A non-pizzeria vending outlet includes a freezer, a microwave oven, and a cooktop, where the vending outlet has no means for preparing pizza dough or for baking pizza and where the vending outlet overcomes obstacles that deter non-pizzeria restaurants from vending pizza.

A non-pizzeria vending outlet includes a freezer, a microwave oven, and a cooktop, where the vending outlet has no means for preparing pizza dough or for baking pizza and where the vending outlet overcomes obstacles that deter non-pizzeria restaurants from vending pizza.

A system for automatic filling of medication organizers comprises i) a storage unit for medication containers that is accessible from a first side thereof ii) a plurality of medication organizer filling units, each having a temporary storage rack that is accessible from a side of the medication filling units that faces the storage unit, and iii) a container handling system that is positioned between the storage unit and the temporary storage racks and that is movable between the storage unit and each of the temporary storage racks for transferring selected medication containers therebetween. The system allows minimizing idle times by moving medication containers between the storage unit and temporary storage racks simultaneously to the filling process.

A system for automatic filling of medication organizers comprises i) a storage unit for medication containers that is accessible from a first side thereof ii) a plurality of medication organizer filling units, each having a temporary storage rack that is accessible from a side of the medication filling units that faces the storage unit, and iii) a container handling system that is positioned between the storage unit and the temporary storage racks and that is movable between the storage unit and each of the temporary storage racks for transferring selected medication containers therebetween. The system allows minimizing idle times by moving medication containers between the storage unit and temporary storage racks simultaneously to the filling process.

A novel food station comprises a plurality of cubbies sized to enclose food portion containers, and an externally accessible collection hatch. An internal transport system uses an end effector to temporarily couple to a portion container carrier of a selected cubby, and to controllably move the food portion container carrier within the food station from the selected cubby to the collection hatch. The food station includes heating and cooling systems that selectively provide or remove heat to or from each of the plurality of cubbies independently of the other cubbies, with a heating or cooling rate, or for a heating or cooling duration, that is independently scheduled and controllable for each of the plurality of cubbies.

A novel food station comprises a plurality of cubbies sized to enclose food portion containers, and an externally accessible collection hatch. An internal transport system uses an end effector to temporarily couple to a portion container carrier of a selected cubby, and to controllably move the food portion container carrier within the food station from the selected cubby to the collection hatch. The food station includes heating and cooling systems that selectively provide or remove heat to or from each of the plurality of cubbies independently of the other cubbies, with a heating or cooling rate, or for a heating or cooling duration, that is independently scheduled and controllable for each of the plurality of cubbies.

The invention relates to a system and method for beverage dispensing. The system comprises a mobile robot and a beverage module fitted to it. The mobile robot comprises a motion component, a first processing component and a first communication component. The beverage module comprises at least one liquid container, at least one beverage dispenser, a second processing component, and a second communication component. The method comprises the mobile robot traveling to a first location, preparing a beverage, dispensing it and leaving the first location.

A picking device for dispensing drug combinations arranged in storage vessels is provided. A storage device includes multiple storage locations for storage vessels, and an operating device is coupled to a controller. A stocking device moves storage vessels into the storage device, and an unloading device transfers drug combinations arranged in the storage vessels to a transport device.

A picking device for dispensing drug combinations arranged in storage vessels is provided. A storage device includes multiple storage locations for storage vessels, and an operating device is coupled to a controller. A stocking device moves storage vessels into the storage device, and an unloading device transfers drug combinations arranged in the storage vessels to a transport device.

In order to improve the efficiency of solidification and melting of a heat storage material in a heat storage material unit, a heat storage material covered with a coating material is accommodated in a metal accommodating container having a high thermal conductivity, and the heat storage material unit is embedded in a thermal insulation panel in such a way that the accommodating container is exposed inside a merchandise accommodating compartment, thereby enabling a surface of the heat storage material that is embedded in the thermal insulation panel also to exhibit an action equivalent to that if the accommodating container is exposed in the merchandise accommodating compartment as a heat transfer element, thereby improving the efficiency of solidification (heat storage) and melting (heat dissipation) of the heat storage material.