An improved method for molding a plastic container within a mold including an RFID tag to generate a container which leaves a mold having an RFID tag bonded between the container and a label. This method provides for an improved integrally, extrusion blow molded container, label and RFID tag combination.

A security tag (100) for attachment to an item comprises a pair of flat panels (102, 104) joined together by a flexible hinge (106). Each panel (103, 104) has an inner surface and an outer surface. The panels are foldable about the flexible hinge with the inner surfaces of the panels abutting each other. One panel has a retainer (112) for a flexible tie of plastics material and the other panel has an orifice (116) in alignment with the retainer (112). The security tag (100) can only be removed by breaking the plastics tie.

A security tag (100) for attachment to an item comprises a pair of flat panels (102, 104) joined together by a flexible hinge (106). Each panel (103, 104) has an inner surface and an outer surface. The panels are foldable about the flexible hinge with the inner surfaces of the panels abutting each other. One panel has a retainer (112) for a flexible tie of plastics material and the other panel has an orifice (116) in alignment with the retainer (112). The security tag (100) can only be removed by breaking the plastics tie.

A fiber Bragg grating (FBG) security component for single-party and multi-party monitoring is provided. The security component includes an optical fiber having a plurality of Bragg gratings. The Bragg gratings provide a spectral response that is randomized based on the manufacture of the security component. For single-party use, the spectral response provides a reproducible spectral signature when interrogated with an optical signal. For multi-party use, each party applies a known optical interrogation signal to the security component and applies an external stress known only to the respective monitoring party. The resulting shift in the spectral signature is unique to each monitoring party, making it extremely difficult to successfully counterfeit the security component's response for all such parties.

A method of making a pad of labels comprises: printing display information on a top surface of a substrate; affixing a first layer of lamination material to a bottom surface of the substrate; affixing a second layer of lamination material to the top surface of the substrate, the second layer of lamination material having a release coating applied to a top surface thereof; applying an adhesive strip to a bottom surface of the first layer of lamination material, the adhesive strip being covered by a liner material; cutting the substrate having first and second layers of lamination material affixed into at least one label; removing the liner material to expose the adhesive strip after cutting the substrate into at least one label; and arranging the labels into a pad of labels.

An apparatus for arranging an electronic data carrier on a component of a fluidic system is proposed. The apparatus includes the electronic data carrier. An insert is provided that can be inserted into a main body, which insert, in a first position with respect to the main body, vacates a release space in order for at least one cable portion of a cable to be introduced. In a second position with respect to the main body, the insert secures itself and the at least one cable portion to the main body such that they cannot be pulled out.

The invention relates to a peel detection label that is a laminate including a support, a pattern layer formed in a part of the surface of the support, and a pressure-sensitive adhesive laminate having at least a low modulus layer (X), a high modulus layer (Y) and a pressure-sensitive adhesive layer (Z) in that order, in which the low modulus layer (X) has an n-layered structure (where n is an integer of 1 to 10) having a surface in contact with the support and the pattern layer and a surface in contact with the high modulus layer (Y), and the low modulus layer (X) satisfies a specific thickness-average shear storage elastic modulus.

An anti-theft assembly for deterring theft of a ring is provided. The anti-theft assembly includes a base that can be used to support an electronic article surveillance marker; a product engagement member including a support member that supports the ring during use and a locking member that secures the support member to the base; and an attachment member for securing the ring to the support member. In one embodiment, the support member and the locking member are a single, unitary member. In another embodiment, the support member and the locking member are separate members. Once assembled, upon applying a twisting force to the ring the engagement member rotates within the opening so that the attachment member is not broken.

A tamper-evident security device including a first part comprising an optically transparent layer including an array of separate optical focussing elements. A second part comprises an array of separate image elements collectively defining an image viewable through the first part. Each of the optical focussing elements is positioned to reveal therethrough a view of one or more of said image element(s). An optically transparent adhesive layer between the first part and the second part which retains the optical focussing elements so positioned with respect to the image elements thereby in cooperation to reveal the image. The first part is mechanically separable from the second part by release of the adhesive layer to cease the cooperation.

The invention relates to a method for selecting a face material for a printable label and to a printed label comprising the face material, which is selected by the method. According to an embodiment the method comprises preselecting steps, printing step(s) comprising printing of the preselected face materials using printing method(s) providing a human-readable information and a machine-readable information, evaluating steps, and a final selecting step comprising selecting of the face material, which comprises the human-readable information exhibiting a halftone resolution at least 30 L/cm and the machine-readable information exhibiting final data area module size less than 1.0 mm.