A set of nestable and stackable cookware, for example, a set of pots and pans, is maintained in a stable configuration by stops attached to the outer walls of the cookware. Each stacked and nested item of cookware is supported on the rim of the lower item by two stops attached to its outer wall, on opposite sides of the item. Each stop is shaped and configured to contact the rim of the lower item in the stack at a finite number of points. The points of contact lie in the same plane, which uprightly supports the stacked cookware item on the lower cookware item, without the walls or the base of the stacked cookware item touching the lower item.

A set of nestable and stackable cookware, for example, a set of pots and pans, is maintained in a stable configuration by stops attached to the outer walls of the cookware. Each stacked and nested item of cookware is supported on the rim of the lower item by two stops attached to its outer wall, on opposite sides of the item. Each stop is shaped and configured to contact the rim of the lower item in the stack at a finite number of points. The points of contact lie in the same plane, which uprightly supports the stacked cookware item on the lower cookware item, without the walls or the base of the stacked cookware item touching the lower item.

A blender system includes a base and a steamer basket. The basket is inserted into a container. The container has interior pillars. The basket contacts and rests on the pillars. The pillars keep the basket above blades disposed in the container. The basket receives foodstuff. The base includes a motor and a housing. The container is attached to the housing. The motor drives the blades to interact with contents within the container.

A blender system includes a base and a steamer basket. The basket is inserted into a container. The container has interior pillars. The basket contacts and rests on the pillars. The pillars keep the basket above blades disposed in the container. The basket receives foodstuff. The base includes a motor and a housing. The container is attached to the housing. The motor drives the blades to interact with contents within the container.

A mobile cooking-and-ingredient-supply system includes a vehicle, a data-storage device, a cooking module, an ingredient-supply rack, first-ingredient-supply modules, an ingredient-replenishing station and a computing device. The data-storage device stores a food-preparation plan associated with a food preparation location, a preparation time, and an ingredient for preparing a food product. The cooking module is configured to prepare the food product based on the food-preparation plan. The first-ingredient-supply modules are carried by the ingredient-supply rack. The ingredient-replenishing station carries second-ingredient-supply modules to meet with the vehicle and replenish one of the first-ingredient-supply modules. The computing device is configured with computer-executable instructions based on the food-preparation plan, automatically causes the ingredient-replenishing station to prepare one of the second ingredient-supply modules based on the food-preparation plan, and automatically selects meeting time and meeting location based on the food-preparation plan, for the vehicle to meet with the ingredient-replenishing station.

A mobile cooking-and-ingredient-supply system includes a vehicle, a data-storage device, a cooking module, an ingredient-supply rack, first-ingredient-supply modules, an ingredient-replenishing station and a computing device. The data-storage device stores a food-preparation plan associated with a food preparation location, a preparation time, and an ingredient for preparing a food product. The cooking module is configured to prepare the food product based on the food-preparation plan. The first-ingredient-supply modules are carried by the ingredient-supply rack. The ingredient-replenishing station carries second-ingredient-supply modules to meet with the vehicle and replenish one of the first-ingredient-supply modules. The computing device is configured with computer-executable instructions based on the food-preparation plan, automatically causes the ingredient-replenishing station to prepare one of the second ingredient-supply modules based on the food-preparation plan, and automatically selects meeting time and meeting location based on the food-preparation plan, for the vehicle to meet with the ingredient-replenishing station.

Technologies are described for devices and methods to utilize an ingredient cartridge assembly. The devices may comprise a cooking pot, a heat source, a loading track, a propulsion system, a loading compartment, and a controller. The loading compartment may be located along the loading track. The controller may be in communication with the heat source and the propulsion system. The propulsion system may be configured to receive an ingredient cartridge assembly including a cartridge. A protective film on the cartridge may be contacted with the propulsion system. The propulsion system may pull the protective film to peel the protective film from the cartridge and slide the cartridge along the loading track towards the loading compartment. An ingredient inside of the cartridge may deposit into the loading compartment as the cartridge passes over the loading compartment. The loading compartment may be configured to deposit the ingredient into the cooking pot.

Technologies are described for devices and methods to utilize an ingredient cartridge assembly. The devices may comprise a cooking pot, a heat source, a loading track, a propulsion system, a loading compartment, and a controller. The loading compartment may be located along the loading track. The controller may be in communication with the heat source and the propulsion system. The propulsion system may be configured to receive an ingredient cartridge assembly including a cartridge. A protective film on the cartridge may be contacted with the propulsion system. The propulsion system may pull the protective film to peel the protective film from the cartridge and slide the cartridge along the loading track towards the loading compartment. An ingredient inside of the cartridge may deposit into the loading compartment as the cartridge passes over the loading compartment. The loading compartment may be configured to deposit the ingredient into the cooking pot.

Disclosed herein is a method for cooking food in a cooking system, the method including providing a housing having with a hollow interior, providing a lid movable relative to the housing, providing at least one heating element associated with one of the housing and the lid, operating the at least one heating element to cook food in a conductive cooking mode; and operating the at least one heating element to cook food in a convective cooking mode.

Disclosed herein is a method for cooking food in a cooking system, the method including providing a housing having with a hollow interior, providing a lid movable relative to the housing, providing at least one heating element associated with one of the housing and the lid, operating the at least one heating element to cook food in a conductive cooking mode; and operating the at least one heating element to cook food in a convective cooking mode.