FR3085514A1 - MEMORY CARD READING TERMINAL INCLUDING TILT COMPENSATION MEANS - Google Patents

Abstract

The invention relates to a memory card reader body (21) comprising an insertion slot (211) of a memory card. According to the proposed technique, the memory card reader body (21) comprises an upper face (212) and a lower face (213) forming between them a non-zero acute angle (α), called the angle of inclination of the body. memory card reader. Such a memory card reader body can be used as a tilt compensation means within a memory card reading terminal having an upper face inclined with respect to a plane of laying of said terminal, in order to compensate at least this inclination of the reading terminal partially at the level of the memory card insertion slot, so that this slot extends in a plane substantially parallel to said laying plane.

Description

Memory card reading terminal comprising means for tilt compensation.

1. Field of the invention

The invention relates to the field of memory card readers. The invention more particularly relates to a memory card reader intended to be mounted in a memory card reading terminal, such as a payment terminal or an identification terminal for example. More generally, the invention relates to any type of terminal which may include a memory card reader.

2. Prior Art

The memory card reading terminals include, in addition to a memory card reader, a certain number of components such as a keyboard, a screen, one or more processors, memory, a power supply source. There is presented, in relation to FIG. 1, a profile view of a memory card reader terminal 10 as it exists in the prior art. Conventionally, such a terminal has an upper face 110 most often comprising a screen 113 allowing the graphic interface of a current application executed within the terminal to be displayed, and a keyboard 112 allowing a user to interact with said application. . The reading terminal also includes a memory card reader 101 having an insertion slot 111 for a memory card. Frequently, such a terminal also incorporates a printer, as is the case in particular for many payment terminals, in order to allow for example the printing of tickets and receipts following the completion of transactions. In this case, a housing 114 for accommodating a roll of paper intended to supply this printer is generally provided within the reading terminal. According to the conventional structure of memory card reader terminal presented in connection with FIG. 1, the insertion slot 111 of a memory card is arranged on a front face 116 of the reading terminal, the upper face 110 of the terminal being a surface of use reserved for the implementation of the keyboard and / or the screen (possibly touch). Such an arrangement is in fact particularly adapted, from an ergonomic point of view, to the conditions of current use of a portable memory card reader terminal: when the user holds the terminal in one hand, the gestures required to use the terminal fall naturally. Thus, the position of the insertion slot on the front of the terminal means that the memory card held in the other hand can be easily inserted therein without unnecessary contortions, as is the position of the keyboard and the screen in upper side of the terminal makes their use easy and natural.

As illustrated in FIG. 1, the upper face 110 of a memory card reading terminal is generally inclined relative to a plane of installation of the reading terminal. The laying plane is defined as the plane which contains the points and / or lines and / or surfaces of the terminal intended to be in contact with a support 11, when the terminal is placed on this support under normal conditions of use. Most often, such a support 11 is horizontal, and it may for example be the surface of a table or a counter. This inclination, called inclination of the memory card reading terminal in the rest of the document, has different origins. In addition to ergonomic considerations (for example offering a better viewing angle of the screen to the user), it generally results from a compromise between the preservation of a certain compactness of the reading terminal, and the presence of the housing for reception - relatively large - of a roll of paper intended to supply the printer possibly integrated in the reading terminal.

Such an inclination has implications for the internal design of the memory card reading terminal and there is substantially the same inclination associated with various constituent elements of the reading terminal. Thus, a main printed circuit 115 (generally the motherboard ensuring the operation of the card reading terminal) has an inclination substantially similar to that of the upper face 110. This is also the case for the memory card reader 101 and its insertion slot 111, which have substantially this same inclination. Such a design has indeed numerous advantages, the keyboard, the screen, and the memory card reader thus being able in particular to be fixed and connected directly to the main printed circuit 115. In this way, one avoids having to resort to multiple secondary printed circuits (for the keyboard, for the screen, for the memory card reader, etc.). The manufacturing of the terminal is therefore simplified, and less costly. In addition, the terminal is easier to secure. In fact, the areas of the terminal within which sensitive signals are likely to be conveyed - in particular the signals corresponding to keyboard key press signals and the signals conveyed at the level of the memory card reader, which would allow a malicious person who would have access to intercept sensitive data such as the personal identification code associated with a bank card for example - are concentrated in a small perimeter of the terminal. The implementation of a secure enclosure around such a perimeter is then simplified.

