巴西专利BR112012000464B1 method and apparatus for making an inlay for a film composite and method of making a film composite

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专利摘要:
METHOD AND APPARATUS FOR MANUFACTURING AN INCRUSTATION (36) FOR A FILM COMPOSITE. The present invention relates to a method and an apparatus for producing an inlay for a film composite and a film composite, in particular for further processing, for example, to form a smart card, in which a carrier film ( 12) with a plurality of electronic compounds (17, 18) arranged in it and distributed to each other, it is fed to an image acquisition device (23), which detects the position of an electronic compound (17, 18) such as the panel (16), in which a laser sensitive compensating film (14) to be applied to the carrier film (12), is first fed to a laser cutting device (27), in which the data acquired by the image acquisition device image (23) containing the position of the respective electronic component (17, 18) in the carrier film (12) are communicated to the laser cutting device (27) and the laser cutting device is activated for the production of cuts (28 ) introduced it and the carrier material (12) is combined in a combining station (34) and is fixed in line with the registration accuracy with respect to each other to form an inlay (36), in which, by means of a device in (...).
公开号:BR112012000464B1
申请号:R112012000464-6
申请日:2010-07-01
公开日:2021-03-02
发明作者:Oliver Muth；Denis Donath；Joachim Kloeser；Michael Hagemann
申请人:Bundesdruckerei Gmbh；
IPC主号:

专利说明:

The present invention relates to a method and apparatus for making an inlay for a film composite, in particular, an inlay that allows further processing into a document of value or security document, for example, in the form of a smart card, as well as a film composite supplied with an inlay.
The manufacture of smart cards typically includes the application of electronic components to a carrier film. In most cases, these electronic components were semiconductor boards and the antenna coils associated with them.
The pre-laminated inner layers, also referred to as pre-laminates, in which the electronic components have been pre-laminated in a film composite and this semi-finished product is then joined with other films to form a card are also known from the prior art. In addition, instead of using an individual semiconductor plate, complete modules consisting of active and passive components can alternatively be applied / inserted into a carrier film. These may include coils, capacitors, indicator elements, such as displays, batteries, and, of course, integrated circuits (ICs) that include microprocessors and / or memories.
This carrier film that includes the electronic components or modules is then joined, and laminated, with other films to form a cardboard body. In doing so, it is often necessary for height differences caused by electronic components, in particular semiconductor plates, to be compensated by means of a corresponding compensating film, and said compensating film has cuts formed in it. to accommodate the semiconductor plates. Industrial processes, to date, have required that cuts in such compensating films be provided with relatively large tolerances as to the position and size of the semiconductor plates in order to make it possible for additional processing steps to be carried out automatically. The fully equipped carrier film and the compensation film cooperated to form the scale. On the surface of the compensation film, the control marks are required to be formed with the precision of registration between the carrier film provided with the electronic components and the cut in order to make it possible to manufacture an inlay consisting of a carrier film that 10 it has electronic components and the compensation film to be carried out with precision, and said encrustation is subsequently further processed and joined with other films in order to form a body of card or a document of value or security document.
It is known in the art to stamp cuts on rolls of compensation films provided, for example, with control marks printed on them and combine them with the registration accuracy with the receiving conveyor film. Due to the tolerances in the manufacturing process of carrier films equipped with electronic components or modules, which can lead to both a position of deviation in the x and y directions with respect to the carrier film and a distorted or oblique location as seen on the surface of the film, it occurs, for example, that in the course of manufacturing smart cards the cuts in the compensation films are not positioned in a way aligned with the accuracy of registration with the component in the carrier film, but will partially overlap on the electronic component . This can cause damage to the component (s) due to the excessive mechanical load exerted on the encrustation as it is laminated with other films or layers. In addition, this requires a complex manufacturing process that comprises a plurality of separate operations that include a separate operation 30 for printing the control mark, another for stamping cuts and an additional separate operation for fixing the compensation film with the accuracy of registration to the carrier film that has the electronic components or modules inserted in it.
It is, therefore, an objective of the invention to propose a method and an apparatus for making both an inlay consisting of a carrier film equipped with electronic components or modules and a correspondingly fixed compensating film to form a film composite. as for a film composite that includes such inlay in which the registration accuracy between a cut of the compensating film and the carrier film is enhanced while, at the same time, a control mark for further processing is applied in an exact manner with respect to at least one electronic component as a resource for use or in connection with an arrangement of resources for use.
This objective is achieved, according to the invention, by means of a method of fabricating an inlay for a film composite, in particular, to allow further processing into a document of value or security document in accordance with the characteristics of claim 1 Other advantageous configurations and developments are set out in other claims.
The method according to the invention makes it possible to combine the three separate operations known from the prior art in successive steps, such that once all the steps have been carried out, the compensating film and the carrier film are arranged with record accuracy as a fouling, which in particular enables a high degree of precision between the semiconductor plate and the cut, as well as a high degree of precision between the control marks and the cut, in view of further fouling processing. When detecting the positions occupied by the respective electronic components, in particular, the semiconductor plate, in the carrier film and when communicating the acquired data to a laser cutting device to make the cuts, it is possible, when making the respective cut, to take into account taking into account the tolerances in the position of the electronic component to be inserted in it and, consequently, adapting the cut to the position and orientation of said electronic component. Furthermore, at the same time, the acquired data that refer to the position of the respective
electronic components are used to apply a control mark to the compensation film, such that for each use resource or arrangement of use resources, a control mark is applied to the compensation film, depending on the detected position of the electronic component in the carrier film. Thus, it is guaranteed that both the cut and the control mark are carried out on the compensation film and / or applied on the compensation film based on the data actually acquired that refer to the position and location of the electronic component, such as that a compensating film that has very precise cuts and / or very precise inlay can be made, which allows for safe and reliable additional processing due to the exact application of the control mark (s). Once applied, the control mark has the advantage of enabling and / or facilitating subsequent automatic steps of further processing, such as combining films with other films in a film composite.
