TH99651A - Systems and methods for preparing food - Google Patents

Abstract

DC60 food preparation systems include a contactless power supply. To provide energy with Appliances for cooking The food preparation system will include a communication system for making It is possible to communicate between cooking appliances and food preparation systems. The appliance sends an identifier to the food preparation system. If the appliance does not have a transmitter Food preparation systems An attempt will be made to determine the type of appliance from the power nature of that appliance. If the characteristics of the appliance cannot be determined. The food preparation system will be able to operate by hand. The food preparation system includes a contactless power supply. To provide energy with Appliances for cooking The food preparation system will include a communication system for making It is possible to communicate between cooking appliances and food preparation systems. The appliance sends an identifier to the food preparation system. If the appliance does not have a transmitter Food preparation systems An attempt will be made to determine the type of appliance from the power nature of that appliance. If the characteristics of the appliance cannot be determined. The food preparation system will be able to operate by hand.

Claims (1)

Disclaimer (all) which will not appear on the advertisement page: Amendment 07/05/2019 Page 1 of 1 page Claims 1. Food preparation systems for use with appliances for preparing food with Coil Inductive secondary, a system consisting of Power supplies including inductive primary winding And can drive the primary winding Inductive at a certain frequency Measuring path for measuring the inductive secondary winding response to each frequency, a number of responses that form a frequency response frame. A memory path for storing a number of electrical appliance identifiers, each of which is Linked to one of the frequency response frameworks, an appliance identifier including the information considered. Use of electrical appliances And the way the processor is connected to the power supply, the measurement path And the memory path, the processor path for the framework Frequency response, for selection from electrical appliance identifiers, memory trajectory and relevant usage data according to the frequency response frame function. And for power supply control Power in accordance with relevant usage data. -------------------------------------------------- ---------- ------ 26/07/2018 ------ (OCR) Page 1 of 5 pages. Claims 1. Food preparation systems for use with utensils. Electric for food preparation with inductive secondary winding, a system consisting of Power supplies including inductive primary winding And can drive the inductive primary winding at a certain frequency Measuring path for measuring the inductive secondary winding response to each frequency, a number of responses that form a frequency response frame. A memory path for storing a number of electrical appliance identifiers, each of which is associated with one of the frequency response frameworks, an appliance identifier that includes information considering the use of an appliance. And the way the processor is connected to the power supply, the measurement path And memory path, processor path for following frequency response framework, for selection from appliance identifier, memory path. And relevant usage data according to the function of the frequency response framework. And for the control of the power supply in accordance with relevant usage data. 2. The system of claim 1, which further includes an arrangement method to maintain food preparation appliances, is arranged with Inductive primary winding, the arrangement method that includes magnetic 3.System of claim 1 where the path for measuring the response includes a path for measuring voltage 4. Device identification system for identifying one of a number of devices capable of performing inductive power, a system consisting of Inductive power supply including an inductive primary coil for wireless power transfer to a device with a structured receiving coil for wireless power transmission operation, where the power source The inductor can drive the said inductive primary winding at a number of operating frequencies. The processor for determining the frequency response from the device power coils by monitoring the inductive primary winding while the inductive power source is driven at a certain number of operating frequencies, The frequency response is a received response from the device power coil in the absence of an active contact from a memory module for storing the frequency frame, which identifies the device and where it is. The processor is structured to determine whether the frequency response from the device's power coils truly matches that frequency frame, and where page 2 of the number five is controlled. Such an inductive power source that responds to determines that the said frequency response from the device's power coils is truly matched to that frequency frame to control the transfer of wireless power. To the device 5. The system of claim 4, which is further composed of an arrangement method for keeping the device aligned with the said inductive primary winding, such arrangement method that includes the magnet 6. System of 7. System of claim 4, where such frequency response includes a current value, for which the frequency response includes an output voltage at each of the driven operating frequencies. 