A blister collation system includes a blister packager with a blister seal station which seals a blister package with a medicament inside and a blister package stacker connected to the blister packager via a conveyor which moves individual blister packages. The blister package stacker has a nest inlet for reception of the blister packages from the conveyor, a nest assembly for holding one of the blister packages, and a first blister package collection tower for storing a stack of the blister packages. The nest assembly is configured to insert one blister package at a time upward into a bottom of the first collection tower. The stacker further has a tower gate holding the inserted blister packages and a mechanism for pushing the stack of the blister packages from the first collection tower into a storage container.

A method for forming packages of blister packages including sealing a blister package with an item inside; moving the blister packages on a conveyor toward a blister package stacker; receiving the blister packages one at a time in a nest inlet of the blister package stacker and holding the received blister package in a nest assembly; inserting one blister package at a time into a bottom of a blister package collection tower section by upward movement of the blister; retaining the inserted package in the blister package collection tower section; and repeating the receiving, inserting, and retaining to form a stack of the blister packages in the blister package collection tower section.

The invention discloses a profile automatic alignment and stacking device, which includes a casing. The casing is provided with a transmission mechanism, a screening mechanism and a pushing mechanism. The transmission mechanism transports the profile into the device. When the profile passes the screening mechanism, the screening mechanism A certain size of profile can be screened out, and a profile collection and collection cavity of a suitable size is screened out. A profile of inappropriate size is collected in another collection cavity. The pushing mechanism includes a driving motor and a rotating disc and a moving plate. The motor drives the rotating disc to rotate, which drives the horizontal movement of the moving plate to align and stack the appropriate size profiles. Through mechanical transmission, the work efficiency is improved.

A method for forming packages of blister packages including sealing a blister package with an item inside; moving the blister packages on a conveyor toward a blister package stacker; receiving the blister packages one at a time in a nest inlet of the blister package stacker and holding the received blister package in a nest assembly; inserting one blister package at a time into a bottom of a blister package collection tower section by upward movement of the blister; retaining the inserted package in the blister package collection tower section; and repeating the receiving, inserting, and retaining to form a stack of the blister packages in the blister package collection tower section.

A blister package stacker having a nest inlet for reception of blister packages from a conveyor, a nest assembly for holding one of the blister packages, and a blister package collection tower for storing a stack of the blister packages. The nest assembly is configured to insert one blister package at a time upward into a bottom of the blister package collection tower. The blister package stacker may have a push arm which pushes the stack of the blister packages from the collection tower into storage tubes.

A blister package stacker having a nest inlet for reception of blister packages from a conveyor, a nest assembly for holding one of the blister packages, and a blister package collection tower for storing a stack of the blister packages. The nest assembly is configured to insert one blister package at a time upward into a bottom of the blister package collection tower. The blister package stacker may have a push arm which pushes the stack of the blister packages from the collection tower into storage tubes.

A blister collation system includes a blister packager with a blister seal station which seals a blister package with a medicament inside and a blister package stacker connected to the blister packager via a conveyor which moves individual blister packages. The blister package stacker has a nest inlet for reception of the blister packages from the conveyor, a nest assembly for holding one of the blister packages, and a first blister package collection tower for storing a stack of the blister packages. The nest assembly is configured to insert one blister package at a time upward into a bottom of the first collection tower. The stacker further has a tower gate holding the inserted blister packages and a mechanism for pushing the stack of the blister packages from the first collection tower into a storage container.

A blister collation system includes a blister packager with a blister seal station which seals a blister package with a medicament inside and a blister package stacker connected to the blister packager via a conveyor which moves individual blister packages. The blister package stacker has a nest inlet for reception of the blister packages from the conveyor, a nest assembly for holding one of the blister packages, and a first blister package collection tower for storing a stack of the blister packages. The nest assembly is configured to insert one blister package at a time upward into a bottom of the first collection tower. The stacker further has a tower gate holding the inserted blister packages and a mechanism for pushing the stack of the blister packages from the first collection tower into a storage container.

A method and a device for forming stacks of packages by stacking infusion bags is disclosed. In one example, the method includes removing an individual infusion bag from a conveying stretch, on which individual infusion bags are fed, to a removal station. The individual infusion bags, guided by a vertically movable push-in device in a stacking stroke of said push-in device, are transferred into a buffer storage chute of said stack holding device. In a transfer stroke of said push-in device, which is greater than said stacking stroke, an infusion bag completing said stack of packages is raised off of said conveying stretch and transferred into a cartridge storage chute of said stack holding device.