A filling device for metered filling of a filling material from a storage container into a dose receiving container. The device includes a single-use isolator with the receiving container provided therein to protect against contamination. The device includes a weighing device for holding and weighing the storage container with its contents outside of the isolator. The device includes a dispensing device inside the isolator to provide a dose-by-dose dispensing of the material. The device includes a conduit arrangement for connecting the storage container and the dispensing device and conveying the material from the storage container to the dispensing device via a removal device for a dose-by-dose removal of the material outside the isolator. The device includes a control device for controlling the removal device based on information from the weighing device about a decrease in weight of a unit consisting of the storage container and its contents during the removal.

A filling device for metered filling of a filling material from a storage container into a dose receiving container. The device includes a single-use isolator with the receiving container provided therein to protect against contamination. The device includes a weighing device for holding and weighing the storage container with its contents outside of the isolator. The device includes a dispensing device inside the isolator to provide a dose-by-dose dispensing of the material. The device includes a conduit arrangement for connecting the storage container and the dispensing device and conveying the material from the storage container to the dispensing device via a removal device for a dose-by-dose removal of the material outside the isolator. The device includes a control device for controlling the removal device based on information from the weighing device about a decrease in weight of a unit consisting of the storage container and its contents during the removal.

Various embodiments of the present disclosure provide a random case sealer. The case sealer includes a top-head-actuating assembly configured to vary the speed of the top-head assembly when ascending (to make room for the case beneath the top-head assembly) and when descending onto the case (to engage the top surface of the case during sealing). This maximizes the speed of the top-head assembly while limiting overshoot (when ascending) and preventing damage to the case (when descending). In certain embodiments the case sealer includes a tape cartridge configured to limit the forces imparted onto the leading and top surfaces of the case during sealing. These features result in increased throughput as compared to prior art random case sealers without requiring stronger cases or more protective dunnage.

Various embodiments of the present disclosure provide a random case sealer. The case sealer includes a top-head-actuating assembly configured to vary the speed of the top-head assembly when ascending (to make room for the case beneath the top-head assembly) and when descending onto the case (to engage the top surface of the case during sealing). This maximizes the speed of the top-head assembly while limiting overshoot (when ascending) and preventing damage to the case (when descending). In certain embodiments the case sealer includes a tape cartridge configured to limit the forces imparted onto the leading and top surfaces of the case during sealing. These features result in increased throughput as compared to prior art random case sealers without requiring stronger cases or more protective dunnage.

A beverage brewing cartridge includes a base including a sidewall having first and second open ends and a cover sealed to a rim of the first open end, and a plug configured to be inserted into the second open end. The cartridge is configured to hold beverage brewing material when the plug is inserted. The cover is configured to be breached to allow pressurized liquid to enter the cartridge to brew a beverage. The plug includes weakened areas configured to open after the pressurized liquid enters the cartridge to allow the beverage to flow from the cartridge. A method of constructing the cartridge includes placing the base in a holder, inserting a portion of brewing material into the base through the second open sidewall end, tamping the brewing material in the base through the second open sidewall end, and inserting the plug into the second open sidewall end.

A method of manufacturing a support element for beverage brewing material includes providing water-permeable material to form a concave holder configured to receive the material, with a rim formed around an upper periphery. The method can include providing the material with fold lines, forming the holder from a single piece of the material, and shaping the holder into an open state. Preparing a beverage includes unfolding the support element to form a receptacle, adding the brewing material to an interior, and providing a flow of fluid through the material. An empty container includes filter material formable as a receptacle having has a bottom and sidewalls with folds defining an interior, and a rim at a top edge. The receptacle has a circular cross-section and a diameter of between about 30 mm and about 50 mm and/or a depth of between about 1 mm and about 15 mm.

A packaging/inspection system is provided for a nozzle pivot package including a collection of nozzles in various nozzle sizes. The packaging/inspection system includes a shelf assembly with a plurality of compartments, an operator load track, a verification section downstream of the operator load track, a marking section downstream of the verification section, and an operator unload track downstream of the marking section. Each compartment may store nozzles of a specific nozzle size. Features of the shelf assembly alert the operator as to which compartment should be accessed and how many nozzles from the compartment are required.

A quick self-making tool for a coffee capsule includes a die holder and a pressing die. A die cavity for containing a capsule shell is formed in the die holder, a sealing film is laid on an opening of the capsule shell, the sealing film seals the opening of the capsule shell through pressing of the pressing die to make the coffee capsule, and a guide piece is arranged on the die holder, and is configured to guide the sealing film to be coaxially aligned with the capsule shell before being pressed and guide up-down vertical movement of the pressing die during pressing. The pressing die evenly press an outer ring of the capsule shell, the sealing effect of the sealing film and the capsule shell is improved, and the situation that the sealing film and the top face of the capsule shell are not combined firmly is avoided.

A quick self-making tool for a coffee capsule includes a die holder and a pressing die. A die cavity for containing a capsule shell is formed in the die holder, a sealing film is laid on an opening of the capsule shell, the sealing film seals the opening of the capsule shell through pressing of the pressing die to make the coffee capsule, and a guide piece is arranged on the die holder, and is configured to guide the sealing film to be coaxially aligned with the capsule shell before being pressed and guide up-down vertical movement of the pressing die during pressing. The pressing die evenly press an outer ring of the capsule shell, the sealing effect of the sealing film and the capsule shell is improved, and the situation that the sealing film and the top face of the capsule shell are not combined firmly is avoided.

Various embodiments of the present disclosure provide a random case sealer including a pneumatically-controlled top-head-actuating assembly configured to vary the speed of the top-head assembly when ascending (to make room for the case beneath the top-head assembly) and when descending onto the case (to engage the top surface of the case during sealing). The case sealer includes a pressure sensor that monitors the pressure of gas incoming from a gas source delivered to the top-head-actuating assembly via one or more valves. A controller controls the open level and/or the open time of the valves based on the pressure of the incoming gas to ensure the top-head-actuating assembly operates as desired regardless of whether the pressure of the incoming gas is equal to, below, or above a desired pressure. These features result in increased throughput compared to prior art random case sealers without requiring stronger cases or more protective dunnage.