NO316483B1 - Method and apparatus for issuing identification labels - Google Patents

Abstract

The invention concerns a method for issuing identification labels, comprising a first step for printing on a label first identification data, and a step for encoding a radiofrequency chip with second identification data. The method further comprises, after the printing step, a step of depositing on each label already printed a radiofrequency circuit including a radiofrequency chip. The step of encoding the radiofrequency chip follows the depositing step. The invention is useful in all fields requiring identification of objects or goods, in particular in transport, logistics, commerce and industry.

Description

The present invention relates to a method for issuing identification tags and a system for carrying out the method, according to the claims

In many sectors of industry, distribution and transport, the identification of goods is carried out using barcodes. This method of identification, although it is particularly widespread, presents a not insignificant rate of reading errors (poor reading or reading impossible), which leads users and designers of the current identification systems to seek identification techniques that are more secure and with higher performance instead of barcode techniques, or to complement the latter

There are already identification techniques that use tags that are pre-equipped with circuits comprising a radio frequency emitting chip. A disadvantage of these pre-equipped tags lies in the fact that radio frequency circuits can have a thickness of the order of a millimeter, which causes technical problems when passing these tags into in printers Several routes have been devised to overcome this disadvantage, in particular by trying to reduce the thickness of the circuits and chips, or by producing ramps on each side of the circuit But these devices have so far not given satisfactory results, or would entail unacceptable additional costs

The object of this invention is to overcome these disadvantages by proposing a method of issuing identification tags which makes it possible to obtain tags that offer both optical reading and radio frequency reading, without requiring any significant modification of existing tags or radio frequency banks. This object is achieved by a method of issuing identification tags, comprising a step of imprinting on a tag first identification data, and a tnnn of encoding a radio frequency chip with second identification data

The aforementioned goal is achieved with the system and method according to the present invention as defined by the features listed in the claims

According to the invention, this method further comprises, after the printing step, a step for applying to each label already printed a radio frequency circuit comprising a radio frequency chip

By thus applying radio frequency boards after the printing of the labels, the difficulty of fitting a board in a printer is eliminated. To implement this method, one can make use of radio frequency circuits of very small thickness, produced by conventional techniques. A main advantage of this method is that it will be able to provide operators, who are already equipped with label printers, an additional function that contributes to improved performance in terms of security and reliability of the identification, without the latter making it necessary as such to completely change the equipment

The step of encoding the radio frequency banks is also preferably carried out after

the application thread

According to a particularly advantageous form of embodiment, the radio frequency circuit is supplied in advance on a continuous tape During the application process, a radio frequency circuit in the form of a tag is separated from the continuous tape and progressively applied to a predetermined application zone on one of the surfaces of the tag

Radio frequency circuits supplied on the continuous tape are preferably covered in advance with an adhesive But it would also be possible to arrange it so that the application zone of the labels is covered in advance with an adhesive

Depending on the limitations and requirements expressed by the users and operators of the system according to the invention, it can be arranged so that the radio frequency circuits are applied either to the printing surface of the labels or to surfaces opposite the printing surface

The identification data entered in the form of barcodes and in the form of radio frequency codes can be identical, nearly identical or again complementary, depending on the operator's needs

According to another aspect of the invention, a system for identification tags that uses the method according to the invention is proposed, where this system comprises a device for printing identification data on a tag, a device for encoding a radio frequency bank with identification data

This system is characterized by including a device for applying to each previously printed label a radio frequency circuit comprising a radio frequency chip

Other features and advantages of the invention will be apparent from the following description, in the form of non-limiting examples, and with reference to the drawings, where figure 1 represents diagrammatically the structure of a system for issuing labels according to the invention, figure 2 illustrates a special form of supply of radio frequency circuits on a continuous strip, Figure 3 diagrammatically represents an example of a label produced with the system according to the invention, and Figure 4 diagrammatically illustrates a form of application used in the method according to the invention

A particular example of an embodiment of a system for issuing identification marks will now be described, with reference to the figures

The system for issuing labels 1 according to the invention comprises a printing module 2 and an application and coding module 3. The printing module 2 comprises a magazine 22 containing blank labels 25 delivered in the form of a continuous strip running along a drainage plane 21, printing mechanisms 23, 24, a printing head 20 and an output 26 for printed labels This printing module 2 can in practice correspond to a standard label printer

The application and coding module 3 comprises an input 39 arranged to receive the printed labels coming from the printing module 2, dnvmechanisms 33, 34, an application device 37, a radio frequency coding unit 30, a mechanism 38 for separating the labels, and an output 31 for the printed and coded labels

The winding device 37 comprises a holding reel 35 for a roll 4 of a continuous tape or strip 10 which contains a string of radio frequency circuits each comprising a radio frequency chip, a receiver reel 36 for the continuous strip after winding, a winding roll 40 whose peripheral surface 41 is placed in immediate proximity of the release plane 32 for printed labels, and dnv mechanisms (not shown) For the description of conventional techniques for applying labels continuously, reference can be made to, for example, document US 4,717,438

It should be noted, however, that the method of issuing tags according to the invention differs from the industrial methods of producing anti-theft tags or integrated circuit boards according to the prior art, by the fact that in the present invention, application of radio frequency circuits is performed on demand following a command for issuing a label, and consequently in a discontinuous manner, in contrast to the aforementioned industrial processes which are of the continuous type with objectives for speed and productivity

