21 - HouseHold or kitchen utensils, containers and materials; glassware; porcelain; earthenware
Goods & Services
Cooking appliances, namely, electric and gas-powered griddles, and electric and gas-powered flattop grills Cooking utensils, namely, griddle inserts for electric and gas-powered cooking appliances
21 - HouseHold or kitchen utensils, containers and materials; glassware; porcelain; earthenware
Goods & Services
Cooking appliances, namely, electric and gas-powered griddles, and electric and gas-powered flattop grills Cooking utensils, namely, griddle inserts for electric and gas-powered cooking appliances
A remote temperature monitoring system includes a first unit operatively connected to one or more temperature sensors for sensing the temperature of one or more materials or food items being cooked or heated. The first unit transmits the sensed temperature to a second unit that is located remotely from the first unit during heating. The second unit is programmable with the desired temperature and/or heating parameters of the item. By monitoring the temperature status of the item over time, the system determines when the food has reached the desired temperature or degree of cooking, and notifies the user.
A47J 36/00 - Parts, details or accessories of cooking-vessels
A47J 37/07 - Roasting devices for outdoor use; Barbecues
G01K 1/024 - Means for indicating or recording specially adapted for thermometers for remote indication
H04Q 9/00 - Arrangements in telecontrol or telemetry systems for selectively calling a substation from a main station, in which substation desired apparatus is selected for applying a control signal thereto or for obtaining measured values therefrom
Pellet grills including a control system that implements, manages, and/or controls various ignition-based protocols are disclosed. An example pellet grill includes a cooking chamber, a burn pot, an ignitor, and a controller. The ignitor extends into the burn pot and is configured to ignite pellet fuel located within the burn pot. The controller is configured to detect a temperature pattern of the cooking chamber corresponding to a flame out condition of the burn pot. The controller is further configured, in response to detecting the temperature pattern, to command the ignitor to activate during a first duration. The controller is further configured to determine, following expiration of the first duration, whether a temperature of the cooking chamber increased during the first duration. The controller is further configured, in response to determining that the temperature has not increased during the first duration, to command the ignitor to activate during a second duration.
F23Q 7/02 - Incandescent ignition; Ignition using electrically-produced heat, e.g. lighters for cigarettes; Electrically-heated glowing plugs for igniting solid fuel
G07C 3/10 - Registering or indicating the production of the machine either with or without registering working or idle time using counting means
A47J 37/07 - Roasting devices for outdoor use; Barbecues
A47J 36/32 - Time-controlled igniting mechanisms or alarm devices
F24B 13/04 - Arrangements for feeding solid fuel, e.g. hoppers
21 - HouseHold or kitchen utensils, containers and materials; glassware; porcelain; earthenware
Goods & Services
Cooking appliances, namely, electric and gas-powered griddles, and electric and gas-powered flattop grills Cooking utensils, namely, griddle inserts for electric and gas-powered cooking appliances
Pellet grills and associated methods of operation are disclosed. An example pellet grill includes a waste collection drawer and one or more processors. The waste collection drawer is movable between a closed position and an open position. The one or more processors are configured to determine whether a duty cycle of the waste collection drawer has violated a threshold corresponding to a predetermined usage expectancy of the waste collection drawer. In response to determining that the duty cycle has violated the threshold, the one or more processors are configured to generate a notification indicating that the threshold has been violated.
F24B 13/04 - Arrangements for feeding solid fuel, e.g. hoppers
A47J 37/07 - Roasting devices for outdoor use; Barbecues
F23B 40/08 - Combustion apparatus with driven means for feeding fuel into the combustion chamber the fuel being fed along the fuel-supporting surface into pot- or trough-shaped grates
H04L 67/125 - Protocols specially adapted for proprietary or special-purpose networking environments, e.g. medical networks, sensor networks, networks in vehicles or remote metering networks involving control of end-device applications over a network
F24B 15/00 - Implements for use in connection with stoves or ranges
41 - Education, entertainment, sporting and cultural services
43 - Food and drink services, temporary accommodation
Goods & Services
Educational services, namely, conducting classes, workshops and presentations in the field of cooking; training services in the nature of cooking classes Providing of food and drink; catering services
09 - Scientific and electric apparatus and instruments
Goods & Services
Computer hardware and software system used to monitor and
control outdoor cooking appliances, namely, barbecue grills,
smokers, griddles, and the like, for use in the outdoor
cooking field.
