A semiautonomous apparatus (1) for preparation and distribution of edible products, e.g. beverages, having a subsystem of preparation of edible products based upon portions (2) of edible substances, for example capsule of ground coffee beans for preparing expresso coffee, and comprising at least one brewing device (4), and a subsystem of propulsion and locomotion comprising propulsion and locomotion means (5). The apparatus (1) comprises a casing (3) with a generally parallelepiped, cylindrical shape, or other, that configures a top area that develops at all width and all length at the highest level of said casing (3). The top area comprises a plurality of service regions (31, 32) distributed in coherent manner in the top area of said casing (3). The first service region (31) presents first and second openings (11, 12) for introduction of portions (2) and for discharging beverage in a direction opposite to the gravity force.

A method and apparatus for distributing a number of utilities. The number of utilities may be coupled between a number of utility sources and a utility fixture. The number of utilities may be coupled between the utility fixture and a mobile system.

Connector carriers (e.g., connector carousels) for use with electronic device processing kiosks, such as mobile phone recycling kiosks, are disclosed herein. In some embodiments, a connector carrier includes a chassis and a plurality of electrical connectors fixedly positioned around a periphery of the chassis. In operation, the connector carrier is configured to rotate about a central axis to position a selected one of the electrical connectors in a first position adjacent to an inspection area of the kiosk, and then move toward the inspection area to move the selected electrical connector from the first position to a second position in which a user can connect a mobile phone to the electrical connector.

A method and apparatus for performing an assembly operation. A tool may be macro-positioned relative to an exterior of a fuselage assembly. The tool may be micro-positioned relative to a particular location on the exterior of the fuselage assembly. An end effector is removably associated with an external robotic device associated with an external mobile platform. The tool is removably associated with the end effector. An assembly operation may be performed at the particular location on the panel using the tool.

Systems and method of forming a structure from a trailer body are disclosed herein. An example structure can be formed from a portion/section of a trailer, such as a semi-truck, or dry-van, trailer. The trailer has a unibody construction allowing the section(s) cut/formed therefrom to be self-supporting. The self-supporting sections can be enclosed on one or more open ends, i.e. the ends formed by cutting or sectioning the trailer, to enclose the section. The enclosed section can then be outfitted/equipped, as needed, to form the complete structure.

A mobile object system includes: an information processing apparatus; and an autonomous travel vehicle. The information processing apparatus transmits to the autonomous travel vehicle first data and second data in association with each other, the first data being information for introducing a content of a commodity or a service to a user, the second data being information regarding a base that provides the commodity or service. The autonomous travel vehicle introduces the commodity or service to the user in the vehicle based on the first data, and moves to the base indicated in the second data upon reception of an instruction from the user.

A system for a mobile secure locker in accordance with aspects of the present disclosure includes processor(s) and memory storing instructions. The instructions, when executed by the processor(s), cause the system to provide a user interface for a user to rent a mobile secure locker in an autonomous robot vehicle, receive information through the user interface from the user where the information includes a first destination, a second destination, and a time associated with the second destination, communicate instructions to the autonomous robot vehicle to travel to the first destination to receive the item, receive an indication from the autonomous robot vehicle that the item has been received, communicate instructions to the autonomous robot vehicle to travel to the second destination to deliver the item to the user at the time associated with the second destination, and receive from the autonomous robot vehicle an indication the item is retrieved.

An example system includes a vehicle having a propulsion system, an electric generator, a cooking apparatus, and a fuel storage apparatus configured to store compressed natural gas (CNG). The system also includes a fuel regulation apparatus coupled to the fuel storage apparatus and configured to deliver CNG to the electric generator, the propulsion system, and the cooking apparatus. The system also includes an air intake system configured to intake air from an ambient environment via an intake port, and supply the air to at least one of the propulsion system or the electric generator. The system also includes an exhaust system configured to expel exhaust air from at least one of the propulsion system or the electric generator into the ambient environment via an exhaust port. The intake port is physically separated from the exhaust port.

A motorized vending cart includes a drive base, one or more drive motors mounted to the drive base and configured to rotate a plurality of wheels, a thermally insulated container mounted to the drive base, a power inverter mounted to the drive base, and a battery bank mounted to the drive base. The battery bank includes one or more batteries and is in electrical connection with the one or more drive motors and the power inverter. A vending cart body is mounted to the drive base and at least partially surrounds the thermally insulated container and the one or more drive motors. A control panel is electrically connected to and configured to control the one or more drive motors. An appliance is mounted to the vending section of the vending cart body and electrically connected to the power inverter.

A mobile confectionary apparatus includes a vehicle with at least one upstanding side wall. An interior space may be surrounded by the upstanding side wall. An opening may extend through the side wall. A liquid toppings dispensing system is adjustably positionable adjacent to the side wall and includes a first plurality of liquid dispensers configured to dispense at least one liquid topping. The liquid toppings dispensing system is pivotable relative to the side wall between a first position and a second position. The liquid toppings dispensing system is located externally of the side wall in each of the first and second positions.