AT6353U1 - CONTACTING DEVICE FOR CARD-SHAPED INFORMATION CARRIERS AND READING UNIT EQUIPPED WITH IT - Google Patents

Abstract

The invention relates to a contacting device (1) for card-shaped information carriers (2) with an electronic data storage element. A slot-shaped opening (35) is formed in the housing or receiving body (6) transversely to its longitudinal center axis (33), in which at least one stop element (26) with at least one stop edge (31, 32) for edge regions (29, 30) of a feedable information carrier (2) and this at least one stop edge (31, 32) runs obliquely or inclined to the longitudinal central axis (33) of the housing or receiving body (6), so that a contact-positioned information carrier (2) obliquely to the longitudinal central axis (33) of the housing or Receiving body (6) is aligned and that the contacting device (13) or its contact elements (14) is / are inclined to an appropriate extent to the longitudinal central axis (33) of the housing or receiving body (6) and the at least one inclined stop edge (31, 32) one Feeding movement of an information carrier (2) into the opening (35) in cooperation with two mutually perpendicular ones Edge areas (29, 30) of a card-shaped information carrier (2) limited relative to the housing or receiving body (6).

Description

       

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  The invention relates to a contacting device for card-shaped information carriers with an electronic data storage element and a reading unit with electronic circuits at least for reading card-shaped information carriers, as described in the claims
1 and 27 is specified.



  US 6, 070, 797 A describes a portable reader for chip cards, in particular for so-called smart cards. This reader has a block-shaped housing, on the top of which an LCD display is formed and the back or bottom of which has one or more electrical contacts which can be electrically connected to the electrical contact points on a corresponding chip card when the card is opposite the reader is aligned accordingly. In order to simplify the positioning of this card relative to the block-shaped housing of the reader, at least one positioning element with limited adjustment is formed on the housing.

   In addition to this positioning element, which is adjustable relative to the housing of the reader, a fixed positioning element in the form of a stop edge for a card to be read out can also be formed. In order to be able to make contact with the contact points on the chip card, the reader must be placed with its electrical contacts on the corresponding flat side of the chip card and aligned. The disadvantage here is that the contacts on the underside of the reader are constantly accessible and thus external influences, such as. B. are exposed to dirt, mechanical forces and touch by the user, which can cause long-term contact problems.



  US 5, 821, 516 A describes a further portable reader for chip cards. This reader has a slot-free design and the card-shaped data carrier and the reader must be layered on top of each other and pressed against one another by finger pressure in order to establish a contact connection. Strip-shaped guides are formed on the underside of the reader as positioning aids relative to the card. These guide strips can optionally also be bridged by a flexible layer of plastic. The contact elements of the reader can

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 can be extended and retracted in relation to its housing via a manually operated switch. According to another embodiment, the reader is placed at an angle over the card surface and thereby connects to the chip on the card-shaped data carrier.

   The reader can be activated by means of a switch on the top of the housing which is operated by the user. The disadvantage here is that the exact alignment of the card-shaped
Data carrier is tedious or time-consuming compared to the reader, and the reader and the card-shaped data carrier must always be pressed together to maintain the connection between the reader and the card-shaped data carrier. In addition, establishing communication between the reader and the card-shaped data carrier requires a certain amount of skill from the user.



  The present invention has for its object to provide a contacting device for card-shaped information carriers, which has a high suitability for everyday use and is as easy to use as possible. A further, independent object of the invention is to create a reading unit for card-shaped information carriers, which is of compact construction and meets the requirements of frequent use.



  An object of the invention is achieved by the features of claim 1. The advantages resulting from the configuration according to claim I lie in the fact that such a contacting device can be constructed in a particularly compact manner and can therefore be carried particularly comfortably without significant restrictions or can be easily inserted into pockets of clothing. In particular, this makes it possible to be able to carry the contacting device with him at all times, as a result of which the respective functions and the possible uses of the respective contacting device are available at all times. The preferably fixed stop elements of the contacting device facilitate exact positioning or



  Alignment of an information carrier to be processed, in particular an information carrier, relative to the elongated housing or receiving body of the contacting device. Rigid or fixed stop edges of the stop elements have also made an extremely robust construction of the contacting device possible. In particular, there is hardly any risk of parts of the contacting device breaking off or bending. The contacting device according to the invention can therefore be easily inserted into pockets or the like without there being an excessive risk of damage. In addition, the stop elements promote an effortless and intuitive positioning of the information carrier in relation to the electrical contact elements.

   Another advantage is that the user does not use any holding forces

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 must be so that the information carrier and the contacting device can remain in the properly contacting position. In particular, the contacting device together with the card-shaped data carrier can be put aside without the connection between the information carrier and the contacting device being broken off. It is also essential that, despite the compact dimensions of the contacting devices, no filigree positioning means are required which could be easily damaged or deformed if the contacting device is handled carelessly.

   It is also essential that the electrical contact elements of the contacting device are arranged within an opening in the housing, and are therefore protected against external forces or other influences.



  The risk of damage, in particular scratching or bending of the contact elements, is therefore largely eliminated. In addition, it is achieved that the sensitive contact elements are protected from direct access or fingerprints, as a result of which good contact with the contacting surfaces of a card-shaped information carrier can be ensured in the long term. The mechanically particularly simple, structural measures result in a relatively high level of robustness or suitability for everyday use and ensure long-term functionality and positioning accuracy for information carriers to be processed, whereby the special arrangement or alignment of the stop elements also enables a compact construction of the housing or receiving body.



  It is advantageous in the embodiment according to claim 2 that the card-shaped information carrier with one of its corner areas in front can be easily inserted into the slot-shaped opening in the housing or in the receiving body, and in its end stop-limited position the correct contact position is present. The feeding of an information carrier to the contacting device is therefore particularly easy to accomplish.



  The embodiment according to claim 3 favors tactile detection of the correct contacting position, since the card-shaped information carrier is clearly positioned in all directions transverse to its longitudinal direction.



  The further developments according to claim 4 either allow an exclusively linear feed movement of the information carrier or a combined, linear and rotary feed movement to take the correct contacting position.



  The possible further development according to claim 5 enables a defined, positively guided pivoting of the information carrier relative to the contacting device, so that the location of the

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Contact position is made easier again.



   A simple mounting or holding of the information carrier introduced in the contacting device and a simple, mutual positioning is achieved by the configuration according to claim 6.



  The measures according to claim 7 or 8 on the one hand enable a particularly slim or narrow structure of the contacting device and, moreover, make it easier to find the correct contacting position between the contacting device and a corresponding information carrier. The comparatively large insertion opening makes it easier to insert the information carrier into the opening in the contacting device.



  A possible further development according to claim 9 is also advantageous, since it can be automated or specifically controlled to apply electrical energy to the information carrier or to initiate certain operating functions of the contacting device.



  A structurally simple and reliable detection device is specified in claim 10.



  A simple detection of a properly supplied information carrier is achieved by the configuration according to claim 11.



  The configuration according to claim 12 detects the physical presence of an information carrier at the correct contacting position in a simple manner.



  The embodiment according to claim 13 takes advantage of the fact that as soon as the angle stop has reached the defined angle of rotation position, this is an indication that the information carrier supplied has assumed the intended contacting position.



  The configuration according to claim 14 also enables reliable detection of the correct contacting position when positioning with greater degrees of freedom in the mobility of the information carrier.



  A particularly compact and handy structure of a contacting device, which enables the unrestricted processing (reading and / or writing) of relatively large card-shaped information carriers in the format of a standardized smart card or chip card, can be achieved by the measures according to claim 15. In particular, the relatively large, all-

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 Commonly used smart cards or chip cards are effortlessly fed to this comparatively compact contacting device.



  The configuration according to claim 16 on the one hand always ensures a defined configuration state of the contacting device or produces a space-saving initial state which is safe from damage or breakage.



  Through the development according to claim 17, the functionality of the contacting device can be increased again and through its multifunctionality, the willingness to carry the contacting device almost continuously with it can be increased again.



  A practical further development of the contacting device is specified in claim 18 or 19.



  Secure positioning and holding of an information carrier transversely to its longitudinal direction is effectively achieved with simple measures by the configuration according to claim 20.



  Due to the configuration according to claim 21, even slightly deformed or non-uniform in thickness or thickness information carriers can be processed without any problems.



  The embodiment according to claim 22 automatically causes the adjustable stop element to be pivoted out with the feed movement of a corresponding information carrier, so that a separate manual adjustment to its active position is unnecessary.



  Due to the configuration according to claim 23 or 24, the angle stop can be dimensioned relatively generously, so that its positioning accuracy can be relatively high for the information carrier.



  Due to the configuration according to claim 25, data stored in the data storage element of an information carrier can be read out and / or stored invisibly in the data storage element.



  The advantageous embodiment according to claim 26 can significantly facilitate the manual positioning process of an information carrier in relation to the contacting device.

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   An independent solution to one of the tasks of the invention is through the training according to
Claim 27 given.



