Patents by Inventor Elmar Herweg
Elmar Herweg has filed for patents to protect the following inventions. This listing includes patent applications that are pending as well as patents that have already been granted by the United States Patent and Trademark Office (USPTO).
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Patent number: 11855462Abstract: A method for controlling an induction coil on an induction hob involves a power generation for a primary power on the induction coil for power transmission to an electrical consumer put onto a cover above the induction coil, which consumer has a receiver coil and an electrical load connected thereto, being adjusted. The induction coil forms a primary-side resonant circuit with a capacitance connected in series, and the induction coil and the receiver coil are coupled in the style of a transformer such that a current in the induction coil induces a voltage in the receiver coil with a flow of current and generation of the secondary power in the load of the electrical consumer. The control means can attempt to adjust the desired secondary power to a steady state using maximum modulation of the voltage effectively applied to the primary-side resonant circuit, as second manipulated variable.Type: GrantFiled: February 27, 2020Date of Patent: December 26, 2023Assignee: E.G.O. ELEKTRO-GERAETEBAU GMBHInventors: Christian Egenter, Robin Goebel, Elmar Herweg
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Publication number: 20230309203Abstract: In order to operate an induction cooktop with a cooktop plate, at least two induction heating coils thereunder, a cooktop controller, and a power unit for supplying power to the induction heating coils, the two induction heating coils are jointly supplied with power and operated with in each case one power density spectrum with precisely one maximum. In a first operating mode, the power density spectra are measured and it is established how their respective maxima are located relative one another, and the sum thereof is formed. The difference in power density between a local minimum of the sum, which is located between the two maxima of the sum, and the two maxima of the sum is then reduced. To this end, the switch-on time and/or the switch-off time of at least one of the circuit-breakers is varied in order to actively modify the power density spectrum of the power supply.Type: ApplicationFiled: March 8, 2023Publication date: September 28, 2023Inventors: Stephane Lomp, Christian Egenter, Elmar Herweg
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Publication number: 20200287421Abstract: A method for controlling an induction coil on an induction hob involves a power generation for a primary power on the induction coil for power transmission to an electrical consumer put onto a cover above the induction coil, which consumer has a receiver coil and an electrical load connected thereto, being adjusted. The induction coil forms a primary-side resonant circuit with a capacitance connected in series, and the induction coil and the receiver coil are coupled in the style of a transformer such that a current in the induction coil induces a voltage in the receiver coil with a flow of current and generation of the secondary power in the load of the electrical consumer. The control means can attempt to adjust the desired secondary power to a steady state using maximum modulation of the voltage effectively applied to the primary-side resonant circuit, as second manipulated variable.Type: ApplicationFiled: February 27, 2020Publication date: September 10, 2020Inventors: Christian Egenter, Robin Goebel, Elmar Herweg
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Patent number: 10219327Abstract: To determine the temperature of boiling water in an induction hob including induction heating coils which can be individually driven and which, in a common heating mode, form a cooking point for a cooking vessel containing water, the cooking vessel is positioned over at least two induction heating coils. The induction heating coils are operated in the heating mode to bring the water in the cooking vessel to boil and each induction heating coil heats that region of the cooking vessel base arranged above it. During the heating mode, the oscillation response at each induction heating coil is used to detect whether temperature of the region of the cooking vessel base above this induction heating coil increases. The induction heating coils are operated in the heating mode until one induction heating coil detects that the temperature gradient of the cooking vessel base above the induction heating coil has reached zero.Type: GrantFiled: August 25, 2016Date of Patent: February 26, 2019Assignee: E.G.O. Elektro-Geraetebau GmbHInventors: Marcus Frank, Elmar Herweg, Marius Lehner, Michael Stober
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Patent number: 9909763Abstract: In the case of a method of pot detection at a gas cooking point with a gas burner, a thermocouple is fitted at the gas cooking point for flame sensing, to be precise in such a way that with every output of the gas burner possible for a sustained period it is impinged by the flame. In order to detect whether a pot has been placed onto the gas cooking point while the gas burner is in operation or whether the pot has been taken away, the thermoelectric voltage is tapped at the sensing means and evaluated by a comparison of the signal at the time with the signal in the case where a pot has been placed on. A different flame prevails at the thermocouple when a pot has been placed on than when the pot has been taken away, and the temperature is different. The output at the gas cooking point is reduced as a reaction to detection of the taking away of the pot.Type: GrantFiled: September 1, 2015Date of Patent: March 6, 2018Assignee: E.G.O. Elektro-Geraetebau GmbHInventors: Jochen Rickert, Daniel Parker, Elmar Herweg
