The invention relates to a double-side printable label suitable for machine readable labelling of food containers and a method for manufacturing such label, wherein the label is arranged to comprise a base paper made of chemical pulp that separates the face and reverse sides, the face side comprising a layer of temperature sensitive coating which free of bisphenol A and suitable for direct thermal printing, the reverse side comprising a layer of pressure sensitive adhesive, which is suitable for flexographic printing with ultraviolet curable inks, and wherein the machine readability of the label is improved by means of the pressure sensitive adhesive layer thickness having effect on the static sensitivity of the temperature sensitive coating of the label.

The invention concerns a linerless self-adhesive material obtained starting from a self-adhesive material with a liner, by means of a process that comprises the delamination of the liner from a self-adhesive layer, activation of the liner or self-adhesive layer, transferral of the liner over the self-adhesive layer and re-lamination of the two components so as to produce the linerless self-adhesive material. The liner or the self-adhesive layer is coated with a thermo-adhesive that allows for permanent lamination of the liner located on the self-adhesive layer.

The invention provides a heat-shrinkable film that has (1) a glass transition temperature (Tg) of 90-140° C.; (2) shrinkage of 12% or less in a main shrinkage direction when treated in glycerin at 80° C. for 10 seconds; (3) shrinkage of 12% or less in a direction orthogonal to the main shrinkage direction when treated in glycerin at 140° C. for 10 seconds; (4) shrinkage of 30%-80% in the main shrinkage direction when treated in glycerin at 140° C. for 10 seconds; (5) a tensile elongation at break of 10% or more both in the main shrinkage direction and the orthogonal direction after aging of 672 hours at 50° C. and 70% RH; and (6) a difference of 5% or less between shrinkage at 140° C. in the main shrinkage direction after aging of 672 hours at 50° C. and 70% RH, and shrinkage at 140° C. in the main shrinkage direction before the aging.

In some embodiments, a printed laminate comprises a first substrate having a first side and a second side, an ink layer at least partially adhered through direct printing to the first side of the first substrate, and a second substrate comprising a heat activatable adhesive and having a first side and a second side. The first side of the second substrate may be at least partially laminated to the second side of the first substrate.

This specification relates to a linerless label product intended for end uses having a short label-life and requiring manual handling, repositionability and/or removability together with lean sustainable and economical structure. A linerless label web (631, 741) comprising a direct thermal printable face (210, 630, 740) and a pressure sensitive adhesive (220) is provided. The linerless label web (631, 741) comprises the pressure sensitive adhesive (220) arranged in one or more machine-direction continuous stripes leaving one or more non-adhesive area(s) between said machine-direction continuous stripes in a cross direction of the linerless label web. A total coverage of the pressure sensitive adhesive (220) in the cross direction of the linerless label web is less than 70%, or less than 50%, or less than 30%. Further, a manufacturing method of a linerless label web (631, 741), a linerless label product roll (200) as well use of the linerless label web (631, 741) or the linerless label product roll (200) in on-demand printing for preparation and delivery of orders are provided.

A tag mounter (21) is provided for mounting a tag to an object by passing and tying a thread (23) through the object. A pipe unit (25) is configured to insert the thread (23) through it. A movement mechanism (29) is configured to move the pipe unit (25) toward a front direction and a rear direction. A gripper unit (27) is configured to grip the thread (23) inserted through the pipe unit (25) and exposed from a tip of the pipe unit (25). A driver unit (6) is configured to move the gripper unit (27) along a predetermined course. A thread tying mechanism (16) is configured to tie the thread (23) gripped by the gripper unit (27).

Paper is disclosed for use in making repositionable or removable adhesive labels. The adhesive can be applied in patches or discrete areas to the paper or to a layer of material that cleans rollers in the manufacturing line and/or in printers. The adhesive can be applied in single or multiple layers. The paper is light weight paper and preferably thermal paper for use in POS printers.

Paper is disclosed for use in making repositionable or removable adhesive labels. The adhesive can be applied in patches or discrete areas to the paper or to a layer of material that cleans rollers in the manufacturing line and/or in printers. The adhesive can be applied in single or multiple layers. The paper is light weight paper and preferably thermal paper for use in POS printers.

A device has a web feed and a sensor for detecting faulty and fault-free objects fixed to the web. A transposing device in a translation position can transfer a fault-free object onto the web. The transposing device can also, in a discharging position, transfer faulty objects into a bad-part receptacle. During discharging the transposing device brings about a discharging curvature in the web at a discharging point by way of a displacement means. While transferring the object the transposing device brings about a translation curvature in the web at a translation point by way of a displacement means. The transposing device is pivotable into a wrapping position in which a wrapping curvature of a wrapping portion of the web is brought about, which includes the translation point and the discharging point. The maximum value of the wrapping curvature is smaller than the discharging curvature and the translation curvature.

A label web and method utilize a substrate, first and second longitudinally spaced label arrays each including two or more double-sided adhesive labels removably attached to the substrate, and a peelable protective covering web extending generally coextensive with the substrate. The label arrays and the peelable protective web are configured such that the peelable protective web is selectively removable to expose the first label array while remaining removably attached to the second label array, with both the first and second label arrays remaining removably attached to the substrate, to thereby facilitate removal of all labels in the first label array as a group while the peelable protective covering web remains in place over the second label array.