   The advantages resulting from the combination of features of this claim are that the specified contacting device can be used to create a robust and compact electronic reading unit which is ideally suited for everyday use and can guarantee long-term functionality.



   The embodiment according to claim 28 ensures good handling of the reading unit despite the compact design.



   The further development according to claim 29 creates a practicable electronic reading unit, since it can also be used to carry out manual writing activities.



  Through the configuration according to claim 30, relevant data or operating states can be output directly on the housing of the reading unit and recorded visually.



  The further development according to claim 31 enables simple data exchange or data comparison with a stationary computing unit.



  As a result of the embodiment according to claim 32, standardized interfaces can be used for an almost unrestricted connection to a multiplicity of systems or common computing units. In addition, a required communication connection can be established particularly easily and comfortably.



  The configuration according to claim 33 or 34 enables unrestricted mobility within the maximum range of the radio transmission even during active data transmission. In addition, the manual effort for establishing the data transmission connection is extremely low and no additional means, such as cable connections, are required to set up the transmission link.



  By means of the embodiment according to claim 35 or 36, the operating behavior of the reading unit can be adapted to the respective requirements in a simple manner or can be specifically selected from the available functionalities or the data record of interest can be called up.



  Due to the possible further development according to claim 37, a per-

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 personalized reading unit can be created, which can only be used by knowledge of the corresponding activation code.



   The usefulness of the electronic reading unit can be further increased by the development according to claim 38.



   The advantageous development according to claim 39 provides a basis for a secure one
Storage of the reading unit created in the user's pockets.



  The development according to claim 40 or 41, based on the usual mechanical actuation or functional elements of a ballpoint pen, enables effective operation of the reading unit.



  The advantageous further development according to one or more of claims 42 to 44 enables reliable checking of the usage authorization of the reading unit or securing of the functions or actions that can be called up with the reading unit against unauthorized persons.



  Due to the possible embodiment according to claim 45 or 46, a check of the usage authorization or a check of the identity of the user of the reading unit can also be carried out.



  The advantageous development according to claim 47 enables the presence of the information carrier to be reliably detected and the energy consumption of the reading unit to be minimized in standby mode.



  An independent, wireless operation of the reading unit is guaranteed by the configuration according to claim 48.



  A configuration between the stationary holding device and the charging device for the reading unit is achieved by the configuration according to claim 49 or 50, thereby minimizing the risk of misplacing the reading unit and achieving a reading unit that is always ready for operation due to sufficiently charged batteries.



  Through the embodiment according to claim 51, a receptacle or holder for the reading unit can be created in a simple manner, via which a communication connection to a superordinate computing unit can also be established in a simple manner.

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   By means of the embodiment according to claim 52, differently current data stocks between the reading unit or its information carrier and the superordinate computing unit can be compared in a simple manner or brought up to the latest version.



   The invention is explained in more detail below with reference to the exemplary embodiments shown in the drawings.



   Show it :
1 shows an embodiment of the contacting device with a card-shaped information carrier to be fed in at an angle to it, in a top view and simplified representation; FIG. 2 shows the contacting device according to FIG. 2 with a card-shaped information carrier inserted up to the stop elements and located in the contact position; 3 shows a schematically illustrated application example of the contacting device for card-shaped information carriers; 4 shows the contacting device as a reading unit for card-shaped information carriers with another embodiment of rigid stop elements, in a simplified, schematic plan view;

   5 shows another embodiment of the reading unit designed as a writing utensil with a further embodiment of the rigid stop elements, in a simplified, schematic top view; 6 shows a further embodiment of the reading unit with an angular stop pivotably mounted in the slot-shaped opening for receiving the information carrier and a fixed stop edge in a top view and a simplified, schematic illustration; 7 shows a further embodiment for comparatively small-format or large-format card-shaped information carriers in a simplified, schematic plan view;

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 8 shows a further embodiment of the contacting device or

   Reading unit with a base station assigned to it, which can be connected to a superordinate computing unit, in a simplified, schematic representation.



  In the introduction, it should be noted that in the differently described embodiments, the same parts are provided with the same reference numerals or the same component names, and the disclosures contained in the entire description can be applied analogously to the same parts with the same reference numerals or the same component names.



  The location information selected in the description, such as. B. above, below, laterally, etc. related to the figure immediately described and shown and are to be transferred to the new location in a case of a change of position. Furthermore, individual features or combinations of features from the different exemplary embodiments shown and described can also represent independent, inventive or inventive solutions.



  1 to 3 illustrate an embodiment of the contacting device 1 or reading unit for card-shaped information carriers 2 according to the invention. This contacting device 1 is formed by a compact electronic module or device with which conventional information carriers 2 are processed in the form of card-shaped data carriers, ie. H. at least read or can also be written with corresponding data. Information carrier 2 is preferably understood to mean standardized data cards or so-called “smart cards” with an electronic chip 3 arranged or integrated thereon. This electronic chip 3 or the corresponding electronic circuit comprises a microcomputer and an electronic data memory associated with this microcomputer.

   Such information carriers 2 with an electronic chip 3 are also referred to as intelligent data cards or data carriers, since arithmetic or comparison operations can be carried out by means of the microcomputer and the data storage element. For this purpose, the chip 3 preferably comprises a program-controlled microcomputer which works in accordance with the specifications in the software program to be executed.



  1 to 3 is a portable, compact contacting device 1 or reading unit for processing information carriers 2 or card bodies made of plastic with dimensions of approximately 85 mm by approximately 54 mm or corresponding to the standardized dimensions of so-called chip cards , schematically illustrated.



  Compared to conventional magnetic cards, the chip 3 data storage element contains

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 if relatively large amounts of data can be stored. In addition, high security requirements can be taken into account due to the computer-related intelligence of the chip card.



   As is known per se, a contact field 4 is formed on at least one flat side of the information carrier 2 so that the electronic chip 3 of the information carrier 2 can connect to peripheral electronic units. This contact field 4 comprises a plurality, in particular at least two, but usually six or eight contacting areas 5, which serve as an electrical interface to peripheral units of the chip 3.



   In addition to the so-called chip cards or SIM cards or the card-shaped information carriers 2 as defined in ISO 7816/1, it is of course also possible to design the contact device 1 or the reading unit described below for other digital memory cards. For example, it is also possible to use so-called smart media cards (SMC), compact flash cards (CF), multi media cards (MMC) or so-called memory sticks as card-shaped information carriers 2 and the contacting device 1 or the reading unit for the to dimension the respective contact interface.



  The contacting device 1 or reading unit is u. a. from an elongated or rod-shaped housing or receptacle body 6 as a carrier for the contact device described below and as a holding means for an information carrier 2 to be inserted. A length 7 of this receptacle body 6, which is preferably made of plastic, is a multiple of a width 8 of the housing or receptacle body 6. A width 8 of the receiving body 6 can, for example, only be approximately 15 mm to 25 mm and the length of the pin-shaped or rod-shaped receiving body 6 is generally more than approximately 70 mm.



  At least one insertion opening 9 for inserting or inserting a card-shaped information carrier 2 as required is formed in the housing or receiving body 6. The insertion opening 9 is preferably slot-shaped and dimensioned such that an end face or a broad side 10 of the information carrier 2 can at least partially be inserted into the slot-shaped insertion opening 9 or into the receiving body 6. The width and height dimensions of the slot-shaped insertion opening 9 are accordingly approximately the same or slightly larger than the front dimensions of the card-shaped information carrier 2 on its broad side 10. Thus, the insertion opening 9 has a width of approximately 55 mm and a height corresponding to the card thickness of more than about 1 mm.

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   A longitudinal extension 11 of one of the contacting devices advantageously runs! respectively.



   Reading unit supplied information carrier 2 at an angle to the longitudinal extent or length 7 of the
Receiving body 6. That is. a feed direction - according to arrow 12 - of the card-shaped information carrier 2 can be provided approximately transversely to the length 7 of the receiving body 6 - in the contacting end position, the longitudinal axis of the information carrier 2 is then in any case oriented obliquely to the elongated housing or receiving body 6, as is evident from this 2 is clearly visible.



   In order that the handy reading unit can establish a communication connection with the chip 3 of the information carrier 2, a contact device 13 is arranged in the insertion opening 9 of the receiving body 6. This contact device 13 consists of a plurality of block or. Contact elements M arranged in a matrix. These contact elements 14 are usually formed by a plurality of resiliently mounted or resiliently flexible contact tabs, wherein the contact device 13 can also be designed as a prefabricated contact block which is available as standard.

   The contact device 13 comprises at least two, usually six or eight contact elements 14, which are positioned such that they can make electrical contact with the respective contacting surfaces 5 of an information carrier 2 to be processed. The contact device 13 thus represents an interface 15 with a contact with the chip 3 of an information carrier 2 to be processed.



