Technologies are generally described for delivery vehicles and containers for en route food product preparation. Modular food product preparation systems that may receive food items and supplies and prepare food product(s) en route such that the food product(s) is prepared by the time the system reaches a delivery destination may include trucks, railway cars, watercraft, and similar vehicles. Food preparation process steps and timing may be determined based on travel information (e.g., delivery destination, routes, etc.), as well as, food item and food product information. An on-board controller may determine the process steps and timing(s) and control operations of robotic devices arranged modularly in a container or vehicle to execute steps of the food preparation process. Alternatively or additionally, the on-board controller may receive instructions from a remote controller. Travel parameters of the vehicle may also be adjusted based on the food preparation process and/or travel information.

Technologies are generally described for delivery vehicles and containers for en route food product preparation. Modular food product preparation systems that may receive food items and supplies and prepare food product(s) en route such that the food product(s) is prepared by the time the system reaches a delivery destination may include trucks, railway cars, watercraft, and similar vehicles. Food preparation process steps and timing may be determined based on travel information (e.g., delivery destination, routes, etc.), as well as, food item and food product information. An on-board controller may determine the process steps and timing(s) and control operations of robotic devices arranged modularly in a container or vehicle to execute steps of the food preparation process. Alternatively or additionally, the on-board controller may receive instructions from a remote controller. Travel parameters of the vehicle may also be adjusted based on the food preparation process and/or travel information.

An unmanned vehicle for cooking and delivering food may include a housing. The housing may include an oven having at least one heating element, a conveyor inside the oven. The conveyor may be configured to support food. A tambour door may be coupled between the oven and a delivery area of the housing. A delivery door may be configured to seal the delivery area from an area outside of the housing. The oven may be configured to cook food during a delivery time of the drone and the drone may be configured to deliver the food to a delivery location. The process from ordering to delivery of the food item may be tracked using blockchains.

An unmanned vehicle for cooking and delivering food may include a housing. The housing may include an oven having at least one heating element, a conveyor inside the oven. The conveyor may be configured to support food. A tambour door may be coupled between the oven and a delivery area of the housing. A delivery door may be configured to seal the delivery area from an area outside of the housing. The oven may be configured to cook food during a delivery time of the drone and the drone may be configured to deliver the food to a delivery location. The process from ordering to delivery of the food item may be tracked using blockchains.

Technologies are generally described for delivery vehicles and containers for en route food product preparation. Modular food product preparation systems that may receive food items and supplies and prepare food product(s) en route such that the food product(s) is prepared by the time the system reaches a delivery destination may include trucks, railway cars, watercraft, and similar vehicles. Food preparation process steps and timing may be determined based on travel information (e.g., delivery destination, routes, etc.), as well as, food item and food product information. An on-board controller may determine the process steps and timing(s) and control operations of robotic devices arranged modularly in a container or vehicle to execute steps of the food preparation process. Alternatively or additionally, the on-board controller may receive instructions from a remote controller. Travel parameters of the vehicle may also be adjusted based on the food preparation process and/or travel information.

Technologies are generally described for delivery vehicles and containers for en route food product preparation. Modular food product preparation systems that may receive food items and supplies and prepare food product(s) en route such that the food product(s) is prepared by the time the system reaches a delivery destination may include trucks, railway cars, watercraft, and similar vehicles. Food preparation process steps and timing may be determined based on travel information (e.g., delivery destination, routes, etc.), as well as, food item and food product information. An on-board controller may determine the process steps and timing(s) and control operations of robotic devices arranged modularly in a container or vehicle to execute steps of the food preparation process. Alternatively or additionally, the on-board controller may receive instructions from a remote controller. Travel parameters of the vehicle may also be adjusted based on the food preparation process and/or travel information.

A motor vehicle having a driver's position, having a device adjacent thereto for processing, in particular for assembling, food, and having an oven device for heating foods is designed so that at least the device for processing, in particular assembling, foods is arranged in a section which is separate from the driver's position and which has at least one

Disclosed is an oven, applied for baking a pizza, including: a casing, a side cover, a driven panel, and a temperature sensor. The casing is provided with a baking tray, a combustion chamber and a feeding chamber, the baking tray is arranged on one side of the combustion chamber, the combustion chamber is communicated with the feeding chamber, the feeding chamber is provided with a feeding mechanism, and the feeding mechanism can transport a fuel into the combustion chamber. A lower end of the side cover is hinged with the casing. The driven panel is arranged on an outer wall of the casing, the driven panel is electrically connected to the feeding mechanism. The temperature sensor is arranged in the casing, the temperature sensor is electrically connected to the driven panel.

Disclosed is a hand-shook pizza oven, including: an oven body, a baking tray, a burner assembly, and a hand-shook driving structure. The oven body is provided with a cooking chamber. The baking tray is arranged in the cooking chamber along an axis extending in an up-down direction. The burner assembly includes a burning portion extendable into the cooking chamber. The hand-shook driving structure includes a rocker rotatable around an axis extending in a horizontal direction, a driving portion rotatably provided along the axis extending in the up-down direction, and a transmission structure provided between the rocker and the driving portion, at least part of the driving portion can be extendable into the cooking chamber to connect to and drive the baking tray.

Disclosed is a hand-shook pizza oven, including: an oven body, a baking tray, a burner assembly, and a hand-shook driving structure. The oven body is provided with a cooking chamber. The baking tray is arranged in the cooking chamber along an axis extending in an up-down direction. The burner assembly includes a burning portion extendable into the cooking chamber. The hand-shook driving structure includes a rocker rotatable around an axis extending in a horizontal direction, a driving portion rotatably provided along the axis extending in the up-down direction, and a transmission structure provided between the rocker and the driving portion, at least part of the driving portion can be extendable into the cooking chamber to connect to and drive the baking tray.