This disclosure relates generally to labels and, in some examples, to labels having identification tags and tamper evident pattern release layers and methods of producing such labels.
Labels may be affixed to packages, containers and/or products for identification and/or shipping purposes.
To clarify multiple layers and regions, the thickness of the layers are enlarged in the drawings. Wherever possible, the same reference numbers will be used throughout the drawing(s) and accompanying written description to refer to the same or like parts.
The examples disclosed herein relate to example brand protection and/or security labels produced in an in-line process. In some examples, the example labels are produced using label stock and/or a first layer, a tag and transfer tape and/or a second layer. In some examples, the label stock has tamper indicating and/or tamper evident properties such as, for example, a pattern release layer that enables indicia, a word and/or a symbol (e.g., the word “void”) to be visible if the label is tampered with (e.g., removed from the substrate/container to which the label is attached). In some examples, the tag is a radio-frequency identifier (RFID) tag and/or a near field communication (NFC) tag.
To produce the example labels disclosed herein, in some examples, label stock is unwound from a roller and an example tag is coupled to a first side of the label stock. In some examples, the first side of the label stock has a layer of first adhesive to which a second side of the tag is coupled. In some examples, transfer tape is coupled to the first side of the label stock and a third side of the tag opposite the second side. In some examples, a liner is coupled to the transfer tape opposite the tag and the label stock. In some examples, the transfer tape is a film between two layers of adhesive and/or opposing surfaces of second adhesive. The second adhesive may be stronger than the first adhesive to enable the tag to separate from the label stock and remain attached to the transfer tape if the label stock is removed from, for example, a product container and/or a shipping container to which the label stock was coupled. However, in other examples, to enable the tag to be voided and/or disabled if the label stock is removed from the product container and/or tampered with, first and second portions of the tag are configured to separate from each other such that the first tag portion remains coupled to the product and the second tag portion remains coupled to the label stock.
When the label (e.g., the label stock, the tag and the transfer tape) is removed from the liner and affixed to, for example, a container (e.g., a box, a shipping container, a pallet, a product container, etc.), the label may be used to authenticate the product and/or products within the container. For example, the product may be authenticated using a reader that identifies, obtains and/or retrieves information from the tag and/or by visually verifying that the label has not been tampered with. In other examples, the label may be used as a primary label directly affixed to a product (e.g., a bottle of sun tan lotion, shampoo, etc.), and may be similarly used for authentication purposes. Regardless of the product and/or container (e.g., substrate) to which the label is affixed, if the label stock is removed from the container (e.g., shipping container) to which the label is stuck and/or affixed after being removed from the liner, the label stock indicates that tampering has occurred. The label stock may visually indicate tampering by the release layer staying affixed to the substrate and separating from the label stock. In some examples, the label indicates that tampering has occurred by the label stock including a pattern in its adhesive or a breakaway coating that enables the label stock to separate from the adhesive and visually indicate tampering after the label stock is removed from the substrate (e.g., shipping container).
Additionally or alternatively, in some examples, the tag and the label stock separate as the label stock is removed from the container because the second adhesive bond and/or coupling between the tag and the container is stronger than the first adhesive bond and/or coupling between the tag and the label stock. Thus, once the label stock has been removed from the container, the tag remains coupled to the substrate via the second adhesive and/or the transfer tape.
Additionally or alternatively, in some examples, based on the configuration of the tag, as the label stock is removed from the container, the tag is physically altered, disabled and/or voided. In some such examples, to enable the tag to be altered, disabled and/or voided, the antenna of the example tags include a removable bridge that remains coupled to the antenna/tag if the label is not tampered with but is removed from the antenna/tag if the label is tampered with. For example, prior to the label being tampered with, the bridge connects a break in the antenna to enable the antenna and/or the tag to be operable for product authentication purposes. However, if the label stock is tampered with and/or when the label stock is removed from the container, the bridge is configured to detach from the antenna/tag and remain affixed to the label stock to re-create the break in the antenna and/or to disable and/or void the tag. In some examples, stronger adhesive (e.g., a spot coat) is included between the label stock and the removable bridge to substantially ensure that the label stock remains affixed to the bridge as the label stock is removed from the container.
