus capacitor (18a-18d), wherein the inrush current limiting unit (16a-16d) and the bus discharge unit (26a-26d) are formed at least partially in one piece with one another.
The present invention relates to a fume extraction device (1) and to a system and a method for controlling a fume extraction device (1) for a hob (2) having at least one cooking zone (21-24), comprising: detecting properties of vapours generated at the hob (2) and controlling the fan (10) of the fume extraction device (1). The method is characterised in that at least one condition of the cooking process, which indicates the activation of the hob (2), the number of cooking zones (21-24) of the hob (2) used and/or the cooking method of the cooking process, is determined and the rotational speed of the fan (10) is adjusted on the basis of at least one of the detected properties of the vapour and at least one of the determined conditions.
A cooling device contains a cabinet, a door pivotably coupled to the cabinet and movable between a closed position for closing the cabinet and an open position for allowing access to the cabinet, a hinge assembly for moving the door between the open position and the closed position, and a conduit arrangement provided on the hinge assembly for conducting a flexible conduit from the cabinet to the door. The conduit arrangement is configured to be movable between a serpentine position in which the conduit arrangement is folded on the hinge assembly when the door is at the closed position and an elongated position in which the conduit arrangement extends from the cabinet to the door when the door is at the open position.
F16G 13/16 - Chaînes de traction ou de hissage avec dispositifs pour soutenir des câbles électriques, des tuyaux ou des éléments analogues
E05D 11/00 - Caractéristiques ou accessoires complémentaires des charnières ou gonds
F16G 13/07 - Chaînes de transmission dont les maillons sont reliés par des axes parallèles, avec ou sans rouleaux les maillons étant de forme identique, p. ex. coudés
A household gas stove, comprising a gas burner, a gas valve for controlling a flow of combustion gas to the gas burner, an ignitor for igniting the combustion gas at the gas burner , and a knob mechanism for actuating the gas valve, wherein the knob mechanism comprises a movable magnet for generating a magnetic field and an immovable switch, wherein the switch is switchable from an off mode, in which the switch is outside a range of the magnetic field, into an on mode, in which the switch is within the range of the magnetic field, by means of moving the magnet relative to the switch, wherein the switch activates the ignitor when being switched from the off mode into the on mode.
F24C 7/08 - Disposition ou montage des dispositifs de commande ou de sécurité
G05G 1/08 - Organes de commande actionnés à la main par un mouvement de rotation, p. ex. volants
G05G 1/12 - Moyens pour fixer les organes de commande sur des axes tournants ou des supports analogues
H01H 51/28 - Relais dont l'armature et les contacts se trouvent dans une enveloppe scellée, à l'extérieur de laquelle est disposée la bobine de commande, p. ex. contact entraîné par un ressort à lames ou une tige magnétiques
93.
PRINTED CIRCUIT BOARD ANTENNA FOR WI-FI 6E FREQUENCY BANDS
The invention relates to a printed circuit board antenna (100). The printed circuit board antenna (100) comprises an electrically conductive antenna structure (113) and an electrically conductive reference region (141, 143, 144) on a first layer (110) of a printed circuit board (101). The reference region (141, 143, 144) has a rectangular cut-out in which the antenna structure (113) is arranged such that: a first longitudinal edge (161) of the reference region (141, 143, 144) faces a first longitudinal edge (171) of the antenna structure (113); a second longitudinal edge (162) of the reference region (141, 143, 144) faces a second longitudinal edge (172) of the antenna structure (113); a first transverse edge (163) of the reference region (141, 143, 144) faces a first transverse edge (173) of the antenna structure (113); and a second transverse edge (164) of the reference region (141, 143, 144) faces a second longitudinal edge (174) of the antenna structure (113). Apart from a corner (150) formed by the first longitudinal edge (171) and the first transverse edge (173), the antenna structure (113) has a rectangular basic shape.
The invention relates to a multiband loop antenna (100) which comprises: a first, electrically conductive, L-shaped substructure (110) on a first layer (151) of a printed circuit board (150); and a second, electrically conductive, L-shaped substructure (120) on the first layer (151) of the printed circuit board (150), the first substructure (110) and the second substructure (120) being capacitively coupled to one another in a coupling region (108). The antenna (100) also comprises an electrically conductive first reference region (105), the first substructure (110) and the second substructure (120) being arranged on the first layer (151) of the printed circuit board (150) in such a way that they form a loop together with the first reference region (105). Furthermore, the antenna (100) comprises a feed line (115) which is electrically conductively coupled to the second substructure (120).
