FR2968446A1 - Device for holding magnetic reading head of magnetic card reader in payment terminal, has part made of material containing silicones, thermoplastics and elastomers with modulus of elasticity greater than specific value - Google Patents

Abstract

The device has a guide unit mounted between a base (108) of a magnetic read head and a support plane (105), where the support plane is located parallel to the base. A part is made of a material containing silicones, thermoplastics and elastomers with modulus of elasticity greater than 200 N/mm. The guide unit has support parts (101) that are provided on the supporting plane, where the support parts are in hollow cylindrical shape. The support parts are mounted parallel to each other. A receiving part (102) is provided with a through-opening (104) for allowing passage of a connecting member.

Description

FIELD OF THE INVENTION The field of the invention is that of devices implementing a magnetic read head. More specifically, the invention relates to guiding and maintaining such a magnetic reading head. The invention has many applications, for example, when it is used in payment terminals. More generally, it can be applied in all cases where a magnetic reading head is used. 2. TECHNOLOGICAL BACKGROUND Magnetic cards compatible with the ISO 7811 standard include a magnetic tape comprising three recording tracks (generally called ISO 1, ISO 2 and ISO 3 tracks). These tracks may contain information in relation to its owner. In particular, information relating to a bank account, and encrypted data are stored on such tracks.