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Publication number: 20170064776Abstract: In order to determine the temperature of boiling water in an induction hob including a plurality of induction heating coils which can be individually driven and which, in a common heating mode, form a cooking point for a cooking vessel containing water, a cooking vessel containing water is positioned over at least two induction heating coils. The induction heating coils are operated in the heating mode in order to bring the water in the cooking vessel to boil and each induction heating coil heats that region of the cooking vessel base which is arranged above it. During the heating mode, the oscillation response at each induction heating coil is used to detect whether the temperature of the region of the cooking vessel base above this induction heating coil increases. The induction heating coils are operated in the heating mode at least until one induction heating coil detects that the temperature gradient of the cooking vessel base above the induction heating coil has reached zero.Type: ApplicationFiled: August 25, 2016Publication date: March 2, 2017Inventors: Marcus Frank, Elmar Herweg, Marius Lehner, Michael Stober
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Publication number: 20160084506Abstract: In the case of a method of pot detection at a gas cooking point with a gas burner, a thermocouple is fitted at the gas cooking point for flame sensing, to be precise in such a way that with every output of the gas burner possible for a sustained period it is impinged by the flame. In order to detect whether a pot has been placed onto the gas cooking point while the gas burner is in operation or whether the pot has been taken away, the thermoelectric voltage is tapped at the sensing means and evaluated by a comparison of the signal at the time with the signal in the case where a pot has been placed on. A different flame prevails at the thermocouple when a pot has been placed on than when the pot has been taken away, and the temperature is different. The output at the gas cooking point is reduced as a reaction to detection of the taking away of the pot.Type: ApplicationFiled: September 1, 2015Publication date: March 24, 2016Inventors: Jochen Rickert, Daniel Parker, Elmar Herweg
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Publication number: 20080186142Abstract: Identification tags are allocated to devices comprising bus subscribers (12a-d) on a data bus (18). The bus subscriber devices are designed with receivers (24a-d) which are designed to receive wirelessly transmitted signals (31) from a transmitter providing the identification tags. These receivers are used to assign an identification tag to the bus subscribers temporarily or permanently before the bus is operation in a normal operating mode for the hob. The invention also covers a method and an apparatus for allocating identification tags to such bus subscribers.Type: ApplicationFiled: March 27, 2008Publication date: August 7, 2008Applicant: E.G.O. ELEKTRO-GERAETEBAU GMBHInventors: Elmar Herweg, Frank Bohm, Bernhard Roth
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Patent number: 6734377Abstract: A touch switch layout for a hob having several hotplates is described. For said hotplates is in each case provided a separate selection switch with which the power can be selected in each case. There is also a single, common touch switch for power reduction for all the hotplates. According to the associated operating method, on operating the common power control switch only the power of a selected hotplate is modified or reduced. The power of a hotplate is increased by briefly operating a selection button as selection and renewed operation of the selection button as an increase. This then functions as a power increase switch. It is obvious that the function can also be reversed.Type: GrantFiled: May 7, 2002Date of Patent: May 11, 2004Assignee: E.G.O. Elektro-Geraetebau GmbHInventors: Oliver Gremm, Elmar Herweg
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Publication number: 20020162730Abstract: A touch switch layout for a hob having several hotplates is described. For said hotplates is in each case provided a separate selection switch with which the power can be selected in each case. There is also a single, common touch switch for power reduction for all the hotplates. According to the associated operating method, on operating the common power control switch only the power of a selected hotplate is modified or reduced. The power of a hotplate is increased by briefly operating a selection button as selection and renewed operation of the selection button as an increase. This then functions as a power increase switch. It is obvious that the function can also be reversed.Type: ApplicationFiled: May 7, 2002Publication date: November 7, 2002Inventors: Oliver Gremm, Elmar Herweg