A container packaging apparatus includes a retainer for retaining the container; a container supplier for supplying a container to the retainer; a filler for filling contents into the container; and a cleaner for removing deposits on a flange portion of the container filled with the contents from the filler. The cleaner includes a covering member for covering an outer periphery of the flange portion of the container; a lifting device for relatively moving the covering member up and down with respect to the container so that the covering member covers the outer periphery of the flange portion of the container; an ejector for ejecting gas toward the flange portion of the container to blow off deposited matter; and a suction device for removing the deposited matter from inside the covering member after being blown off by the ejector.

A container packaging apparatus includes a retainer for retaining the container; a container supplier for supplying a container to the retainer; a filler for filling contents into the container; and a cleaner for removing deposits on a flange portion of the container filled with the contents from the filler. The cleaner includes a covering member for covering an outer periphery of the flange portion of the container; a lifting device for relatively moving the covering member up and down with respect to the container so that the covering member covers the outer periphery of the flange portion of the container; an ejector for ejecting gas toward the flange portion of the container to blow off deposited matter; and a suction device for removing the deposited matter from inside the covering member after being blown off by the ejector.

Filler apparatus includes plural descent channels receiving pharmaceutical articles falling from transport channels of a vibrating conveyor. Sensors detect the articles inside the descent channels. A container has a mouth receiving the articles from the descent channels, a first chamber with a first discharge, a second chamber with a second discharge, and a separating wall dividing the mouth into a first entry section, for the first chamber, and a second entry section, for the second chamber. The wall is disposable either in a first position, wherein the entry sections can receive articles from an identical number of descent channels, and at least in a second position, wherein the entry sections can receive pharmaceutical articles from different numbers of descent channels.

The disclosure relates to a device for a packaging process, wherein the device is provided in the form of a step-by-step packaging machine, or is configured as a step-by-step packaging line. The device is configured to perform a recipe change from a first packaging recipe to another, second packaging recipe step by step at a plurality of work stations provided on the device. Furthermore, the disclosure relates to a corresponding method.

The disclosure relates to a device for a packaging process, wherein the device is provided in the form of a step-by-step packaging machine, or is configured as a step-by-step packaging line. The device is configured to perform a recipe change from a first packaging recipe to another, second packaging recipe step by step at a plurality of work stations provided on the device. Furthermore, the disclosure relates to a corresponding method.

The disclosure relates to a method for unpacking and separating infusion bags into singles for supplying the bags to a device for further processing. It includes the following steps: Opening an outer packaging, in which the infusion bags are present, by an opening device, wherein the infusion bags are fastened in groups to a holding device inside the outer packaging. Separating the group of infusion bags, which are fastened to the holding device, from the outer packaging by a separating device. Position the holding device with the infusion bags fastened thereon in a transport device by a positioning device. Processing the infusion bags by device for further processing.

A device for filling and closing pharmaceutical objects disposed in parallel rows in nests that are removably inserted into a substantially tub-shaped tub requires a conveying device with conveying sections for processing the objects, wherein individual processing stations for the objects are disposed along the conveying sections, a lifting station provided at an inlet of the conveying device for removing the nests from the tub, a removal station for removing an object row from the nest and transferring the object row to the conveying device, and an insertion station. Objects removed from the nest are fed by the conveying device to the individual processing stations for the processing. The objects are returned to the nest, tub or individually removed from the conveying device.

A device for filling and closing pharmaceutical objects disposed in parallel rows in nests that are removably inserted into a substantially tub-shaped tub requires a conveying device with conveying sections for processing the objects, wherein individual processing stations for the objects are disposed along the conveying sections, a lifting station provided at an inlet of the conveying device for removing the nests from the tub, a removal station for removing an object row from the nest and transferring the object row to the conveying device, and an insertion station. Objects removed from the nest are fed by the conveying device to the individual processing stations for the processing. The objects are returned to the nest, tub or individually removed from the conveying device.

A modular production system including a plurality of production modules connected in a linear series to form a production tunnel, and collectively defining a production channel, and wherein at least one fluid inlet port defined along the production tunnel, said inlet port is in fluid communication with a pressurized fluid source, whereby influx of fluid from said fluid source through said fluid inlet port acts to maintain the fluid pressure within the production channel at a higher pressure than the atmospheric pressure outside of the production tunnel; and wherein one of said production modules positioned between said proximal-most and distal-most production modules comprises a depyrogenator and/or sterilization module, comprising a transparent tubular body, and an irradiation source positioned external to said transparent tubular body, said irradiation source capable of heating the internal environment of the depyrogenation and/or sterilization module to a temperature sufficient to depyrogenate or sterilize articles passing therethrough.

A modular production system including a plurality of production modules connected in a linear series to form a production tunnel, and collectively defining a production channel, and wherein at least one fluid inlet port defined along the production tunnel, said inlet port is in fluid communication with a pressurized fluid source, whereby influx of fluid from said fluid source through said fluid inlet port acts to maintain the fluid pressure within the production channel at a higher pressure than the atmospheric pressure outside of the production tunnel; and wherein one of said production modules positioned between said proximal-most and distal-most production modules comprises a depyrogenator and/or sterilization module, comprising a transparent tubular body, and an irradiation source positioned external to said transparent tubular body, said irradiation source capable of heating the internal environment of the depyrogenation and/or sterilization module to a temperature sufficient to depyrogenate or sterilize articles passing therethrough.