The use of such magnetic cards is widespread in the banking sector, in order to carry out transactions with merchants. During such a transaction, the magnetic card of a customer is inserted at the end of a slot (in which the end of a magnetic reading head is present on one of the faces of the walls forming the slot) in a payment terminal, and a translation movement of the card is performed (the magnetic card is slid into this slot so that the magnetic strip of the card is presented opposite the end of the magnetic reading head) . Thus, the end of the magnetic reading head comes into physical contact with the magnetic strip of the magnetic card, and it measures the polarization of magnetic particles on portions of the magnetic strip considered (by the translational movement) and deduces binary information. During the translational movement of the magnetic card in the slot of the payment terminal, a pressure is exerted on the magnetic reading head by the sliding of the magnetic card. Thus, a read head must be able to move perpendicular to the axis of translation of a card in the slot. In addition, the passage of a card in the slot may induce a slight accommodation of the magnetic read head relative to the axis perpendicular to the axis of translation of the card. 2968446 -2 In order to stabilize the magnetic reading head during the reading of a card, it is necessary to use a device for holding such a head (in order to limit the aforementioned deposit, this feature being named " magnetic reading head guidance "), which also allows, once the card is passed, to reposition the magnetic read head to its original position (this feature being referred to as" return or damping of the magnetic read head " "). Various types of solutions are known in the state of the art for controlling the guidance and return of the magnetic head. The following patent documents: CN2446589YY, FR2875634, GB2297417A, JP6349035A, JP63302410A, US4628386A1, US5270523A1, US5552947A1, US6487046B1 and show different techniques for making devices for holding a magnetic read head. However, these different techniques have several disadvantages. In particular, these solutions require the use of many metal parts (i.e. spring wires, or vertical spring boards) which require, in the manufacture of the magnetic read head holding devices, to utilize complex assembly methods to implement. 3. OBJECTIVES OF THE INVENTION The invention, in at least one embodiment, has the particular objective of overcoming these various disadvantages of the state of the art. More specifically, in at least one embodiment of the invention, an object is to provide a device for holding a magnetic reading head that is not bulky. At least one embodiment of the invention also aims to provide such a device for holding a magnetic read head whose manufacturing method is simple to implement and is feasible for a low production cost. Another object of at least one embodiment of the invention is to provide such a device for holding a magnetic read head whose arrangement with such a head is easily achievable without performing machining operations. on a magnetic reading head. An additional objective of at least one embodiment of the invention is to provide a holding device which does not include mechanical parts constituting a return spring. Finally, another object of at least one embodiment of the invention is to provide a holding device which makes it possible to protect (from a security point of view) the magnetic read head. 4. DISCLOSURE OF THE INVENTION In a particular embodiment of the invention, there is provided a device for holding a magnetic reading head. This device is remarkable in that it comprises means for guiding and damping said reading head, mounted between a base of the read head and a support plane parallel to said base, comprising at least one part made of a material having a modulus of elasticity greater than 200 N / mm 2. The general principle of the invention therefore consists in integrating into a guiding and damping means at least one part made of an elastomer material making it possible to ensure a spring function (which dampens the translational movements of the read head according to an axis perpendicular to the support plane, and which also allows slight rotations of the read head along the same axis) more or less important depending on the choice of the shape of such a part. Thus, this particular embodiment of the invention is based on a completely new and inventive approach to the above-mentioned state of the art, since it does not require the use of many metal parts requiring the use, for example, studs or welds to secure them together. The manufacturing costs as well as the size of the guiding and damping means are therefore reduced. Advantageously, in such a device, the material belongs to the group comprising: silicones; elastomeric thermoplastics. This list is obviously non-exhaustive. Advantageously, such a device is remarkable in that said guiding and damping means is a structure entirely made of a material having a modulus of elasticity greater than 200 N / mm 2. Thus, since the guiding and damping means is a single piece, it can be manufactured by a molding process, which is particularly advantageous from a manufacturing cost point of view. This device can be obtained in various ways, for example by molding or by extrusion and then cutting. Thus, the guiding and damping means being entirely made of a material having a modulus of elasticity greater than 200 N / mm 2, one can easily