EP1361547A2 - Position sensor - Google Patents

Abstract

The position sensor (60) is suitable for installation in a device for processing items similar to valuable documents and contains at least one mechanical sensing element (62.1), at least one proximity element (64) mechanically connected to the sensing element and a measurement element (63) that interacts with the proximity element and outputs a signal dependent on the position of the proximity element. AN Independent claim is also included for the following: (a) a device for processing items similar to valuable documents.

Description

The invention relates to a device for processing securities-like Objects. The device is particularly suitable for reading, Detect, control, verify, check, count, sort and / or stack Securities and / or objects similar to securities such as banknotes, checks, Shares, papers with security imprint, certificates, tickets or tickets, Coupons, but also credit or debit cards and / or identification or Access cards. The invention relates in particular to a position sensor for the processing of objects similar to securities in accordance with the Claims.

Devices for processing securities are known. You are able Processing functions such as feed separation, transport, deflection, turning, reading, Sort or stack on the securities to exercise. For this purpose they are with complex mechanical, electrical, electronic and / or optical components fitted. These components must be mutually installed in the be placed in the correct position to make a desired processing sequence error and run without interruption. The device is mostly for a specific one Processing flow thought; when other processing functions are performed , a new, different device must be designed and constructed, or at least the existing device can be converted with great effort. Also need Most components use an electrical power supply, which is common with the help of complex, complicated wiring inside the device is realized. Such wiring makes production and maintenance difficult the device is confusing and prone to failure.

The securities-like objects to be processed often give dirt, color and / or dust to the device. As a result, the functionality of individual Components or the entire device (for example by jamming the securities-like Objects) are seriously impaired. To known devices for To repair securities processing in such a case, they must be dismantled, decongested, cleaned and reassembled, which takes a lot of time and Effort required.

In summary, it can be said that the manufacture and maintenance of known devices for securities processing mostly associated with relatively great effort are, which in turn leads to high manufacturing and operating costs.

In addition, known devices for processing securities are often included inconveniently complicated and expensive pressure and / or transport units, with position sensors prone to contamination and with unreliable ones that are similar to securities Objects undulating feed units equipped.

It is an object of the invention to provide a robust, not susceptible to contamination Position sensor for determining whether a security-like object has become a certain time in a certain place or not.

The object is achieved by the position sensor according to the invention, as described in independent claim are defined. The invention also relates to a device for processing securities-like objects.

In this document the term "securities-like objects" is used graphically printed, flat, thin and mostly flexible objects that unite represent certain material value, understood, i.e. securities in the real Sense, but also other such objects. Examples of securities-like Objects are banknotes, bank checks, shares, papers with security imprint, Certificates, tickets or tickets, vouchers, credit or ATM cards, Identification or access cards. If in this document of "processing functions" functions, such as pulling in, separating, separating, Transport, reading, recognizing, checking, verifying, checking, counting, sorting and / or stacks, which are exercised on the securities-like objects become. A "processing flow" consists of several such functions together.

The fact that, according to the invention, a mechanical scanning element is present and interacts with the measuring element, the measuring element can pass through the items similar to securities can be removed or shielded. This makes it inaccessible to contamination.

The position sensor according to the invention can be installed in a device for processing securities-like objects that have interchangeable mobile parts that are reversibly usable in the device. This is based on the idea of one Device for processing objects similar to securities modular build. The various processing functions completed by independent modules. Such modules are interchangeable mobile parts, which can be used in a fixed part of the device such that a desired Workflow for processing the securities-like objects is feasible. The modules have standardized interfaces at which the securities-like objects are passed from one module to another. The device must be constructed in such a way that the interfaces are mutually correct are positioned and transfers of items similar to securities are possible, if modules are inserted in the device. The modules are from a set of different modules can be selected and combined in almost any way, so that one Abundance of freely selectable processing sequences can be realized.