In other examples, the example tags include lines of weakness to enable the tag and/or the antenna to be torn and/or a portion of the tag to be removed (e.g., removable tag portion) as the label stock is removed from the container and/or when the label is tampered with. In some examples, stronger adhesive (e.g., a spot coat) is included between the label stock and the removable tag portion to enable the label stock to remain affixed to the removable tag portion as the label stock is removed from the container. Additionally or alternatively, in some examples, a release layer is included adjacent the removable tag portion on the side of the tag adjacent the transfer tape. In some such examples, the stronger adhesive is on a first side of the tag adjacent the label stock and the release layer is on the second side of the tag adjacent the transfer tape.
In some examples, removing a portion of the tag and/or the bridge changes the antenna and causes the tag to respond to different frequencies and/or have different impedance and/or frequency responses. For example, after the antenna, chip and/or tag is altered (e.g., the bridge is removed), the antenna may be used to obtain information about the container, but may not be used to authenticate the product to which the remaining portion of the antenna is affixed.
In some examples, during operation, the first substrate mover 102 feeds one or more pieces of a first substrate 120 and/or a web of the first substrate 120 into the apparatus 100. In some examples, the first substrate 120 is label stock 121 having first adhesive and/or a pattern release layer 122 on a first side 124 thereof and indicia and/or an identifier (e.g., a Quick Response (QR) code) on a second side 125 thereof. The indicia may include brand-related images and/or text, advertisement related images and/or text, instructional images and/or text, etc. However, in other examples, the second side 125 may not include any indicia and/or an identifier.
In some examples, the second substrate mover 104 feeds one or more pieces of a second substrate 126 and/or a web of the second substrate 126 toward the cutter 114. In this example, the second substrate 126 has a plurality of tags (e.g., RFID tags, NFC tags, etc.) and/or inlays 128 coupled thereto.
In some examples, the printers 118 and/or 119 print a removable bridge on the antenna of the inlays 128. In such examples, prior to the printers 118 and/or 119 printing on the inlays 128, the antennas of the inlays 128 include a break that substantially prevents the antenna from being used for product identification purposes. However, to close the break and form a removable bridge, the first printer 118 may print a release layer (e.g., a silicon release layer) on the break and the second printer 119 may print the removable bridge over the release layer. Thus, the bridge covers the break in the antenna enabling the antenna to be used for product identification purposes. In other examples, the printer(s) 118 and/or 119 may be used to print all and/or substantially all of the antenna (e.g., an RFID antenna) on the first side 124 of the first substrate 120. In some such examples, the apparatus 100 includes a chip positioner that positions a chip (e.g., an RFID chip, a NFC chip) on the first side (e.g., adjacent the antenna).
In examples in which the inlay 128 includes the removable bridge, the gluer 115 may apply adhesive (e.g., a relatively strong adhesive, spot coating) to the first side 124 of the first substrate 120 adjacent to where the bridge is to be positioned. Thus, if the label stock 121 is tampered with and/or removed from a container to which the label is affixed, the bridge remains coupled to the label stock 121 and separates from the remaining antenna/inlay 128 to enable the inlay 128 and/or the associated antenna to be voided and/or destroyed.
In some examples, the cutter 114 cuts the second substrate 126 to separate the inlays 128 from each other. Additionally or alternatively, in some examples, the cutter 114 forms one or more lines of weakness (e.g., die cuts, slits, etc.) in the inlays 128 to enable a portion of the inlays 128 to be removed and/or torn if the associated label is tampered with. In examples in which the inlay 128 includes the lines of weakness, the gluer 115 may apply adhesive (e.g., relatively strong adhesive, spot coating) to the first side 124 between where the lines of weakness are to be positioned. Thus, if the label stock 121 is tampered with and/or removed from a container to which the label is affixed, the removable tag portion (e.g., the portion of the tag between the lines of weakness) remains coupled to the label stock 121 and separates from the remaining antenna/inlay 128 to enable the inlay 128 and/or the associated antenna to be voided and/or destroyed.
