A system moves items, like containers and/or pallets, through a label printing station. The station has a label printer that prints adhesive labels; and a robot arm terminating at a movable end with a suction pad or vacuum device and sensors. The station has sensors configured to measure a height of the item; and a processor coupled to receive the height of the item, to control the robot arm and label printer, and to receive label information from a server. The processor has a memory containing code that computes desired label positions based on height of the container/pallet. A method of labeling an item includes printing an adhesive label with the label information obtained from a server; receiving the adhesive label on a suction pad or vacuum device attached to a movable end of a robot arm, and determining a first labeling position from measured height of the container/pallet.

A label for a tube having a diameter D may have a transparent facestock. A printing area is defined on a first surface of the transparent facestock, the printing area configured to receive data thereon, the printing area covering only a portion of the transparent facestock, whereby a shielding portion of the length of the label is transparent. An adhesive layer is on a second surface of the facestock. A wireless communication inlay is adhered to the adhesive layer in a portion of the label corresponding to the printing area. The printing area and the facestock are sized for the shielding portion to overlap at least partially the printing area when the label is wrapped on a tube.

A label for a tube having a diameter D may have a transparent facestock. A printing area is defined on a first surface of the transparent facestock, the printing area configured to receive data thereon, the printing area covering only a portion of the transparent facestock, whereby a shielding portion of the length of the label is transparent. An adhesive layer is on a second surface of the facestock. A wireless communication inlay is adhered to the adhesive layer in a portion of the label corresponding to the printing area. The printing area and the facestock are sized for the shielding portion to overlap at least partially the printing area when the label is wrapped on a tube.

The present abstract relates to a patent of invention for a method for obtaining a tape (1) for self-adhesive, linerless leaflet labels, pertaining to the field of self-adhesive articles, comprising: 1)—Providing and unwinding a self-adhesive-material tape (20); 2)—Printing labels (4) and sensing marks (6) on the tape (3) of the tape (20); 3)—Applying an adhesion control layer (40) to the printed face of the tape (3), preferably comprised by laminating a BOPP-film tape; 4)—Delaminating the liner (10) from the tape (20); 5)—Inverting the position of the liner (10) in relation to the remaining tape of the self-adhesive-material tape (20); 6)—Applying a layer (50) of adhesive to the face of the liner (10) that includes Corona treatment (13), facing the tape (3); 7)—Drying the adhesive (50); 8)—Applying the leaflets (7) to the tape (3) in correspondence with respective labels (4); 9)—Relaminating the liner (10); 10)—Slitting the leaflet-label linerless self-adhesive tape (1) obtained; and 11)—Winding up the finished self-adhesive linerless leaflet-label tape (1) to form the reel (11).

The present abstract relates to a patent of invention for a method for obtaining a tape (1) for self-adhesive, linerless leaflet labels, pertaining to the field of self-adhesive articles, comprising: 1)—Providing and unwinding a self-adhesive-material tape (20); 2)—Printing labels (4) and sensing marks (6) on the tape (3) of the tape (20); 3)—Applying an adhesion control layer (40) to the printed face of the tape (3), preferably comprised by laminating a BOPP-film tape; 4)—Delaminating the liner (10) from the tape (20); 5)—Inverting the position of the liner (10) in relation to the remaining tape of the self-adhesive-material tape (20); 6)—Applying a layer (50) of adhesive to the face of the liner (10) that includes Corona treatment (13), facing the tape (3); 7)—Drying the adhesive (50); 8)—Applying the leaflets (7) to the tape (3) in correspondence with respective labels (4); 9)—Relaminating the liner (10); 10)—Slitting the leaflet-label linerless self-adhesive tape (1) obtained; and 11)—Winding up the finished self-adhesive linerless leaflet-label tape (1) to form the reel (11).

Printing systems may include a rotatable tamp head that may be repositioned, as necessary, in order to cause a label to be printed in a specific location or in a certain alignment on an object. Such tamp heads may be repositioned as necessary where the label may cross a seam, a crease, a fold or another surface feature which might cause the label to be bowed or damaged in transit. The tamp head may be positioned in a manner that would enable any information, markings or bar codes thereon to remain legible and intact even if the label is applied across such a surface feature. An orientation of the object may be determined using one or more sensors aligned at various angles with respect to a direction of travel of the object.

A print method using a printer module of a portable label printing/sticking machine, the portable label printing/sticking machine performing printing on each label piece of a continuous label formed by temporarily adhering a plurality of label pieces on a ribbon-shaped liner sheet and sticking the label pieces, wherein the printer module is first and second printer modules provided in at least two vertical stages, any one of the first and second printer modules being provided with an item print band across at least two columns, the other one of the first and second printer modules being provided with a data print band, and the print method includes printing a partitioning frame that partitions a print area of the label piece into four regions including upper left, upper right, lower left, and lower right regions on the label piece in advance; and printing on the four regions of the print area using the first and second printer modules.

A print method using a printer module of a portable label printing/sticking machine, the portable label printing/sticking machine performing printing on each label piece of a continuous label formed by temporarily adhering a plurality of label pieces on a ribbon-shaped liner sheet and sticking the label pieces, wherein the printer module is first and second printer modules provided in at least two vertical stages, any one of the first and second printer modules being provided with an item print band across at least two columns, the other one of the first and second printer modules being provided with a data print band, and the print method includes printing a partitioning frame that partitions a print area of the label piece into four regions including upper left, upper right, lower left, and lower right regions on the label piece in advance; and printing on the four regions of the print area using the first and second printer modules.

A labeling device for a syringe that includes a first labeling subsystem adapted to print a first label having machine readable information and a second labeling subsystem adapted to print a second label having human readable information is disclosed. The first labeling subsystem includes a label applicator adapted to automatically apply the first label to a portion of the syringe. The first labeling subsystem includes a syringe clamp assembly that securely holds the syringe while the label applicator automatically applies a first label to the syringe. The second labeling subsystem includes a removal device adapted to automatically remove a backing material from the second label.

A labeling device for a syringe that includes a first labeling subsystem adapted to print a first label having machine readable information and a second labeling subsystem adapted to print a second label having human readable information is disclosed. The first labeling subsystem includes a label applicator adapted to automatically apply the first label to a portion of the syringe. The first labeling subsystem includes a syringe clamp assembly that securely holds the syringe while the label applicator automatically applies a first label to the syringe. The second labeling subsystem includes a removal device adapted to automatically remove a backing material from the second label.