This arrangement nevertheless has certain drawbacks, in particular when the memory card reading terminal is to be used not held in hand, but placed on any support surface, typically a table or the counter of a merchant. In such a situation, the user often has no choice but to lift the reading terminal, in order to be able to insert his memory card into the terminal insertion slot provided for this purpose. Indeed, because of the inclination of the insertion slot, the support plane hinders or at the very least makes it difficult to insert the memory card into the reader, other than by lifting it.

Various solutions have been considered to solve this problem.

A first solution consists in proposing a memory card reader terminal in which the insertion slot is no longer located on the front face of the terminal, but in another place, for example on one side of the reader terminal or on its upper side (for example between the top of the screen and the printer's paper outlet).

Another solution consists in keeping the insertion slot on the front face of the terminal, but in providing a specific printed circuit associated with the card reader, the inclination of this specific printed circuit then being able to be different from that of the motherboard, and chosen so as to facilitate the insertion of the memory card when the terminal remains on a support surface. In such a configuration, the specific printed circuit is connected to the motherboard of the payment terminal by means, for example, of a flexible printed circuit.

None of these solutions is, however, fully satisfactory. Both make the reading terminal both more complex to manufacture and more difficult to secure. More complex to manufacture, because it is necessary to provide additional printed circuits, as well as means for integrating them within the reading terminal and connecting them to the main circuit, which also complicates the final assembly. More difficult to secure, because the presence of these additional printed circuits significantly extends the area to be secured, or even multiplies the number of areas to be secured. The manufacturing cost of the reading terminal is therefore also increased accordingly.

There is therefore a need for solutions to facilitate the use of a memory card reading terminal when the latter is placed on a support such as a table or a counter, and in particular solutions which do not render the terminal more complex to manufacture or more difficult to secure.

3. Summary of the invention

The present technique partially solves the problems posed by the prior art. The present technique relates in fact, according to a first aspect, to a memory card reader body comprising a slot for inserting a memory card, said memory card reader body further comprising an upper face and a lower face forming between them a non-zero acute angle, called the angle of inclination of the memory card reader body.

In this way, the memory card reader body has a generally beveled shape and it can be used within a memory card reading terminal as a tilt compensation means, to at least partially compensate for an angle for tilting the reading terminal at the memory card insertion slot. Thus, the angle of inclination of the memory card reader body can in particular be adapted so that said insertion slot extends in a plane substantially parallel to a plane of installation of the reading terminal. In this way, the presence of the laying support no longer hinders or hinders the insertion of a memory card into the reader. In addition, the memory card reader body can be mounted directly on the motherboard of the reading terminal, which makes it easier to secure.

In a particular embodiment of the proposed technique, the memory card reader body comprises an upper cover and a lower base which can be fitted together, said upper cover and said lower base forming, once assembled, said insertion slot, said upper cover having a generally rectangular rectangular shape, and said lower base having a bevel shape defining said angle of inclination.

In this way, the mounting of the memory card reader is facilitated. The implementation of such a reader body, the insertion slot of which is formed by means of two interlocking parts (lower base and upper cover) also makes it possible to simply implement additional characteristics which would have been difficult and / or expensive to implement with a body formed in one piece, due to the technical nature of these characteristics.

In a particular embodiment of the proposed technique, the memory card reader body further comprises a printed circuit fixed on an external face of said upper cover, said printed circuit comprising at least one protective element.

In this way, high security is ensured against any attempt of intrusion by the upper cover of the memory card reader. In particular, the printed circuit can be dimensioned to cover a major part of the upper face of the upper cover, and the protective element can extend substantially over a major part of said printed circuit.

In a particular embodiment of the proposed technique, said angle of inclination of the memory card reader body is less than 45 °.