choose the shape thereof to facilitate its integration into any device. Advantageously, such a device is remarkable in that the guiding and damping means comprises at least one support piece resting on the support plane, made of an elastomer material and having a cylinder shape whose bases are positioned. perpendicular to the support plane. Thus, through the use of such a cylinder-shaped support member, the guiding and damping means has an elastic effect (also called a spring effect) increased (by the shape and type of material chosen) when a force is exerted on it. Advantageously, such a device is remarkable in that said at least one support piece in the form of a cylinder is hollow. Thus, by choosing such a hollow cylinder-shaped support piece, a support piece is obtained which has an optimum deformation capacity. The flexibility of such a support piece is therefore increased. As a result, the guide and return functions of the magnetic read head are also improved. Moreover, in this embodiment, less material is used to make such a support piece, and thus, production costs are reduced (while accentuating the technical effect). Advantageously, such a device is remarkable in that the device comprises two said cylinder-shaped support parts which are similar and mounted parallel to each other. Thus, by using two such support pieces mounted in parallel with each other, it is possible to reduce the dimensions of these parts. In addition, the spring effect of the guiding and damping means is increased by the combination of several support pieces. Positioning them parallel to each other makes it possible to accentuate the reactivity of the guiding and damping means when pressure is exerted on the magnetic read head. Moreover, by choosing similar support pieces (in shapes, dimensions and materials), the base of the reading head is best balanced. Advantageously, such a device is remarkable in that said guiding and damping means comprises a receiving part of the base of the read head, resting on said at least one support piece. Thus, by using such a receiving part, the read head is even more stable than in the previous embodiments of the invention. Advantageously, such a device is remarkable in that said receiving part has a housing in which the read head fits. Thus, by using a receiving part which has such a housing (or cavity), it ensures optimum stability of the magnetic reading head. Because such a receiving piece is fitted with, for example, the base of the read head, it is not necessary for this receiving piece to have a flat surface. Thus, the choice of the shape of this receiving part can be widened according to the production constraints (shape of a mold, etc.). In addition, from a security point of view, an attacker is obliged to perform a more invasive attack to access the magnetic reading head. Advantageously, such a device is remarkable in that said receiving piece has a through opening for the passage of a connection element connected to the read head. Thus, this embodiment of the invention makes it possible to use any magnetic read head on the market (without performing machining operations) thanks to the use of the through opening allowing, for example, passing a ribbon cable to power and control the read head. In another embodiment of the invention, there is provided a magnetic card reader comprising a device for holding a magnetic reading head as mentioned above. In another embodiment of the invention, there is provided such a reader which comprises a housing comprising, on a first face, a screen and / or a keyboard, and on a second face, a housing adapted to receive a terminal of communication. In addition, said housing has a longitudinal insertion slot of a magnetic card, in the vicinity of which is placed said read head. 5. LIST OF FIGURES Other features and advantages of the invention will become apparent on reading the following description, given by way of indicative and nonlimiting example, and the appended drawings, in which: FIG. for guiding and damping a magnetic read head, included in a holding device, according to a first embodiment of the invention; FIG. 2 shows a guiding and damping means appearing in FIG. 1, adjusted with a read head fed by a ribbon cable; FIG. 3 shows a means for guiding and damping a magnetic read head according to a second embodiment of the invention, in which the guiding and damping means consists of two elements; FIG. 4 shows a means for guiding and damping a magnetic read head according to a third embodiment of the invention on which a magnetic read head is fixed; FIG. 5 shows a means for guiding and damping a magnetic read head according to a fourth embodiment of the invention comprising a hollow rectangular parallelepiped support piece; FIGS. 6A to 6D show an example of a payment terminal comprising a magnetic card reader comprising a device for holding a magnetic reading head according to any embodiment of the invention; - Figure 7 shows the internal structure of a payment device shown in Figures 6A to 6D. . DETAILED DESCRIPTION In all the figures of this document, the elements and identical steps are designated by the same reference numeral. Figure 1 shows a means for guiding and damping 100 a magnetic read head, included in a holding device (not shown), according to a first embodiment of the invention. In this embodiment, the guiding and damping means consists of a single piece of elastomer, obtained by a manufacturing method using for example a mold (by injecting the material into the mold).