19.
PORTABLE GRILLS INCLUDING A BASE HAVING SUPPORTS FOR STORING REMOVABLE SIDE TABLES
Example portable grills including a base having supports for storing removable side tables are disclosed. An example portable grill includes a cookbox, a base, and a side table. The base is coupled to the cookbox. The base is configured to support the cookbox above an underlying surface onto which the base is to be placed. The side table is configured to be removably coupled to the base in a storage position. The side table is to be located beneath the cookbox when the side table is coupled to the base in the storage position.
Example portable grills including a base having supports for storing removable side tables are disclosed. An example portable grill includes a cookbox, a base, and a side table. The base is coupled to the cookbox. The base is configured to support the cookbox above an underlying surface onto which the base is to be placed. The side table is configured to be removably coupled to the base in a storage position. The side table is to be located beneath the cookbox when the side table is coupled to the base in the storage position.
Example portable grills having reversible steam tray assemblies are disclosed. An example portable grill includes a cookbox, a heating element, a water pan, and a steam tray. The heating element is located within the cookbox. The water pan is located within the cookbox above the heating element. The water pan includes a bottom wall. The steam tray is located within the water pan. The steam tray includes a horizontally-oriented support wall having a plurality of openings extending therethrough. The steam tray is configured to be reversibly positioned within the water pan in a first orientation and a second orientation. The support wall is spaced from the bottom wall by a first distance when the steam tray is positioned in the first orientation. The support wall is spaced from the bottom wall by a second distance greater than the first distance when the steam tray is positioned in the second orientation.
Example portable grills having reversible steam tray assemblies are disclosed. An example portable grill includes a cookbox, a heating element, a water pan, and a steam tray. The heating element is located within the cookbox. The water pan is located within the cookbox above the heating element. The water pan includes a bottom wall. The steam tray is located within the water pan. The steam tray includes a horizontally-oriented support wall having a plurality of openings extending therethrough. The steam tray is configured to be reversibly positioned within the water pan in a first orientation and a second orientation. The support wall is spaced from the bottom wall by a first distance when the steam tray is positioned in the first orientation. The support wall is spaced from the bottom wall by a second distance greater than the first distance when the steam tray is positioned in the second orientation.
Pellet grills and associated methods of operation are disclosed. An example pellet grill includes a lid, a cooking chamber, an engine, and one or more processors. The lid is movable between a closed position and an open position. The engine is configured to output heat to the cooking chamber. The one or more processors are configured to detect a closing movement of the lid. In response to detecting the closing movement, the one or more processors are configured to command the engine to operate in an increased output mode that increases the heat output of the engine.
F24B 13/04 - Arrangements for feeding solid fuel, e.g. hoppers
F24B 15/00 - Implements for use in connection with stoves or ranges
A47J 37/07 - Roasting devices for outdoor use; Barbecues
F23B 40/08 - Combustion apparatus with driven means for feeding fuel into the combustion chamber the fuel being fed along the fuel-supporting surface into pot- or trough-shaped grates
H04L 67/125 - Protocols specially adapted for proprietary or special-purpose networking environments, e.g. medical networks, sensor networks, networks in vehicles or remote metering networks involving control of end-device applications over a network
A47J 36/32 - Time-controlled igniting mechanisms or alarm devices
09 - Scientific and electric apparatus and instruments
Goods & Services
(1) A temperature control system, namely, a proportional-integral-derivative controller and algorithm for regulating temperature in a cooking appliance.
09 - Scientific and electric apparatus and instruments
Goods & Services
(1) Computer hardware and software system used to monitor and control outdoor cooking appliances, namely, barbecue grills, smokers, griddles, and the like, for use in the outdoor cooking field.
21 - HouseHold or kitchen utensils, containers and materials; glassware; porcelain; earthenware
Goods & Services
Clip-On Battery-powered lights Support bracket not made of metal for attachment to an outdoor cooking appliance or a table or stand supporting an outdoor cooking appliance to support items to be kept within arm's reach such as grilling tools, cooking accessories, tool hooks, trash bag holder, and the like; Grilling and cooking accessories, namely, grilling tools, cooking tools, tool hooks, condiment dispensers, tool mat, trash bag holder, and the like; side tables, namely, a modular side table system with removable inserts Removable inserts for a modular side table system, namely, cutting boards, holders for cutting boards, storage bins, basins, serving trays, utensil holders, utensil caddies, tool caddies, condiment caddies, table top inserts, food preparation containers, and the like; Cooking accessories, namely, warming racks, paper towel holders, storage caddies, beverage container holder, and the like
30.
