FR2977518A1 - Blade for introducing zone or line of weakness between subscriber identity module card and card support, has toothed surfaces providing indication of level of cutting or crushing at connection zone between card and card support - Google Patents

Abstract

The blade (1) has a cutting or crushing surface shaped for cutting or crushing a connection zone between a subscriber identity module (SIM) card and a card support. Toothed surfaces (3, 4) provide an indication of a level of cutting or crushing at the connection zone. The SIM card is contained in a plane of a sheet material that forms the card support, where the SIM card is connected to the card support with one or more extensions between the SIM card and the card support. The card is made of a paper or a paper composite or a plastic material. An independent claim is also included for a method for formation of a SIM card from a sheet material.

Description

The present invention relates to a blade and in particular, but not exclusively, to a blade for applying pressure to a sheet for example to define areas or lines of weakness between a data carrier and a sheet of material from which is made the data carrier. Furthermore, the invention relates to a method of producing a data carrier and, in particular, a data carrier in the form of a subscriber identification module card (SIM for "Subscriber"). Module Identification "). The data cards are of a generally rectangular shape, often with rounded corners and these cards are made using a pre-punching or pre-incision tool which cuts or incises the outline of the shape of the card which is to be detached from a card. sheet of material. SIM cards are now often made in the form of a card which is held on a card which is made from a sheet of material, the SIM card being held inside the body of the card. support by links between the SIM card and the support card. The SIM card when used by a user, is detached from the support card, and the support card is then discarded. SIM cards can be made from a plastic-based material or a paper-based material and the card-making process is generally the same, using the same tool, except that one uses different blades depending on the type of material to be incised. For scraping, from a sheet of material, the douro supports, such as arches, are designed to ensure that the outline of the card is marked in such a way that precise and that there is a limitation of the burrs that are produced during the formation of the contour of the data medium.In addition, the depth of the imprint or incision is crucial in these cards and especially in the SIM cards that are held in the body of a main board and are detached from the main body when they are to be used If the link between the SIM card and the carrier card was not accurate then either it would be too difficult for a user to detach the SIM card from the support card or the link would be so fragile that the SIM card could fall easily from the support card.The present invention aims to solve the problems associated with the prior art by proposing a new type of the and a method of forming a zone or line of weakness between a data carrier and a carrier sheet, the blade and the method providing a way of indicating the optimal depth of incision or crushing of the sheet to form areas or lines of weakness between the data carrier and a carrier card. In particular, the present invention aims to solve the problems associated with the prior art by controlling the depth of incision in the material that is incised or crushed.

According to a first aspect, the invention proposes a blade intended to introduce a zone or line of weakness between a data carrier and a sheet of material, characterized in that said blade comprises a contoured incision or crushing surface for incising or crushing a bonding area between the data carrier and the sheet of material, said blade having at least one additional surface which, in use, provides an indication of the level of incision or crushing of the incision surface or profiled crushing at the connection zone. DL piriftiien dri ne of the incision firiasernen iliiii lm i i () OtIPI, too large was applied during crushing or incision in the sheet of material from which the data carrier is to be formed. Preferably, the data carrier is a card which is contained in the plane of a sheet material which forms a support card, the data carrier being connected to the support card by crush-brittle areas which allow removal of the data carrier. data carrier of the support card. The support card is a larger card that facilitates the manipulation of the data carrier. It is intended that crush-embrittled areas be located at the end of extensions of the carrier board which form a bridge between the data carrier and the carrier board. In a preferred arrangement, the data carrier is a SIM card. Preferably, the profiled incision surface is formed as a profiled edge forming a stepped profile having at least five zones, the first zone being a recessed zone which extends at least in part on the support body which is to be cut off, a second area forming a first tooth extending a greater distance from the first area; a third zone forming an additional hollow zone and leading to a fourth zone, forming a second tooth extending a distance which is less than the second zone, said second tooth being stepped in that it is divided into two sections the first section which is proximal to the third area being longer than the second section, which is distal to the third zone, so that the second tooth itself has a stepped profile. The blade is provided with two stepped profiles, one on the right side of the blade and the other on the left side of the blade. In a preferred arrangement, the card is made of paper or a paper composite. In an alternative arrangement the card is of a plastic-based material. Preferably, the profiled edge of the blade is formed as a flat blade surface. However, the blade surface can be beveled. According to a second aspect, the invention proposes a method of forming a data carrier from a sheet of material, the data carrier being held inside a support card by weakened regions of bonding, the method comprising applying a pressure with a blade having a profiled edge which is brought into contact with a face of the sheet of material, a first tooth of the blade forming at least one region of the crushing or incising between the data carrier and the carrier card which defines a weakened connection region between the data medium and the carrier card, the blade having a second tooth which can provide an indication on the card- support about what the crushing region has been formed to a minimum, optimum or maximum depth and in which, based on the indication of crush depth, the force with which the blade 20 is applied can be modified from f the crushing is at a desired depth. According to a third aspect, the invention provides a SIM card and a support card produced using a blade or a method according to the first or second aspect of the invention.

