FR2806029A1 - Electronic cards, labels, etc. are produced continuously by extruding strip and then cutting to desired format or dimensions - Google Patents

Abstract

Portable objects are produced continuously by extruding a strip and then cutting it on line into ISO card format or other dimensions. Independent claims are included for the following: (a) Depositing microcircuits or integrated circuits for an ISO card into an extruded strip while it is moving. (b) Attaching microchips to an extruded strip and after the strip has been into cards, etc. the chips are connected by metallization or serigraphy (c) Forming a cavity in a moving extruded strip for subsequently receiving a microchip. (d) Applying to an extruded strip downstream of an extruder a security and/or decorative element, magnetic strip, a scratchable or a security finish. Preferred Features: The microchip, etc is attached mechanically, chemically or physically. The temperature of the freshly extruded strip activates adhesive on the security element or forms a direct mechanical bond with the element. A base for electrical contact pads is also formed during the extrusion process. The cards are printed on before or after being cut to size.

Description

Title: PROCESS FOR MANUFACTURING PORTABLE OBJECTS The present invention relates to the manufacture of portable objects such as for example electronic labels or cards. These portable objects as for electronic cards can be of the contact or contactless type due to their ability to exchange information via contacts or remotely with a reader according to a reading mode or else a writing / reading mode.

In a known method of manufacturing a card, the so-called lamination technique is implemented. It consists here of placing between the platens of a press a stack of thermoplastic sheets, previously printed or not. By raising the temperature and the pressure, a plate is thus formed from which it is possible to cut card bodies. These card bodies must then be machined to produce a cavity. This cavity is intended to receive the micromodule, fixed to the card body by gluing. The disadvantage of this process is the large number of operations it requires - Printing plastic sheets - Assembling the sheets - Laminating - Cutting to card format - Machining the cavity - The transfer of the micromodule into the cavity Furthermore, the investment in equipment is very heavy and the productivity is very low.

A solution is proposed to this problem according to which the card body is obtained directly with its cavity by the well-known method of injecting thermoplastic. This process consists in injecting thermoplastic material in the liquid state into a mold having the form of a standardized card without its module.

This process however has the disadvantage of being complex to implement. Investments are heavy, the choice of materials is limited.

The present invention proceeds from a search for a new solution for manufacturing portable objects such as a card to meet the objectives of manufacturing automation and mass production at high speed and eliminate the drawbacks known in the prior art. .

The extrusion process consists in continuously pushing said softened material by heat through a die which defines the geometry of the profile with a constant cross section which is cooled in shape. An extruder used for this process is not the subject of the invention.

To this end, the invention consists of an extrusion process in order to obtain a thermoplastic plate (1).

A module to be transferred to the extruded plate comes from a film reel containing many modules. By module, it is an electronic object assembled on a contact support. This film is cut (18) in order to obtain modules. The module, once cut and without being released, is directly inserted (19) in the plate as close as possible to the extruder. The plate containing the remote modules with a constant pitch passes between calendering rollers (5). Fig. 3 is a schematic sectional view illustrating in principle a device for cutting and continuously depositing a module used in one form of implementation of the method according to the invention.

The following stages of cooling (6) and marking (7) are carried out indifferently in one order or another.

By marking is meant any transfer on the plate, of printing having for cosmetic or security function.

 Fig. 2 - In one embodiment of the invention, a stamping (15) is carried out at the outlet of the die. A cavity is thus obtained on the plate (17) which can receive, for example, a micromodule or any other object.

According to another characteristic of the invention, the cutting step (12) comprises a preliminary marking phase (10), with a view to positioning for the actual cutting, the marking consisting in detecting the micromodule on the surface of the plate or a mark made in the plate when removing the module.

In a variant of the invention, provision is made to manufacture portable objects such as plastic cards, for example, without micromodules, but comprising only decorative or security elements. In this case, the location before cutting the plate (1) into a card for example (l 1) is carried out on these decorative or security elements.

 In order to obtain a good quality cut, it is possible to have recourse to the well known process of die punch cutting. In this case a buffer (9) is provided because this process is alternative, it cannot be carried out on a continuous advance of the plate.

Scraps of material (13) resulting from cutting can, after grinding, be returned directly to the extruder inlet and thus advantageously be recycled immediately.

The width of the extruded plate includes one, two or more portable objects.

Claims (1)

 CLAIMS 1.) Method of manufacturing portable objects continuously by extrusion, characterized in that it comprises the following stages - Extrusion of said plate. - Online cutting in ISO card format or different dimensions. 2.) The manufacturing method according to claim 1, characterized in that it comprises a step of depositing on at least one surface of said plate of security and or decorative elements. 3.) Manufacturing method according to claim 2, characterized in that during the deposition step a module is inserted into said plate by mechanical pressure. 4.) The manufacturing method according to claim 3, characterized in that the deposition is carried out continuously. 5.) Manufacturing process according to any one of the preceding claims, characterized in that the high temperature of the extruded plate is used to activate an adhesive, physically fixing the module in the plate. 6.) Method according to claim 2, characterized in that the softening of the extruded material is used to mechanically anchor the module. 7.) Method according to claim 2, characterized in that following the extrusion step takes place in line a stamping or forming step (19) of the extruded plate (20) in the step of removing the integrated circuit subsequently allowing the production of contact pads. 8.) Method for depositing micromodules or integrated circuits at the step of ISO cards on the extruded plate without stopping the latter or at any other step. 9.) The manufacturing method according to claim 2 or 3, characterized in that the module is fixed to said plate by mechanical, physical or chemical means. 10.) Method of fixing and anchoring bare chips on the extruded plate. These chips, once the card cut out or any other geometry, can be connected by screen printing or metallization to connection pads. 11.) Method according to claim 8, characterized by a very fine chip fixation (25pm for example) on the surface of the plate in continuous mode, without creation of specific cavity. 12.) Method characterized by the forming (15) of a cavity during the advancement of the plate after the extrusion die (22). Cavity in which can be deposited glue for a posteriori transfer of a contact or contactless micromodule according to claim 10. 13.) Method according to claims 2, 6, 10, characterized by the creation of continuous pressure on the module (5), positioned in the plate, in order to position it precisely and durably. 14.) Process characterized by the Online removal, of a security and or decorative element (7) security block, scrapable block, magnetic track ... on the plate directly from extrusion. 15.) Method according to claim 14, characterized in that all printing techniques are possible on the plate continuously before or after cutting in card format (inkjet, laser, stamping, relief pattern, pad printing, screen printing , offset, heliography, flexography ...). 16.) A method characterized in that it comprises a cutting step (12) in the final format (11) in which a marking phase (10) is provided beforehand for the micromodule and / or a mark generated during the depositing the micromodule according to claims (5, 6, 10) or printing according to claims 14, 15. 17.) Method according to claim 14, characterized in that following the extrusion step and before, during or after cooling (6) a cutting step (12) takes place in ISO card format or any other geometry (11) such as micro-card, bar, label, etc. 18.) Method according to claim 6, characterized in that that the cutting of the modules or micromodules is made by a rotary tool, the transfer of these cut modules on the extruded plate and done directly or either by an intermediate depositing wheel (25). <I> Independent claims </I>.) Method according to claim 7, characterized in that the cutting and depositing of the micromodule is done through the tool (12) on the pressing element (22). This pressing element then depositing the module (23) on the plate, according to claim 6.