An apparatus for filling pharmaceutical containers includes a filling device with a linear transport device that preferably includes circulating holding elements for the containers. The holding elements are movable along a transport direction from a coupling side to a decoupling side of the transport device. A processing station includes a filling station arranged at the transport device for filling the containers with a pharmaceutical substance. A coupling element transfers the containers to the transport device, and a decoupling element receives the containers from the transport device. A first feed unit provides containers of a first type to be filled, and a second feed unit feeds containers of a second type to be filled. An interface element is arrangeable on the feed side with respect to the transport device. Containers of the first type or the second type can be selectively fed directly or indirectly to the transport device.

Method for packing injection moulded parts, in particular parts used in medicine, like pipette tips, which are removed from cavities of an injection moulding machine and inserted into a storage or into packing containers, wherein the injection moulded parts are arranged in a workpiece holder, the injection moulded parts are removed from the workpiece holder in the form of first rows and these first rows are expanded, whereupon the injection moulded parts are removed from the expanded first rows in the form of second rows which extend perpendicular in relation to the first rows, and the second rows are expanded, whereupon the injection moulded parts from the second rows are inserted into packing containers or into a storage.

A method includes obtaining a container sized to fit multiple high voltage light emitting diode (LED) lightbulbs, adding multiple loose high voltage LED lightbulbs to the container to fill the container, and sealing the container, such that the container contains a higher density of high voltage LED light bulbs than a same sized container can hold protective packaged equivalent watt incandescent bulbs.

A method includes obtaining a container sized to fit multiple high voltage light emitting diode (LED) lightbulbs, adding multiple loose high voltage LED lightbulbs to the container to fill the container, and sealing the container, such that the container contains a higher density of high voltage LED light bulbs than a same sized container can hold protective packaged equivalent watt incandescent bulbs.

A shipping package comprising for an elongated article includes an outer portion having a series of walls that cooperate to define a cavity, an article receiving portion that defines a passage within which the elongated article is received, and a transition portion between the outer portion and the article receiving portion. The transition portion suspends the article within the cavity such that the article is spaced from inner surfaces defined by walls. The outer portion, the article receiving portion and the transition portion may be formed integrally with each other from a single blank of material.

A shipping package comprising for an elongated article includes an outer portion having a series of walls that cooperate to define a cavity, an article receiving portion that defines a passage within which the elongated article is received, and a transition portion between the outer portion and the article receiving portion. The transition portion suspends the article within the cavity such that the article is spaced from inner surfaces defined by walls. The outer portion, the article receiving portion and the transition portion may be formed integrally with each other from a single blank of material.

An apparatus that forms bundles of glass articles includes a glass article infeed station including an infeed conveyor that continuously transports individual glass articles to a layer separating conveyor. The layer separating conveyor includes a conveyor belt that forms a layer of side-by-side glass articles. A robotic lift assembly is configured to place the layer of side-by-side glass articles together on a layer separation insert. The layer separation insert has side-by-side slots that each receive a single glass article of the layer of side-by-side glass articles.

An apparatus that forms bundles of glass articles includes a glass article infeed station including an infeed conveyor that continuously transports individual glass articles to a layer separating conveyor. The layer separating conveyor includes a conveyor belt that forms a layer of side-by-side glass articles. A robotic lift assembly is configured to place the layer of side-by-side glass articles together on a layer separation insert. The layer separation insert has side-by-side slots that each receive a single glass article of the layer of side-by-side glass articles.

A packaging assembly includes: a packaging, which is flexible; and a plurality of glass parts having a tubular-shaped geometry or a rod-shaped geometry, the plurality of glass parts including a glass and being enclosed in the packaging while being in mutual contact with one another, the packaging exerting a pressure on the plurality of glass parts such that the packaging clings to the plurality of glass parts so that the plurality of glass parts are pressed onto one another and secured against relative movement with respect to one another.

A packaging assembly includes: a packaging, which is flexible; and a plurality of glass parts having a tubular-shaped geometry or a rod-shaped geometry, the plurality of glass parts including a glass and being enclosed in the packaging while being in mutual contact with one another, the packaging exerting a pressure on the plurality of glass parts such that the packaging clings to the plurality of glass parts so that the plurality of glass parts are pressed onto one another and secured against relative movement with respect to one another.