According to the first embodiment of the invention, the guiding and damping means comprises two hollow cylinder-shaped support pieces 101 whose bases 108 are mounted perpendicularly to a support plane 105, and the support pieces are positioned parallel to each other. The fact of choosing such hollow support pieces makes it possible to increase the elasticity of the guiding and damping means. In another embodiment, it is possible to choose support pieces having the same shape but which are solid. In order for the support parts of these two embodiments to be equivalent, it can be envisaged to play on the choice of the constituent material of these support pieces. According to the first embodiment of the invention, the means for guiding and damping the read head comprises a reception piece 102 in the shape of a rectangular parallelepiped or cube, one of the faces 106 of which is partly formed with portions blanks of support pieces in the form of revolution cylinders. Thus, the receiving piece 102 is almost parallel to the support plane 105. This reception piece 102 in the form of a rectangular parallelepiped or cube comprises a first slot 103 on the aforementioned face 106. It also comprises an opening 104 on the face 107 opposite the face 106 forming part body with portions of the blanks of the support parts in the form of a cylinder of revolution. This opening 104 opens onto a cavity 107 having dimensions chosen such that it can accommodate a read head (thus making it possible to adjust the base of the reading head) and that the base of the reading head is in contact with the surface 106 (in other embodiments of the invention, the bottom of the cavity 107 is not coincidental with the surface 106, in which case a slot in the bottom of the cavity 107 is present as well as a tunnel connecting this slot to the slot 103). Thus, the read head is secured to the guide means and damping of the magnetic read head. Through the slot 103, a ribbon cable may be inserted therein to allow the supply (as well as the transit of data read by the read head) of the magnetic read head to which it is connected by a first end (the second end of this cable being connected to a device capable of processing information, and generating a current for supplying the magnetic read head). In another embodiment, the receiving piece 102 may have a shape of revolution cylinder, prism, or any other type of shape and in which a cavity (or housing) for inserting and / or adjust the base of the playhead can be realized. FIG. 2 shows a guiding and damping means 100 appearing in FIG. 1, adjusted with a magnetic reading head 200 fed by a ribbon cable 201. When this guiding and damping means is integrated into a piece of equipment of the payment terminal type, a path guiding the magnetic card (also called a "swipe" guide (not shown in the figures)) exerts a slight pressure on the read head (and therefore on the guide and damping means ) to fix the bearing surface and the guiding and damping means. In another embodiment, it is conceivable to manufacture the support pieces 101 via the use of a first mold and the receiving piece 102 via the use of a second mold, then to glue the support pieces 101 with the receiving piece 102 in order to obtain guiding and damping means having the same shape (and therefore similar technical characteristics when moving the magnetic read head) as the guiding and guiding means. described in connection with FIG. 1. FIG. 3 shows a means for guiding and damping a magnetic read head according to a second embodiment of the invention, in which a guide means and a The two support pieces 301, which are hollow, have a cylindrical shape of revolution, the bases 302 of which are mounted perpendicularly to a support plane 105. room s of support are located parallel to each other. Unlike the embodiment shown in Figures 1 and 2, the base of the magnetic reading head 5 is fixed (for example with glue points) to portions of the sidewalls of the support parts. In another embodiment, there may be a plurality of support pieces that support the base of the read head. In the second embodiment of the invention, the support pieces are made of elastomer. FIG. 4 shows a means for guiding and damping a magnetic read head according to a third embodiment of the invention to which a magnetic read head is attached. In this embodiment, the guiding and damping means consists of a single piece of elastomer, obtained by a manufacturing method using for example a mold (by injecting the material into the mold). According to the third embodiment of the invention, the guiding and damping means comprises two support pieces 401, in the form of a cylinder of revolution, the bases 405 of which are mounted perpendicular to a support plane 105, and the support pieces are positioned parallel to each other. The guiding and damping means 20 further comprises a receiving piece 402 in the form of a rectangular parallelepiped or cube, one of the faces 406 of which is part body with portions of the blanks of the support pieces in the form of a cylinder of revolution. Thus, the receiving piece 402 is almost parallel to the support plane 105. This rectangular parallelepiped or cube-shaped reception piece 402 comprises a first slot 403 on the aforementioned face 406. It also comprises an opening 404 on the face 407 opposite to the face 406 forming part body with portions of the blanks of the support pieces in the form of a cylinder of revolution. The slots 403 and 404 define a small cavity 408 allowing the passage of a ribbon cable to feed the read head 200 (and to receive the information read by the read head 30). In this embodiment of the invention, the base of the magnetic read head is attached (via dots of glue) to the face 407 which is opposed to the face 406 forming part body with portions of the blanks of support pieces in the form of revolution cylinders. In another embodiment of the invention, the rectangular parallelepiped or cube-shaped receiving piece 402 may be replaced by any type of element having at least a flat portion for accommodating the base of the magnetic reading head. . FIG. 5 shows a means for guiding and damping a magnetic reading head according to a fourth embodiment of the invention comprising a support piece in the form of a rectangular hollow parallelepiped. In this embodiment, the guiding and damping means consists of a single piece of elastomer, obtained by a manufacturing method using for example a mold (by injecting the material into the mold). According to the fourth embodiment of the invention, the guiding and damping means comprises a single support piece 501 hollow, in the form of a rectangular parallelepiped in contact via one of its faces with a support plane 105. the fact of choosing such a hollow support piece makes it possible to increase the elasticity of the guiding and damping means. In another embodiment, a support piece having a cylinder shape can be selected and in this case a portion of the sidewall of the support piece is in direct contact with the support plane 105. According to the fourth embodiment embodiment of the invention, the face opposite the face in contact with the support plane 105 comprises a slot 502. On the same side, the base of the magnetic reading head 200 is fixed via glue points. The presence of the slot facilitates the connection between the magnetic read head and a data feed and processing device via a ribbon cable. Those skilled in the art can easily adapt the embodiments of the invention presented in FIGS. 1 to 5 to obtain variants of the present invention. In particular, by modifying the structure of the read heads (so that a magnetic read head has a slot for passing a ribbon cable for supplying the reading head no longer at the base of said head, but on other side of the structure of the magnetic head), another embodiment of the invention may consist in not including slots in the embodiments described in FIGS. 1, 2, 4 and 5. The skilled person can also realize variants of the present invention depending on the choice of the material used (any type of solid viscoelastic materials), the shape and the number of the support part or pieces used to produce a guiding means and head damping magnetic reading device to ensure the correct reading of a magnetic card. Finally, a person skilled in the art can produce guiding and damping means consisting of a support for the base of the cross-shaped read head (obtained by the arrangement of two cylindrical support pieces). FIGS. 6A to 6D show an example of a payment terminal comprising a magnetic card reader comprising a device for holding a magnetic reading head according to any embodiment of the invention.

