A spray can attachable actuator and brush assembly includes an actuator assembly attachable overtop a valve stem of an existing aerosol canister and a brush assembly attachable to the actuator assembly. A lower portion of a seating member frictionally engages to the aerosol canister when an attachment collar is rotationally engaged thereabouts. A head member is connectable into a seating connect disposed in a top surface of the seating member whereby an interior channel engages overtop the valve stem. A brush attachment base secures into the head member to position an elongate nozzle in open communication with an outlet terminating the interior channel. A brush body is securable to the elongate nozzle, and depression of the head member thereby enables selective release of fluid depressurized from the aerosol canister for delivery into the brush body for subsequent application to an object by manual action directing the brush body.

An apparatus for unique identification of an object using near-field communication (NFC), the apparatus includes at least a processor and a memory, wherein the memory contains instructions configuring the at least a processor to receive object manufacture data associated with a first object containing an NFC tag, generate a unique identifier as a function of the object manufacture data, assign the unique identifier to the NFC tag of the first object using an NFC reader at an initial time, obtain first identification data containing the unique identifier when the NFC reader communicates with the NFC tag of the first object at a time subsequent to the initial time, aggregate the first identification data with second identification data associated with a second object using a data aggregator, determine an object action datum as a function of the aggregated identification data, and transmit the object action datum to the NFC reader.

An apparatus for unique identification of an object using near-field communication (NFC), the apparatus includes at least a processor and a memory, wherein the memory contains instructions configuring the at least a processor to receive object manufacture data associated with a first object containing an NFC tag, generate a unique identifier as a function of the object manufacture data, assign the unique identifier to the NFC tag of the first object using an NFC reader at an initial time, obtain first identification data containing the unique identifier when the NFC reader communicates with the NFC tag of the first object at a time subsequent to the initial time, aggregate the first identification data with second identification data associated with a second object using a data aggregator, determine an object action datum as a function of the aggregated identification data, and transmit the object action datum to the NFC reader.

The present disclosure relates to aerosol delivery devices, elements of such devices, and methods for producing vapor. In some embodiments, the present disclosure provides devices configured for vaporization of an aerosol precursor composition that is contained in and transported to a heating element by a unitary reservoir and liquid transport element. The unitary reservoir and liquid transport element may include a porous monolith.

The present disclosure relates to aerosol delivery devices, elements of such devices, and methods for producing vapor. In some embodiments, the present disclosure provides devices configured for vaporization of an aerosol precursor composition that is contained in and transported to a heating element by a unitary reservoir and liquid transport element. The unitary reservoir and liquid transport element may include a porous monolith.

A method of warming food dispensable from an aerosol dispenser. The aerosol dispenser is made from materials which can go into a single recycling stream having a single class of materials, as defined by the Society of the Plastics Industry, and particularly may exclusively comprise Class 1 materials suitable for eating in a microwave oven. Consumer products, such as food, contained in the aerosol dispenser may be heated in a microwave oven prior to dispensing. Upon dispensing, food retains residual heat, and is suitable for eating or further cooking. Other heated products in the aerosol dispenser may be comfortably applied to the skin, used as air freshener, used for cleaning, etc. The aerosol dispenser may have indicia indicating the aerosol dispenser is suitable for microwave heating. The aerosol dispenser can have indicia indicating the aerosol dispenser is suitable for heating in a microwave oven. The indicia may be thermochromic, indicating when a desired temperature has been reached. The aerosol dispenser can have a safety valve, to safely relieve product and/or propellant pressure upon overpressurization in a microwave oven. The safety valve may be single use or reusable.

Performance of heat insulation between the outside of a storage container and the inside of a storage chamber is effectively improved. The storage container includes a container body having an opening, a door member closing the opening in an openable and closable manner, and a temperature-controlled unit having a function of making a temperature inside a storage chamber 2 enclosed by the container body and the door member be different from a temperature outside the storage chamber. The container body includes a first heat-insulating material 14, a second heat-insulating material 15 which is provided partially on the opposite side to the storage chamber 2 with respect to the first heat-insulating material 14 and has thermal conductivity lower than that of the first heat-insulating material 14, and a heat-storage material 16 which is provided at least partially in a region where the second heat-insulating material 15 is not provided as viewed from a thickness direction of the first heat-insulating material 14 on the same side as the storage chamber 2 with respect to the first heat-insulating material 14 and is formed of one or more kinds of raw material where phase transition is caused between a liquid phase and a solid phase at a temperature between the temperature outside the storage chamber 2 and the temperature inside the storage chamber 2 obtained by the function of the temperature-controlled unit.

A portable tank for storing waste material therein features a flexible bag which is closed and formed from flexible plastic material. The flexible bag includes an internal chamber; a continuous wall enclosing the chamber; and a coupler through the wall that is communicated with the chamber for connecting a hose that pumps the waste material therein. Furthermore, the portable tank features a heating wire arranged to generate heat and a holding structure on the flexible bag, which is arranged to press the wire against the wall for heating the waste material contained therein. The holding structure is a plurality of individual strips which in combination with the continuous wall form respective channels that receive the heating wire therein and guide the wire along the wall. The tank also features an outer covering for enclosing the flexible bag therein, which is made of an insulating material arranged to contain the heat.

An apparatus for unique identification of an object using near-field communication (NFC), the apparatus includes at least a processor and a memory, wherein the memory contains instructions configuring the at least a processor to receive object manufacture data associated with a first object containing an NFC tag, generate a unique identifier as a function of the object manufacture data, assign the unique identifier to the NFC tag of the first object using an NFC reader at an initial time, obtain first identification data containing the unique identifier when the NFC reader communicates with the NFC tag of the first object at a time subsequent to the initial time, aggregate the first identification data with second identification data associated with a second object using a data aggregator, determine an object action datum as a function of the aggregated identification data, and transmit the object action datum to the NFC reader.

An apparatus for unique identification of an object using near-field communication (NFC), the apparatus includes at least a processor and a memory, wherein the memory contains instructions configuring the at least a processor to receive object manufacture data associated with a first object containing an NFC tag, generate a unique identifier as a function of the object manufacture data, assign the unique identifier to the NFC tag of the first object using an NFC reader at an initial time, obtain first identification data containing the unique identifier when the NFC reader communicates with the NFC tag of the first object at a time subsequent to the initial time, aggregate the first identification data with second identification data associated with a second object using a data aggregator, determine an object action datum as a function of the aggregated identification data, and transmit the object action datum to the NFC reader.