The modules can be easily, for example by plugging or hanging, into the Device used and can be easily removed or replaced. On Such a modular structure thus ensures an extremely simple assembly and maintenance of the device. It also enables quick and easy Change the desired processing flow by adding modules easily, can be removed, moved and / or exchanged. The device is after User request expandable or expandable. The individual modules are robust, because they only have a necessary minimum of delicate, pollution-prone electrical, contain electronic and / or optical elements. If possible, are such delicate elements outside the modules, so that the Communication between the modules and the rest of the device mechanical signals limited. The maintenance of the device is simple and quick, because the modularity makes it easy to clear a jam and makes individual modules convenient can be cleaned. The modularity does not only bring for the user, but also advantages for the manufacturer: a new design of the Device is significantly easier because only very specific parts are changed must, while others can be taken over by existing devices.

The device for processing securities-like objects is preferably operated electrically and has at least one input as well at least one exit for the securities-like objects. The device includes a fixed part and interchangeable mobile parts, the mobile Share modules for performing a completed processing function on the objects to be processed are similar to securities and these modules in the stationary part can be used in such a way that between the at least one input and the at least one output a desired workflow for processing the security-like objects can be carried out.

The fixed part of the device is preferably essentially rigid Carrier structure formed, for example. As a wall of the device forming plate, as Profile or as a bar grid. The device preferably has mechanical Connection means by means of which the modules can be detached by means of a form-fitting mechanical connection can be fastened to the stationary part. The modules can For example, it can be plugged or hung onto the stationary part.

Drive means can be attached to the stationary part of the device, for example. Electric motors. Active agents can be attached to the mobile parts, which act mechanically on the securities-like objects, e.g. rollers for the Transport of objects similar to securities. By means of transmission such as Toothed belts, perforated wheels or perforated rings, tie rods, levers, couplings, mechanical Switches or shafts can generate forces and / or torques from the drive means transferred to the active agents. It is advantageous to get the ones you need Drive means not to be installed in the mobile parts, but on the stationary part the device. This creates a clear, consistent separation of drive means and mobile parts reached. This separation has the advantage that the electrical lines and components are clearly arranged on the stationary part, as on one Printed circuit board of an electronic device. There they can be installed more easily and being repaired. Most mobile parts only contain mechanical components.

Fig. 1

eine perspektivische Ansicht von vom des ortsfesten Teils der Vorrichtung,

Fig. 2

eine perspektivische Ansicht von hinten des ortsfesten Teils der Vorrichtung von Fig. 1,

Fig. 3

eine perspektivische Ansicht von vorn der teilweise offengelegten Vorrichtung,

Fig. 4 und 5

Frontalansichten von Details der Befestigung von Modulen in der erfindunsgemässen Vorrichtung,

Fig. 6

einen Querschnitt durch eine Schnittstelle zwischen zwei Modulen der Vorrichtung,

Fig. 7-12

verschiedene Module für den Einsatz in der Vorrichtung,

Fig. 13 und 14

einen Längs- bzw. einen Querschnitt durch eine Transporteinheit,

Fig. 15 und 16

Längsschnitte durch einen erfindungsgemässen Lagesensor,

Fig. 17

eine perspektivische Ansicht des Lagesensors von Fig. 15 und 16,

Fig. 18 und 19

einen Längs- bzw. Querschnitt durch eine Einzugseinheit und

Fig. 20

eine perspektivische Ansicht einer Vorrichtung.

An exemplary embodiment of the invention is explained in detail below with reference to figures. The following schematically show:

Fig. 1

a perspective view of the fixed part of the device,

Fig. 2

2 shows a perspective view from behind of the stationary part of the device from FIG. 1,

Fig. 3

3 shows a perspective view from the front of the partially disclosed device,

4 and 5

Frontal views of details of the fastening of modules in the device according to the invention,

Fig. 6

3 shows a cross section through an interface between two modules of the device,

Fig. 7-12

various modules for use in the device,

13 and 14

a longitudinal or a cross section through a transport unit,

15 and 16

Longitudinal sections through a position sensor according to the invention,

Fig. 17

15 and 16, a perspective view of the position sensor of FIGS.