According to a particular characteristic, said angle of inclination of the memory card reader body is between 5 ° and 15 °.

According to yet another particular characteristic, said angle of inclination of the memory card reader body is substantially equal to 10 °.

In this way, a wide range of tilt angles is available for the memory card reader body, thus making it possible to compensate for different tilt angles depending on the payment terminal models in which memory card readers implementing such bodies are installed.

In a particular embodiment of the proposed technique, according to a first alternative, the memory card reader body comprises a housing for receiving a memory card connector.

In this way, the mounting of the memory card reader is further facilitated. Indeed, with such a configuration of a memory card reader body, the proposed technique makes it possible first to solder the memory card connector on a printed circuit (typically the motherboard of the reading terminal), then to assemble then the other parts of the memory card reader body by covering the memory card connector.

In another particular embodiment of the proposed technique, according to a second alternative, the memory card reader body comprises an integrated memory card connector.

In this way, body and connector are not separable, and the reader is more robust.

According to another aspect, the proposed technique also relates to a memory card connector intended to be inserted in a housing for receiving a memory card connector of a memory card reader body according to the first alternative previously presented, said memory card connector being characterized in that it has a beveled shape, an upper face and a lower face of said memory card connector forming between them an angle substantially equal to the angle of inclination of said body memory card reader.

In this way, the memory card connector has a shape fully complementary to the receiving housing present in a bevelled memory card reader body, within which this connector is intended to be placed.

According to yet another aspect, the proposed technique also relates to a memory card reader terminal which comprises a memory card reader body according to the embodiments of a memory card reader body previously presented.

According to a particular characteristic of this embodiment, such a memory card reader terminal further comprises a memory card connector according to the embodiment of a memory card connector previously described.

In a particular embodiment of the proposed technique, the angle of inclination of the memory card reader body is defined as a function of an angle of inclination of an upper face of said reading terminal, relative to a installation plan of said reading terminal.

In this way, the angle of inclination of the upper face of the memory card reader terminal (also called inclination angle of the reading terminal) is taken into account to determine the angle of inclination of the reader body. memory card, which makes it possible to implement tilt compensation adapted to the level of the memory card insertion slot of said reading terminal.

According to yet another aspect, the proposed technique relates more generally to a memory card reader terminal having an upper face inclined at an acute angle which is not zero relative to a plane of installation of said terminal, known as the angle of inclination of the reading terminal, said memory card reading terminal comprising at least one inclination compensation means shaped and dimensioned so as to at least partially compensate for said inclination angle of the reading terminal at a slot inserting a memory card from said reading terminal, so that said insertion slot extends in a plane substantially parallel to said laying plane.

In this way the implementation of tilt compensation is not limited to the implementation, within a memory card reader terminal, of a beveled memory card reader body. Other tilt compensation means can thus be envisaged, for example in the form of a keyboard and / or a motherboard having a general bevel shape.

The various embodiments mentioned above can be combined with one another for implementing the invention.

4. Figures

Other characteristics and advantages of the invention will appear more clearly on reading the following description of a preferred embodiment, given by way of simple illustrative and nonlimiting example, and of the appended drawings, among which:

FIG. 1, already described, illustrates a classic example of a terminal for reading memory cards as there is in the prior art;

FIG. 2 shows a terminal for reading conventional memory cards placed on a laying base having a bevel shape;

Figures 3a and 3b show perspective views of a memory card reader according to a particular embodiment of the proposed technique;

FIG. 4 is an exploded view showing the main parts of a memory card reader, in a particular embodiment of the proposed technique;

FIG. 5 shows a memory card reader terminal comprising a bevelled memory card reader, as presented for example in relation to FIGS. 3a, 3b and 4, in a particular embodiment of the proposed technique;

FIG. 6 illustrates the relationship which can be established between the angle of inclination of a memory card reader body and the angle of inclination of a reading terminal, in a particular embodiment of the technique proposed.