The payment terminal (10) comprises two general subsets, which can be assembled, namely the payment device (20) and the communication device (30). As illustrated, the payment device (20) comprises a front face, visible in FIG. 6B, having a keyboard for entering information (21-1) and a display screen (21-2) for the information entered. The payment device comprises, on the rear face, visible in FIG. 6D, a fixing surface (22) allowing the attachment of a modular interface (60) for the pairing of the communication device (30). More particularly, this modular interface defines a housing (60-1) for insertion and pairing of the communication device (30).

The payment device, meanwhile, is able to perform payment functions. To do this, the payment device (20) comprises, in addition to the keyboard for entering information (21-1) and the display screen (21-2) of the information entered, an upper half-shell (21-3 ) comprising the holes necessary for the passage of the keys of the keyboard (21-1) and an opening for the display of the screen (21-2).

The screen can also be sensitive, and provide the keyboard function. The payment device (20) also comprises a lower half-shell (21-4) which is secured to the upper half-shell (21-3) to form the housing of the payment device (20). The lower half-shell (21-4) defines the surface (22) for fixing the modular interface (60). The lower half-shell (21-4) 5 comprises a housing (21-41) for inserting a battery for powering the payment device (20). The lower half-shell (21-4) is also shaped so that it has a slot (21-42) allowing the passage of a payment card comprising a magnetic strip. Once the payment device has been assembled, this slot (21-42) 10 extends on one of the sides of the payment device (20) and makes it possible to read the magnetic stripe payment card by a translation movement. of it over the length of the payment device (20). The lower half-shell (21-4) of the payment device (20) comprises an opening (21-43) traversed by a magnetic reading head (24). This aperture (21-43) is shaped so that it can allow some mobility of the magnetic read head (24, 200). Thus, a reduced game is possible, ensuring this mobility is arranged on the periphery of the opening. The magnetic reading head (24, 200) can thus evolve to a certain extent in order to ensure an optimal reading of the information contained on the magnetic strip of a payment card. This magnetic reading head (24, 200) is placed on a holding device comprising a means for guiding and damping the read head, according to any embodiment of the invention (various embodiments are presented in Figures 1 to 5), and is connected to a motherboard (27) of the payment device via a web.

The motherboard (27) is an electronic circuit which comprises on a first face, in this embodiment, a set of microcircuits, in particular one or more microprocessors and / or memories, as well as devices allowing the connection of the elements of the keyboard (21-1) and the display screen (21-2). On its second side, the motherboard includes other microcircuits, as well as a memory card reader (called CAM reader) (28). This reader (28) is configured to allow insertion and reading of a payment card including a chip. An unused volume (25) is present under the attachment surface (22) of the lower half-shell (21-4), laterally to the magnetic read head (24). In order to increase the security of the payment devices, a card is added, also called a "daughter" card, which makes it possible, on the one hand, to secure access to the internal components of the payment device and, on the other hand, to fill the card. other ancillary functions of the payment device. This daughter card is located under the mounting surface (22) for fixing a modular interface (60) for pairing the communication device (30). In other words, this daughter card that prevents access to the motherboard and prevents the insertion of a magnetic reading head.

Fig. 7 shows the internal structure of the payment device shown in Figs. 6A-6D.

Claims (11)

REVENDICATIONS1. Device for holding a magnetic read head (200), characterized in that it comprises means for guiding and damping said reading head, mounted between a base of the read head and a support plane parallel to said base comprising at least one part made of a material having a modulus of elasticity greater than 200 N / mm 2. 2. Device according to claim 1, characterized in that said material belongs to the group comprising: silicones; elastomeric thermoplastics. 3. Device according to any one of claims 1 and 2, characterized in that said guiding and damping means is a structure entirely made of a material having a modulus of elasticity greater than 200 N / mm2. 4. Device according to any one of claims 1 to 3, characterized in that said guiding and damping means comprises at least one support piece (101; 301; 401; 501) resting on the support plane (105). , made of an elastomeric material and having a cylinder shape whose bases are positioned perpendicularly to the support plane. 5. Device according to claim 4, characterized in that said at least one support piece in the form of a cylinder is hollow (101; 301; 501). 6. Device according to any one of claims 4 and 5, characterized in that the device comprises two said support members in the form of cylinder which are similar and mounted parallel to each other. 7. Device according to any one of claims 4 to 6, characterized in that said guiding and damping means comprises a receiving part (102; 402) of the base of the read head, resting on said at least one piece Support. 8. Device according to claim 7, characterized in that said receiving part has a housing in which the read head fits. 9. Device according to any one of claims 7 and 8, characterized in that said receiving piece has a through opening (104; 408) for the passage of a connecting element connected to the read head. Magnetic card reader comprising a device for holding a magnetic reading head according to any one of claims 1 to 9. 2968446 -15- 11. Reader according to claim 10, characterized in that it comprises a housing comprising, on a first face, a screen and / or a keyboard, and on a second side, a housing adapted to receive a communication terminal, and said housing has a longitudinal slot for insertion of a magnetic card, in the vicinity of which said reading head is placed.