Digital Power Supply With Wireless Monitoring and Control
Provided is an apparatus and method for a digital power supply that can provide independent power control for two or more electrical loads. Some disclosed embodiments provide continuous, variable power and other disclosed embodiments provide discrete power levels. Disclosed embodiments may reduce the magnitude of harmonic currents and/or flicker introduced into a power system. Embodiments include a microprocessor that delivers power to electric loads using phase-controlled AC current. In some embodiments, the microprocessor may calculate a power array corresponding to a requested power for each electric load. Logic is provided for populating the power array in a pattern that reduces the magnitude of harmonic currents and flicker. Portions of the disclosure include a band controller for delivering power to achieve and maintain a desired target temperature, and a wireless controller for controlling temperature from a remote device.
Example methods and apparatus for presenting location-based food movement notifications in connection with cook programs of grills are disclosed. An example grill includes a cookbox, a lid, a cooking chamber, a controller, and a lighting module. The cooking chamber is defined by the cookbox and the lid. The controller implements a cook program to cook an item of food within the cooking chamber. The cook program includes a food movement step requiring the item of food to be added to the cooking chamber, to be removed from the cooking chamber, or to be moved within the cooking chamber. In response to determining that the cook program has advanced to the food movement step, the controller causes the lighting module to present a location-based food movement notification indicating a location within the cooking chamber at which the food movement step is to be performed.
Example methods and apparatus for communicating control signals in a gas grill are disclosed herein. An example user-interface assembly for use in a grill includes control knob, knob sensor to detect a user interaction with the control knob, lighting circuitry including a plurality of light emitting diodes, and user-interface controller circuitry to identify an addressing block connected via an input wiring harness, the knob controller to select an address to be used to communicate with a central controller of the gas grill.
Example methods and apparatus for presenting location-based food movement notifications in connection with cook programs of grills are disclosed. An example grill includes a cookbox, a lid, a cooking chamber, a controller, and a lighting module. The cooking chamber is defined by the cookbox and the lid. The controller implements a cook program to cook an item of food within the cooking chamber. The cook program includes a food movement step requiring the item of food to be added to the cooking chamber, to be removed from the cooking chamber, or to be moved within the cooking chamber. In response to determining that the cook program has advanced to the food movement step, the controller causes the lighting module to present a location-based food movement notification indicating a location within the cooking chamber at which the food movement step is to be performed.
Example methods and apparatus for communicating control signals in a gas grill are disclosed herein. An example user-interface assembly for use in a grill includes control knob, knob sensor to detect a user interaction with the control knob, lighting circuitry including a plurality of light emitting diodes, and user-interface controller circuitry to identify an addressing block connected via an input wiring harness, the knob controller to select an address to be used to communicate with a central controller of the gas grill.
09 - Scientific and electric apparatus and instruments
Goods & Services
Computer hardware and software system used to monitor and control outdoor cooking appliances, namely, barbecue grills, smokers, griddles, and the like, for use in the outdoor cooking field
Provided is an apparatus and method for protecting against unsafe electric current conditions. A protections circuit may be used in a device, such as an electric grill, that has one or more electric loads, such as heating elements. The protection circuit may protect against various failure scenarios, including, without limitation, instances of ground fault, over current, driver failure, and failure of a microprocessor. In response to a failure, the protection circuit may trip a latch relay or disable a triac driver to stop current from flowing.