5. Detailed description

The general inventive concept of the proposed technique resides in the implementation of a tilt compensation means which makes it possible to facilitate the insertion of a memory card in a terminal for reading memory cards, when a such a terminal is placed on any laying support, such as a table or a counter for example. This compensation means is used to straighten the insertion plane of a memory card in the reading terminal, so that this insertion plane is substantially parallel to a laying plane of the reading terminal. By laying plane is meant the plane which contains the points and / or lines and / or surfaces of the terminal intended to be in contact with the laying support, when the terminal is placed on this support under normal conditions of use. Thus, the presence of the installation support no longer hinders or hinders the insertion of a memory card into the reader. It is therefore no longer necessary to lift the reading terminal in order to be able to insert a memory card there, and the memory card once inserted as far as it will go in the reading terminal no longer touches the laying support on which it is posed. According to the proposed technique, the implementation of such a tilt compensation means does not however make the memory card reader terminal more complex to manufacture or more difficult to secure, as is explained later in the present. document. Throughout the description, elements of the same kind are identified by the same reference numeral in the figures.

A first solution envisaged by the inventors to obtain the abovementioned technical effects was to propose a base for laying a terminal for reading memory cards, as illustrated in a simplified manner in relation to FIG. 2. Such a base for laying 12 can be used with a reading terminal of the prior art, such as the reading terminal 10 already described in connection with FIG. 1 for example. This installation base 12 has a general bevel shape, so that, when it is itself placed on a horizontal plane 11, its upper face has a tilt angle substantially equal to or at least close to that of the memory card reading terminal 11. The directions of inclination of the reading terminal 10 on the one hand and of the installation base 12 on the other hand are however different. While the inclination of the reading terminal is directed towards the front of the terminal, the inclination of the installation base is directed towards the rear of the base. Thus, when the memory card reading terminal 10 is placed in the correct direction on the installation base 12 (front of the terminal and before the coincident base), the inclination of the installation base 12 compensates for the inclination of the reading terminal. As illustrated in FIG. 2, the use of such a mounting base 12 therefore makes it possible to straighten the insertion slot 111 of the memory card of the reading terminal without it having been necessary to modify the structure of a such terminal. Optionally, the installation base can be shaped so that the installation can only be carried out in the correct direction, or present means making it possible to inform the user as to the direction of installation to be observed. The use of such a base nevertheless imposes constraints. For example, to benefit from the expected advantages, the memory card reader terminal cannot be placed freely on the installation support, in any location: on the contrary, it must be placed in a specific location and in a specific direction. , that is to say on its installation base, in the right direction. In addition, the use of this type of bases is unsuitable for mobility situations, in which the memory card reader terminal is required to be moved frequently and used in different locations (as is the case, for example). example, when a waiter in a cafe or restaurant walks from table to table equipped with a portable payment terminal, in order to collect the consumptions of his customers). Such an accessory then turns out to be impractical, even bulky.

Also, in the proposed technique described below in different embodiments, at least one tilt compensation means is integrated within the memory card reader terminal, while taking care to preserve a certain compactness of the terminal and to guarantee optimal security.

In a particular embodiment of the proposed technique, presented in relation to FIGS. 3a and 3b, a memory card reader body 21 is shaped and dimensioned so as to form such a tilt compensation means. More particularly, the memory card reader body 21 has a beveled shape: it comprises an upper face 212 and a lower face 213 forming between them an acute angle that is not zero a, called the angle of inclination of the card reader body. with memory.

The memory card reader body 21 comprises an insertion slot 211 of a memory card, accessible at a front face 216 of said body. This slot extends within the memory card reader body, for example parallel to the upper face

212.

According to various characteristics of the proposed technique, the memory card reader body can either integrate a memory card connector (the connector then forms an integral part of the reader body, forming a single piece then indifferently designable according to the either of the terms "memory card reader body" or "memory card connector"), or else include a housing for receiving a memory card connector (body and connectors then form two parts or very distinct functional units: a first part - which corresponds to the memory card connector - through which the memory card signals pass; and a second part - which corresponds to the body of the memory card reader - allowing the insertion of the memory card, for example guiding and recovering the force of the memory card, part of the electrostatic discharge of the card, and u protection of the signals exchanged between the memory card and the memory card connector). This latter configuration corresponds to that illustrated in FIGS. 3a and 3b in particular, as well as in FIG. 4 which will be described hereinafter, and such a memory card connector 20 inserted in its reception housing is visible in FIG. 3b.