  According to an advantageous further development of the contacting device 1, the contact interface 15 or its contact device 13 is connected via a plurality of lines 16 to an electronic circuit 17 arranged inside the housing or receiving body 6. This circuit 17 can be formed by a microcomputer or by a permanently programmed gate arrangement with internal logic. This electronic circuit 17 is preferably surrounded on all sides by the housing or receiving body 6, or integrated or injected into it, in order to be protected as well as possible from external influences.

   The circuit 17 can have a programmed intelligence and can itself perform certain arithmetic operations and / or cryptographic encryption and / or test tasks, or can also be designed as simple interface logic with predetermined switching state sequences in the manner of a state machine.



  The electronic contacting device 1 or the corresponding reading unit preferably comprises, in addition to the first, contact-making interface 15 to the chip 3 of an information carrier 2

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 furthermore at least one further interface 18. This interface 18 can be designed as a wired or wireless interface 18, as illustrated in FIG. 3. Via this external, wireless interface 18, the contacting device 1 with a higher-level computing unit 19, such as. B. a personal computer, a laptop or other computing unit for general purposes.



  In addition or as an alternative to the wireless interface 18, it is of course also possible to design the interface 18 as a wired interface. A cable 20 is to be provided, via which the interface 18 of the reading unit can be connected to a suitable, contact-based interface 21 of a computing unit 19. The interface 21 of the computing unit 19 can be formed, for example, by a serial interface (RS232) or a parallel interface.



  Ideally, the interface 18 of the contacting device 1 or the corresponding reading unit is formed by a plug connection device 22 for coupling the same to a USB (Universal Serial Bus) interface of the computing unit 19. The plug connection device 22 on the contacting device 1 or the reading unit can be designed for direct coupling or for directly plugging it into an interface 21 of the computing unit 19 that supports the USB protocol and / or by means of a USB-capable cable 20 to the computing unit 16 can be connected.
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 or the reading unit and the higher-level computer unit 19 are transmitted wirelessly or wirelessly.

   Such an interface 18 of the contacting device 1 or the reading unit can be designed to emit and / or receive optical signals, in particular infrared signals. According to an improved embodiment, the wireless interface 18 is formed by at least one antenna for transmitting and / or receiving electromagnetic waves. In this case, a modulator and / or a demodulator circuit is upstream or downstream of the antenna. downstream. The wireless interface 18 is ideally formed by a standardized interface for radio data transmission, for example by a so-called Bluetooth interface. It is advantageous that this technology enables easy connection to a large number of computing units 19, such as, for. B.

   Personal computers, handheld computers, organizers, cell phones or other electronic devices allowed

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 which requires no cabling in order to be able to establish the communication connection to the contacting device 1 or to the reading unit comprising it.



  Instead of a personal computer as the computing unit 19, the contacting device 1 or reading unit according to the invention can of course also be connected to any other computing unit 19, for example to a laptop, a workstation, a mobile phone, a mobile organizer or another handheld PC, provided that it is electronic Computing unit 19 has the respective specifications for connection to the contacting device 1 or reading unit.



  As a rule, the computing unit 19 can be connected to a global communication network 24, for example the so-called Internet, via at least one communication means 23. The communication means 23 can be provided for the transmission of data and / or audio and / or video signals and can be formed, for example, by a so-called modem 25. The modem 25 can be designed for wired and / or wireless remote transmission and for receiving data or signals via the communication network 24. The computing unit 19 preferably comprises at least one input device, not shown, for example a keyboard or a touch pad, and an output device, not shown for the sake of simplicity, e.g. B. a monitor or a display.



  A circuit 17 arranged in the housing or receiving body 6 is connected on the one hand to the contact device 13 and on the other hand to a wireless and / or wired interface 18 to a superordinate computing unit 19. The circuit 17 in particular represents an interface logic which is electrically connected to the card-side, contact-based interface 15 and to the computer-side interface 18 and serves at least as an interpreter between a communication protocol valid for the first interface 15 and a different communication protocol for the second interface 18 , The circuit 17 is therefore at least intended to ensure compatibility or

   Establish compatibility of the first interface 15 with an information carrier 2 with respect to the second interface 18 with a superordinate computing unit 19 and vice versa.



  The insertion opening 9 is preferably designed as a recess extending through the housing or the receiving body 6. I.e. a length or depth of the slot-shaped insertion opening 9 for the card-shaped information carrier 2 extends continuously over the entire width 8 of the contacting device 1 or reading unit, so that the insertion opening 9 as

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 Through slot through the housing or the receiving body 6 can be referred to. An information carrier 2 to be processed can therefore be plugged through the contacting device 1 or reading unit or the receiving body 6 and thus projects through the contacting device 1 or reading unit or the receiving body 6 in the operating or operating state according to FIG. 2.

   In particular, a card-shaped information carrier 2 to be processed crosses the housing or the receiving body 6 of the contacting device 1 or reading unit transversely to its length 7.



  In order to be able to position the card-shaped information carrier 2 with its electrical contacting surfaces 5 exactly and effortlessly in relation to the contact device 13 of the contacting device 1, at least one stop element 26 is formed on the housing or receiving body 6. This stop element 26 limits the insertion depth of the card-shaped information carrier 2 relative to the insertion opening 9 or relative to the contact device 13. In particular, the stop element 26 limits a push-through width 27 for the information carrier 2 starting from the insertion region of the slot-shaped insertion opening 9.

   The at least one stop element 26 thus delimits a protrusion 28 of the card-shaped information carrier 2 with respect to an exit region of the information carrier 2, which is related to the feed direction arrow 12, from the slot-shaped insertion opening 9.



  The housing or the receiving body 6 thus has at least one stop element 26 for at least one edge region 29, 30 of an information carrier 2 provided for supply.



  These, preferably at right angles to each other, stop elements 26 of the housing or receiving body 6 of the reading unit are provided in order to be able to position the contacting surfaces 5 of an information carrier 2 to be supplied exactly and effortlessly relative to the contact elements 14 of the reading unit or the contacting device 1.



  As can also be clearly seen from the illustrations, a length 7 of the housing or receiving body 6 is larger than a broad side 10 of a feedable, card-shaped information carrier 2 in the format of a standardized smart card, which can represent the card-shaped information carrier 2.



  It is essential that stop edges 31, 32 of the at least one stop element 26 or stop edges 31, 32 of two stop elements 26 run obliquely or inclined to a longitudinal central axis 33 of the housing or receiving body 6. I.e. the stop edges 31, 32 of the stop element 26 on the housing side do not run at right angles or not parallel to the

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 Longitudinal central axis 33 of the housing or receiving body 6.



  At least two of the stop edges 31, 32 formed on the housing or receiving body 6 are aligned at an approximately right angle 34 with respect to one another or enclose these stop edges 31, 32 at an approximately right angle 34. In particular, two stop edges 31, 32 spaced apart from one another in the housing or receiving body 6 are aligned approximately at right angles to one another in order to be able to function as limit stops for two edge regions 29, 30 of a information carrier 2 to be supplied, which run at right angles to one another.



  A distance between the stop edges 31, 32 or between the stop elements 26 is chosen such that at least one of the inclined stop edges 31, 32 limits a feed movement of an information carrier 2 in the transverse direction to the housing or receiving body 6. I.e. a corresponding card-shaped information carrier 2 cannot be pushed completely through the housing or the receiving body 6 by means of the inclined stop elements 26, but its feed movement in the feed direction, according to arrow 12, is stop-limited.



  According to an advantageous embodiment, the stop elements 26 or the stop edges 31, 32 are formed by rigid or immovable edges or extensions or other elements of the housing or receiving body 6. In particular if the insertion opening 9 for the
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 is formed by the housing or the receiving body 6, the stop edges 31, 32 are preferably formed by the walls delimiting the opening 35, as can be clearly seen from FIGS. 1 and 2. This opening 35 through the housing or the receiving body 6 preferably forms a support plane 36 for at least one flat side of the information carrier 2 and at least one of the stop edges 31, 32 for the correct positioning of an information carrier 2 provided for contacting.



  Instead of forming straight, relatively wide stop edges 31, 32, these can of course also be formed by a plurality of individual, for example rounded, stop extensions or positioning pins.



  In particular, the opening 35 in the housing or receiving body 6 should start from
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 Rejuvenate rich for the information carrier 2 from the housing or receiving body 6. An opening cross section of the opening 35 in the exit area is thus smaller than an opening cross section of the opening 35 in the feed area for a card-shaped information carrier 2.



  It is also essential that the contact device 13 of the contacting device 1 or the reading unit is also inclined to a corresponding extent in a plan view of its contact elements 14 with respect to the longitudinal central axis 33. It is thereby achieved that the contact elements 14 can properly contact the information carrier 2 positioned at an oblique angle or inserted obliquely in accordance with the specifications of the stop elements 26 with the respectively provided contacting areas 5 in the contact field 4 of the card-shaped information carrier 2. I.e. the inclination or

   The oblique-angled alignment of the contact elements 14 is selected such that proper contacting takes place and no short circuits and no incorrect contacting occur between the individual contacting areas 5 of the information carrier 2.