H02H 3/16 - Emergency protective circuit arrangements for automatic disconnection directly responsive to an undesired change from normal electric working condition, with or without subsequent reconnection responsive to fault current to earth, frame or mass
H02H 3/10 - Emergency protective circuit arrangements for automatic disconnection directly responsive to an undesired change from normal electric working condition, with or without subsequent reconnection responsive to excess current additionally responsive to some other abnormal electrical conditions
H02H 3/32 - Emergency protective circuit arrangements for automatic disconnection directly responsive to an undesired change from normal electric working condition, with or without subsequent reconnection responsive to phase angle between voltages or between currents involving comparison of the voltage or current values at corresponding points in different conductors of a single system, e.g. of currents in go and return conductors
H02H 3/08 - Emergency protective circuit arrangements for automatic disconnection directly responsive to an undesired change from normal electric working condition, with or without subsequent reconnection responsive to excess current
Pellet grills including a control system that implements, manages, and/or controls various ignition-based protocols and/or processes are disclosed. An example pellet grill includes a cooking chamber, a burn pot, an ignitor, and a controller. The ignitor extends into the burn pot and is configured to ignite pellet fuel located within the burn pot. The controller is configured to command the ignitor to activate during a first duration. The controller is further configured to determine, following expiration of the first duration, whether a temperature of the cooking chamber has reached a threshold temperature. The controller is further configured, in response to determining that the temperature has not reached the threshold temperature, to command the ignitor to activate during a second duration.
F23Q 7/02 - Incandescent ignition; Ignition using electrically-produced heat, e.g. lighters for cigarettes; Electrically-heated glowing plugs for igniting solid fuel
G07C 3/10 - Registering or indicating the production of the machine either with or without registering working or idle time using counting means
A47J 37/07 - Roasting devices for outdoor use; Barbecues
A47J 36/32 - Time-controlled igniting mechanisms or alarm devices
F24B 13/04 - Arrangements for feeding solid fuel, e.g. hoppers
48.
METHODS AND APPARATUS FOR PRESENTING SAFETY-BASED TEMPERATURE STATUS NOTIFICATIONS FOR GRILLS
Example methods and apparatus for presenting safety-based temperature status notifications for grills are disclosed. An example grill includes a controller to determine whether a condition indicative of a safety-based temperature status of the grill is satisfied. In response to determining that the condition is satisfied, the controller is to instruct a lighting module or a user interface of the grill to present a notification indicating the safety-based temperature status.
Example methods and apparatus for presenting safety-based temperature status notifications for grills are disclosed. An example grill includes a controller to determine whether a condition indicative of a safety-based temperature status of the grill is satisfied. In response to determining that the condition is satisfied, the controller is to instruct a lighting module or a user interface of the grill to present a notification indicating the safety-based temperature status.
Example methods and apparatus for supplying configuration data to controllers of grills are disclosed. An example grill includes a controller and a dongle. The dongle is connectable to the controller. The dongle includes memory storing configuration data associated with the grill. The controller is to read the configuration data from the memory in response to the dongle being connected to the controller.
A47J 37/07 - Roasting devices for outdoor use; Barbecues
G06F 3/06 - Digital input from, or digital output to, record carriers
H04W 4/80 - Services using short range communication, e.g. near-field communication [NFC], radio-frequency identification [RFID] or low energy communication
H04W 12/04 - Key management, e.g. using generic bootstrapping architecture [GBA]
53.
METHODS AND APPARATUS FOR SUPPLYING CONFIGURATION DATA TO CONTROLLERS OF GRILLS
Example methods and apparatus for supplying configuration data to controllers of grills are disclosed. An example grill includes a controller and a dongle. The dongle is connectable to the controller. The dongle includes memory storing configuration data associated with the grill. The controller is to read the configuration data from the memory in response to the dongle being connected to the controller.
A47J 37/07 - Roasting devices for outdoor use; Barbecues
H04W 12/04 - Key management, e.g. using generic bootstrapping architecture [GBA]
H04W 4/80 - Services using short range communication, e.g. near-field communication [NFC], radio-frequency identification [RFID] or low energy communication
G06F 3/06 - Digital input from, or digital output to, record carriers
54.
METHODS AND APPARATUS FOR SUPPLYING CONFIGURATION DATA TO CONTROLLERS OF GRILLS
Example methods and apparatus for supplying configuration data to controllers of grills are disclosed. An example grill includes a controller and a dongle. The dongle is connectable to the controller. The dongle includes memory storing configuration data associated with the grill. The controller is to read the configuration data from the memory in response to the dongle being connected to the controller.
Example methods and apparatus for automatically advancing steps of cook programs for grills based on detected lid position data are disclosed. An example grill includes a cookbox, a lid, a cooking chamber, and a controller. The lid is movable relative to the cookbox between a closed position and an open position. The cooking chamber is defined by the cookbox and the lid, and is accessible to a user of the grill when the lid is in the open position. The controller is to implement a cook program to cook an item of food within the cooking chamber. The cook program includes a plurality of ordered steps, which include a lid-opening step requiring the lid to be moved from the closed position to the open position. In response to determining, based on lid position data, that the lid-opening step has been performed, the controller is to automatically advance the plurality of ordered steps from the lid-opening step to a next step of the plurality of ordered steps.
