An apparatus for an efficient label application comprising a conveyor belt; a barcode reader that is disposed above a conveyor belt and attached to a first cross beam; a 3D profiler that is disposed above said conveyor belt and attached to a second cross beam, and records size, shape, and orientation of a shipping package; a first plexiglass shield that comprises a light curtain; wherein said first plexiglass shield and light curtain protect a robotic arm's operating space on one side of said conveyor belt; a second plexiglass shield that protects said robotic arm's foot; a printer that is disposed next to said robotic arm; two upward facing fans that are disposed between said printer and said robotic arm, and, together, create an air cushion; a third plexiglass shield that protects said robotic arm, air cushion, and printer on second side of said conveyor belt; said first plexiglass shield, third plexiglass shied, and said conveyor belt define and protect a critical zone of said robotic arm's operating space; a printer control panel that is mounted on said third plexiglass shield; an operator control panel that allows said apparatus to be started, stopped, and calibrated, and is mounted on said third plexiglass shield.

An apparatus for an efficient label application comprising a conveyor belt; a barcode reader that is disposed above a conveyor belt and attached to a first cross beam; a 3D profiler that is disposed above said conveyor belt and attached to a second cross beam, and records size, shape, and orientation of a shipping package; a first plexiglass shield that comprises a light curtain; wherein said first plexiglass shield and light curtain protect a robotic arm's operating space on one side of said conveyor belt; a second plexiglass shield that protects said robotic arm's foot; a printer that is disposed next to said robotic arm; two upward facing fans that are disposed between said printer and said robotic arm, and, together, create an air cushion; a third plexiglass shield that protects said robotic arm, air cushion, and printer on second side of said conveyor belt; said first plexiglass shield, third plexiglass shied, and said conveyor belt define and protect a critical zone of said robotic arm's operating space; a printer control panel that is mounted on said third plexiglass shield; an operator control panel that allows said apparatus to be started, stopped, and calibrated, and is mounted on said third plexiglass shield.

An apparatus for an efficient label application comprising a conveyor belt; a barcode reader that is disposed above a conveyor belt and attached to a first cross beam; a 3D profiler that is disposed above said conveyor belt and attached to a second cross beam, and records size, shape, and orientation of a shipping package; a first plexiglass shield that comprises a light curtain; wherein said first plexiglass shield and light curtain protect a robotic arm's operating space on one side of said conveyor belt; a second plexiglass shield that protects said robotic arm's foot; a printer that is disposed next to said robotic arm; two upward facing fans that are disposed between said printer and said robotic arm, and, together, create an air cushion; a third plexiglass shield that protects said robotic arm, air cushion, and printer on second side of said conveyor belt; said first plexiglass shield, third plexiglass shied, and said conveyor belt define and protect a critical zone of said robotic arm's operating space; a printer control panel that is mounted on said third plexiglass shield; an operator control panel that allows said apparatus to be started, stopped, and calibrated, and is mounted on said third plexiglass shield.

An apparatus for an efficient label application comprising a conveyor belt; a barcode reader that is disposed above a conveyor belt and attached to a first cross beam; a 3D profiler that is disposed above said conveyor belt and attached to a second cross beam, and records size, shape, and orientation of a shipping package; a first plexiglass shield that comprises a light curtain; wherein said first plexiglass shield and light curtain protect a robotic arm's operating space on one side of said conveyor belt; a second plexiglass shield that protects said robotic arm's foot; a printer that is disposed next to said robotic arm; two upward facing fans that are disposed between said printer and said robotic arm, and, together, create an air cushion; a third plexiglass shield that protects said robotic arm, air cushion, and printer on second side of said conveyor belt; said first plexiglass shield, third plexiglass shied, and said conveyor belt define and protect a critical zone of said robotic arm's operating space; a printer control panel that is mounted on said third plexiglass shield; an operator control panel that allows said apparatus to be started, stopped, and calibrated, and is mounted on said third plexiglass shield.