In some examples, the vacuum cylinder 110 moves the separated inlays 128 toward and couples, positions, drops and/or places each inlay 128 onto the first side 124 of the first substrate 120 a spaced distance from one another as the first substrate 120 moves in a direction generally indicated by arrow 129.
In some examples, the third substrate mover 106 feeds one or more pieces of a third substrate 130 toward the first substrate 120 having the inlays 128 coupled thereto. In some examples, the third substrate 130 is transfer tape 134 having a liner layer 135 coupled thereto.
The cutter 116 may then cut the first substrate 120 and/or the third substrate 130 to separate the labels from one another. In some examples, the cutter 116 kiss-die cuts through the first substrate 120 and the transfer tape 134 to enable the label (e.g., at least a portion of one or more of the first substrate, the inlay 128 and the transfer tape 134) to be removed from the liner 135. In some examples, the cutter 116 forms a line of weakness (e.g., a perforation, a score, a cut) between the labels to enable the labels to be separated from one another. After the cutter 116 kiss-die cuts through the first substrate 120 and the transfer tape 134, the waste matrix remover 117 may remove a waste matrix 136 formed. However, in examples in which the cutter 116 does not kiss die-cut through the first substrate 120 and the transfer tape 134, the waste matrix remover 117 may not be provided. In some examples, the fourth substrate mover 108 may receive a web 138 of formed labels and wind the web 138 for shipment and/or packaging.
In practice, if the label stock 311 to which the inlay 804 is coupled is removed from the container 602, as described above, the release layer 902 enables the bridge 1002 to separate from the antenna portions 808, 810 such that the bridge 1002 remains coupled to the label stock 311 while the remainder of the inlay 804 remains coupled to the container 602. Thus, in such examples, if the label (e.g., 304) is tampered with, the bridge 1002 is removed from the antenna 802 providing the break 806 in the antenna 802 and preventing the antenna 802 from operating as intended. For example, removing the bridge 1002 may prevent the antenna 802 from functioning to authenticate goods and/or cause the antenna 802 to operate at a different frequency. In some examples, adhesive (e.g., a relatively strong adhesive) is provided between the label stock 311 and the bridge 1002, via the gluer 115, to substantially ensure that bridge 1002 remains coupled to the label stock 311 if the label stock 311 is removed from the container 602.
In practice, if the label stock 311 to which the inlay 1102 is coupled is removed from the container 602, as described above, the coupling between the removable portion 1110 and the label stock 311 causes the removable portion 1110 to be separated from the surrounding inlay 1102 along the lines of weakness 1104 and/or 1106 while the remainder of the inlay 804 remains coupled to the container 602. Thus, in such examples, if the label (e.g., 304) is tampered with, the inlay 1102 is torn along the lines of weakness 1104, 1106, which tears the antenna 1108 and prevents the antenna 1108 from operating as intended. In some examples, adhesive (e.g., a relatively strong adhesive) is provided between the label stock 311 and the removable portion 1110, via the gluer 115, to substantially ensure that the removable portion 1110 remains coupled to the label stock 311 if the label stock 311 is being removed from the container 602. While
While an example manner of implementing the apparatus 100 of
A flowchart representative of example machine readable instructions for implementing the apparatus 100 of
As mentioned above, the example processes of
At block 1204, the vacuum cylinder 110 couples, places and/or drops the separate inlays 128 on the first side 124 of the first substrate 120 moving in the direction generally indicated by arrow 129 (block 1204). At block 1206, the third substrate mover 106 unwinds the transfer tape and/or third substrate 130 and couples and/or mates the third substrate 130 over the first side 124 of the first substrate 120 and the inlay 128 such that the transfer tape 134 is positioned immediately adjacent the inlay 128 between label stock 121 of the first substrate 120 and the liner layer 135 (block 1206). At blocks 1208, 1210, the cutter 116 cuts and/or kiss-die cuts the first substrate 120 and the transfer tape 134 to form the outline of the labels 304, 306, 308, 310, 402 and/or forms lines of weakness 312, 314, 316 in the liner layer 135 to separate the labels 304, 306, 308, 310, 402 from one another (block 1208, block 810). At block 1212, the waste matrix remover 117 removes the waste matrix 136 formed by the processes performed by the cutter 116 and at block 1214 the fourth substrate mover 108 winds the formed labels and/or web of formed labels for shipping and/or packaging (block 1212, block 1214).