In a particular embodiment, the body of the memory card reader is itself formed of at least two distinct main parts: a lower base and an upper cover. The lower base and the upper cover are nestable one inside the other. More particularly, the lower base and the upper cover have complementary assembly means. When assembled, the lower base and the upper cover together form the insertion slot which allows a memory card to be inserted in a correct position so that it comes into contact with the memory card connector, once in the stop position. . The lower base and the upper cover are also shaped and dimensioned so as to form, once assembled, a memory card reader body having the bevel shape described above, thus defining a means of tilt compensation according to the technique proposed. For example, the upper cover has a generally rectangular parallelepiped shape, and the lower base has a bevel shape defining the angle of inclination of the memory card reader body. In other words, the lower base has an upper face and a lower face forming between them an angle corresponding to the angle of inclination a of the memory card reader body.

According to a particular characteristic, the memory card reader body further comprises a third main part, taking the form of a printed circuit comprising one or more protective elements which extend over a significant portion of its surface. Such a printed circuit is for example in the form of a rigid printed circuit (formed for example on the basis of an epoxy-type support) of generally rectangular rectangular shape. The upper cover and the printed circuit are then shaped and dimensioned so that the printed circuit can be fixed on the upper cover. Such an embodiment is described in more detail in relation to the exploded view presented in FIG. 4. According to this particular embodiment, a memory card connector 20 is constructed independently of a body of the memory card reader 21 The memory card connector 20 is designed to allow reading of the signals emanating from the memory card (not shown). To do this, the memory card connector 20 includes a certain number of pins (also called “pins”, eight in number in FIG. 3), making it possible to come into contact with corresponding areas of the card chip with memory (generally six or eight zones, depending on the type of memory card). These pins are generally metal spring blades which are positioned on the surface of the chip. The memory card connector 20 is also intended to be connected to a main printed circuit (not shown), typically the motherboard of the reading terminal in which it is installed, in order to ensure the operation of the reader and its interconnection. with the other components of the reading terminal. In the present document, this main printed circuit, on which the connector 20 is for example soldered, is designated by the term “motherboard”, in order to avoid any confusion with the printed circuit of the memory card reader body according to the proposed technique, which covers the top cover. It should however be noted that the term “motherboard” should not be understood in a restrictive sense, and that in certain embodiments the main printed circuit is not necessarily the motherboard of the reading terminal.

In the embodiment illustrated in connection with FIG. 4, the memory card connector 20 is independent of the body of the memory card reader 21. In other words, the memory card connector 20 is not assembled with the body of the memory card reader 21 before being assembled to the motherboard of the reading terminal: according to the proposed technique, the memory card connector 20 is fixed first on the motherboard, then the body of the memory card reader 21 is assembled over the connector 20. As described above, in the particular embodiment illustrated in relation to FIG. 4, the body of the memory card reader 21 itself comprises three main parts: a lower base 21A, an upper cover 21B, and a printed circuit 21C which surmounts the upper cover 21B. The lower base 21A comprises a housing for receiving the memory card connector 20. This housing takes the form of an orifice passing through the lower base 21A right through, and in which the connector 20 is received when the lower base 21A is positioned on the motherboard. In other words, the memory card connector 20 is firstly fixed to the motherboard, then the lower base 21A of the body of the memory card reader is positioned on the motherboard in a second step, around the previously installed connector. The upper cover 21B is then assembled on the lower base 21A, so as to form the insertion slot for a memory card within the reader. Finally, the printed circuit 21C is fixed on the upper face of the upper cover, so as to cover most of it, ideally all of it. Alternatively, the block formed by the upper cover 21B and the printed circuit 21C may have been pre-assembled, upstream of the assembly phase of the memory card reader. In this case, it is the whole of this pre-assembled block which is positioned on the lower base 21A during assembly of the reader.