An embodiment of the invention will be described by way of example only with reference to, and as shown in the accompanying drawings, in which: FIG. l. Fig. 1b shows a side view of the blade shown in Fig. 1a; Figure 2 shows a SIM card held in the body of a support card; Figure 3 shows a SIM card inside the body of a support card where the incision depth is inadequate; Figure 4 shows a SIM card inside the body of a support card where the incision depth is acceptable; and Figure 5 shows a SIM card inside the body of a support card where the incision depth is larger than an acceptable value. Figure la shows a blade used to produce the incised / crushed area which defines the attachment between the SIM card and the links which form a bridge between it and a support card such as a card which borders and surrounds the periphery of the SIM card. . The SIM card and the card that surrounds it can be seen in Figure 2 and often these types of cards are called pluggable cades. Returning to FIG. 1a, this figure shows a front view of the blade, which can be made either as a complete blade in the form of a one-piece blade or as a blade made of discrete sections which are maintained in a relationship spaced from each other in a blade holder. When looking at the blade from the front of the blade, it is seen as consisting of stepped sections having toothed and recessed portions. The blade is divided into two halves, the staged sections on one half of the blade corresponding to the staged sections on the other half of the blade. If the observer observes the blade in the vertical sense, then he is the leader of the parties: the main COMS of the eldest and second world; globally marked as 2. The two main parts of the blade, viewed in the vertical direction, are shown in Figure lb. When looking at Figure la and looking at Part 2 of the blade from left to right , there is a first section 3, which, when looking at the blade in the vertical direction, is the shallower of the toothed portions, it then leads to an additional staged section 4 which is longer in the vertical direction Section 3 and 4 together form a stepped tooth in the profiled incision surface 2. Looking further along the blade from left to right there is a recessed section 2 which then leads to another toothed section 6 which is longer in the vertical direction than either of the toothed parts 3 and 4. Starting from the has toothed section 6 there is another section 7 hollow. Then observing the blade further, there is a toothed section which corresponds to the toothed section 6, a recessed section which corresponds to the recessed section 5, and another toothed section which corresponds to the toothed section 4 and finally another toothed section, which is shorter than the adjacent section and which corresponds to the toothed section 3 on the other side of the blade, in fact, the blade is formed in two halves, the profile of the incision face 2 on one half of the blade corresponding to the profile of the incision face on the other half of the blade. Sections 3 and 4 have been described as being adjacent to one another, but it is possible to have the two sections spaced from each other, so there is a separation between the surfaces which form an indentation. Having a separation zone between the two provides a clearer indication that there are one or two indentations on the support card (9), so it is clear if there is at an optimal pressure or too much pressure. As a result, the SIM card itself is always defined in the SIM card, but the SIM card is always attached to the media at defined points. by tongues 12, the actual point of contact between the SIM card and the tongues being zones 11. The tongues 12 may be pre-pre-crimped or pre-crushed, they