Methods for forming high shrink wrap label sleeves directly from a roll are disclosed herein. A seaming agent is applied to the label, where the trailing edge will overlap the leading edge to form a seam. The seaming agent is then exposed to radiation to cure the seaming agent and form a sleeve. The label comprises a film with at least one external layer that has a Hildebrand solubility parameter, and the seaming agent includes a component having a Hildebrand solubility parameter that is within 2.2 MPa.sup.1/2 or within 4.4 calories.sup.1/2.Math.cm.sup.−3/2 of the Hildebrand solubility parameter of the external layer of the film. The seaming agent also has a viscosity of at least 1 centipoise and less than 1000 centipoise when measured at any temperature between ambient temperature and 60° C.

A labelling machine comprises a supply spool support for supporting a spool of label carrying web, a labelling station arranged to remove labels from a label carrying web supported by the supply spool, a take up spool support for supporting web from which labels have been removed, and a first motive apparatus for transporting web from the supply spool support to the take up spool support via the labelling station. The supply spool support, the labelling station and the take up spool support are mounted to a base plate. The base plate includes a first portion which supports the labelling station via a base of the labelling station such that the labelling station extends from the base plate in a first direction, and a second portion. The maximum distance to which the second portion and any component supported by the second portion extend from the base of the labelling station in a second direction is greater than the maximum distance to which the first portion and any component supported by the first portion extend from the base of the labelling station in the second direction, the first and second directions being generally opposite.

A labelling machine comprises a supply spool support for supporting a spool of label carrying web, a labelling station arranged to remove labels from a label carrying web supported by the supply spool, a take up spool support for supporting web from which labels have been removed, and a first motive apparatus for transporting web from the supply spool support to the take up spool support via the labelling station. The supply spool support, the labelling station and the take up spool support are mounted to a base plate. The base plate includes a first portion which supports the labelling station via a base of the labelling station such that the labelling station extends from the base plate in a first direction, and a second portion. The maximum distance to which the second portion and any component supported by the second portion extend from the base of the labelling station in a second direction is greater than the maximum distance to which the first portion and any component supported by the first portion extend from the base of the labelling station in the second direction, the first and second directions being generally opposite.

A tensioning control device having a first motor that applies a torque to a first end of a substrate in a first direction and a second motor that applies a torque to a second end of the substrate in a second direction that is generally opposite the first direction is disclosed. In this manner, the first motor and the second motor apply torque to the substrate in opposing directions, thereby placing the substrate in tension. In one embodiment, the first motor applies a torque to the first end of the substrate that is equal to the torque applied to the second end of the substrate by the second motor. By placing the substrate in tension in this manner, an actuator is able to incrementally move the substrate in a forward direction and a backward direction independent of the tension applied to the substrate.

Systems and methods for applying decorations from a web onto substrates are disclosed. According to some aspects, a decoration may be transferred from the web directly to a substrate based on contact of the substrate with an adhesive of a portion of the decoration while the portion of the decoration is attached to the web.

A label processing apparatus including a head configured to cause a wire pin to move toward and away from a label medium for performing processing on the label medium, a first wall member located at a position in a first direction from the transport path surface including a first communication hole communicating with outside, and a fan configured to blow air onto a ventilation region including a region located at the head side of the first surface in the transport direction, and to then cause the air to be discharged to the outside through the first communication hole.

A method for moving to a reference feed position of a label tape with respect to a dispensing edge of a container labeller and a corresponding device is described. The label tape may be first pulled back beyond the reference feed position by rewinding to its supply roller and then conveyed in the normal feed direction to the reference feed position prevents unwanted detachment of labels at the dispensing edge as a result of the label tape unwinding from the supply roller as well as the use of pusher roller systems upstream of the dispensing edge.

A method is described herein for attaching an adhesive label to a plastic object such that upon removal of the adhesive label substantially no adhesive residue is left-behind on the plastic object. In an example, the method can include applying a textured pattern to a portion of a plastic object to provide a textured surface on the plastic object. The textured pattern can be applied post molding of the plastic object. The method can include attaching to the textured surface an adhesive label.

An apparatus for labeling support structures includes: a chassis having a locomotive assembly, and supporting a label generator and an effector assembly with an end movable relative to the chassis and carrying a label manipulator with an image sensor; a controller coupled to the locomotive assembly, label generator, effector assembly and label manipulator, and configured to: obtain label placement data defining a location relative to a support structure reference feature for replacement of a previous label with a new label; control the locomotive assembly to travel to the support structure; detect the reference feature via image data captured at the image sensor; control the effector assembly to place the label manipulator at the location relative to the reference feature; control the effector assembly and the label manipulator to remove and discard the previous label, retrieve the new label from the label generator, and place the new label at the location.

A die cutting method that cuts patterns in a label is provided. According an embodiment, a method adjusts temperature of a label sheet comprising a laminated layer and a liner layer. The method further separates the laminated layer from the liner layer prior to making the cuts on the laminated layer. The method further cuts one or more patterns on the laminated layer. The method further re-attaches, the laminated layer to the liner layer.