An example grill includes a cookbox, a lid, a cooking chamber, and a controller. The lid is movable relative to the cookbox between a closed position and an open position. The cooking chamber is defined by the cookbox and the lid, and is accessible to a user of the grill when the lid is in the open position. The controller is to implement a cook program to cook an item of food within the cooking chamber. The cook program includes a plurality of ordered steps, which include a lid-opening step requiring the lid to be moved from the closed position to the open position. In response to determining, based on lid position data, that the lid-opening step has been performed, the controller is to automatically advance the plurality of ordered steps from the lid-opening step to a next step of the plurality of ordered steps.
Example methods and apparatus for automating shutdown processes of gas grills are disclosed. An example grill includes a first burner, a second burner, a first burner valve operatively positioned between the first burner and a manifold of the grill, and a second burner valve operatively positioned between the second burner and the manifold. The example grill further includes a controller operatively coupled to the first burner valve and the second burner valve. In response to determining that a shutdown request has been received at the grill, the controller is to instruct the first burner valve and the second burner valve to close.
Example methods and apparatus for automating startup processes of gas grills are disclosed. An example grill includes a first burner, a second burner, a first burner valve operatively positioned between the first burner and a manifold of the grill, a second burner valve operatively positioned between the second burner and the manifold, a first ignitor operatively positioned relative to the first burner, and a second ignitor operatively positioned relative to the second burner. The example grill further includes a controller operatively coupled to the first burner valve, the second burner valve, the first ignitor, and the second ignitor. In response to determining that a user-based startup request has been received at the grill, the controller is to instruct the first burner valve and the second burner valve to open, and instruct the first ignitor and the second ignitor to ignite corresponding ones of the first burner and the second burner.
Example methods and apparatus for controlling gas flow in grills based on position data detected via rotary encoders. An example grill includes a burner valve, a rotary encoder, and a controller. The burner valve is movable between an open position and a closed position. The rotary encoder includes a rotatable portion and a fixed portion. The control knob is mechanically coupled to the rotatable portion. The rotatable portion is rotatable relative to the fixed portion. The rotary encoder is to detect a rotational position of the control knob. The rotational position of the control knob corresponds to a rotational position of the rotatable portion relative to the fixed portion. The controller is in electrical communication with the rotary encoder. The controller is to determine a target position of the burner valve based on the rotational position of the control knob. The controller is to instruct the burner valve to move to the target position.
Example methods and apparatus for automating startup processes of gas grills are disclosed. An example grill includes a first burner, a second burner, a first burner valve operatively positioned between the first burner and a manifold of the grill, a second burner valve operatively positioned between the second burner and the manifold, a first ignitor operatively positioned relative to the first burner, and a second ignitor operatively positioned relative to the second burner. The example grill further includes a controller operatively coupled to the first burner valve, the second burner valve, the first ignitor, and the second ignitor. In response to determining that a user-based startup request has been received at the grill, the controller is to instruct the first burner valve and the second burner valve to open, and instruct the first ignitor and the second ignitor to ignite corresponding ones of the first burner and the second burner.
Methods and apparatus for controlling gas flow in grills based on position data detected via rotary encoders are described. An example grill includes a burner valve, a rotary encoder, and a controller. The burner valve is movable between an open position and a closed position. The control knob is mechanically coupled to a rotatable portion of the rotary encoder. The rotary encoder is to detect a rotational position of the control knob. The rotational position of the control knob corresponds to a rotational position of the rotatable portion relative to a fixed portion of the rotary encoder. The controller is in electrical communication with the rotary encoder. The controller is to determine a target position of the burner valve based on the rotational position of the control knob. The controller is to instruct the burner valve to move to the target position.
Example methods and apparatus for automating startup processes of gas grills are disclosed. An example grill includes a first burner, a second burner, a first burner valve operatively positioned between the first burner and a manifold of the grill, a second burner valve operatively positioned between the second burner and the manifold, a first ignitor operatively positioned relative to the first burner, and a second ignitor operatively positioned relative to the second burner. The example grill further includes a controller operatively coupled to the first burner valve, the second burner valve, the first ignitor, and the second ignitor. In response to determining that a user-based startup request has been received at the grill, the controller is to instruct the first burner valve and the second burner valve to open, and instruct the first ignitor and the second ignitor to ignite corresponding ones of the first burner and the second burner.
