DE102004019071A1 - Method and device for recording on smart labels (RFIDs) - Google Patents

Abstract

The present invention relates to a method and an arrangement for recording information on an intelligent label, such as an RFID, with a transmission device (130) for the wireless transmission of the information onto the intelligent label within an effective spatial transmission range and a shielding device (80). for limiting the spatial transmission range by targeted attenuation of the transmission energy at a predetermined position on a conveying path of the intelligent label. As a result, an improved identification of individual labels and increased flexibility in different label formats can be achieved. Both the transfer device (130) and the shielding device (80) may be adjustable in position substantially along the conveyance path of the smart label.

Description

The The present invention relates to a method and an arrangement for recording on smart labels (smart labels or RFIDs) according to the preamble of the claims 1 and 10.

RFID (Radio Frequency Identification) is a technology that is being developed was due to increasing automation in production processes and the high demands made of it to the identification of objects. In RFID technology will be in the usual form Information printed on a label, but also at the same time on a small chip, such as a passive transponder without own power supply, by means of a radio or radio frequency supplementary information saved later read or overwritten can be. These so-called "Smart Labels "or intelligent Labels work with a standardized frequency, such as 13.56 MHz or any other approved lower or higher frequency in the range of about 100kHz to several GHz, and can quasi be applied to all objects. The further processing of the intelligent Labels are basically like normal labels. The transponder and an associated one Antennas are, for example, laminated into the label, and are therefore present damage protected.

at the smart label that in addition to Smart Label sometimes directly referred to as "RFID", it can generally be any device or arrangement by a wireless or wireless guided signal, such as a radio frequency signal or the like., About a distance can be detected, with the detection on one Reflection or repeated transmission of the wireless signal based. The dimensions of the smart label are more common Small and its shape may be flat, beaded, dripping, nailed, or be wire-like, so it's in or on materials such as. Paper or cardboard can be applied or applied.

Around Using RFID technology will become various components needed. These components include next to the smart label or Smart Label as a disk also readers (Reader) as well as specially equipped RFID printers, in which, for example, based on a standard label printer a read / write unit in addition is integrated, for example, by a manufacturer specified Control program (firmware) of the printer.

RFID systems work generally on the principle of inductive coupling, being as possible high proportion of high-frequency magnetic generated in a transmitting coil of the reading or writing unit Field through a receiving coil of the existing in the intelligent label Transponders are flowing should. The receiving coil through-flowing portion of the magnetic Felds then induces a current in the receiver coil, which comes from the flowing in the transmitting coil and the magnetic field generating current is dependent. Thus there is a coupling between the transmitting coil and the receiving coil. RFID systems with passive transponders are typically in the near field of the transmit coil operated, i. up to a distance of □ / 2 □ (where □ is the wavelength indicates), since here the strength of the magnetic field is still sufficient for the energy supply of the Transponders of the smart label. This corresponds, for example, one Distance of about 3.5m at a frequency of 13.56 MHz.

The RFID technology is used, for example the intelligent management of large warehouses, transport logistics from the manufacturer to the end customer as well as luggage tracking, e.g. used at airports. Applications in libraries and shorten libraries the registration time, or leave at very high quality products to provide security information as protection against plagiarism.

To the diverse ones Advantages of RFID technology count et al the identification without direct contact, with the distance between smart label and reader typically up to a few meters can amount. Furthermore, a line of sight to the intelligent Label not required, so that the objects to be identified no longer need to be aligned or not more than one reader to capture all possible Positions needed become. Even hidden objects can thus be detected. Furthermore, you can several objects are detected simultaneously, this so-called Bulk-Read-operation is enabled by an anti-collision function in the reader. This means that, for example, incoming and outgoing goods no longer laboriously unpacked and have to be read in one by one, but can be completely recorded directly in the shipping unit. When another advantage Data stored on the object and changed again, leaving a single intelligent label for example for the entire logistic Process can be used and thus a Umetikettierung is obsolete.