  Instead of the inclined position of the entire contact block or the entire contacting device 13 with respect to the longitudinal central axis 33, it is of course also possible to position only their individual contact elements 14 in such a way that they can contact the contacting surfaces 5 reliably and correctly with the information carrier 2 used at an accordingly oblique angle. For this purpose, the individual contact elements 14 can have different lengths and / or bends in order to be able to make proper contact with the respective contact surface 5 of a supplied information carrier 2.



  The dimensions of the contacting device 1 and the stop elements 26 or stop edges 31, 32 in the opening 35 of the housing or receiving body 6 are placed and
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 gene front corner regions 37 of the information carrier 2 against the housing or the receiving body 6 out. When an opening 35 is formed in the housing or receptacle body 6, the front corner region 37 of the card-shaped information carrier 37 protrudes from the slot-shaped opening 35 according to the arrow 12. Before-

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 that corner region 37 of the card-shaped information carrier 2 protrudes, which is comparatively closest to the chip 3 or to its contact field 4.



   Alternatively, it is of course also possible to use the corner area adjacent to this on the same broad side 10 of the card-shaped information carrier 2 as an insertion corner or insertion tip into the housing or the receiving body 6. However, this would require stop elements 26 or stop edges 31, 32, or a wider receiving body 6, which are spaced apart from one another somewhat more widely.



  The stop elements 26 make it possible for a width 8 of the housing or of the receiving body 6, which is related to a feed direction arrow 12 of an information carrier 2, to only roughly correspond to an extent 39 of the contact device 13 or the field-shaped contacting surfaces 5 measured in the same direction. It is essential that the arrangement and orientation of the stop elements 26 allow a width 8 of the housing or receiving body 6 to be smaller than a distance 40 between the left edge or a broad side 10 of the information carrier 2 closest to the chip 3 and one facing away from it , right boundary 41 of the contact field 4 of the chip 3.



  In the correct contacting position of the card-shaped information carrier 2, it then penetrates the housing or the receiving body 6 and preferably at least three corners of the rectangular, card-shaped information carrier 2 protrude from the housing or receiving body 6.



  The means or construction measures mentioned above make it possible to create particularly compact reading units or contacting devices 1 which, owing to their small dimensions, can be simply plugged in and comfortably carried on the body by a user.



  According to a possible embodiment variant, as has been illustrated schematically in FIGS. 1 and 2, an information carrier 2 to be contacted is positioned in a functionally reliable and orderly manner and is particularly easy to handle in relation to the contact device 13 or interface 15 in the housing or receiving body 6 at least one fixed or rigid stop element 26 is formed. In the ready-to-use state illustrated in FIG. 2, this stop element 26 formed in the housing or in the receiving body 6 limits the push-through width 27 of an information carrier 2 to be contacted in relation to the elongated housing or receiving body 6.

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   The contacting device 1 or reading unit can preferably also have at least one detection device 42 for determining the taking of the correct contacting position of a suitable information carrier 2. This detection device 42 is preferably formed by at least one switching element 43, 44. Instead of designing at least one electrical switching element 43, 44 for detecting or ensuring a properly supplied information carrier 2, it is of course also possible to provide any other detection devices 42 known from the prior art for status or position detection. Accordingly, it is of course also possible to provide detection devices 42 which operate according to the optical, inductive, capacitive, resistive or other operating principle.



  The respective detection device 42 is either with the electronic circuit
17 of the reading unit and / or directly connected to the interface 18 to a superordinate computing unit 19, in order to be able to forward corresponding status signals.



  The switching element 43 or 44 is preferably assigned as close as possible to the stop element 26. According to a preferred embodiment, an actuating member of the switching element 43 and / or 44 projects in the idle state, i. H. with the information carrier 2 removed or when the information carrier 2 is not inserted correctly, in relation to the relevant stop edge 31 or 32 of the stop element 26. In the case of information carrier 2 positioned according to plan, in particular in a contacting manner, switching element 43 is actuated or switched over accordingly, or its actuating member is transferred into the active position.



  Basically, it is sufficient to provide only one switching element 43, 44, which can be actuated by a stop edge 31 or 32 of the card-shaped information carrier 2. However, two detection devices 42 or two switching elements 43, 44 are preferably to be provided.



  In particular, each of the two stop elements 26 is assigned at least one switching element 43, 44. A contacting position assumed by an information carrier 2 is only recognized as correct if both switching elements 43, 44 are actuated accordingly or assume the corresponding switching states. The switching elements 43, 44 can be formed by make and / or break contacts. When two detection devices 42 or switching elements 43, 44 are formed, incorrectly or inaccurately supplied information carriers 2 can be reliably identified.

   Inaccurately supplied information carriers 2 can thus be recognized and it is only then that the intended function of the contacting

  <Desc / Clms Page number 19>

 direction 1 or the reading unit. can be initiated after the information carrier 2 has been properly adjusted.



  In any case, an information carrier 2 to be processed is on the one hand via the walls of the insertion opening 9 or the opening 35 and / or by means of projections arranged within the insertion opening 9 or corresponding wart-like elevations and on the other hand via the stop elements 26 relative to the housing or receiving body 6 exactly at heights - Positioned in the lateral and longitudinal direction with respect to the contact device 13 or with respect to the corresponding contact block. I.e. An information carrier 2 to be supplied to the contacting device 1 is not merely placed freely on the contact device 13, but essentially has only one degree of freedom of movement running in and against the supply direction - according to arrow 12.



  4 and 5, another embodiment of the contacting device 1 is shown schematically simplified. The same reference numerals are used for parts of the contacting device 1 already described above, and previous parts of the description are analogously applicable to the same parts with the same reference numerals.



  In this embodiment, the contacting device 1 is designed based on the shape of a writing utensil 45. In particular, the contacting device 1 is integrated in a pin-like housing or receiving body 6 and there are also electrical components for use as an electronic reading unit 46 for the chip 3 of a feedable information carrier 2 in or on the pin-shaped housing or receiving body 6. In order to be able to control or address the chip 3 accordingly, the pen-like reading unit 46 - as already mentioned above - comprises the electronic circuit 17, which is connected on the one hand to the contact device 13 and on the other hand to at least one contact-based and / or contactless interface 18 , such as

   B. an antenna 47 is connected to a peripheral electronic computing unit. This electronic circuit 17 within the pin-shaped housing or receiving body 6 essentially represents the interpreter or the interface logic between the contact interface 15 to a suitable information carrier 2 and at least one interface 18 of any configuration to an electronic peripheral unit. Provided that the reading unit 46 is a wireless interface 18 with an antenna 47 for transmitting and / or receiving electromagnetic waves, for example according to the Bluetooth standard, the circuit 17 also includes an electronic modulator

  <Desc / Clms Page number 20>

 and / or demodulator circuit. This circuit 17 is then preferably formed by a standard available Bluetooth chip.

   The wireless interface 18 can in any case only as a unidirectional transmission channel and / or also as a bidirectional transmission channel for receiving and transmitting information or data to an electronic peripheral unit, such as. B. a transaction terminal, a personal computer, a mobile organizer or the like. The external interface 18 of the reading unit 46 is provided to read data from the chip 3 of a feedable information carrier 2 and / or to write to the chip 3 of a corresponding information carrier 2 or to change existing data. Such manipulations of the chip 3 are common and are used in many fields of application known from the prior art, so that they are not dealt with in more detail.



  In addition or as an alternative to a wireless radio interface with an antenna 47, which is preferably arranged within the housing or receiving body 6 or integrated therein, a contact interface 18, preferably in the form of a USB interface 48, can be formed. Such a USB interface 48 is ideally arranged in an end area of the reading unit 46 designed as a writing utensil 45. This USB interface 48 has a plug-in area with a plurality of contact tabs 49, which can be connected to a corresponding USB interface of a computer unit or with a suitable USB cable 20 in accordance with the specifications for a USB coupling of electrical components.



  According to an advantageous embodiment, the USB interface 48 can be shaped like an actuating element 50 of a conventional writing utensil 45, for example a ballpoint pen. The shape of the USB interface 48 is therefore comparable to an actuating element 50 for extending and retracting a writing lead 51 with respect to the housing or receiving body 6, and preferably has the shape of a mini-USB interface known from the video field. The USB interface 48 can merely be a dummy for an actuating element 50 of the writing lead 51, or else it can be designed as a functional actuating element 50 of the writing utensil 45 or the writing lead 51.

   The external interface 18 to peripheral electronic units, which can read out and / or should change the data of an information carrier 2 supplied to the contacting device I, or can also be designed as a simple socket 52, which comprises at least two electrical contacts. Into this socket 52 on the housing or receiving body 6

  <Desc / Clms Page number 21>

 A corresponding plug, for example a so-called banana plug, with a cable connection to a higher-level electronic evaluation unit can be inserted and removed from the reading unit 46 as required. This interface 18, which is designed as a socket 52, can also be used to supply the circuit 17 and / or the chip 3 of an information carrier 2 with electrical energy, or communication or

   Data transmission between the chip 3 or the circuit 17 and a superordinate computing unit 19 - Fig. 3 - are established.