are thus clearly defined as links between the support card and the data carrier. Typically, the data carrier is rectangular but could be of any desired shape.The SIM cards and media can be of a plastic-based material or they can be made from a base material. The outline of the SIM card must be formed in a very precise manner so that there are no burrs that would give an improper surface around the SIM card.In addition, the tabs or extensions must be incised s or accurately crushed from the media card so that the SIM card is held securely in the media, for example, when the card is customized for a particular user, and must also be maintained safe way in position during shipping the card to customers or users. If the link between the SIM card and the data carrier was not precisely incised and if the connection points between the two were not of a desired depth, this would lead to a situation in which, if was not cut deep enough, so the SIM card could not be easily detached from the card. If it were cut too deep, then the card would come off the card easily, which would make it difficult to personalize the card and ship it. When producing a SIM card that is held in a carrier body, an operator os-tones the card along a line and say!, .-) board plus one of! D card '. and read the 1-ildlr! extrc: i2mits the card and the blade is slit or crushes the paper or plastic to define the connection between the SIM card and the card-holder. The hollow area 7 is substantially the same size as the SIM card and this face of the blade 2 is simply resting on the plastic or paper and there is no incision of the material. The tooth 6 provides a face which crushes the paper or incises the plastic and forms the bridge 11, between what must be the SIM card 8 and the support card 9. The tooth 4, forms an indentation on the support card 9, if the depth at which the card incises or crushes at the bridge 11 is at a minimum value, the tooth 3 forms an indentation on the support card if the incision depth of the card is at a maximum value. For a plastic card, because it is of a material denser than paper, the compression produces an incision line, while for the paper, the action produces a compressed area because the fibers of the paper are less dense. The indentation, of course, provides an indication of the level of force that is applied to the blade and the operator of the crush / incision machine can change the pressure applied after observing the indications on the carrier card and if they are present or not. Figure 2 shows a SIM card 8 held within a carrier card 9. The SIM card is defined by a cut-out area 10 which forms the periphery of the SIM card. However, there are bridging zones extending from zones 12 on the support card and forming a link between the SIM card and the support card 9 so that the SIM is held in position on the card. 9. Overall these 25 bridges are at the shorter ends of the rectangular card and there are two at each end of the card, towards the corners of the SIM card fi. Looking at the Igure 3, there is a SIM card 8 Including n circuit 1 1 .111 "il.-1 i l1 Icer .d.lenc.) CH-11.) HC1.1 (.11 cut off the map is 10. There are zones II, which form a bridge between the SIM 8 and the main body 9 of the card and these have been formed by a tooth 6 shown in Figure la. However, in this figure, the link between the SIM and the support card was not cut deep enough because, although there are crushed areas 11, forming the bridge, there is no indentation on the support card 9 , which means that the crushed area is not deep enough and, since the bridge between the support card 9 and the data carrier 8 is not weakened enough, it will be difficult to remove the SIM 8 from the card. support 9.