The continuous strip 10 comprises, on a continuous support 100 of very small thickness made of silicone or similar matenal, a succession of radio frequency circuits 110 regularly separated and held on this support by a suitable adhesive, as referred to in Figure 2 The radio frequency circuits 110, with very small thickness, for example in the order of 3/10 mm, is itself covered in advance on its outer surface with an adhesive coating It generally comes in the form of a label of flexible matenal, essentially rectangular in shape, and comprising oscillating circuit and a radio frequency bank

The labels 200 produced with the method according to the invention comprise, as referred to in figure 3, a printing zone 230 containing, for example, an explicit or coded identification zone 220 and a barcode zone 210, and an application zone 240 to receive, by application and gluing, a radio frequency circuit 110 comprising a radio frequency bank This thus produces an identification tag that offers complementarity of an optical identification and a radio frequency identification

Applying the radio frequency circuits 110 to the previously printed labels 200 can be carried out in a way that is shown diagrammatically in figure 4. Continuous strip 10 is drawn around the application roll 40 in such a way that it is placed against a label 200 which is itself drawn along the de-coupling plane 32 When the radio frequency circuit 110 which from the beginning is carried by a continuous strip comes into quasi-tangential contact with the outer surface of the label 110, it is separated from the continuous strip 10, which, outside the application roll 10, is pulled at an angle relative to the debonding plane 32, which is significant greater than the angle of measurement of the continuous standard The radio frequency circuit 110 then remains on the table 200 in the application zone 250 which is reserved for this purpose

It is also possible to imagine a pre-gluing in the application zone 240 of the label 200, where this pre-gluing replaces the pre-gluing of the outer surface of each radio frequency circuit or label, or complements it

It should be noted that the radio frequency circuit can be glued without distinction on the printing surface of the label or on the opposite surface, depending on the technical needs and/or wishes expressed by the user of these labels. It is also possible to produce a system according to the invention which contains, in the printing module, a printing head arranged for printing the label on its first surface, and in the application module, an application device arranged for applying a radio frequency circuit to the opposite surface.

In a first form of execution of the system according to the invention, it can be arranged so that the application and coding module is independent and arranged at the output of an existing printing module In another form of execution, the application and coding module can be included in a single structure that combines printing -, the application and encoding functions

Baggage equipped with a tag having a radio frequency chip according to the invention can then pass through a sorting machine which contains, in an integrated manner or upstream, a portal frame containing at least one antenna device for receiving and reading the messages from the bank. The portal frame can also contain devices for reading another carrier (bar code) for luggage that is not equipped with a label with a bank and/or for double reading (bank and barcode) of luggage, equipped with a label obtained according to the invention The portal frame controls, for example, one or more blackout switches

The invention is of course not limited to the examples that have been described, and many modifications can be made to these examples without deviating from the scope of the invention. Furthermore, the present invention is not bound to a particular radio frequency bank technology. Furthermore, the respective dimensions of the labels and the printing and application zones can be anything

Claims (15)

1 Method for issuing identification labels (200), comprising a step for printing on a label (200) first identification data (230), and a step for encoding a radio frequency bank (111) with second identification data, characterized by after printing applying to each identification tag an already printed (200) radio frequency circuit (110) comprising a radio frequency bank (111) 2 Method according to claim 1, characterized by performing the coding of the radio frequency bank (1U) after the circuit (110) has been applied to the label 3 Method according to preceding claim, characterized by delivering the radio frequency circuits (110) in advance on a continuous tape (10) 4 Method according to claim 3, characterized by, during the application stage, triggering a radio frequency circuit (110) from the continuous band (10) and applying progressively in a predetermined application zone (240) on one of the faces of the label (200) 5 Method according to claim 4, characterized in that the radio frequency circuits (110) delivered on the continuous band (10) are covered in advance with an adhesive 6 Method according to claims 4-5, characterized in that the application zone (240) for the labels (200) is covered in advance with an adhesive 7 Method according to preceding claim, characterized in that the radio frequency circuits (110) are applied to the printing surface of the labels (200) 8 Method according to claims 1-6, characterized in that the radio frequency circuits are applied to the surfaces opposite the printing surfaces 9 Method according to the preceding claim, characterized in that the first and second information data are approximately the same System (1) for issuing identification tags using the method according to any one of the preceding claims, comprising a device (20) for printing, in a predetermined printing zone (230) on one of the surfaces of a tag, identification data (210 , 220), a device (30) for encoding a radio frequency bank (111) with identification data, characterized by a device (37) for applying to each label (200) a previously printed radio frequency circuit (110) comprising a radio frequency bank (111) 11 System (1) according to claim 10, characterized in that the device of the radio frequency coding (30) is arranged downstream from the application device (37) 12 System (1) according to claims 10-11, characterized in that the application device (37) comprises a device (35) for laying radio frequency circuits (110) arranged on a continuous strip (10) and a device (40, 41) for applying successively each radio frequency circuit (110) towards a predetermined application zone (240) on one of the surfaces of the label (200) 13 System (1) according to claim 12, characterized in that the device for application comprises a roller (40) whose smooth surface (41) is located close to the plane of separation (32) for labels (200) so that the radio frequency circuit (110) from the continuous band ( 10) is pressed against the label (200) when it rests between the roller's (40) finer surface (41) and the label (200) 14 System according to claims 10-13, characterized in that the application device is arranged to apply radio frequency circuits to a surface opposite the printing surface of the labels 15 System according to claims 10-14, characterized in that the affixing device (37) and the coding device (30) are arranged in a separate affixing and coding module (3) located at the output of a label printing module (2)