  The reading unit 46 preferably also fulfills the functions of a ballpoint pen, refill pencil or a felt-tip pen and is at least similar in its dimensions and / or shapes to such a writing utensil 45. The slot-shaped insertion opening 9 for a card or. Sheet-shaped information carrier 2 is preferably provided in the section of the writing utensil 45 which functions as an electronic reading unit 46 and faces away from a writing tip 53. A width 8 or a corresponding diameter of the pin-shaped receiving body 6 for the contacting device 1 corresponds approximately to a diagonal extension 39 of the contact field 4 of the chip 3 in the feed direction - according to arrow 12 - of the card-shaped information carrier 2.



  A width 8 or a diameter of the pen-shaped reading unit 46 can therefore only be approximately 15 to 20 mm. In particular, the dimension of the pin-shaped receptacle body 6 measured parallel to the feed direction - according to arrow 12 - can roughly correspond to the dimension of the contact device 13 or the corresponding contact block relating to the same direction. Similar to a writing utensil 45, it is therefore possible to use particularly slim or small-format housings or receiving bodies 6 at least as contacting devices 1 for card-shaped information carriers 2.



  In order to be able to place a card-shaped information carrier 2 in ISO standard format with respect to the contact device 13 of the pen-like reading unit 46 in such a way that correct and effortless contacting of the contact field 4 of the chip 3 on the information carrier 2 with respect to the housing-side contact device 13 is ensured, on the receiving body 6 Reading unit 46 in turn is formed at least one immovable stop element 26.



  In particular, two stop elements 26 are formed in the housing or receiving body 6.



  One of the two stop elements 26 is formed as an angle stop 54 with two boundary edges 55, 56 which run at an angle to one another. As can be seen from FIG. 4, these boundary edges 55, 56, which form the angle stop 54, can be essentially rectangular.

  <Desc / Clms Page number 22>

 run together.



  Alternatively, it is also possible to define an angle 57 between the two boundary edges 55, 56 of the angle stop 54 or the corresponding stop element 26 between 90 and 1500, as can be seen from FIG. 5.



  Such an angular stop 54 in the insertion opening 9 for the card-shaped information carrier 2 facilitates an exact positioning of the contact field 4 of the information carrier 2 relative to the contact device 13. In particular, it is possible to move the information carrier 2 particularly quickly and effortlessly into the position in which the contact person Chip 3 on the information carrier 2 is properly and reliably electrically connected to the reading unit 46 or its contacting device 1.



  The function or use of the contacting device 1 or reading unit 46 according to FIG. 4 is as follows: A card-shaped information carrier 2 is to be fed to the rod-shaped or pin-shaped contacting device 1 or reading unit 46 at an oblique angle to the longitudinal central axis 33. In particular, the card-shaped information carrier 2, with the broad side 10 that is closest to the chip 3 or its contact field 4, is to be inserted so far into the insertion opening 9 or into the opening 35 until edge regions 29, 30 of the information carrier 2 are spaced apart from one another impinge on the spaced-apart stop elements 26, in particular on a straight-line stop element 26 and on the angle stop 54.

   4, an exactly predetermined, oblique-angle feeding of the information carrier 2 at a certain feeding angle 58 with respect to the longitudinal central axis 33 of the reading unit 46 is required. This feed angle 58 between the longitudinal axis of the information carrier 2 and a transverse axis to the longitudinal central axis 33 of the reading unit 46 can be approximately 10 to 80, preferably approximately 30 to 45. In the embodiment according to FIG. 5, the card-shaped information carrier 2 can also be fed to the reading unit 46 at right angles to its longitudinal axis 33 or inserted into its insertion opening 9 or opening 35, with reference to its longitudinal axis.

   The feed movement of the information carrier 2 at right angles to the longitudinal central axis 33 is finally limited via the stop elements 26 and the card-shaped information carrier 2 is then guided and limited by the angle stop 54 to be rotated until the correct contact

  <Desc / Clms Page number 23>

 Clocking of the contact field 4 with the contact device 13 occurs. In particular, the card-shaped information carrier 2 within its support plane 36 or parallel to its flat sides is to be rotated or tilted approximately by the feed angle 58 in order to arrive at the correct contacting position.



  This contacting position can in turn be detected by at least one detection device 42. These detection devices 42 are preferably formed by the switching elements 43, 44, which are only actuated when the card-shaped information carrier 2 assumes its correct, oblique orientation with respect to the longitudinal central axis 33 of the contacting device 1 or the reading unit 46.



  Here, too, the contact device 13 of the reading unit 46 or the contacting device 1 is inclined or oblique to the longitudinal central axis 33 of the pin or. rod-shaped housing or receiving body 6 aligned. As was schematically illustrated, the at least one detection device 42 is connected to the electronic circuit 17 in order to be able to forward the corresponding detection or status signals. It is preferred only if the correct position of the information carrier 2 is detected, an energy or. Signal transmission from the reading unit 46 to the chip 3 or vice versa. As a result, short circuits or faulty energizations of the chip 3 on the information carrier 2 are avoided.



  Another embodiment of the contacting device 1 or reading unit 46 is shown in FIG. 6.



  The preceding descriptions are analogously applicable to the same parts with the same reference numerals.



  In this embodiment of the contacting device 1 in the reading unit 46, a stop element 26 is provided, which is also designed as an angle stop 54. This angle stop 54 is pivotally mounted about a pivot axis 59 running vertically to the support plane 36 or about a vertical to the flat side of a feedable information carrier 2. The angle stop 54 in turn comprises boundary edges 55, 56 aligned essentially at right angles to one another, which serve as a receiving or positioning stop for a corner region 37 of the card-shaped information carrier 2.



  This pivotable angle stop 54 is preferably arranged within the insertion opening 9 for the information carrier 2. The angle stop 54 can be hook-shaped, L-shaped or triangular-shaped.

  <Desc / Clms Page number 24>

 be formed and, if necessary, be pivoted out and in via the housing-side pivot axis 59, depending on the dimensioning chosen, relative to the lateral surface 38 of the rod-shaped or pin-shaped housing or receiving body 6. Dimensioning advantages result when the pivot axis 59 for the angle stop 54 in an edge region of the
Housing or receiving body 6 is formed.

   Especially when the pivot axis 59 is formed in the region of the outlet opening of the opening 35 related to the feed direction - arrow 12 - it is possible to construct relatively generously dimensioned angle stops 54 which can achieve high positioning accuracy and robustness.



  If the angular stop 54 is limited in its pivotability about the pivot axis 59, as was indicated by dashed lines, it is not absolutely necessary to provide a further, independent stop element 26. To achieve a high level of robustness and positioning accuracy, however, it can be advantageous to provide a further stop element 26 in the manner of an obliquely running stop edge 31, as was illustrated in FIG. 6. It is essential that the information carrier 2 in the ready state is oriented at an oblique angle for reading out and / or storing data, i.e. deviating from 90, to the longitudinal central axis 33 of the contacting device 1 or the reading unit 46 and the housing or receiving body 6 is effortless with simple technical means and can be fed precisely.



  Of course, it is also possible to assign the stop 54 to a stop that limits its pivotability, and also to provide a stop edge 31 in or on the housing or receiving body 6 that limits the pivoting movement of the information carrier 2.



  It is essential that an information carrier 2 to be contacted reaches its flat sides (see FIG. 5) by rotating about a real pivot axis 59 or about an imaginary or imaginary vertical axis into the contacting position inclined with respect to the longitudinal central axis 33 of the housing or receiving body 6.



  Optionally, in this embodiment of the reading unit 46 as well, at least one detection device 42 can be designed to detect a properly assumed position of an information carrier 2. The detection device 42 or its switching element 44 can also be assigned to the pivotable angular stop 54 and in the rotational angle position in which a corresponding information carrier 2 is positioned in contacting manner.

  <Desc / Clms Page number 25>

 be actuated or acted upon accordingly. Alternatively or in combination, it is also possible to provide a detection device 42, for example a switching element 43, in the region of the oblique stop edge 31 of the further stop element 26.



   Optionally, the pivotably mounted angle stop 54 can be pushed into a defined starting position by means of at least one spring means 60. This starting position should
Facilitate the supply of an information carrier 2 or further simplify the handling of the reading unit 46. Depending on the dimensioning of the angle stop 54, this spring means 60 can also have the effect that the angle stop 54 is always at least partially pushed into the starting position drawn into the insertion opening 9. If the information unit 2 is not fed to the reading unit 46, the angle stop 54 is automatically in the retracted starting position, so that the risk of damage to the reading unit 46 is minimized.



  At least one spring means 60 is preferably formed, via which the angle stop 54 is pressed spring-loaded into the retracted starting or rest position. The spring means 60 can be formed by a so-called plate spring or also by a helical spring.