Example methods and apparatus for automating shutdown processes of gas grills are disclosed. An example grill includes a first burner, a second burner, a first burner valve operatively positioned between the first burner and a manifold of the grill, and a second burner valve operatively positioned between the second burner and the manifold. The example grill further includes a controller operatively coupled to the first burner valve and the second burner valve. In response to determining that a shutdown request has been received at the grill, the controller is to instruct the first burner valve and the second burner valve to close.
Example methods and apparatus for automating shutdown processes of gas grills are disclosed. An example grill includes a first burner, a second burner, a first burner valve operatively positioned between the first burner and a manifold of the grill, and a second burner valve operatively positioned between the second burner and the manifold. The example grill further includes a controller operatively coupled to the first burner valve and the second burner valve. In response to determining that a shutdown request has been received at the grill, the controller is to instruct the first burner valve and the second burner valve to close.
Example transversely-loadable rotisserie baskets are disclosed. An example rotisserie basket includes a base and a lid coupled to the base. The lid is movable relative to the base between an open position and a closed position. The example rotisserie basket further includes a first mounting bracket coupled to a first side of the base, and a second mounting bracket coupled to a second side of the base located opposite the first side of the base. The first mounting bracket and the second mounting bracket are respectively configured to be transversely loadable onto a rotisserie spit.
Example transversely-loadable rotisserie forks are disclosed. An example rotisserie fork includes a first upper prong and a second upper prong spaced apart from the first upper prong. The example rotisserie fork further includes a first lower prong and a second lower prong spaced apart from the first lower prong. The example rotisserie fork further includes a mounting bracket coupled to the first upper prong, the second upper prong, the first lower prong, and the second lower prong. The mounting bracket is configured to be transversely loadable onto a rotisserie spit.
Example transversely-loadable rotisserie baskets are disclosed. An example rotisserie basket includes a base and a lid coupled to the base. The lid is movable relative to the base between an open position and a closed position. The example rotisserie basket further includes a first mounting bracket coupled to a first side of the base, and a second mounting bracket coupled to a second side of the base located opposite the first side of the base. The first mounting bracket and the second mounting bracket are respectively configured to be transversely loadable onto a rotisserie spit.
Example transversely-loadable rotisserie forks are disclosed. An example rotisserie fork includes a first upper prong and a second upper prong spaced apart from the first upper prong. The example rotisserie fork further includes a first lower prong and a second lower prong spaced apart from the first lower prong. The example rotisserie fork further includes a mounting bracket coupled to the first upper prong, the second upper prong, the first lower prong, and the second lower prong. The mounting bracket is configured to be transversely loadable onto a rotisserie spit.
Example transversely-loadable rotisserie skewer racks are disclosed. An example rotisserie skewer rack includes a first support plate and a second support plate spaced apart from the first support plate. The example rotisserie skewer rack further includes a plurality of skewers extending between the first support plate and the second support plate. The example rotisserie skewer rack includes a first mounting bracket coupled to the first support plate, and a second mounting bracket coupled to the second support plate. The first mounting bracket and the second mounting bracket are respectively configured to be transversely loadable onto a rotisserie spit.
Example transversely-loadable rotisserie baskets are disclosed. An example rotisserie basket includes a base and a lid coupled to the base. The lid is movable relative to the base between an open position and a closed position. The example rotisserie basket further includes a first mounting bracket coupled to a first side of the base, and a second mounting bracket coupled to a second side of the base located opposite the first side of the base. The first mounting bracket and the second mounting bracket are respectively configured to be transversely loadable onto a rotisserie spit.
Example transversely-loadable rotisserie skewer racks are disclosed. An example rotisserie skewer rack includes a first support plate and a second support plate spaced apart from the first support plate. The example rotisserie skewer rack further includes a plurality of skewers extending between the first support plate and the second support plate. The example rotisserie skewer rack includes a first mounting bracket coupled to the first support plate, and a second mounting bracket coupled to the second support plate. The first mounting bracket and the second mounting bracket are respectively configured to be transversely loadable onto a rotisserie spit.
