A method of printing and applying a label to an item moving in a conveyance direction along a conveyance path involves: utilizing a print and labeling assembly that includes a label stock path that feeds label stock past a printer to print on a label of the label stock to produce a printed label that is dispensed in a first direction onto a label applying belt that moves in a second direction, wherein the first direction is substantially perpendicular to the second direction such that the printed label moves onto the label applying belt from a lateral side of the label applying belt; and the label applying belt moves the printed label into position to engage with the item as it moves along the conveyance path. A label print and apply system and apparatus is also provided.

A printing apparatus includes a casing, an optical sensor, a second light receiving portion and an adjustment part. The optical sensor includes a light emitting portion and a first light receiving portion. The optical sensor is provided at a position in the vicinity of the outlet and located within a conveying region. The conveying region is an area through which the print medium passes. The second light receiving portion is provided in the vicinity of the optical sensor and positioned outside the conveying region where external light is perceivable. The adjustment part is configured to adjust a sensitivity in the detection of the presence of the print medium by the first light receiving portion. Adjustment of the sensitivity of the first light receiving portion is performed based on an intensity of the external light received at the second light receiving portion.

An object can be heat-shrinkable packaged by placing an object inside of heat-shrinkable film, sealing the heat-shrinkable film around the object to form a heat-shrinkable package, coupling a first portion of a label to the heat-shrinkable package, and causing the heat-shrinkable film to shrink into heat-shrunk film and the heat-shrinkable package to form into a heat-shrunk package. The label includes an identifier on a second portion of the label. The label remains coupled to the heat-shrunk film after the heat-shrinkable film is caused to shrink into heat-shrunk film. The second portion of the label remains substantially undeformed after the heat-shrinkable film is caused to shrink into heat-shrunk film.

A label printing system and method are generally provided. The label printing system may be optimized for deployment at a user location. The label printing system may comprise a label print engine configured to receive a formatted digital data related to a label and print the related label on media. The label printing system may further comprise a finishing machine configured to receive a printed label from the label print engine and perform a finishing task on one or more printed labels. A central processor may be connected to the label print engine and the finishing machine and configured to send label print and finishing information to the label print engine and the finishing machine respectively. A user portal may be connected to the central processor. The user portal is configured to send an art file related to a label to be printed to the central processor. The central processor is configured to receive the art file and generate a formatted digital data based on the art file to be sent to the print engine for printing of a label.

Disclosed by the present invention is a device for embedding electronic tag, which comprises: a tag separating unit configured to separate an electronic tag from a base film; a tag conveying unit configured to transmit the electronic tag to a setting position; and a tag grasping placing unit configured to grasp and attach an electronic tag. As an electronic tag being implanted on a product, firstly separating the electronic tag to be placed from the base film thereon by the tag separating unit, then grasping the separated electronic tag by the tag grasping placing unit, then transmitting the tag grasping placing unit to a setting position by the conveying unit, then attaching the electronic tag on the device by the tag grasping placing unit, that means the completion of the entire process of placement. During which, the actions of separating, grabbing, transmitting and placing are all realized automatically. In comparison with manual work, the present invention could not only improve production efficiency, but also reduce the risks of omission and misplacement, thereby improving the product quality.

A label-affixing machine affixes a label, which is conveyed by a label conveying body, to the back surface of a product being conveyed. The label-affixing machine includes a label holding unit configured to hold a label so that an adhesive surface of the label faces outward, a pressing mechanism configured to press a label conveying body, which is disposed on a side facing the label holding unit, against the adhesive surface of the held label by moving the label conveying body toward the label holding unit, and a controller that controls the drive of the label conveying body and the pressing mechanism to affix the label to the back surface of the product.

The present invention has an object to provide a drug packaging device including a printing unit configured to perform printing by jetting ink and being capable of performing the printing on a packaging paper with high printing quality without including a support base or the like for the packaging paper. A drug packaging device (10) includes a drug supply unit (20), a packaging unit (30), a packaging paper conveying unit (40), and a printing unit (60). The printing unit (60) includes an ink ejection unit (62) capable of ejecting ink downward. A conveyance path (T) of the packaging paper conveying unit (40) includes: an intersecting-direction conveyance section (T1) for conveying a packaging paper (S) in a direction intersecting an ejection direction of the ink; and a first conveyance direction switching section (46) and a second conveyance direction switching section (48) for changing the conveyance direction of the packaging paper (S) on upstream and downstream, respectively, of the intersecting-direction conveyance section (T1) in a conveyance direction of the packaging paper (S). The ink ejection unit (62) is arranged at a position spaced apart upward from the intersecting-direction conveyance section (T1) by a predetermined distance.

A safety lifting device for positioning a labelling unit in a vertical direction (Z) in relation to a flow of objects where the labelling unit is arranged for printing labels and/or applying labels to the objects. The lifting device includes a linear actuator, a balancing unit, a drive unit connected to the linear actuator, and a movable section. The labelling unit is connected to the movable section. The linear actuator is connected to the movable section and arranged to control the position of the labelling unit. The balancing unit is arranged to counterbalance the gravitational force exerted on the linear actuator. The movable section of the lifting device includes an upper stand unit, and the lifting device further includes a lower stand unit. The upper stand unit is movably arranged in relation to the lower stand unit in the vertical direction.

An object can be heat-shrinkable packaged by placing an object inside of heat-shrinkable film, sealing the heat-shrinkable film around the object to form a heat-shrinkable package, coupling a first portion of a label to the heat-shrinkable package, and causing the heat-shrinkable film to shrink into heat-shrunk film and the heat-shrinkable package to form into a heat-shrunk package. The label includes an identifier on a second portion of the label. The label remains coupled to the heat-shrunk film after the heat-shrinkable film is caused to shrink into heat-shrunk film. The second portion of the label remains substantially undeformed after the heat-shrinkable film is caused to shrink into heat-shrunk film.

A container labeling machine, which comprises a base structure which forms a region for the input of the containers to be labeled and at least one region for the output of the labeled containers and supports elements for the conveyance of the containers from the input region to the output region, at least one container labeling assembly being provided along the conveyor; the conveyor comprises at least two carousels provided with respective supporting plates for individual containers. At least one respective labeling assembly is associated with each one of the carousels. The conveyor furthermore comprises, substantially at the input region, elements for sorting the containers fed to the input region toward one and the other of the carousels and comprises elements for unloading the labeled containers from the carousels and for sending the labeled containers toward the output region.