A packaging line implemented for packaging a pre-filled syringe is disclosed having a NSD mounting station, a PFS delivery arrangement adapted to automatically deliver a pre-filled syringe to the NSD mounting station, and a NSD delivery arrangement adapted to automatically deliver a needle safety device to the NSD mounting station. The NSD mounting station is arranged to automatically assemble the needle safety device to the pre-filled syringe. A NSD visual inspection station is adapted to automatically identify a pre-filled syringe with an unfit needle safety device and to automatically eliminate the identified pre-filled syringe from the packaging line. A re-insertion station is further provided to receive a pre-filled syringe with a needle safety device and to automatically feed the received pre-filled syringe, preferably from a rejected secondary packaging, back into the packaging line, after the NSD mounting station and before the NSD visual inspection station.

A packaging line implemented for packaging a pre-filled syringe is disclosed having a NSD mounting station, a PFS delivery arrangement adapted to automatically deliver a pre-filled syringe to the NSD mounting station, and a NSD delivery arrangement adapted to automatically deliver a needle safety device to the NSD mounting station. The NSD mounting station is arranged to automatically assemble the needle safety device to the pre-filled syringe. A NSD visual inspection station is adapted to automatically identify a pre-filled syringe with an unfit needle safety device and to automatically eliminate the identified pre-filled syringe from the packaging line. A re-insertion station is further provided to receive a pre-filled syringe with a needle safety device and to automatically feed the received pre-filled syringe, preferably from a rejected secondary packaging, back into the packaging line, after the NSD mounting station and before the NSD visual inspection station.

In a system for building labels, such as adhesive-backed labels or tags produced on rolls or sheets for printing, an image or graphic of an arrangement of labels is displayed to a user and continuously updated in real time as parameters relating to construction of the labels are provided by the user in order to provide real time feedback. In one aspect, a user can be guided by the system to make various selections and/or inputs, such as selecting between rolls or sheets, types of material, size/measurements, shape(s), color(s), and the like, in progressing stages of a customized label build, with a displayed graphic of a corresponding arrangement of labels being continuously updated instantly at each stage to visually reflect the user's input. Upon completion, the system can communicate with an industrial machine to build the labels for the user consistent with the input as depicted by the graphic.

In a system for building labels, such as adhesive-backed labels or tags produced on rolls or sheets for printing, an image or graphic of an arrangement of labels is displayed to a user and continuously updated in real time as parameters relating to construction of the labels are provided by the user in order to provide real time feedback. In one aspect, a user can be guided by the system to make various selections and/or inputs, such as selecting between rolls or sheets, types of material, size/measurements, shape(s), color(s), and the like, in progressing stages of a customized label build, with a displayed graphic of a corresponding arrangement of labels being continuously updated instantly at each stage to visually reflect the user's input. Upon completion, the system can communicate with an industrial machine to build the labels for the user consistent with the input as depicted by the graphic.

A system for labeling a reel of electrical components includes an automated robotic manipulator movable between a reel grasping position and a reel releasing position; a sensor positioned to scan a label on a reel as the reel is moved by manipulator from the reel grasping position to the reel releasing position, to gather initial reel information; a label generator configured to generate a new label with information based at least in part on the initial reel information; and a label actuator positioned to affix the new label to the reel as the reel remains held by the manipulator. The sensor may be a barcode scanner. The label generator may be a label printer. The label actuator may be a pneumatic actuator. The system may also have a stack of reels to be labeled. Also included is output receptacle to receive the reel after the new label is affixed.

A system for labeling a reel of electrical components includes an automated robotic manipulator movable between a reel grasping position and a reel releasing position; a sensor positioned to scan a label on a reel as the reel is moved by manipulator from the reel grasping position to the reel releasing position, to gather initial reel information; a label generator configured to generate a new label with information based at least in part on the initial reel information; and a label actuator positioned to affix the new label to the reel as the reel remains held by the manipulator. The sensor may be a barcode scanner. The label generator may be a label printer. The label actuator may be a pneumatic actuator. The system may also have a stack of reels to be labeled. Also included is output receptacle to receive the reel after the new label is affixed.