The present system is used for metered dispensing of bulk material. The system includes a hopper containing the bulk material, a base supporting the hopper, and a gate removably interposed between a hopper outlet and a base outlet. The gate rotates between positions either allowing or preventing flow of the bulk material from the hopper outlet to the base outlet. An impeller is located inside of the hopper, extending from an inner surface of the hopper to agitate the bulk material before, during, or after dispensing to ensure the hopper outlet is not blocked.

A powder dispensing device including an inlet, a flow portion for providing a tortuous path and powder anti-back flow, wherein the powder dispensing device does not require restrictive filters, a powder container having concentric ribs and vortex generating vanes to provide vortex generation or agitation for the powder, a cap, and an outlet.

A powder dispensing device including an inlet, a flow portion for providing a tortuous path and powder anti-back flow, wherein the powder dispensing device does not require restrictive filters, a powder container having concentric ribs and vortex generating vanes to provide vortex generation or agitation for the powder, a cap, and an outlet.

The invention relates to a dispensing device for metering and dispensing a predetermined number of multiparticulates from a container. The dispensing device comprises a chamber which includes an inlet through which multiparticulates can enter the chamber and an overflow through which multiparticulates can leave the chamber. There is also an outlet through which multiparticulates can be dispensed from the chamber. The chamber comprises a metering surface which includes at least one retaining portion. The, or each, of the retaining portions is configured to be able to releasably retain a single multiparticulate.

The invention relates to a dispensing device for metering and dispensing a predetermined number of multiparticulates from a container. The dispensing device comprises a chamber which includes an inlet through which multiparticulates can enter the chamber and an overflow through which multiparticulates can leave the chamber. There is also an outlet through which multiparticulates can be dispensed from the chamber. The chamber comprises a metering surface which includes at least one retaining portion. The, or each, of the retaining portions is configured to be able to releasably retain a single multiparticulate.

The present invention relates to a powder storage container formed by comprising: a storage part (10) in which a protein supplement is stored; an opening (20) which is open and connected to the top of the storage part and protrudes upward, and has a screw thread formed on the protruding outer circumferential surface thereof; a lid (30) for opening and closing the opening; a scoop (40) which is formed to be separate from the storage part (10) and is used when scooping the stored protein supplement; and an attaching part (50) which is formed between the upper end of the storage part (10) and the lower end of the opening (20) and enables the scoop (40) and the lid (30) to be attached thereto or detached therefrom and securely placed thereon, wherein the powder storage container of the present invention can improve the problems of uncleanliness in terms of hygiene and worry about loss, as the lid is not placed on the ground but securely placed on the exterior of the container, and the container has the significant effect of being more convenient to use, as an accurate amount by the spoonful can be scooped easily.

The present invention relates to a powder storage container formed by comprising: a storage part (10) in which a protein supplement is stored; an opening (20) which is open and connected to the top of the storage part and protrudes upward, and has a screw thread formed on the protruding outer circumferential surface thereof; a lid (30) for opening and closing the opening; a scoop (40) which is formed to be separate from the storage part (10) and is used when scooping the stored protein supplement; and an attaching part (50) which is formed between the upper end of the storage part (10) and the lower end of the opening (20) and enables the scoop (40) and the lid (30) to be attached thereto or detached therefrom and securely placed thereon, wherein the powder storage container of the present invention can improve the problems of uncleanliness in terms of hygiene and worry about loss, as the lid is not placed on the ground but securely placed on the exterior of the container, and the container has the significant effect of being more convenient to use, as an accurate amount by the spoonful can be scooped easily.

Described is a method and device for dispensing a grip-enhancing substance. In the device, a specific position of a closure provides a metered amount of the grip-enhancing substance. The device is used in a method to dispense the grip-enhancing substance to a user upon actuation of the closure by the user.

Described is a method and device for dispensing a grip-enhancing substance. In the device, a specific position of a closure provides a metered amount of the grip-enhancing substance. The device is used in a method to dispense the grip-enhancing substance to a user upon actuation of the closure by the user.

Examples of a print particle transfer interface of a donor container are described herein. Some examples of the print particle transfer interface include a static interface portion to engage a receiving container. The static interface portion includes a static opening. Some examples of the print particle transfer interface include a rotating output assembly with a cylindrical valve seat and a seal component surrounding a valve opening. In some examples, the cylindrical valve seat rotates with respect to the static interface portion to align the valve opening for dispensing print particle to the receiving container.