As already mentioned, the production of the intelligent label takes place in specially equipped printers (RFID printers) in which the intelligent labels are printed and coded by storing or writing with variable information. In the RFID printers, a label stock is provided with "blank" or blank labels that form a band-shaped label web can and each have a blank RFID chip. RFID printers are operated in the same way as conventional label printers when applying labels from barcodes, graphics and / or texts, but have additional RFID coding and reading units. Before printing the label, the smart tag is encoded with the RFID data, whereby the RFID data used for the encoding is selected depending on the application and automatically managed by system software. After coding, the intelligent label for verification of the coding process can be read out. The smart label is then forwarded to the printing process. If a faulty coding process is detected, the intelligent label can be marked as reject by error information. The substrates used for the smart labels can be flexible, so that the print head of the printer is not damaged. By using a thicker carrier material or by avoiding the printing on the RFID chip, an influence on the print quality due to unevenness by introducing the RFID chip can be avoided.

RFID printer However, have a limited Usability for different format sizes smarter Labels on. In the sequential coding and verification the individual labels on the label web can on the one hand an influence the reading or writing of a current label due to noise adjacent labels occur if the effective communication area the read / write unit recorded several labels. As a result, for example, the identification of individual smart labels be difficult. On the other hand introduces too small communication area to a shortened access time, so that the amount of data transferable between the label and the read / write unit is too small is. To have to thus different RFID printers for different label formats to be provided.

to solution the above-mentioned problem discloses the document JP2004082432A an RFID recording arrangement of the type mentioned with at least two read-write units that have at least two corresponding ones Define communication areas of different dimensions. Dependent on the amount of data or label format to be written one of the at least two read / write units and a suitable one conveyor speed the label web selected.

It Object of the present invention, a method and an arrangement to provide for recording on smart labels the one flexible and reliable Use for different label formats can be ensured.

The Task is solved by an arrangement according to claim 1 and a method according to claim 10th

By the shielding means is an improved identification of individual ones Labels and an elevated flexibility reachable with different label formats. Both the transmission device as well as the shielding device may also be in position essentially in the longitudinal direction of the conveying path the intelligent label be adjustable.

advantageous Trainings are in the dependent claims Are defined.

The Invention will be described below with reference to a preferred embodiment explained in more detail with reference to the drawing figure, in which a schematic Section view of a smart label recording assembly is shown.

at the one in the drawing figure in side section and horizontal orientation The recording arrangement shown is, for example, a RFID printer, the in a corresponding printer housing with Etikettenaustrag (not shown) and (also not shown) operating unit to make desired Manual settings can be arranged by an operator can. In the figure, only the description of the present Invention required components of the recording arrangement shown.

A label web stocked on or in the recording device 70 is, for example, from a receiving roller (not shown) or other storage means by means of a, inter alia, a transport roller 30 and pressure rollers 40 driven conveying means for conveying and passes in the downstream direction, first a shielding unit 120 , then a read / write unit 130 with material guide 50 and finally a printing unit with printhead 10 and pressure roller 20 , For a more detailed description of the conventionally executed printing unit will be omitted here.

According to the preferred embodiment, the shielding unit 120 provided, which serves the electromagnetic or magnetic shielding subsequent labels of the label web, so that a read or write operation of an RFID chip in the material guide 50 of the Read / write unit 130 the following labels on the label web 70 unaffected. When writing or reading is in an RFID antenna arrangement 60 , which may be formed, for example, as a arranged in a housing loop with one or more windings, generated by the course of the write or read signal corresponding excitation current, a magnetic field, which provided in the to be described intelligent label in the plane of the label web For example, loop-shaped antenna arrangement (not shown) flows through at least partially, thereby causing the magnetic coupling required for writing or verifying reading. As shown in the figure, the loop of the RFID antenna arrangement is also 60 the read / write unit 130 in one to the level of the label web 70 arranged parallel plane, whereby a maximum magnetic coupling is achieved.

The shielding effect of the shielding unit 120 is based on an electrical or magnetic short circuit, which is caused by a shielding wall arranged substantially perpendicular to the plane of the figure 80 of magnetically and / or electrically shielding material, preferably a good electrically conductive material, such as carbon fiber or metal, or a readily magnetizable material with high magnetic permeability. This leads, for example, to a concentration of the magnetic field lines in the shielding wall 80 leads. As a result, the density of the magnetic field lines and thus the strength or energy of the RFID antenna arrangement 60 caused magnetic field upstream of the shield 80 significantly reduced, allowing an influence on or through the upstream in front of the shielding wall 80 located labels is avoided. Thus, a targeted attenuation of the transmission energy of the magnetic field takes place at a predetermined position on the conveying path of the intelligent label. The communication area of the read / write unit 130 can therefore be optimized in its size without affecting the subsequent labels.