  As an alternative to this, it is also possible to provide, as spring means 60, a rubber-elastic block or the like which rests on an abutment surface of the angle stop 54 and exerts a force effect which urges the angle stop 54 into the retracted position. However, it is also possible to provide a rubber-elastic band with which the angle stop 54 is pulled into the retracted position.



  As an alternative or in addition to this spring means 60, locking elements 61 can also be provided, with which the angle stop 54 is secured in the starting position. In the simplest case, these latching elements 61 are formed by wart-shaped elevations, which are arranged in the adjustment range of the angle stop 54. By means of these locking elements 61 it is ensured that the angle stop 54 remains reliably in the respective position and is only moved over the locking element 61 when a predetermined adjusting force is exceeded and can be transferred to a different position or position or by the acting spring force into another Position is adjusted.

   In the optional configuration of at least one snap or latching element 61, it is advantageous that the stop element 26, in particular the angle stop 54, can be folded out and remains in this active position in the unfolded state, so that, for example, a plurality of information carriers 2 are fed in succession

  <Desc / Clms Page number 26>

 can be made without having to move the angle stop 54 in each case. By simple
The angular stop 54 can then be folded over or folded in again by finger pressure, and the compact rest position, which may also be secured via corresponding latching elements 61, can then be restored
Angle stop 54 are taken.



  The spring means 60 and locking elements 61 can be combined or optionally used. Wart-shaped elevations and / or corresponding depressions or switching cams, spring tongues, locking pins and similar elements known in various designs from the prior art are suitable as locking element 61.



  The latching elements 61 are preferably formed in the swivel range of the angle stop 54, namely near its bearing point or swivel axis 59.



  The angular stop 54 can be activated by manually gripping the same, or it can also be coupled with the insertion movement of an information carrier 2.



  This means that when the corresponding information carrier 2 is inserted into the insertion opening 9, the angle stop 54 is automatically moved into the pivoted-out position or into its active position by forcing at least one of its boundary edges 55, 56 to be adjusted or folded out. The feed movement of the information carrier 2 is thus coupled in motion with the stop-limited pivoting movement of the angle stop 54. It is only necessary to ensure that the holding forces acting on the angular stop 54 by possible spring means 60 and / or latching elements 61 can be easily overcome by the insertion movement of a suitable information carrier 2.



  The L-shaped or hook-shaped angle stop 54 in plan view is arranged in the rest or starting position such that the area enclosed by its two legs lies at least largely within the insertion opening 9. A required swivel range for the angle stop 54 can be 10 to 80, as a rule approximately 45, depending on the arrangement of the swivel axis 59. The L-shape of the angle stop 54 with the pivot axis 59 in the end regions of the two legs facing each other favors the fact that the feed movement of the information carrier 2 is accompanied by the opening movement of the angle stop 54.

   The embodiment of the contacting device 1 or the reading unit 46 shown in FIGS. 1 to 6 can be used for card-shaped information carriers 2 with the size of a smart card or in the ISO format.

  <Desc / Clms Page number 27>

 mat, or for relatively small format information carriers 2, in particular for so-called SIM cards. Significant changes are only to be made in the size of the insertion opening 9 and with regard to the dimensioning and arrangement of the stop elements 26.



   As can also be seen from FIG. 6, at least one flat contact element can also be formed as a contact interface 18 to a computing unit and / or to a base station to be described below on the lateral surface 38 of the pin-shaped housing or receiving body 6. These contact elements are preferably flush with the lateral surface 38 and are as corrosion-resistant as possible to achieve a long-term good contact connection. trained to be resistant to oxidation. For example, the individual contact elements can be gold-plated.



  Another embodiment of the contacting device 1 or the reading unit 46 is shown in FIG. 7. The preceding descriptions are analogously applicable to the same parts with the same reference numerals.



  In this embodiment of the reading unit 46 or contacting device 1 it is essential that optionally large format information carriers 2 in the standardized ISO format or so-called smart cards and also comparatively smaller format information carriers 2 in the form of so-called SIM cards can be fed.



  With these smaller-format information carriers 2 in the form of so-called SIM cards, there is the possibility of constructing a particularly compact contacting device 1 or



  Although reading unit 46 is less important, an optional supply option of small or large format information carriers 2 to a reading unit 46 or contacting device 1 is nevertheless of particular advantage. For this purpose, the reading unit 46 comprises, in addition to the abovementioned stop elements 26 for a large-format information carrier 2, at least one positioning means 62 for a card-shaped information carrier 2 in the comparatively smaller SIM format. This positioning means 62 comprises at least one guide bar 63 oriented obliquely or obliquely with respect to the longitudinal central axis 33 for a comparatively small-sized information carrier 2.



  This positioning means 62 is particularly effective when a small-format information carrier 2 is fed to the reading unit 46. If the reading unit 46 has a comparably

  <Desc / Clms Page number 28>

 If large-format information carriers 2 in the form of a smart card, in particular a so-called chip card, are supplied, these are not used in the positioning means 62 provided specifically for a SIM card.



  In the specific case, the positioning means 62 comprises two guide strips 63, 64 which are spaced apart essentially in the width of the SIM card. These guide strips 63, 64 ensure that the SIM card or the small-format information carrier 2 can be fed exactly in the intended, obliquely angled feed direction to the longitudinal central axis 33 of the contact device 13 or the reading unit 46. In particular, the positioning means 62 with the guide strips 63, 64 enable the small-sized information carrier 2 to be fed linearly, secured against rotation and precisely aligned relative to the contact elements 14 of the housing-side contact device 13, although the slot-shaped insertion opening 9 is also dimensioned for comparatively large-sized information carriers 2.

   The guide strips 63, 64 for a SIM plug-in card to be processed are arranged or formed within the slot-shaped insertion opening 9, which is actually dimensioned for feeding a comparatively large-format information carrier 2.



  It is essential that no adjustable, in particular pivotable or displaceably mounted elements are required in order to be able to position a contact-carrying information carrier 2 exactly in relation to the contact device 13 and at the same time to achieve relatively compact housing shapes.



  According to an advantageous development, at least partial areas of the housing or receiving body 6 can be designed to be transparent or translucent. In particular, it is advisable to make the areas around the opening 35 or the jacket areas surrounding the insertion opening 9 transparent or translucent. As a result, an exact positioning of a card-shaped information carrier 2 with respect to the stop elements 26 or with respect to the contact device 13 can again be made significantly easier. This transparent sub-area represents a so-called viewing window for even easier positioning of the housing or receiving body 6 with respect to the card-shaped information carrier 2.
 EMI28.1
 

  <Desc / Clms Page number 29>

 



   Here, too, the housing or the receiving body 6 for the contacting device 1 is essentially pin-shaped or rod-shaped and includes u. a. two rigid, spaced-apart stop elements 26 for exact positioning of the contacting surfaces of an information carrier relative to the depth direction of the opening 35 through the housing or the
Receiving body 6. In particular, this reading unit 46 is designed as a writing utensil 45, for example in the form of a ballpoint pen with a writing refill 65.



  In addition, this reading unit 46 comprises a display unit 66 for the visually detectable display of information or data. This display unit 66 is preferably formed by a single-line or multi-line LCD display. Of course, it is also possible to form the display unit 66 by any visualization elements known from the prior art, for example by seven-segment displays, LED arrangements or the like.



  In addition to this optical output device, it is also possible to provide acoustic output devices, for example in the form of buzzers, loudspeakers or the like, on the reading unit 46 in order to thereby output acoustic signals, for example beep tones, speech information or the like.



  Likewise, the pen-shaped reading unit 46 includes an interface 18, in particular a so-called HOST interface for connection to a higher-level computing unit 19 as required.



  In this exemplary embodiment, the interface 18 is wireless and is provided for transmitting and / or receiving energy and / or data in relation to a corresponding remote station at a base station 67. This base station 67 forms an independent structural unit to which the pen-shaped reading unit 46 can be physically and / or communicatively assigned.



  In addition, the reading unit 46 comprises at least one input device 68 for inputting data and / or for influencing the operating states or the operating behavior of the reading unit 46 or the integrated circuit 17. The input device 68 comprises at least one operating element 69 which can be operated by a user. This operating element 69 can be designed as a switch, button 70 and / or as a selection wheel 71. This at least one control element 69 in any configuration serves in any case to operate the reading unit 46 or to influence its operating states. In addition, the respective control element 69 can
 EMI29.1
 

  <Desc / Clms Page number 30>

 



   When an operating menu is output via the display unit 66, the operating elements 69 can be used
Menu navigation or menu control can be used, which enables clear and simple operation even with a large number of possible functions of the reading unit 46.



   If a selection wheel 71 is designed as the operating element 69, this is preferably arranged in the end region of the pen-shaped reading unit 46 facing away from the writing lead 65 and is provided instead of the usual actuating element for extending and retracting the writing lead 65. The selection wheel 71 can be next to the one indicated by a curved arrow
Rotational mobility about an axis of rotation 72 can also be mounted such that it can be adjusted vertically to its axis of rotation 72, as is illustrated by the double arrow 73. This vertical mobility according to double arrow 73 of the selection wheel 71 is preferably used to confirm or to select a specific function from a plurality of selection options available.

