A container may include a body portion having opposing open and closed ends, and a trapezoid-shaped longitudinal side extending laterally between the open and closed ends. The open end may include a latch portion extending laterally and being opposite to the trapezoid-shaped longitudinal side. The container may also include a handle coupled to the open end, and switchingly coupled to the latch portion.

Method and system for the assembly and collection of non-filled spouted pouches (10) to be transported to a remote filling device. According to the invention, a pick and place robot system (25) is provided comprising a camera system (11) on the basis of which a gripping device (28) is operable to pick up the spouted pouches, and a robot arm (29) is operable to transport the spouted pouches to a storage rail (21), wherein the gripper can place the spouted pouches.

The method for handling primary containers (2) for pharmaceutical use transported along an automatic treatment line (1) operating in a controlled environment from a contamination point of view comprises the following steps: introducing into the line a secondary container (6) equipped with rows of positioning seats (18) housing the primary containers (2) separately from one another; extracting in succession the primary containers (2) maintaining the primary containers (2) separate and transferring the extracted primary containers (2) to the treatment station (10) in succession one at a time.

A product to be shipped is placed on a platform. A conveyor belt moves the product and platform toward a packaging station where mold forms at least define a space which encloses the product. Expanding foam is then injected via injector lines into the space. Once the expanding foam has at least partially hardened, the mold forms may be retracted and the package is moved to a next station for at least one of finishing, loading, or storing. The foam thus becomes the shipping package for the product. This eliminates the need to store shipping containers of multiple standardized sizes and shapes, and to fill the standardized shipping containers with dunnage. The mold forms also provide for customized exterior shapes for the shipping package.

A product to be shipped is placed on a platform. A conveyor belt moves the product and platform toward a packaging station where mold forms at least define a space which encloses the product. Expanding foam is then injected via injector lines into the space. Once the expanding foam has at least partially hardened, the mold forms may be retracted and the package is moved to a next station for at least one of finishing, loading, or storing. The foam thus becomes the shipping package for the product. This eliminates the need to store shipping containers of multiple standardized sizes and shapes, and to fill the standardized shipping containers with dunnage. The mold forms also provide for customized exterior shapes for the shipping package.

The present invention relates to a method for manufacturing a packaging container having an inlay, said method comprising the steps of: arranging a first layer of packaging material and a second layer of packaging material to form a packaging container; positioning an inlay between the first and second layers of packaging material; joining at least a first region of the inlay to the first layer of packaging material; manufacturing a packaging container by joining the first and second layers of packaging material such that a filling opening of the packaging container is formed between the second region of the inlay and the second layer of packaging material; and joining at least a second region of the inlay to the second layer of packaging material of the filled packaging container. The invention also relates to an insertion device and to a packaging machine.

The present invention relates to a method for manufacturing a packaging container having an inlay, said method comprising the steps of: arranging a first layer of packaging material and a second layer of packaging material to form a packaging container; positioning an inlay between the first and second layers of packaging material; joining at least a first region of the inlay to the first layer of packaging material; manufacturing a packaging container by joining the first and second layers of packaging material such that a filling opening of the packaging container is formed between the second region of the inlay and the second layer of packaging material; and joining at least a second region of the inlay to the second layer of packaging material of the filled packaging container. The invention also relates to an insertion device and to a packaging machine.

Methods and tools for unbundling polywrapped packages. An automatic unbundling system includes an input unit configured to receive a polywrapped bundle that includes a plurality of items and a conveyor system configured to transport the bundle. The automatic unbundling system includes an automatic unwrapping machine configured to receive the bundle from the conveyor system and unwrap the bundle. The automatic unbundling system can include a loose stack accumulator configured to straighten the unwrapped plurality of items.

A composition to protect beta-carotene from visible light photo-oxidation is disclosed. The composition uses a combination of a quinophthalone dye, a pyrazolone dye, and a methine dye to protect the beta-carotene from visible light in the range of 400-500 nm.

A composition to protect beta-carotene from visible light photo-oxidation is disclosed. The composition uses a combination of a quinophthalone dye, a pyrazolone dye, and a methine dye to protect the beta-carotene from visible light in the range of 400-500 nm.