In a particular embodiment of the proposed technique, the memory card connector itself has a bevel shape, an upper face 202 and a lower face 203 of this connector forming between them an angle substantially equal to the angle d tilt of the memory card reader body. The memory card connector 20 then has a shape complementary to the reception housing present in the lower base 21A, in the sense that it occupies most of this housing when it is inserted therein. Thus, the lower face 203 of the memory card connector installed in its housing is substantially flush with the lower face 213 of the lower base, and the upper face 202 of the memory card connector is substantially flush with the upper face of the lower base.

According to a particular characteristic, the printed circuit 21C comprises at least one protection element, which is for example in the form of one or more intrusion detection trellises or in the form of one or more continuous tracks of intrusion detection (for example a ground circuit, and two trellises at different potentials). This or these protective elements are positioned so as to cover a major part of the surface of the printed circuit 21C. Ideally, they are distributed over the entire surface of the printed circuit 21C, so as to provide increased security for the memory card reader.

With such an architecture in three parts of the memory card reader body, the assembly and fixing of the memory card reader on the motherboard are simplified and can be carried out in a limited number of steps. Furthermore, the coupling between an upper cover and a printed circuit makes it possible to obtain effective securing of the reader by means of simple parts which can be produced on a large scale and at lower cost.

FIG. 5 shows an example of positioning of a memory card reader body 21 similar to that described in relation to FIGS. 3a, 3b and 4 within a memory card reader terminal 10 '. The directions for inserting a memory card are also shown. Direction 51 corresponds to the direction of insertion of a memory card into a reading terminal comprising a beveled reader, such as terminal 10 ′ illustrated in FIG. 5. Direction 50, shown only for comparison purposes , corresponds to the direction of insertion of a memory card in a reading terminal of the prior art (such as the terminal 10 in FIG. 1), which does not include means for tilting compensation. Positions 51A and 52A correspond to the position of the end of a memory card of conventional format (ID-1 format defined in ISO / IEC 7810 standard) when the other end (closest to the chip) is ready to be engaged in the reader of the reading terminal. Positions 52A and 52B correspond to the position of the non-engaged end of a memory card of conventional format when the other end (closest to the chip) is completely engaged in the reader of the reading terminal (it ie in the stop position at the bottom of the reader). FIG. 5 clearly shows that with a reading terminal not provided with an inclination compensation means (insertion direction 52), a memory card cannot be engaged in the terminal (or withdrawn from the terminal) if this the latter remains placed on a support 11 (except to fold the memory card, and to risk damaging it). On the other hand, with an inclination compensation means (insertion direction 51), the support on which the reading terminal is placed does not obstruct or hamper the movement of insertion (or withdrawal) of the card in the insertion slot: the memory card can then be inserted into the reading terminal optimally, ie without having to fold it and without having to lift the reading terminal.

In addition, the reading terminal remains compact and secure. In particular, such a design facilitates the implementation of a secure enclosure, since the areas of the terminal within which sensitive signals are likely to remain remain concentrated in a small perimeter of the terminal. For example, the motherboard 115 ′ can itself integrate various protective elements (such as intrusion detection trellises for example), in order to form, with the printed circuit 21C, a protective enclosure which encloses - and therefore protects - completely sensitive areas of the reading terminal, where confidential data are likely to pass. In a complementary or alternative manner (in particular in the particular embodiments where the memory card reader body does not include the printed circuit 21C), protective mesh directly integrated into the memory card reader body can contribute to the setting implementation of such a protective enclosure. These trellises can in particular be produced with the laser engraving technique known as LDS (from the English “Laser Direct Structuring”) making it possible to trace a track in MID (from the English “Molded Interconnected Device”) on an existing part. Thus, the proposed technique does not overly extend the area to be secured within a reading terminal, or does not multiply the number of areas to be secured, unlike the existing solutions previously described in relation to the prior art (consisting to use a specific printed circuit associated with the memory card reader, or to move the reader elsewhere in the terminal).