   This rotatably mounted selection wheel 71 thus also has the function of a confirmation or input element when it is operated according to double arrow 73.



  Independently of this, control elements 69 can also be arranged in the form of arrow keys, which are functionally comparable to cursor keys.



  At least some of the data stored in the data storage element of a supplied information carrier can be displayed or displayed by means of the display unit 66 and possibly using the operating elements 69. visualized. In particular, remaining credit, duration restrictions, user data, transaction data, data on the usage history or other data relevant to the respective purpose and / or area of application can be visualized via the display unit 66.



  According to a possible development of the pen-shaped reading unit 46, the tip of the writing lead 65 is designed as an operating element 69, as a result of which the reading unit 46 can be used in the manner of the previously described pointing device or rolling ball or as a so-called “mouse”.



  Alternatively, it is also possible to provide a combined optical output and input device in the manner of a touch screen on the reading unit 46. As a result, the number of operating elements 69 in the form of buttons or push buttons on the housing or receiving body 6 can be reduced, so that this pen-shaped reading unit 46 can be made particularly compact. In addition, high ease of use of the reading unit 46 can be achieved.

  <Desc / Clms Page number 31>

 



   In order to securely insert the reading unit 46 designed as a writing utensil 45, a holding bracket 74, which is customary in the case of writing pens, can be arranged on the housing or receiving body 6 for attachment to garment pockets of jackets or the like.



   According to a possible embodiment of the pen-shaped reading unit 46, the latter can also have at least one sensor 75 for detecting biometric features of a potential user of the
Include reading unit 46. This biometric sensor 75 can be formed by a fingerprint sensor for recording fingerprints or by a microphone and a downstream evaluation circuit for recognizing voices and / or recognizing speech text. Such an electronic evaluation circuit is preferably part of the electrical circuit 17 of the reading unit 46, which is likewise received by the housing or receiving body 6.



  This biometric sensor 75 makes it possible to check whether the person showing an intention to use is authorized to use the reading unit 46 in order to perform various functions or to initiate certain actions. In particular, the respective user of the reading unit 46 can be identified and / or authenticated via this sensor 75. Irrespective of this, it is of course also possible to use a card-shaped information carrier which can be fed to the reading unit 46 for the identification and / or authentication of the user and, after a positive check result, to grant the usage authorization for the reading unit 46.



  According to a possible embodiment, a security module in the form of a SAM module can also be integrated in the reading unit 46. Such a SAM module (Security Access Module or Security Application Module) is preferably formed by an electronic circuit permanently installed in the reading unit 46, which performs security tasks.



  The electrical or electronic components described above, such as display unit 66, input device 68, control element 69 and sensor 75, are connected to the central electrical circuit 17, which preferably comprises a microcomputer. This microcomputer can be software-controlled and can represent the central controller of the reading unit 46.



  The compact, portable reading unit 46 further comprises at least one electrochemical voltage source 76 in the form of accumulators 77 or batteries. However, preference is given to

  <Desc / Clms Page number 32>

 accumulators 77 are used, which follow up or down via a suitable charging station, in particular via the base station 67. are rechargeable. The electrochemical voltage sources 76 are preferably arranged interchangeably in the housing or receiving body 6 of the reading unit 46 and, as shown schematically, can be formed by so-called button cells. Of course, it is also possible to use commercially available, rod-shaped accumulators 77 with a cylindrical shape. Batteries or

   Accumulators 77 with a cylindrical shape are particularly suitable for being interchangeably integrated into the housing or the receiving body 6 of the reading unit 46 and for providing a high level of electrical power.



  As already explained above, the reading unit 46 can be assigned to a structurally independent base station 67 designed as a table device. This base station 67 has a recess 78 into which a partial area of the reading unit 46 can be inserted. In particular, the end or tip area of the pen-shaped reading unit 46 assigned to the writing lead 45 can be inserted into the recess 78 of the base station 67. By means of this recess 78, the reading unit 46 is held or positioned relative to the base station 67. The recess 78 is arranged in a surface area of the base station 67 and aligned in such a way that the reading unit 46 is positioned or held as largely as possible vertically or vertically.



  The wire or. Contactless interface 18 of the reading unit 46, which is formed by an antenna or a corresponding coil, is largely located within the recess 78 in the reading unit 46 assigned to the base station 67. For transmitting and / or receiving data and / or electrical energy for or the base station 67 comprises the cut
 EMI32.1
 80, 82 are designed to receive and / or transmit electromagnetic fields.



  A contactless transmission path for the transmission of energy and / or data can be set up between the coils 80, 82. The transmitting and / or receiving device 81 assigned to the base station 67 is preferably placed near the recess 78 or the recess 78 is at least partially surrounded by the coil 82.



  The transmitting and / or receiving device 81 integrated in the base station 67 is equipped with an im

  <Desc / Clms Page number 33>

 
Housing of the base station 67 arranged, electronic circuit 83 connected. This electronic circuit 83 of the base station 67 is used for evaluating and / or converting the electrical signals or data to be transmitted between the reading unit 46 and a higher-level electronic computing unit 19. For this purpose, the circuit 83 or the base station
67 is connected via cable 20 to a suitable interface 21 of computing unit 19, as has already been explained above. The transmission path between the computing unit 19 and the base station 67 is preferably constructed as a bidirectional data transmission path.



  This circuit 83 can also be referred to as interface electronics between the reading unit 46 and the higher-level computing unit 19.



  Furthermore, the base station 67 comprises a power supply unit 84 for converting the electrical energy provided by a public energy supply company to a level required by the circuit 83. The power supply unit 84 is connected on the output side to the circuit 83 and can be connected on the input side to a public power supply network via a cable connection.



  In order to be able to reduce the energy consumption of the reading unit 46, at least one switching device 85 or a corresponding sensor can be arranged in the reading unit 46, with which the presence or correct positioning of a supplied information carrier 2 can be detected. This switching device 85 or this sensor is coupled to the voltage source 76 or the circuit 17 and only initiates a power supply for the electrical components of the reading unit 46 when an appropriate positioning of a suitable information carrier is present.



  It is essential that, with the inclusion of the base station 67, data communication between the reading unit 46 or between the data storage element or chip of a card-shaped information carrier used and a superordinate computing unit 19, such as, for. B. a HOST system or a PC. In addition, the rechargeable batteries 77 can be charged or recharged via the alternating electromagnetic fields of the base station 67.



  For the sake of order, it should finally be pointed out that, for a better understanding of the structure of the contacting device) and the reading unit 46, these or their components have been partially shown to scale and / or enlarged and / or reduced.

  <Desc / Clms Page number 34>

 



  The object on which the independent inventive solutions are based can be found in the description.



  Above all, the individual in FIGS. 1, 2, 3; 4, 5; 6; 7; 8 shown form the subject of independent, inventive solutions. The relevant tasks and solutions according to the invention can be found in the detailed descriptions of these figures.


    

Claims (52)