The shielding wall 80 Can be used as a solid plate with through opening for the label web 70 or as a grid arrangement with preferably substantially perpendicular to the plane of the label web 70 be formed running grid pattern. As an alternative, the shielding wall 80 As a flexible brush structure, for example, be formed with carbon fiber brushes, which is, for example, attached in a metal frame, so that can be dispensed with the passage opening, and the label tape 70 due to the flexibility of the brush ends can be passed through the brush structure.

According to an advantageous development shown in the figure, the shielding 80 by an adjusting device with adjusting rollers 90 and adjustment guides 100 in the horizontal direction, ie parallel to the conveying direction of the label web 70 moved and thus adjusted in their position. Thus, the communication range of the read / write unit 130 in size in a direction parallel to the conveying direction of the label web 70 be changed so that a flexible adaptation of the communication area to different label formats is possible. Of course, the adjusting device may also have any other adjusting mechanism for enabling a substantially horizontal displacement of the position of the shielding wall 80 ,

As an alternative or optional additional adjustment or adjustment possibility, the RFID antenna arrangement 60 preferably substantially parallel to the conveying direction of the label web 70 by means of adjusting rollers 110 or an alternative adjustment mechanism to be displaced. The adjustment can thereby including the material guide 50 take place, if this with the RFID antenna arrangement 60 essentially rigidly coupled. In a combined use of the adjustment mechanism of the RFID antenna assembly 60 and the adjustment mechanism of the shield 80 a high degree of flexibility with regard to the adaptation of the communication range to different label formats can be achieved. Of course, the adjustment mechanisms are also used separately.

In summary, the provision of the shielding wall 80 for improved identification and writing of individual smart labels. Due to the adjustability of the shielding wall 80 and / or the RFID antenna arrangement 60 For example, greater flexibility can be achieved with respect to various formats of the smart labels.

The present invention is not limited to the embodiment of the described preferred embodiment but includes other suitable configurations of the shielding wall 80 and the adjustment mechanisms for the shield 80 and the RFID antenna arrangement 60 or the read / write unit 130 for forming an arrangement for recording information on an intelligent label, comprising a transmission device for the transmission of the information onto the intelligent label within an effective spatial transmission range, and a screening device for limiting the spatial transmission range by targeted attenuation of the transmission energy at a predetermined position on one Route of the intelligent label.

Claims (10)

Arrangement for recording information on an intelligent label, comprising: a) a transmission device ( 130 ) for wireless transmission of the information to the smart tag within an effective spatial broadcast area; characterized by b) a shielding device ( 80 ) for limiting the spatial transmission range by targeted attenuation of the transmission energy at a predetermined position on a route of the intelligent label. Arrangement according to claim 1, characterized in that the transmission device ( 130 ) an antenna arrangement ( 60 ) for establishing a magnetic coupling with an antenna arrangement of the smart label. Arrangement according to claim 1 or 2, characterized in that the shielding means extending substantially perpendicular to the direction of the conveying path Abschirmwand ( 80 ) having. Arrangement according to claim 3, characterized in that the shielding wall ( 80 ) is formed of a soft magnetic material. Arrangement according to claim 3 or 4, characterized in that the shielding wall ( 80 ) has a through opening through which the smart label is conveyed. Arrangement according to one of claims 3 to 5, characterized in that the shielding wall ( 80 ) is formed grid or brush-shaped. Arrangement according to one of the preceding claims, characterized by a first adjusting device ( 90 . 100 ) for changing the position of the shielding device ( 80 ) substantially along the conveyance path of the smart label. Arrangement according to one of the preceding claims, characterized by a second adjusting device ( 110 ) for changing the position of the transmission device ( 130 ) substantially along the conveyance path of the smart label. Arrangement according to one of the preceding claims, characterized characterized in that the arrangement comprises an RFID printer. Method for recording information a smart label, with the steps: a) transmission without wires the information on the smart label within an effective one spatial transmission area; marked by b) limiting the spatial transmission range targeted steaming the transmission energy a predetermined position on a conveying path of the smart label.