The system 1300 of the instant example includes a processor 1312. For example, the processor 1312 can be implemented by one or more microprocessors or controllers from any desired family or manufacturer.
The processor 1312 includes a local memory 1313 (e.g., a cache) and is in communication with a main memory including a volatile memory 1314 and a non-volatile memory 1316 via a bus 1318. The volatile memory 1314 may be implemented by Synchronous Dynamic Random Access Memory (SDRAM), Dynamic Random Access Memory (DRAM), RAMBUS Dynamic Random Access Memory (RDRAM) and/or any other type of random access memory device. The non-volatile memory 1316 may be implemented by flash memory and/or any other desired type of memory device. Access to the main memory 1314, 1316 is controlled by a memory controller.
The computer 1300 also includes an interface circuit 1320. The interface circuit 1320 may be implemented by any type of interface standard, such as an Ethernet interface, a universal serial bus (USB), and/or a PCI express interface.
One or more input devices 1322 are connected to the interface circuit 1320. The input device(s) 1322 permit a user to enter data and commands into the processor 1312. The input device(s) can be implemented by, for example, a keyboard, a mouse, a touchscreen, a track-pad, a trackball and/or a voice recognition system.
One or more output devices 1324 are also connected to the interface circuit 1320. The output devices 1324 can be implemented, for example, by display devices (e.g., a liquid crystal display, a cathode ray tube display (CRT). The interface circuit 1320, thus, typically includes a graphics driver card.
The interface circuit 1320 also includes a communication device such as a modem or network interface card to facilitate exchange of data with external computers via a network 1326 (e.g., an Ethernet connection, a digital subscriber line (DSL), a telephone line, coaxial cable, a cellular telephone system, etc.).
The computer 1300 also includes one or more mass storage devices 1328 for storing software and data. Examples of such mass storage devices 1328 include floppy disk drives, hard drive disks, compact disk drives and digital versatile disk (DVD) drives. The mass storage device 1328 may implement a local storage device.
The coded instructions of
From the foregoing, it will appreciate that the above disclosed methods and apparatus and articles of manufacture describe labels having tags and/or pattern release layers that enables a product to which the label is attached to verified for authenticity and/or to substantially identify any tampering therewith. In some examples, the labels include label stock, transfer tape and a chip positioned between the label stock and the transfer tape and/or a voidable tag (e.g., an RFID tag). To substantially prevent the label from being removed from, for example, a product and affixed to another product, the label stock has a pattern release layer that voids if removed (e.g., visual identifier). To substantially prevent the label from being removed from, for example, a product and affixed to another product, first adhesive of the label stock coupled to the tag is not as strong as second adhesive of the transfer tape. Thus, if the label stock is removed from the product to which it is attached, the difference in first and second adhesive strengths enables the tag to remain attached to the transfer tape and for the tag to separate from the label stock. In some examples, the tag is part of an inlay. In other examples, the tag and/or its chip and/or its antenna are placed and/or printed directly on the label stock and/or the transfer tape.
Although certain example methods, apparatus and articles of manufacture have been described herein, the scope of coverage of this patent is not limited thereto. On the contrary, this patent covers all methods, apparatus and articles of manufacture fairly falling within the scope of the claims of this patent.