According to an advantageous configuration of the method, the combination of the compensation film and the carrier film with the registration accuracy is preceded by the application of the control mark that corresponds to each resource of use or group of resources of use. Thus, it is possible to apply the control mark on the compensation film simultaneously with the cut. This can be done alternatively immediately before or after the cut is made, the advantage of applying the control mark before combining the compensating film and the carrier film is that the application of the control mark and the cutting are carried out with the same tension as the blanket, which allows the cut to be carried out with a particularly high degree of precision.
According to the preferred configuration of the method, the cut in the compensation film is carried out using a laser cutting device operated with high laser power and the same laser cutting device, preferably operated with a lower laser power, is used to make the control marks. Thus, a blackening of the compensating film can be obtained. This method has the advantage that only a laser cutting device is required in order to make cuts in the compensation film and / or apply the control marks on it.
In an alternative method configuration, provision is made, before combining the compensating film and the carrier film, for the laser cutting device used to perform the cut to be operated with a high laser power and for another laser cutting device or marking device to be activated to make the control mark. With this method, the cuts and the control marks are carried out separately one after the other. Such an arrangement allows for particularly high mat speeds and, consequently, high processing rates for the manufacture of scale.
According to an alternative method configuration, the control mark that corresponds to each use feature, or group of use features, is applied to the compensation film subsequent to the inlay by means of a laser cutting device or device additional dialing. This arrangement also allows for a high processing speed, as the cuts are made by means of a separate laser cutting device and the control marks are made by means of a laser cutting device or different marking device. .
After the compensation film has been provided with at least one cut that corresponds to each feature of use, the compensation film and the carrier film that includes the electronic components are combined in an inlay, with record accuracy, in one combining station, the carrier film and the compensating film preferably being sewn with registration precision with respect to each other in said combining station. Thus, it can be guaranteed that once precisely aligned, the position of the cut with respect to the use feature or electronic component is maintained, such that the films will resist the displacement of this exact position with respect to each other in the course of its further processing. . Preferably, the fixing is carried out in the form of a semi-cold connection, for example, by means of ultrasonic welding or friction welding. A semi-cold connection can also be made by heating the carrier film and the compensation film by ultrasonic welding or friction welding, for example, or also by heating the carrier film and the compensation film in such a way that they become linked or fused together. This fixation can be carried out in the form of points, dashes or lines and is in no way applied over the entire surface.
Furthermore, the carrier film and the compensating film are preferably transported when applying a tension. This allows a controlled and smooth unwinding of the compensating film and the carrier film, which are preferably supplied as a roll.
According to another preferred embodiment of the invention, the compensating film and the carrier film are combined at a processing rate of between 1 m / min. and 20 m / min., preferably between 5 m / min. and 15 m / min. Such high processing rates can be achieved due to the immediate processing of the acquired data related to the position of the individual electronic component and the rapid making of cuts in the compensation film and due to the use of the acquired data for the application of the control marks. .
Both the carrier film and the compensation film, which are preferably supplied in an unpressed condition, are advantageously supplied as a roll product. As an alternative, it is possible to use sheets, otherwise a combination of sheets and rolls can also be used to manufacture the inlay.
Once the inlay fabrication from the clearing film and the carrier film has been completed and the control marks have been applied to the clearing film, the inlay is cut into a sheet format, such that the individual sheets of the inlays are provided for further processing. These can preferably be stacked. Alternatively, the manufacturing of the encrustation can be followed by other processing lines that allow for further processing of the sheets.
In addition, sets of multiple use features are preferably provided on the carrier film. By way of example, sets of twelve or twenty-four usage features can be provided. In such cases, it may be sufficient to apply a control mark to such a set of multiple use resources or use resource arrangement.
In addition, the coordinates of preferably each feature of use in the direction of transport of the mat and in a transverse direction with respect to the direction of transport of the mat, that is, in an x and y direction, are acquired and communicated to a device data processing, such that based on this, data for the manufacture of cuts and control marks can be prepared. In doing so, both the carrier film and the compensation film are guided in a manner adapted to each other along a blanket guide system, such that the making of cuts and the application of the control marks can be carried out with precision.