Figure 4 shows a map where the incision is at an acceptable level. The tooth 6 has formed a crushed zone 11 and there is also an indentation 14 on the outer edge of the blank 10 and which is on the edge of the support card 9. The indentation is made in the form of a small zone practically rectangular at right angles to the cutout 10.

The indentation is formed by an area 4 of the outer tooth of the profiled blade surface shown in FIG. If this indentation is visible to a person making the cards, and if there is no other mark on the card then the person making the card knows that the card has been incised to an optimal depth which means that the zone 11 will be weakened enough for a user to be able to remove the data carrier 8 from the support card 9 and also that the zones II are robust enough for the data carrier 8 to be held within the support card 9 when the card is subjected to manufacturing processes such as printing or when it is handled as when it is sent to customers. Figure 5 shows the situation where the pressure of the friend on a leaf is too great As can be seen, there is an indentation in March, in addition to which indentation can be added to that which is If it is too large, this will make this zone particularly brittle and could cause the card 8 to come off the support card 9 during the manipulations. The typical depths of the stepped areas forming the second tooth which provides the depth indication on the support board 9 are 0.150 mm for zone 3 and 0.250 mm for zone 4 and zone 6 is longer than these two depths These values are typical when the process involves a data carrier and a paper support card.

It should be understood that the above embodiments have been provided solely by way of example of the present invention, such as those detailed below, and that further modifications and improvements thereof, which would be apparent to Those skilled in the art are expected to fall within the scope and scope of the presently disclosed invention. In addition, where individual embodiments are described, the invention is intended to cover both combinations of these embodiments.

Claims (12)

REVENDICATIONS1. Blade (1) for introducing a zone or line of weakness between a data carrier (8) and a sheet of material (9), characterized in that said blade has a profiled incision or crushing surface for incising or crushing a bonding area (11) between the data carrier (8) and the sheet of material (9), said blade having at least one additional surface (3, 4) which, in use, provides an indication of the level of incision or crushing of the profiled incision or crushing surface 10 at the connecting zone (11). 2. Blade according to claim 1, characterized in that the data carrier (8) is a card which is contained in the plane of a sheet material which forms a support card (9), the data medium being connected. to the support card by one or more extensions (12) between the data carrier and the carrier card, said one or more extensions having a link area (11) at one end of said one or more extensions which forms a link weakened which makes it possible to remove the data carrier (8) from the support card (9). 3. Blade (1) according to claim 1 or claim 2, characterized in that the data carrier (8) is a SIM card. 4. Blade (1) according to any one of the preceding claims, characterized in that the incision or crushing surface forms the at least one zone (11) of connection, in that said at least one additional surface including a surface (3) which provides an indication of too much depth of crushing or incision and a surface (4) which indicates an optimal crushing or incision by creating indicators on the surface of the card. support (9). 5. Blade (1) according to the present invention, the carat tuat fabricated in that the profile forming a stepped profile having at least five surfaces: a first surface (7) being a recessed area which is extends at least in part to the body of the data carrier (8) to be defined, a second surface (6) forming a first tooth extending a distance from the first surface; ) forming an additional hollow zone and leading to the surface (4) which indicates an optimal crushing or incision and which extends with respect to the second zone by a distance which is less than that of the second surface (6) said surface (4) which indicates an optimal crushing or incision being adjacent to the surface (3) which provides an indication of too much depth of crushing or incision, which extends for a distance less than the surface (4) which indicates an opti crush or incision so that said at least one additional surface (3 4) forms a second tooth having a stepped face. 6. Blade (1) according to claim 5, characterized in that it is provided with two stepped profiles, one being on the right side of the blade and the other being on the left side of the blade, the second teeth forming the respective outer ends of the blade. 7. Blade (1) according to any one of the preceding claims, characterized in that it is intended to incise or crush a card made of paper or a composite of paper or a plastic-based material. 8. Blade (1) according to any one of the preceding claims, characterized in that the profiled crushing or profiling surface of the blade is formed as a flat blade surface. 9. Blade (1) according to any one of claims 1 to 7, characterized in that the crushing surface or profiled Incision (2) of In blade t hiseDute 2977518 1.3 A method of forming a data carrier (8) from a sheet of material, the data carrier being held within a carrier card (9) by weakened regions (11) of binding, the method being characterized by applying a pressure with a blade having a profiled edge (2) which is brought into contact with a face of the sheet of material, a first tooth (6) of the blade forming at least one crushing region between the data carrier and the carrier card and which creates the weakened links (11) between the data carrier and the carrier card, the blade having a second tooth formed of surfaces ( 3, 4) 0 which can provide an indication on the support card (9) that the blade has incised the sheet to a minimum, optimum or maximum depth, and that based on the indication the depth of incision can be adjusted to a desired depth. 11. A method according to claim 10, characterized in that a 15 to 1) is pressed against the surface substantially at the same time as a process for forming extensions between the support card (9) and the card (8). data. 12. SIM card (8) and support card (9) produced using a blade or method according to any one of the preceding claims, characterized in that there is an indication of depth on the support card ( 9).