8. System of claim 4 where the response to the said frequency framing from the device's power coils is truly matched to that frequency frame, the said processor returns. Information that considers the device from the database. And control of the said induction power supply on the basis of such information 9. System of claim 8, where such information includes operating parameters 1 0. Method for identification of devices capable of performing inductive power. Method which includes Driving the inductive primary coil of an inductive power source to transfer the operational wireless power to a device with a structured receiving coil for operation wireless power receiving, including Driving the inductive primary winding at a number of operating frequencies in the presence of the device. Determining the frequency response from the power coil of the device by monitoring the inductive primary winding while the induction source is driven at a number of operating frequencies, the frequency response is the reciprocal response. The device power coil in the absence of an active contact from the device. Storing a frequency frame, which identifies the device and determines whether the device's frequency response truly matches the frequency frame; and The control of an inductive power supply that responds to determines that the frequency response from the device's power coil is truly matched to the frequency frame to control the transfer of functional wireless power to the device 1. 1. Method of claim 10, which further consists of keeping the device aligned with the magnetic induction primary winding, page 3 of the number 5, page 1 2. The method of claim 10. Where frequency response includes the output voltage at each driven operating frequency 1 3. Method of claim 10 where frequency response includes the current value 1 4. Method Of claim 10, where the response to the frequency framing of the device truly matches the frequency frame Retrieving data from database considered devices and controlling inductive power sources based on information 1 5. Method of claim 14 where information includes operating parameters 1 6. Device identification system for identification. A device capable of performing inductive power, a system consisting of Inductive power supply including an inductive primary coil for wireless power transfer to a device with a structured receiving coil for wireless power transmission operation, where the power source The inductor can drive the said inductive primary winding at a number of operating frequencies. The processor for determining the frequency response from the device power coils by monitoring the inductive primary winding while the inductive power source is driven at a certain number of operating frequencies, The frequency response is a received response from the equipment power coil in the absence of active contact from the device. A memory for storing frequency signals, which identifies the device and where the processor determines whether the frequency response from the device's power coils is matched with that frequency signal. And where the processor controls that inductive power source in response to determining that such frequency response from the device's input coils is matched with that frequency signal to control the emission. Transfer of the wireless power to the device 1. 7. System of claim 16, which is further equipped with magnet for keeping the device aligned with the aforementioned inductive primary winding. Claim No. 16, where such frequency response includes voltage values 1. System of claim No. 16, where such frequency response includes current values 2. 0. Clause 16 system. Where the response to determining the frequency response from the device's power coils is truly matched to that frequency signal, the processor recovers the information considered the device from the database. And control of the supply of induced power on the basis of information 2 1. System of claim 20, where such information includes operating parameters page 4 of the number 5 Page 2 2. The system of claim 16, where the response Such frequency response includes a frequency band 2. 3. Methods for identification of known remote devices, such methods include. Load placement in close proximity to an inductive power source, an inductive power source including an inductive primary coil for wireless power transfer to a load with a positioned receiving coil. Structure for wireless power transmission operation Applying power to the primary winding at a number of operating frequencies is selected in order to provide identification of the load in close proximity to the power supply. Load characterization by obtaining the frequency response from the load-carrying coil by monitoring the inductive primary winding as it is being supplied to the primary winding at operating frequency. To a certain extent, the frequency response is a response received from the load-carrying coil in the absence of an active contact from the load. Determining whether a load is a known remote device based on frequency response and control of an inductive power supply to supply wireless power, the operation that responds to such load determination is a known remote device 2 4. The method of claim 23, which further includes treatment of a known remote device, is aligned with a magnetically induced primary winding 2 5. Method of claim 23, where the Frequency response includes a number of output voltages at each driven operating frequency 2. 6. Method of claim 23, where frequency response includes current values. Claim 23, where the response to load assignments is a known remote device. Retrieval of information considering known remote devices from a database and control of inductive power sources on the basis of information 2. 