The object on which the invention is based is further achieved by means of a method of making a film composite in which at least one or both of the outer faces of an inlay manufactured according to any of claims 1 to 12 a film or layer is applied. This makes it possible for the film composite to be prepared for further processing in a value document or security document. The provision can also alternatively be made, that through the application of at least one film or layer the processing of the film composite is carried out and the latter is directly transformed into a document of value or security document. The value document or security document can, for example, be a bank note. The inlay manufactured in accordance with the invention is applied to a first layer of a banknote material such as, for example, cotton, plastic or a layer consisting of fibers or the like. Subsequently, at least one coating layer is applied on the opposite side of the encrustation, that is, on the compensating film, and the encrustation is laminated on the banknote as the latter is manufactured in the course of a lamination. It can also be considered to laminate the encrustation provided with a coating film and then apply it to the banknote, for example, when using adhesive. The film composite can also be a bank card, an access identity card, such as a company identity card, health or similar insurance, which can be adapted depending on the application and can be formed with one or more films or layers that have identical or variant thicknesses and / or materials.
The object on which the invention is based is additionally achieved by the apparatus to manufacture an inlay in accordance with the characteristics of claim 14. This apparatus includes a transport and feeding device for both the carrier film and the electronic components located on it as well as on the compensation film. In addition, an image acquisition device for detecting the position of the electronic component as a feature for use in the carrier film is provided. In addition, at least one laser cutting device is associated with the compensating film in order to make the cuts. In addition, a data processing device is provided by which the data acquired by the image acquisition device is received and, correspondingly, processed, and produced for activation, for the laser cutting device such that cuts are made in the compensating film. If the device has only one laser cutting device associated with the compensation film before the last one is combined with the carrier film, the data processing device processes the acquired data in such a way that the laser cutting device will be activated, for example. on the one hand, to make the cuts and, on the other hand, to mark the compensation film by means of the control marks. If, in addition to the laser cutting device used to make the cuts, another laser cutting device or marking device is provided, one or the other of these additional devices will be activated respectively to mark the compensation film.
According to the advantageous configuration of the invention, the combining station includes a blanket guide system for positioning the carrier film and the compensation film with registration accuracy and for subsequently securing the carrier film and the compensation film.
In an even more advantageous configuration of the invention, the provision is made for the marking device to be configured as a laser marking device, a digital printing device or an inkjet printing device.
The object of the invention is further achieved by a film composite in which an inlay manufactured according to any one of claims 1 to 12 and located on one or both of the outer faces is provided with one or a plurality of films or layers . These combined layers can be interconnected with each other by means of lining, bonding or fixing. This film composite can then be provided for further processing in a value document or security document, with the film composite being ultimately laminated together in a block that can no longer be separated from one way. non-destructive. As an alternative, this film composite can also be supplied without any subsequent lamination operation as a final product in the form of a document of value or security document. The films can be provided with the personalization information added to them before or during the bonding operation. The laminated block can also receive added personalization information, for example, by means of laser processing of the films.
The invention, as well as other advantageous modalities and developments thereof, will be described and explained below with reference being made to the examples shown in the drawings. The characteristics they emit from the description and the drawings can be applied according to the present invention either individually or as a plurality of resources taken in any combination. In the drawings: figure 1 is a perspective view of the apparatus for making an inlay according to the invention, and figure 2 is a perspective view of an alternative modality of the apparatus, which differs from figure 1.
Figure 1 is a perspective representation of an apparatus 11 for fabricating an inlay 36, in particular, to allow for further processing on a valuable document or security document, such as a smart card. This apparatus 11 comprises a transport device, not shown in great detail, for a carrier film 12 and a transport device, partially represented by the deflection rollers, for a compensating film 14. The carrier film 12 is made, for example, polymers that can be processed by thermoplastic methods, such as polyolefins (polyethylene, polypropylene), polyester, polycarbonates (PC), polyvinyl chloride, poly-tyrenes and mixtures (polymer blends, copolymers) such as copolymer of acrylonitrile butadiene styrene (ABS) as well as other materials known to be used for the manufacture of smart cards, in particular those made of polycarbonate (PC) or modified PC. This carrier film 12 is provided with a plurality of usage resources 16 applied to it and arranged, for example, in an array of usage resources 16 that forms a set of multiple usage resources. The use feature 16 comprises electronic components 17, 18 and is formed, for example, by a semiconductor plate 17 and corresponding antenna coils 18.
