The present invention relates to a method (100) for marking unique identity codes (10) on a cartridge (20). The method (100) includes printing multiple unique identity codes (10) on a predefined location (20a) over the cartridge (20). The unique identity codes (10) are marked on the polymeric film (30) in such a way that the unique identity codes (10) are visible along a circumferential area (40g) of the cylindrical cartridge (20).

A method of preparing a ready-to-use catheter by providing a catheter assembly that has a first compartment that includes a catheter therein. The catheter includes on at least a part of its surface an exterior coating designed to reduce the coefficient of friction after treatment with a liquid swelling medium, and a second compartment containing a liquid swelling medium. The method includes sterilizing the catheter assembly, adding the liquid swelling medium to the first compartment for wetting/activating the exterior coating of the catheter, and storing the ready-to-use catheter. By using the method according to the invention, the sterilization of the catheter is effectuated in a dry-state, ensuring that the known problems with wet-sterilization are completely eliminated and the need for preparing complicated and expensive liquid swelling mediums are no longer required.

A method of preparing a ready-to-use catheter by providing a catheter assembly that has a first compartment that includes a catheter therein. The catheter includes on at least a part of its surface an exterior coating designed to reduce the coefficient of friction after treatment with a liquid swelling medium, and a second compartment containing a liquid swelling medium. The method includes sterilizing the catheter assembly, adding the liquid swelling medium to the first compartment for wetting/activating the exterior coating of the catheter, and storing the ready-to-use catheter. By using the method according to the invention, the sterilization of the catheter is effectuated in a dry-state, ensuring that the known problems with wet-sterilization are completely eliminated and the need for preparing complicated and expensive liquid swelling mediums are no longer required.

An apparatus for sealing an open end of a package comprises a first longitudinally extending sealing jaw, bearing mounted on a first eccentric shaft rotatable around a first rotational axis, and a second longitudinally extending sealing jaw, bearing mounted on a second eccentric shaft rotatable around a second rotational axis, the second sealing jaw being parallel with the first sealing jaw. At least one motor drives rotation around the first and second rotational axis in opposite directions, wherein the first and the second sealing jaws oppose each other, and are allowed to oscillate between sealing and open positions by moving towards and away from each other. A first and second transversally extending guiding bar cooperate with the first and second eccentric shaft via guiding pins running in guiding grooves, such that transverse play between the first and the second eccentric shaft and the first and second sealing jaw is allowed.

Methods of encapsulating a phase change material in a capsule including suspending a particle of the phase change material in an air stream, coating an entire surface of the suspended particle with at least one layer of a sacrificial compound, coating an entire surface of the layer of the sacrificial compound with at least one layer of a second material, and encapsulating the phase change material within a shell formed by the second material. The step of encapsulating comprising heating the particle coated with the sacrificial compound and the second material, thermally decomposing the sacrificial compound, and vaporizing the sacrificial, wherein the sacrificial compound has a decomposition temperature less than a phase change temperature of the phase change material and a phase change temperature of the second material.

Methods of encapsulating a phase change material in a capsule including suspending a particle of the phase change material in an air stream, coating an entire surface of the suspended particle with at least one layer of a sacrificial compound, coating an entire surface of the layer of the sacrificial compound with at least one layer of a second material, and encapsulating the phase change material within a shell formed by the second material. The step of encapsulating comprising heating the particle coated with the sacrificial compound and the second material, thermally decomposing the sacrificial compound, and vaporizing the sacrificial, wherein the sacrificial compound has a decomposition temperature less than a phase change temperature of the phase change material and a phase change temperature of the second material.

A rotary-machine type device for filling a filling medium, in particular a food, into a multiplicity of containers. The device includes a drive unit and a multiplicity of container receptacles, which are each designed for receiving a container and are rotatable about a vertical axis V by the drive unit 10. The device further includes at least one functional unit, which may be a container destacking unit, a container filling unit, a container covering unit, a container sealing unit, a container printing unit, a container inspection unit, or a container discharge unit. The at least one functional unit is mechanically coupled to the drive unit.

Disclosed in the present invention is a system for forming a product package by online forming, filling and sealing, the system comprising: a sterilization apparatus, a forming apparatus, a conveyor belt, a filling apparatus and a first closing apparatus. Also disclosed is a method for forming a product package by online forming, filling and sealing. The method of the present invention integrates production and filling of large-volume packages, greatly shortening the supply chain and increasing production efficiency.

Disclosed in the present invention is a system for forming a product package by online forming, filling and sealing, the system comprising: a sterilization apparatus, a forming apparatus, a conveyor belt, a filling apparatus and a first closing apparatus. Also disclosed is a method for forming a product package by online forming, filling and sealing. The method of the present invention integrates production and filling of large-volume packages, greatly shortening the supply chain and increasing production efficiency.

A tamper seal detection system for detecting a sealing sticker on a packaging box incudes a housing at least partially bounding an inspection zone, the inspection zone being configured to receive the packaging box. A first sensor is configured to detect the presence of the first sealing sticker located on the packaging box when the packaging box is received within the inspection zone. A push guide is movable relative to the inspection floor between a first position and a spaced apart second position and can be used to push the packaging box out of the inspection zone.