8. Method of claim 27, where information includes operating parameters 2 9. System for operation. Identify known remote devices, such systems include Inductive power supplies, including an inductive primary coil that transfers power wirelessly to the receiving coil connected to a structured mains load for wireless power transmission. Where the inductive power source can drive the aforementioned inductive primary winding at a number of operating frequencies selected to make the load identified in close proximity to the inductive power source. The processor for characterizing the load by obtaining the load frequency response while the inductive primary winding is driven at a frequency of 5 pages of a number of 5 aforementioned operating pages, Frequency response is a inherited response of a load in the absence of an active contact from the load. Memory for storing frequency signals linked to known remote devices and Where the processor determines that the load is a known remote device on the basis of such frequency response comparison. 3 0. The system hereby holds claim 29 where the processor determines that the load is a known remote device on the basis of the said frequency response of the load. Truly coupled to the said frequency signal of a known remote device. 3. 1. The system as requested holds claim 30, where the response to the determination of the said frequency response of the matched load is truly. With such a frequency signal, the processor retrieves information that determines the known remote device from a database. And control the source of induced power on the basis of the aforementioned information 3. 2. The system as requested to hold the rights in Clause 31, where such information includes operating parameters 3. 3. The system that requests the right in Clause 31. Claim 29, which consists of a magnet for the treatment of known remote devices, is arranged with such inductive primary coils. 3 4. The system as requested is entitled to claim 29, where the The said frequency response includes the voltage value 3. 5. The system as requested in Claim 29, where such frequency response includes the current ------------ 1. Food preparation systems for use with food preparation appliances incorporating a power source. First inductive primary winding The processor controls the power supply to the inductive power supply and the communication system connected to the processor to enable communication between the processors. With electrical appliances for food preparation 2. The system according to claim 1 that also includes additional Arrangement method to keep food preparation appliances aligned with the stents. The first induction primary as follows 3. The system according to claim 2, which also includes additional Interface with the user connected to the processor to control the operation of Appliances for food preparation 4. The system according to claim 3, which also includes additional The antennas are connected to the communication system and are positioned close to the primary winding. Induction number one 5. System according to claim 4 that also includes additional Network interface to connect the food preparation system to the network. 6. Food preparation appliances that include Food container An inductive secondary winding and an appliance control that allows the user to control the operation of the food container. 7. Food preparation appliances according to claim 6, which is also supplemented. Heaters connected to the inductive secondary winding 8. Appliance for food preparation according to claim 7, which is also supplemented by Electric motor connected to the inductive secondary winding 9. Apparatus for food preparation pursuant to claim 8, which is also supplemented. A transmitter for communicating with an inductive primary winding controller 1 0. Appliance for food preparation pursuant to claim 9 is also supplemented. Temperature sensors and display units to show the temperature of food containers 1 1. Appliances for food preparation according to claim 10, where temperature sensors The display unit and the transceiver are connected to the inductive secondary winding 1 2. Food preparation appliances according to claim 11, where the food containers are Inductive secondary winding The appliance controls and the transceiver are enclosed within the enclosures. 1 3. Electrical appliances for food preparation according to claim 12, where the method of arrangement is magnetic 1 4. The medium of food preparation appliances for placement during the system. Prepare food and appliances for food preparation. That includes Inductive secondary winding Transmitter and memory 1 5. The medium of appliances for food preparation. According to claim No. 14, where the memory will contain the database The database contains a number of information that is consistent with Different Appliance for Food Preparation 1 6. Medium of Electrical Appliance for Food Preparation in accordance with Clause 15, whereby the processor will be morphed to obtain information about electrical appliances for the preparation of food. Prepare food from the system Food Preparation 1 7. The medium of electrical appliances for food preparation pursuant to claim 15, which is also supplemented. A controller to allow the user to change the operating parameters of the food preparation system 1 8. Methods of powering appliances for food preparation. That includes Powering an inductive power system Defining identifiers for food preparation systems Determining operating parameters for the food preparation system and operating the food preparation system according to operating parameters 1 9. The method of claim 18 is also supplemented. Obtaining an identifier from an appliance for food preparation 2 0. Method of claim 18, which also includes additions. Powering an inductive power system at a number of frequencies A certain number of output assignments for each frequency So there are a number of outputs and assign an identifier from a number of different outputs. 1. Method according to claim 19, where the output is the potential difference.