The present disclosure relates to an aerosol delivery device filling system. The system includes multiple source containers each respectively including a differing aerosol precursor composition. The system further includes a mixing container configured to engage the source containers to receive and mix the aerosol precursor compositions to form a mixed aerosol precursor composition. An aerosol delivery device may engage the mixing container to receive at least a portion of the mixed aerosol precursor composition. A related method for customizing an aerosol precursor composition is also provided.

Systems for producing, applying and evaluating coating compositions are disclosed. An automatic color matching system includes an automatic coating component dispenser, a container, a mixer for mixing the components of the coating composition and a solvent, an automatic pressurization station to apply pressure to the mixed coating composition, and a robotic arm to transport the container to and from the mixer. A coating composition dispensing system includes a computer to provide a target formulation for a coating composition, an automated component dispenser containing the components of the coating composition, a container positionable adjacent to the component dispenser to receive the components of the coating composition, and an automated component sensor to measure the amounts of each of the components dispensed into the container. The computer is programmed to store data corresponding to the measured amounts of each of the components, and amounts of components contained in the coating compositions may be monitored, along with processing parameters when the coating compositions are applied to various substrates. The characteristics of a produced sample coating may be compared with the characteristics of a target or reference coating to determine if they are sufficiently matched.

Systems for producing, applying and evaluating coating compositions are disclosed. An automatic color matching system includes an automatic coating component dispenser, a container, a mixer for mixing the components of the coating composition and a solvent, an automatic pressurization station to apply pressure to the mixed coating composition, and a robotic arm to transport the container to and from the mixer. A coating composition dispensing system includes a computer to provide a target formulation for a coating composition, an automated component dispenser containing the components of the coating composition, a container positionable adjacent to the component dispenser to receive the components of the coating composition, and an automated component sensor to measure the amounts of each of the components dispensed into the container. The computer is programmed to store data corresponding to the measured amounts of each of the components, and amounts of components contained in the coating compositions may be monitored, along with processing parameters when the coating compositions are applied to various substrates. The characteristics of a produced sample coating may be compared with the characteristics of a target or reference coating to determine if they are sufficiently matched.

A generative scent design system has a frame, an input receiver, an input processor, a dispenser, a container, and a filling platform. The dispenser has a dosing station and a storage compartment. The dosing station and the filling platform are attached to the frame. The dosing station has a plurality of pumps. The heating system regulates its associated pump's temperature. The storage compartment has scent vessels that contain a respective scent. Each pump with an inlet and an outlet is associated with a respective heating system and respective scent; in fluid communication through the inlet with the scent vessel containing the respective scent; and configured to dispense its respective scent through the outlet. The container is movably positioned on the filling platform to receive the respective scent from each pump. The input receiver receives data. The input processor calculates the data to determine a formulation of respective scents.

A generative scent design system has a frame, an input receiver, an input processor, a dispenser, a container, and a filling platform. The dispenser has a dosing station and a storage compartment. The dosing station and the filling platform are attached to the frame. The dosing station has a plurality of pumps. The heating system regulates its associated pump's temperature. The storage compartment has scent vessels that contain a respective scent. Each pump with an inlet and an outlet is associated with a respective heating system and respective scent; in fluid communication through the inlet with the scent vessel containing the respective scent; and configured to dispense its respective scent through the outlet. The container is movably positioned on the filling platform to receive the respective scent from each pump. The input receiver receives data. The input processor calculates the data to determine a formulation of respective scents.

Systems, methods, and devices for forming an array of emulsions. An exemplary device comprises a frame and at least one or a plurality of separate microfluidic modules mounted to the frame and each configured to form an array of emulsions. In some embodiments, each module may be mounted by snap-fit attachment. The device also may include the same sealing member bonded to a top side of each module and hermetically sealing each of the modules. Another exemplary microfluidic device for forming an array of emulsions comprises a stack of layers bonded together. The stack may comprise a port layer forming a plurality of ports. Each port may have a top rim formed by a protrusion that encircles the central axis of the port. The rims may be coplanar with one another to facilitate bonding of a sealing member to each rim.

A Cannabis trichome separator. At least one storage vessels are provided, each vessel having an open top and adapted to receive a plant material and chilled or ice water mixture. A mechanism for agitating the mixture is also provided. Another mechanism raises, lowers, and pivots the agitating mechanism, so the agitating mechanism can be placed over the open top of each of the at least one storage vessels. The mixture can be agitated in each of the storage vessels, seriatim. Also disclosed is a method for processing raw plant material. A plant material and chilled or ice water is introduced into each of at least one storage vessels. The agitating mechanism agitates the mixture in a first of the storage vessels, pivoting the agitating mechanism from a first position to a second position, and agitating the mixture in subsequent storage vessels, seriatim.

A paint production system produced from pigment pastes and vehicles without prior adjustment. The system includes a volumetric dosing module endowed with automatic volumetric calibrators, at least one continuous processing module that includes a rotary mechanism that moves at least one tank between a mixing station, a continuous adjustment station integrated into a filling station, a cleaning station jointly with a manifold cleaning solvent mist generator and a control center that sends commands to be executed in the volumetric dosing module and continuous processing module units from a set of instructions in a computer program.

A paint production system produced from pigment pastes and vehicles without prior adjustment. The system includes a volumetric dosing module endowed with automatic volumetric calibrators, at least one continuous processing module that includes a rotary mechanism that moves at least one tank between a mixing station, a continuous adjustment station integrated into a filling station, a cleaning station jointly with a manifold cleaning solvent mist generator and a control center that sends commands to be executed in the volumetric dosing module and continuous processing module units from a set of instructions in a computer program.

An automatic plant for preparing paints includes an automatic stock configured to contain a plurality of closed containers with different formats, an automatic process line comprising a plurality of operating stations, robotic unit movable between the various stations of the automatic process line to pick up each container in an inlet station and transfer it in succession from each station to the next station, the robotic unit having an adjustable gripping member configured for gripping containers with at least two different sizes, and a control unit configured to receive paint orders including information relating to the format of the containers and the color of the paint requested by the buyer.