In a particular embodiment illustrated in relation to FIG. 6, the angle of inclination a of the memory card reader body is defined as a function of the angle of inclination a 'of the reading terminal (it being recalled that the angle of inclination a ′ of the reading terminal corresponds to the angle between the upper face of the reading terminal, corresponding to a surface for using the terminal, and a lower surface corresponding to a plane of installation of said terminal). More particularly, according to a particular characteristic of this embodiment, the angles a and a 'are substantially equal so that the insertion plane of a memory card in the insertion slot extends substantially parallel to the plane of installation of the reading terminal, as shown for example in relation to the insertion direction 51 illustrated in FIG. 5.

Although the proposed technique has been presented mainly in relation to detailed embodiments relating to a bevelled memory card reader body used as a means of tilt compensation, it cannot be limited to these embodiments. Also, the proposed technique relates more generally to a memory card reading terminal having an upper face inclined at an acute angle that is not zero relative to a plane of installation of said terminal (called angle of inclination of the reading terminal). , said reading terminal comprising at least one inclination compensation means. The implementation of such tilt compensation is thus not limited to the implementation, within a memory card reader terminal, of a memory card reader body having a shape in bevel (or a memory card connector having such a shape, when the body and connector form a single integrated part). In particular, other elements of the reading terminal can act as tilt compensation means according to the proposed technique, when these elements are shaped and dimensioned so as to at least partially compensate for the angle of inclination of the reading terminal at the memory card insertion slot, so that said insertion slot extends in a plane substantially parallel to the installation plane of the reading terminal (or at least in a plane such as the installation support does not interfere with or interfere with the operations required to insert or remove a standard format memory card in the memory card reader of the reading terminal).

Thus, other implementations falling within the framework of the general principle previously introduced can be implemented. For example, the keyboard and / or the motherboard of the memory card reader terminal could also be shaped and dimensioned so as to have a general bevel shape and act as a means of tilt compensation according to the proposed technique. Furthermore, an implementation involving a combination of several beveled elements could also be envisaged, without departing from the scope of the proposed technique.

Claims (10)

1. Memory card reader body (21) comprising a memory card insertion slot (211), said memory card reader body being characterized in that it comprises an upper face (212) and a lower face (213) forming between them a non-zero acute angle (a), said angle of inclination of the memory card reader body. 2. Memory card reader body according to claim 1, characterized in that it comprises an upper cover (21B) and a lower base (21A) nestable one inside the other, said upper cover and said lower base forming, once assembled, said insertion slot (211), said upper cover (21B) having a generally rectangular parallelepiped shape, and said lower base (21A) having a bevel shape defining said angle of inclination (a). 3. Memory card reader body according to any one of claims 1 or 2, characterized in that it further comprises a printed circuit (21C) fixed on an external face of said upper cover (21B), said printed circuit (21C) comprising at least one protective element. 4. Memory card reader body according to any one of the preceding claims, characterized in that it further comprises a housing for receiving a memory card connector (20). 5. Memory card reader body according to any one of claims 1 to 3, characterized in that it comprises a memory card connector (20) integrated. 6. Memory card connector (20) intended to be inserted into a housing for receiving a memory card connector of a memory card reader body according to claim 4, said memory card connector being characterized in that it has a bevel shape, an upper face (202) and a lower face (203) of said memory card connector forming between them an angle substantially equal to the angle of inclination of said card reader body with memory. 7. Memory card reading terminal characterized in that it comprises a memory card reader body according to any one of claims 1 to 5. 8. Memory card reading terminal according to claim 7 characterized in that it further comprises a memory card connector according to claim 6. 9. memory card reader terminal according to any one of claims 7 or 8, characterized in that the angle of inclination of said memory card reader body is defined as a function of an angle of inclination of an upper face of said reading terminal, with respect to a plane of installation of said reading terminal. 10. Memory card reading terminal having an upper face inclined at a non-zero acute angle relative to a plane of installation of said terminal, known as the angle of inclination of the reading terminal, said memory card reading terminal being characterized in that it comprises at least one inclination compensation means shaped and dimensioned so as to at least partially compensate said tilt angle of the reading terminal at a memory card insertion slot of said terminal reading, so that said insertion slot extends in a plane substantially parallel to said laying plane.