A food storage container is provided. The container includes a housing with a bottom, a first side wall, and a second side wall fixed to the first side wall that defines a food storage volume therewithin. The first side wall extends from a first end portion that includes a first peg that extends therefrom in a direction parallel with a plane through the first side wall. A third side wall is removably mounted to the first peg, wherein when mounted to the first peg, the third side wall establishes a barrier of the food storage volume different than barriers of the food storage volume provided by the bottom, the first side wall, and the second side wall. When the third side wall is removed from the first peg, the food storage volume may be accessed through a void left by the removal of the third side wall.

A modular food holding system includes a plurality of individual modularized food holding chambers, each of the plurality of food holding chambers being physically and communicatively removably connected to one another. Each of the food holding chambers includes a food holding cavity and at least one of a heating element and/or a cooling element for heating or cooling the food holding cavity. A chamber base is physically and communicatively removably connected to one of the food holding chambers and operation of at least one food holding chamber is controlled by the chamber base.

A modular food holding system includes a plurality of individual modularized food holding chambers, each of the plurality of food holding chambers being physically and communicatively removably connected to one another. Each of the food holding chambers includes a food holding cavity and at least one of a heating element and/or a cooling element for heating or cooling the food holding cavity. A chamber base is physically and communicatively removably connected to one of the food holding chambers and operation of at least one food holding chamber is controlled by the chamber base.

A modular food holding system includes a plurality of individual modularized food holding chambers, each of the plurality of food holding chambers being physically and communicatively removably connected to one another. Each of the food holding chambers includes a food holding cavity and at least one of a heating element and/or a cooling element for heating or cooling the food holding cavity. A chamber base is physically and communicatively removably connected to one of the food holding chambers and operation of at least one food holding chamber is controlled by the chamber base.

A modular food holding system includes a plurality of individual modularized food holding chambers, each of the plurality of food holding chambers being physically and communicatively removably connected to one another. Each of the food holding chambers includes a food holding cavity and at least one of a heating element and/or a cooling element for heating or cooling the food holding cavity. A chamber base is physically and communicatively removably connected to one of the food holding chambers and operation of at least one food holding chamber is controlled by the chamber base.

A modular food holding system includes a plurality of individual modularized food holding chambers, each of the plurality of food holding chambers being physically and communicatively removably connected to one another. Each of the food holding chambers includes a food holding cavity and may further include a heating element and/or a cooling element for heating or cooling the food holding cavity. A chamber base is physically and communicatively removably connected to one of the food holding chambers and operation of at least one food holding chamber is controlled by the chamber base. A smart sensor is disposed within or connected to a food pan that is removably inserted within the food holding cavity of a food holding chamber. The smart sensor is configured to sense a characteristic of an interior environment of the food pan and communicate with the food holding chamber or the chamber base.

A vending machine system for loading and dispensing pre-baked unpackaged food including a fixed cartridge disposed in a refrigerator of a vending machine, and a transport cartridge adapted to removably attach to the fixed cartridge, the transport cartridge operable for holding trays of unpackaged food and loading the trays of unpackaged food from the transport cartridge into the fixed cartridge, wherein, when the transport cartridge is removably attached to the fixed cartridge, a front opening of the transport cartridge aligns with a front opening of the fixed cartridge, and wherein the rack of the transport cartridge aligns with the conveyor system of the fixed cartridge such that trays of unpackaged food within the transport cartridge can simultaneously be transitioned from the rack to the conveyor system.

A cubby unit includes a plurality of cubbies and one or more processing circuits. Each of the plurality of cubbies includes a cubby housing defining an internal compartment, a light disposed within the internal compartment, and a door. The door facilitates accessing the internal compartment of the cubby housing. At least a portion of the door is transparent. The one or more processing circuits are configured to to acquire access information, determine whether the access information is associated with a respective order within a respective cubby of the plurality of cubbies, and activate the light of the respective cubby in response to the access information being associated with the respective order such that light emitted by the light shines through the portion of the door that is transparent of the respective cubby to indicate in which one of the plurality of cubbies the respective order is located.

A lightweight portable heating device consisting of a container assembly and lid assembly that house a tub assembly for the purpose of heating liquids and food submerged in aforementioned liquids by means of a multi-fuel burner. Container assembly provides for several structures that improve ergonomics and handling of the lightweight portable heating device. For instance, container assembly includes an integrated handle that surrounds the container assembly proximate the top portion of the container assembly and is molded into the container assembly. Integrated handle allows for the ease of moving of the lightweight portable heating device by personnel. Proximate the bottom of container assembly are lifting handles that enable the lifting of the device above shoulder level while also functioning as a tie down point.

A decorative holder for foodstuff trays, tins, and pans is provided. The decorative holder includes a receptacle having a bottom wall and a pair of opposing side walls and a pair of opposing end walls extending upwardly from an outer periphery of the bottom wall and terminating in a top edge. Each end wall may have a handle recess formed therein and configured to allow a user to grasp the decorative holder. The decorative holder further includes a lid that is hingedly coupled to the top edge of the receptacle, such as by a plurality of living hinge clips, and configured to pivot between an opened position and a closed position, the lid defining a central opening providing access to an interior region of the decorative holder when disposed atop the receptacle. The receptacle and the lid are configured to hold and generally encapsulate a foodstuff tray, tin, or pan.