Example transversely-loadable rotisserie skewer racks are disclosed. An example rotisserie skewer rack includes a first support plate and a second support plate spaced apart from the first support plate. The example rotisserie skewer rack further includes a plurality of skewers extending between the first support plate and the second support plate. The example rotisserie skewer rack includes a first mounting bracket coupled to the first support plate, and a second mounting bracket coupled to the second support plate. The first mounting bracket and the second mounting bracket are respectively configured to be transversely loadable onto a rotisserie spit.
Provided is an apparatus and method for protecting against unsafe electric current conditions. An example method includes accessing a selected operating mode for a heating element of the electric grill using at least one user input device of the electric grill, the heating element connected to a voltage line and a neutral line; measuring, using a temperature probe, a temperature of the heating element; estimating an ambient temperature at a location within a cook box of the electric grill spaced apart from the heating element, the estimation of the ambient temperature based on the measured temperature of the heating element; and using the estimated ambient temperature to determine when a target temperature corresponding to the selected operating mode is reached.
G01R 31/52 - Testing for short-circuits, leakage current or ground faults
G01R 15/20 - Adaptations providing voltage or current isolation, e.g. for high-voltage or high-current networks using galvano-magnetic devices, e.g. Hall-effect devices
H02H 3/10 - Emergency protective circuit arrangements for automatic disconnection directly responsive to an undesired change from normal electric working condition, with or without subsequent reconnection responsive to excess current additionally responsive to some other abnormal electrical conditions
Example L-shaped smoker boxes for gas grills are disclosed. An example smoker box includes a base and a lid. The base includes a bottom wall having an L-shaped profile. The lid includes a top wall having an L-shaped profile.
Example L-shaped smoker boxes for gas grills are disclosed. An example smoker box includes a base and a lid. The base includes a bottom wall having an L-shaped profile. The lid includes a top wall having an L-shaped profile.
Example L-shaped smoker boxes for gas grills are disclosed. An example smoker box includes a base and a lid. The base includes a bottom wall having an L-shaped profile. The lid includes a top wall having an L-shaped profile.
Example dual -burner assemblies for cookboxes of gas grills are disclosed. An example dual-burner assembly includes a first burner tube and a second burner tube. The first burner tube has a first maximum heat output. The second burner tube has a second maximum heat output. The second burner tube is spaced apart from the first burner tube by a distance of no more than 0.750 inches. The second maximum heat output is less than the first maximum heat output.
Example dual-burner assemblies for cookboxes of gas grills are disclosed. An example dual-burner assembly includes a first burner tube and a second burner tube. The first burner tube has a first maximum heat output. The second burner tube has a second maximum heat output. The second burner tube is spaced apart from the first burner tube by a distance of no more than 0.750 inches. The second maximum heat output is less than the first maximum heat output.
Example dual -burner assemblies for cookboxes of gas grills are disclosed. An example dual-burner assembly includes a first burner tube and a second burner tube. The first burner tube has a first maximum heat output. The second burner tube has a second maximum heat output. The second burner tube is spaced apart from the first burner tube by a distance of no more than 0.750 inches. The second maximum heat output is less than the first maximum heat output.
Pellet grills and associated methods of operation are disclosed. An example pellet grill includes an end cap, a liner coupled to the end cap, and a compartment formed between the end cap and the liner. The example pellet grill further includes a lighting module having a light source. The light source is positioned within the compartment. The light source is configured to project light through an opening formed in the liner and into an interior of a cooking chamber of the pellet grill.
F21V 23/04 - Arrangement of electric circuit elements in or on lighting devices the elements being switches
F21S 9/02 - Lighting devices with a built-in power supply; Systems employing lighting devices with a built-in power supply the power supply being a battery or accumulator
Pellet grills and associated methods of operation are disclosed. An example pellet grill includes an end cap, a liner coupled to the end cap, and a compartment formed between the end cap and the liner. The example pellet grill further includes a lighting module having a light source. The light source is positioned within the compartment. The light source is configured to project light through an opening formed in the liner and into an interior of a cooking chamber of the pellet grill.
Pellet grills and associated methods of operation are disclosed. An example pellet grill includes an end cap, a liner coupled to the end cap, and a compartment formed between the end cap and the liner. The example pellet grill further includes a lighting module having a light source. The light source is positioned within the compartment. The light source is configured to project light through an opening formed in the liner and into an interior of a cooking chamber of the pellet grill.