A system for printing on a printable portion of a liner for a package to receive smoking articles includes a package assembler configured to receive an outer blank and fold the outer blank around the liner to create the package. The liner comprises a material configured to absorb ink and a front surface, the front surface configured to be seen by a user when the package is open. The liner also includes a printable portion positioned on the front surface, the printable portion configured to receive ink. The system further comprises a printer coupled to the package assembler, the printer configured to dispense the ink on the printable portion when the package is in an at least partially assembled state.

A system for printing on a printable portion of a liner for a package to receive smoking articles includes a package assembler configured to receive an outer blank and fold the outer blank around the liner to create the package. The liner comprises a material configured to absorb ink and a front surface, the front surface configured to be seen by a user when the package is open. The liner also includes a printable portion positioned on the front surface, the printable portion configured to receive ink. The system further comprises a printer coupled to the package assembler, the printer configured to dispense the ink on the printable portion when the package is in an at least partially assembled state.

Provided is a production line management system for managing a manufacturing line for containers. The production line management system includes a first reading unit for reading an identification code applied to each of the containers when the container with the identification code indicating an identifier being information identifying the container passes through a first point on the manufacturing line, a second reading unit for reading the identification code applied to each of the containers after the first reading unit reads the identification code, and a computing unit for generating a database in which the identifier indicated by the identification code and relevant information about each of the containers are associated, and determining normality/abnormality of each of the containers by comparing the relevant information associated in the database with the identifier indicated by the identification code read in the second reading unit with predetermined setting information.

Provided is a production line management system for managing a manufacturing line for containers. The production line management system includes a first reading unit for reading an identification code applied to each of the containers when the container with the identification code indicating an identifier being information identifying the container passes through a first point on the manufacturing line, a second reading unit for reading the identification code applied to each of the containers after the first reading unit reads the identification code, and a computing unit for generating a database in which the identifier indicated by the identification code and relevant information about each of the containers are associated, and determining normality/abnormality of each of the containers by comparing the relevant information associated in the database with the identifier indicated by the identification code read in the second reading unit with predetermined setting information.

A high throughput, efficient, and simplified unloading and packaging systems and methods for large-scale production of pharmaceutical units (104) using additive manufacturing. The systems and methods may unload, inspect, package, and trace pharmaceutical units, produced by an additive manufacturing system (900), that are not damaged or deformed. The unloading and packaging system can include one or more unloading and packaging devices (100). The unloading and packaging device can include a modular configuration having modules. Individual modules to be arranged in any relative order, at any location, and with any number in the unloading and packaging device. The flexibility of the modular configuration allows one or more modules to be removed or added at any given time due to, e.g., expansion, downsizing, module repair, module upgrades, etc. High throughput can be achieved by operating unloading and packaging devices independently.

A high throughput, efficient, and simplified unloading and packaging systems and methods for large-scale production of pharmaceutical units (104) using additive manufacturing. The systems and methods may unload, inspect, package, and trace pharmaceutical units, produced by an additive manufacturing system (900), that are not damaged or deformed. The unloading and packaging system can include one or more unloading and packaging devices (100). The unloading and packaging device can include a modular configuration having modules. Individual modules to be arranged in any relative order, at any location, and with any number in the unloading and packaging device. The flexibility of the modular configuration allows one or more modules to be removed or added at any given time due to, e.g., expansion, downsizing, module repair, module upgrades, etc. High throughput can be achieved by operating unloading and packaging devices independently.

A control method of an electromechanical apparatus (10) for installing a plunger tip (31) in a syringe (21), the control method comprising: providing a syringe (21) with at least one opening (22); providing a plunger tip (31) configured for snug insertion in the opening (22); pushing the plunger tip (31) inside the syringe (21), by a pusher rod (60) of the electromechanical apparatus (10), the plunger tip (31) passing through an intermediate cannula element (50); monitoring over time a force exchanged between the plunger tip (31) and the pusher rod (60), providing a force signal (401, 402, 403, 404) by a force detector (61) of the electromechanical apparatus (10); analyzing the force signal (401, 402, 403, 404) to determine an installation status of the plunger tip (31) in the syringe (21).

A non-destructive, non-invasive method for inspection of bonding patterns of packages for products, such as patches or medicated patches, involves thermally probing the packages and the bonding patterns and retrieving a thermal response thereof. The inspection is based in the analysis of the thermal response.

A system includes a tool for installing a cable material around a set of elongate members. The tool includes a housing; a cartridge detachably connected to the housing; and a jaw detachably connected to the housing. The cartridge has a length of cable material. The jaw is configured to extend around the set of elongate members to install the length of cable around the set of elongate members. A welding horn is detachably connected to the housing. At least one processor is configured to read a programmable chip. The programmable chip stores a set of parameters for at least one of the cartridge, the jaw, or the welding horn.

A system includes a tool for installing a cable material around a set of elongate members. The tool includes a housing; a cartridge detachably connected to the housing; and a jaw detachably connected to the housing. The cartridge has a length of cable material. The jaw is configured to extend around the set of elongate members to install the length of cable around the set of elongate members. A welding horn is detachably connected to the housing. At least one processor is configured to read a programmable chip. The programmable chip stores a set of parameters for at least one of the cartridge, the jaw, or the welding horn.