H01Q 1/48 - Moyens de mise à la terreÉcrans de terreContrepoids
H01Q 5/378 - Combinaison d’éléments alimentés et d’éléments passifs
H01Q 7/00 - Cadres ayant une distribution du courant sensiblement uniforme et un diagramme de rayonnement directif perpendiculaire au plan du cadre
H01Q 9/42 - Antennes résonnantes avec alimentation à l'extrémité d'un élément actif allongé, p. ex. unipôle avec éléments repliés, les parties repliées étant espacées l'une de l'autre d'une petite fraction de la longueur d'onde émise
A suction nozzle (10) for a vacuum cleaner, the suction nozzle (10) has a main body (11) comprising: a liquid container (12) a liquid distribution system with an outlet (13), a pad holder (20) mounted outside the main body (11) by a shaft (25) and having at least one aperture (21) and a textile pad (22) attached to the pad holder (20), wherein the textile pad (22) has a distribution opening (23) which overlaps the aperture (21) of the pad holder (20) creating a through hole (24) and the outlet (13) of the liquid distribution system is placed above the through hole (24). The invention provides a suction nozzle for a vacuum cleaner. The suction nozzle is able to perform wet cleaning and the cleaning effect has been improved by providing better distribution of the cleaning fluid over the cleaned surface. Moreover, the suction nozzle provides also a limitation in use of chemical detergents by providing a cleaning agent generator which generates in-situ detergent in amount which is required to perform the cleaning process.
A47L 9/04 - Buses avec brosses ou agitateurs commandés
A47L 9/06 - Buses avec brosses ou similaires fixes, p. ex. à fixation réglable
A47L 11/40 - Éléments ou parties constitutives des machines non prévus dans les groupes , ou non limités à un de ces groupes, p. ex. poignées, dispositions des interrupteurs, bords, amortisseurs ou leviers
96.
METHOD FOR CREATING AN ENVIRONMENT MAP, SELF-PROPELLED MOBILE APPLIANCE, AND COMPUTER PROGRAM
An environment map is created of a surrounding area for the operation of a mobile self-propelled appliance, such as a floor cleaning appliance being a robot vacuum cleaner and/or robot sweeper and/or mopping robot, by: Capturing images of a floor area of a grid cell of the surrounding area using a camera of the appliance; transforming the images to generate bird's eye view first image representations; combining the first image representations with weighted averaging and inserting a first averaged image representation of the floor area into the environment map, including the appliance position and orientation; capturing an nth image of the floor area of the grid cell and transforming the nth image into a second image representation; combining the first and second image representations of the grid cell while performing weighted averaging of all image representations; and overwriting the first averaged image representation in the environment map with a second averaged image representation.
G01C 21/00 - NavigationInstruments de navigation non prévus dans les groupes
A47L 9/28 - Montage de l'équipement électrique, p. ex. adaptation ou fixation à l'aspirateurCommande des aspirateurs par des moyens électriques
A47L 11/40 - Éléments ou parties constitutives des machines non prévus dans les groupes , ou non limités à un de ces groupes, p. ex. poignées, dispositions des interrupteurs, bords, amortisseurs ou leviers
G06T 3/4038 - Création de mosaïques d’images, p. ex. composition d’images planes à partir de sous-images planes
G06V 20/56 - Contexte ou environnement de l’image à l’extérieur d’un véhicule à partir de capteurs embarqués
In order to increase ease of use and safety, the invention proposes a domestic appliance apparatus (10a; 10c), in particular an induction hob apparatus (20a; 20c), having at least one compensating unit (12a; 12c) for compensating for a drop in power across at least one electrical load (14a; 14b).
A brewing unit (10) for brewing a beverage from ground food powder, in particular a brewing unit (10) of a fully automatic coffee machine, having a filter (1) for retaining a filter cake of the food powder, having a filter plane (2) forming part of the filter (1) and having through-holes in the filter plane (2), is developed by the filter (1) comprising a plurality of filter planes. The invention also relates to a fully automatic coffee machine equipped therewith.
A device (105) for cleaning a floor surface (110) comprises a first container (125) for receiving a liquid first cleaning agent (130); a second container (145) for receiving an aqueous solution of a predetermined salt; wherein the device (105) is designed such that the first cleaning agent (130) is present in the first container (125) in liquid form, in particular as a finished aqueous solution, and wherein the device (105) is designed such that a second cleaning agent (150) is dynamically formed from the aqueous solution of the second container (145) only when it is to be used to clean the floor surface (110); a control device (170) for controlling an electric current through the solution in order to form a second cleaning agent (150) by means of electrolysis; a cleaning fleece (115) which is designed to be guided over the floor surface (110); and a distribution device (140, 160) for providing cleaning agent (130, 150) from the containers (125, 145) in the region of the cleaning fleece (115).
A47L 11/40 - Éléments ou parties constitutives des machines non prévus dans les groupes , ou non limités à un de ces groupes, p. ex. poignées, dispositions des interrupteurs, bords, amortisseurs ou leviers