The compensating film 14 is preferably supplied in an unprinted condition and consists of the materials mentioned above for the carrier film 12, in particular, polycarbonate (PC). Preferably, the compensation film 14 is a laser sensitive film. The carrier film 12 and the compensation film 14 are each preferably supplied as a roll product, fed on rollers 20 and 21, respectively. As an alternative, the carrier film 12 and / or the compensation film 14 can also be supplied as sheets or as a combination of sheet and roll.
The carrier film 12 is passed down and presented to an image acquisition device 23, with each semiconductor plate 17 being detected, preferably in a digital manner, as to position and orientation. The data acquired in the image acquisition device 23 is communicated to a data processing device 25 for processing. In parallel operation with the image acquisition device 23 or downstream of it, a laser cutting device 27 makes the cuts 28 in the compensation film 14. In doing so, the data acquired by the image acquisition device 23 and the data processed by the data processing device 25 are used to ensure that the laser cutting device 27 will perform, depending on the position and orientation of the entire semiconductor plate 17, the cut 28 associated with it. Adjacent to the laser cutting device 27 another laser cutting device or marking device 30 is arranged, which applies the control marks 32 on the compensation film 14. This laser cutting device or marking device 30 is, successively, activated in a corresponding way by the position data of the respective semiconductor plate 17 as they are acquired by the image acquisition device 23 and supplied to the data processing device 25. The provision can be made for a control mark 32 to be associated with each cut 28. In addition, provision can be made for a set of multiple usage features or an array of usage features 16 to be provided with just one control tag 32 associated with it or for a predefined number of usage features in an array of usage features to be provided with one or several control marks 32. The laser cutting device can be activated in such a way that the film laser sensitive compensation screen 14 is blackened. If a marking device 30 is used, digital printing, inkjet printing or the like can be provided.
As an alternative to the arrangement of the laser cutting device or marking device 30, which differs from the laser cutting device 27, only one laser cutting device 27 can be provided by which both cuts 28 are made and the marks control units 32 are applied.
Direct activation of the laser cutting device 27 to make the cuts 28 depending on the position data acquired from the semiconductor plate 17 makes it possible that deviations in position and orientation of the semiconductor plate 17 are taken into account when the cuts 28 are applied . This makes it possible, when the compensating film 14 and the carrier film 12 are subsequently combined in a combining station 34, to obtain a high degree of precision between the semiconductor plate and the cut when the inlay 36 is manufactured from the film. conveyor 12 and the compensation film 14. Furthermore, by directly activating the laser cutting device 27 or the marking device 30 to apply the control marks 32, the latter are again precisely arranged with respect to the cut 28 and above all, with precision with respect to the semiconductor plate 17, such that a high degree of precision between the control mark and the semiconductor plate or a high degree of precision between the control mark and the cut can be achieved for the pro -additional access.
In the combining station 34, the carrier film 12 and the compensation film 14 are associated with each other with record accuracy, with a film blanket guide system, not shown in more detail, and is preferably supplied in order to achieve a high degree of precision between the carrier film and the compensation film.
Downstream of the combining station 34, a clamping station 38 is provided in which the carrier film 14 and the compensation film 12 are fixed with registration accuracy with respect to each other. In doing so, semi-cold welding by means of ultrasonic welding or friction welding is preferably provided, otherwise heating of the carrier film 12 and the compensation film 14 can also be provided. Subsequently, the scale 36 is fed to a sheet cutting station 41 in which the individual sheets 42 each consisting of the scale 36 are cut. These are preferably collected in a 43 pile.
Figure 2 represents an alternative configuration of the apparatus 11 which differs from figure 1, the difference with respect to figure 1 being that the marking device 30 applies the control marks 32 on the compensation film 14 after the compensation film 14 having been attached to the carrier film 12 to form an inlay 36. In other respects, the same advantages and variant designs as those described with reference to figure 1 apply.
The inlay 36 as manufactured using a method according to figure 1 or figure 2 may undergo further processing in a film composite when laminating or covering one or more films or one or more layer materials made of materials and / or different layer thicknesses. In a first alternative embodiment, this film composite can successively serve as an intermediate product to manufacture a valuable document or security document. The film composite can, for example, be inserted or integrated into a card body designed for the manufacture of a smart card. Alternatively, the provision can be made that by laminating or lining one or a plurality of layers or coatings in the encrustation a film composite is created, which in itself represents the value document or security document, or in other words, the final product. The film composite can be perceived as an access identity card, an identification document, such as a driver's license or the like. The term "film composite" should not be interpreted as being limited to films made exclusively of plastic material. It preferably refers to a multilayer construction comprising the inlay 36 manufactured according to the method described in figure 1 or figure 2 and on one side and / or on both sides of which one or a plurality of layers made from different materials, including non-plastic materials, can be applied. Several different materials or mixtures of material and / or material thicknesses can be provided, for example, in order to build a valuable document or security document.