Expectations 1. Contacting device (1) for card-shaped information carriers (2) with an electronic data storage element, which has a contact interface with a plurality of electrical contacting surfaces (5), comprising a housing or a receiving body (6) for at least partially receiving or holding a contact device ( 13) with several block or  Contact elements (14) arranged in a matrix, which can be brought into contact with the contacting surfaces (5) of an information carrier (2), the housing or the receiving body (6) having at least one positioning means for edge regions (29, 30) of a feedable information carrier (2) in order to be able to position the contacting surfaces (5) of an information carrier (2) to be supplied relative to the contact elements (14), and a length (7) of the housing or receiving body (6) is larger than a width dimension of a feedable, card-shaped information carrier ( 2), characterized in that a slot-shaped opening (35) is formed in the housing or receiving body (6) transversely to its longitudinal central axis (33), in which at least one stop element (26) with at least one stop edge (31, 32)  is designed for edge areas (29, 30) of a feedable information carrier (2) and this extends at least one stop edge (31, 32) obliquely or inclined to the longitudinal central axis (33) of the housing or receiving body (6), so that an information carrier (2 ) is aligned obliquely to the longitudinal central axis (33) of the housing or receiving body (6) and that the contacting device (13) or its contact elements (14) is / are inclined to the corresponding extent to the longitudinal central axis (33) of the housing or receiving body (6) and that at least one inclined stop edge (31, 32) a feed movement arrow (12) of an information carrier (2) into the opening (35) in cooperation with two edge regions (29, 30) running at right angles to one another  a card-shaped information carrier (2) limited relative to the housing or receiving body (6). 2. Contacting device according to claim 1, characterized in that two stop edges (31, 32) are aligned at an angle (34) of approximately 900 to one another, and thus the limit stops for two edge areas running at right angles to one another  <Desc / Clms Page number 36>  form rich (29,30) of an information carrier to be fed (2).  3. Contacting device according to claim 1 or 2, characterized in that one of two mutually spaced stop elements (26) is formed as an angular stop (54) with two angularly extending boundary edges (55, 56). 4. Contacting device according to claim 3, characterized in that an angle (57) between the two boundary edges (55, 56) of the angle stop (54) is 900 or 900 to 1500. 5. Contacting device according to claim 3 or 4, characterized in that the angle stop (54) about a vertical to a support plane (36) for an information carrier (2) extending pivot axis (59) is pivotally mounted. 6. Contacting device according to one or more of the preceding claims, characterized in that the opening (35) through the housing or the receiving body (6), the support plane (36) and at least one of the stop edges (31, 32) for exact positioning of one for contacting provided information carrier (2). 7. Contacting device according to one or more of the preceding claims, characterized in that the stop elements (26) or stop edges (31, 32) are placed and aligned in the housing or receiving body (6) in such a way that the arrow pointing to the feed direction (12) -related, front corner area (37) of an information carrier (2) placed in contacting manner projects beyond an outer boundary or lateral surface (38) of the housing or receiving body (6). 8. Contacting device according to one or more of the preceding claims, characterized in that an information carrier to be contacted (2) by rotation about an imaginary vertical axis to its flat sides or about the pivot axis (59) of the angle stop (54) in the opposite to the longitudinal central axis (33 ) of the housing or receiving body (6) is at an inclined contact position.  <Desc / Clms Page number 37>   9. Contacting device according to one or more of the preceding claims, characterized in that a detection device (42) is designed for determining the taking of the correct contacting position of an information carrier (2).  10. Contacting device according to claim 9, characterized in that the detection device (42) is formed by at least one switching element (43, 44).  11. Contacting device according to claim 10, characterized in that the switching element (43,44) is assigned to the stop element (26).  12. Contacting device according to claim 10 or 11, characterized in that the switching element (43,44) projects in the rest state relative to the stop edge (31,32) of the stop element (26) and is actuated when the information carrier (2) is positioned in a contacting manner. 13. Contacting device according to one or more of claims 3 to 5, characterized in that the pivotable angular stop (54) is assigned a switching element (44) which is actuated in that angular position in which an information carrier (2) is positioned in contact. 14. Contacting device according to one or more of the preceding claims, characterized in that each stop element (26) is assigned at least one switching element (43, 44) and a contacting position which is properly assumed by an information carrier (2) is recognized when both switching elements (43, 44) are actuated is. 15. Contacting device according to one or more of the preceding claims, characterized in that the housing or the receiving body (6) is pin-shaped and the opening (35) extending transversely thereto as a stop element (26) and slot-shaped insertion opening (9) for the corner area ( 37) a card-shaped information carrier (2) with smart card or. Credit card format is dimensioned. 16. Contacting device according to one or more of the preceding claims,  <Desc / Clms Page number 38>  characterized in that the pivotably mounted angular stop (54) is pressed by means of at least one spring means (60) into a rest position closest to or adjacent to the housing or receiving body (6) or at least partially into a position inserted into the insertion opening (9). drawn starting position is pushed.  17. Contacting device according to one or more of the preceding claims, characterized in that the housing or the receiving body (6) is designed as a portable object for personal or everyday use.  18. Contacting device according to one or more of the preceding claims, characterized in that the housing or the receiving body (6) is designed as a writing utensil (45), for example as a ballpoint pen.  19. Contacting device according to one or more of the preceding claims, characterized in that a pocket knife is used as the housing or receiving body (6). Contacting device according to one or more of claims 6 to 19, characterized in that the opening (35) forming the insertion slot in the housing or receiving body (6) contains an information carrier (2) to be processed in the directions transverse to the direction of arrow (12) limited and positioned relative to the contacting device (13) substantially immovable. 21. Contacting device according to claim 20, characterized in that wart-like elevations and / or elastically flexible card guides are arranged on at least one wall of the opening (35) and the contact elements (14) are resiliently flexible into the insertion opening (9) or into the opening (9). 35) protrude. 22. Contacting device according to one or more of claims 3 to 21, characterized in that the angle stop (54) is hook-shaped, L-shaped or triangular and via the housing-side pivot axis (59) relative to the lateral surface (38) of the rod or pin-shaped housing or receiving body (6) can be swung out and in.  <Desc / Clms Page number 39>    23. Contacting device according to one or more of claims 3 to 22, characterized in that the pivot axis (59) in an edge region of the housing or Receiving body (6) is formed.  24. Contacting device according to one or more of claims 5 to 23, characterized in that the pivot axis (59) is formed in the region of the exit opening for the corner region (37) from the opening (35) in the region of the feed direction arrow (12) ,  25. Contacting device according to one or more of the preceding claims, characterized in that it is integrated in an electronic reading unit (46) for carrying out reading and / or writing processes with respect to the electronic data storage element of an information carrier (2) to be processed. 26. Contacting device according to one or more of the preceding claims, characterized in that at least a portion of the housing or receiving body (6), in particular a region around the opening (35) or the stop elements (26), is transparent or translucent. 27. Reading unit (46) with electronic circuits (17) at least for reading card-shaped information carriers (2) with an electronic data storage element to be contacted electrically, characterized in that it has a contacting device (1) according to one or more of the preceding claims. 28. Reading unit according to claim 27, characterized in that it is elongated, in particular pin or rod-shaped. 29. Reading unit according to claim 27 or 28, characterized in that it is designed as a writing utensil (45), for example in the form of a ballpoint pen. 30. Reading unit according to one or more of claims 27 to 29, characterized in that it comprises a display unit (66), for example an LCD display.  <Desc / Clms Page number 40>   31. Reading unit according to one or more of claims 27 to 30, characterized in that it comprises an interface (18) to a superordinate computing unit (19), in particular a so-called HOST interface.  32. Reading unit according to claim 31, characterized in that the interface (18) is formed by a contact interface, in particular by a USB interface (48).  33. Reading unit according to claim 31, characterized in that the interface (18) is formed by a wireless interface, in particular according to the Bluetooth standard.  34. Reading unit according to claim 31 or 33, characterized in that the interface (18) is formed by a radio transmission interface. 35. Reading unit according to one or more of claims 27 to 34, characterized in that it has at least one operating element (69) which can be actuated by a user in order to influence its operating states or their operating behavior. 36. Reading unit according to claim 35, characterized in that the control element (69) is designed as a switch, button (70) or as a selection wheel (71). 37. Reading unit according to claim 35 or 36, characterized in that the control element (69) is provided for selection, confirmation and / or for entering a code, in particular a PIN code. 38. Reading unit according to one or more of claims 27 to 37, characterized in that it comprises a writing lead (51, 65) or a felt-tip pen or a writing ink container for writing on paper. 39. Reading unit according to one or more of claims 27 to 38, characterized in that it has a holding bracket (74) for attachment to clothes bags or the like.  <Desc / Clms Page number 41>    40. Reading unit according to one or more of claims 27 to 39, characterized in that an actuating element (50) for retracting and extending the writing lead (51) has an additional or the only control element (69) for influencing the operating behavior of the Representing reading unit (46).  41. Reading unit according to one or more of claims 27 to 40, characterized in that the tip of the writing lead (65) is designed as an operating element (69) in the manner of a pointing device or roller ball. 42. Reading unit according to one or more of claims 27 to 41, characterized in that it comprises at least one sensor (75) for detecting biometric features. 43. Reading unit according to claim 42, characterized in that the biometric sensor (75) is formed by a fingerprint sensor. 44. Reading unit according to claim 42, characterized in that the biometric sensor (75) is formed by a microphone and a downstream evaluation circuit for voice recognition and / or voice recognition. 45. Reading unit according to one or more of claims 27 to 44, characterized in that a feedable information carrier (2) is used to identify and / or authenticate a user. 46. Reading unit according to one or more of claims 27 to 45, characterized in that a security module is integrated in the form of a SAM module. 47. Reading unit according to one or more of claims 27 to 46, characterized in that a switching device (85) or a corresponding sensor is designed to detect the presence of an information carrier (2) and to control the energy supply of the reading unit (46).  <Desc / Clms Page number 42>    48. Reading unit according to one or more of claims 27 to 47, characterized in that it comprises electrochemical voltage sources (76), in particular accumulators (77) or batteries, for autonomous power supply. 49. Reading unit according to one or more of claims 27 to 48, characterized in that it can be assigned to a base station (67) for charging the batteries (77). 50. Reading unit according to one or more of claims 27 to 49, characterized in that the batteries (77) can be charged by alternating electromagnetic fields of a transmitting and / or receiving device (81) of the base station (67). 51. Reading unit according to one or more of claims 27 to 50, characterized in that by means of a transmitting and / or receiving device (79) for electromagnetic fields in relation to a stationary base station (67) via a data communication to a higher-level computing unit (19) a connection via a cable (20) can be established. 52. Reading unit according to one or more of claims 27 to 51, characterized in that using the base station (67) a synchronization and / or a comparison of data stored in the reading device (46) and / or on the information carrier (2) with in the parent computing unit (19) stored data can be carried out.