权利要求:
Claims (14)
[0001]
1. Method for manufacturing an inlay (36) for a film composite, in particular, an inlay that allows further processing into a valuable document or security document, - in which a carrier film (12) provided with a plurality of electronic components (17, 18) arranged in it and related to each other is fed to an image acquisition device (23) by which at least the position of an electronic component (17, 18) is detected as a resource of use (16) , - in which a laser sensitive compensating film (14) to be applied to the carrier film (12) is first fed to a laser cutting device (27), - in which the data relating to the position of the respective electronic components ( 17, 18) in the carrier film (12) as acquired by the image acquisition device (23) are communicated to the laser cutting device (27) and in which the laser cutting device (27) designed to make cuts ( 28) which are adapted to the respective positions of the electronic components (17, 18) is activated, - in which the compensating film (14) which includes the cuts (28) made in it and the carrier film (12) are combined in one station combination (34) and are fixed in line with the registration accuracy with respect to each other to form an inlay (36), characterized by the fact that: - using the laser cutting device (27) designed to make the cuts (28), another laser cutting device or a marking device (30), a control mark (32) is applied to the compensating film (14) for each use feature (16) or arrangement of resources for use (16), depending on the detected position of the respective electronic component (17, 18) in the carrier film (12).
[0002]
2. Method, according to claim 1, characterized by the fact that the combination of the compensation film (14) and the carrier film (12) with the registration accuracy is preceded by the application of the control mark (32) for each usage resource (16) or usage resource group (16).
[0003]
3. Method according to claim 2, characterized by the fact that the combination of the compensating film (14) and the carrier film (12) with the registration precision is preceded by the operation of the laser cutting device (27) with a high laser power to make the cut (28) and by operating the same laser cutting device (27) with a low laser power to make the control mark (32), or that the combination of the compensation film (14) and the carrier film (12) with registration accuracy is preceded when operating the laser cutting device (27) with a high laser power to perform the cutting (28) and when driving another cutting device a laser or marking device (30) to make the control mark (32), said device being preferably positioned downstream of the laser cutting device (27) to make the cutting (28).
[0004]
4. Method, according to claim 1, characterized by the fact that the manufacturing of the encrustation (36) is followed by the application of the control mark (32) on the compensating film (14) for each use feature (16) or arrangement of resources for use (16) by means of the other laser cutting device or the marking device (30).
[0005]
Method according to any one of claims 1 to 4, characterized in that the carrier film (12) and the compensating film (14) are sewn together as they are combined in an inlay (36) in the combining station (34), and said fixation is performed.
[0006]
Method according to any one of claims 1 to 5, characterized in that the carrier film (12) and the compensating film (14) are transported by applying a tension and preferably that the carrier film (14) and the compensating film (12) is combined at a processing rate between 1 m / min and 20 m / min.
[0007]
Method according to claim 1, characterized in that the carrier film (12) and the compensating film (14) are supplied either as a roll or sheet product.
[0008]
Method according to any one of claims 1 to 7, characterized in that, once complete, the inlay (36) is cut into sheets.
[0009]
9. Method according to claim 1, characterized by the fact that in terms of electronic components (17, 18) a semiconductor plate (17) and an antenna coil (18) are provided and the semiconductor plates (17), which are applied to the carrier film (12) as sets of multiple usage features are aligned with each other in a pattern of rows and columns.
[0010]
10. Method, according to claim 9, characterized by the fact that in a set of multiple resources of use the coordinates (x1, y1; x2, y2; ...; xn, yn) of each semiconductor board (17) are detected.
[0011]
11. Method of manufacturing a film composite, in particular, as a document of value or security document or for further processing into a document of value or security document, characterized by the fact that on one or both external faces of an inlay (36) manufactured as defined in any one of claims 1 to 10, at least one film or layer is applied.
[0012]
Apparatus for making an inlay (36), in particular, for further processing into a document of value or security document according to a method as defined in any one of claims 1 to 10, which comprises a first transport device and feeding to transport a carrier film (12) provided with electronic components (17, 18) positioned thereon; another transport and feeding device for transporting a laser sensitive compensation film (14); at least one image acquisition device (23) associated with the carrier material (12) that detects the position of the electronic components (17, 18) in the carrier film; a laser cutting device (27) which is provided for making cuts (28) in the compensating film (14), with the image acquisition device (23) and the laser cutting device (27) both being arranged at upstream of a combining station (34) to manufacture an inlay (36) from the carrier film (12) and the compensation film (14); and a data processing device (25) that processes the data of the detected position of the respective electronic component (17) as acquired by the image acquisition device (23), in order to manufacture a cut (28) in the compensation film (14) with record accuracy, and that sends them to the laser cutting device (27) to make the cuts (28), characterized by the fact that the laser cutting device (27) to make the cuts (28) , another laser cutting device or a marking device (30) to make control marks (32) on the compensation film (14) depending on the detected position of the respective electronic component (17) is actionable to make the cuts (28 ) and the control marks (32).
[0013]
13. Apparatus according to claim 12, characterized by the fact that the combining station (34) comprises a blanket guide system to position and guarantee the cuts (28) of the compensating film (14) with registration accuracy with respect to the respective semiconductor plate (17) of the carrier film (12) and preferably the carrier film (12) and the compensation film (14) which are aligned with registration precision with respect to each other are secured with respect to the another in the direction of the point by means of a fixing device.
[0014]
Apparatus according to any of claims 12 to 13, characterized in that the marking device (30) is configured as a laser marking device or as a printing device.

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法律状态:
2020-08-25| B06U| Preliminary requirement: requests with searches performed by other patent offices: suspension of the patent application procedure|

2020-12-29| B09A| Decision: intention to grant|

2020-12-29| B15K| Others concerning applications: alteration of classification|Free format text: AS CLASSIFICACOES ANTERIORES ERAM: B42D 15/10 , G06K 19/077 , B32B 38/18 , B32B 38/10 Ipc: B32B 38/10 (2006.01), B32B 38/18 (2006.01), B42D 2 |

2021-03-02| B16A| Patent or certificate of addition of invention granted|Free format text: PRAZO DE VALIDADE: 10 (DEZ) ANOS CONTADOS A PARTIR DE 02/03/2021, OBSERVADAS AS CONDICOES LEGAIS. |

优先权:

申请号 | 申请日 | 专利标题

DE102009032678.2|2009-07-09|

DE102009032678A|DE102009032678A1|2009-07-09|2009-07-09|Method and device for producing an inlay for a film composite and film composite with inlay|

PCT/EP2010/003865|WO2011003518A1|2009-07-09|2010-07-01|Method and apparatus for producing an inlay for a film composite, and film composite with inlay|

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