18 and 19

a longitudinal or cross section through a feed unit and

Fig. 20

a perspective view of a device.

The device includes a fixed part and interchangeable mobile parts. Figure 1 shows a perspective view of the fixed part 1 of the device. The stationary part 1 is preferably designed as an essentially rigid support structure, for example as a plate, which also serves as the rear wall of the device. For better orientation, Cartesian coordinates (x, y, z) are drawn in the figures, the plate 1 always defining the xy plane. Bolts 2.1, 2.2, ... are fastened on the plate 1 at fastening points 20.1, 20.2,. These bolts 2.1, 2.2, ... are used to plug in interchangeable modules (not shown in FIG. 1). Further fastening points 20.51, 20.52,... For bolts can be provided on the first side 11 of the plate 1; they are preferably arranged in a standardized, dashed grid 21. The bolts 2.1, 2.2, ... are fastened using known fasteners such as screws.

On the first side 11 of the plate 1, elements are attached which are necessary for the operation the device are needed. Such elements can drive means 41, 42, Transmission means 51-56, electrical lines, electrical and / or electronic Components etc. Drive means 41, 42 generate forces and / or torques for the mechanical processing functions performed by the modules. For the Processing function transport is preferably a single electric motor 41 as first drive means available. For the processing function Sort is at least one electromagnetic switch 42 is present as a second drive means. Transmission means 51-56 transmit forces and / or torques from the drive means 40, 41 in the modules and / or vice versa. From the motor 41 are timing belts 51.1, 51.2 driven as the first transmission means. The timing belts 51.1, 51.2 run on pulleys 52.1-52.4 and move perforated wheels or perforated rings 53.1, 53.2, ... These are provided with preferably conical bores 54, in which corresponding shaped, movably or rotatably attached to the modules (in Fig. 7-12 shown) pins 55.1, 55.2, ... can intervene; the conical shape makes it easier mutual positioning when inserting a module. From electromagnetic Switch 42, a lever 56 is driven as a further transmission means. transmission means can also (not shown) tie rods, couplings, mechanical Switches, shafts, gears, gears, chains, etc. In the device tries, if possible, only mechanical signals from plate 1 to the modules transfer; this ensures high robustness of the device.

A first type of electrical line 71 (shown in FIG. 2) is used for supply from electrical energy to components, a second type of electrical wiring 72 the transmission of information between certain components; the both types of lines 71, 72 can also coincide. For example the switch 42 of the sorting module needs information from the reading modules in order to decide which stack a certain banknote should be fed to. Information processing, e.g. processing of data from and to the user, Detection or verification of banknotes, calculation of maturities, control of Switches etc. occur in at least one electronic component, for example one Microprocessor 81. For the reasons mentioned above, it is advantageous to use the Avoid using electrical cables if possible. For this purpose are on the first side of the board preferably printed circuit boards 82.1-82.3 with slots 83 attached, in which appropriate, attached to certain modules (not shown) plugs can be inserted.

Figure 2 shows a perspective view of the partially disclosed device of Figure 1, but from the rear. On a second side 12 of the plate 1, further elements are attached which are required for the operation of the device. These can be transmission means such as toothed belts 51.3-51.7 on pulleys 52.5, 52.6, ... These can also be electrical components, e.g. B. a supply device 84, which provides the operating voltage required by other elements, and / or a further printed circuit board 82.4. It is advantageous if as many elements as possible are attached to the second side 12 of the plate 1. This is because it is more easily accessible, so that even modules do not have to be removed from their locations during maintenance.

Figure 3 shows, in the same perspective view as Figure 1, the plate 1 with inserted modules 31-36. The modules 31-36 are interchangeable mobile parts which can be used in the fixed part 1 of the device in such a way that a desired workflow for processing the objects similar to securities (not shown in FIG. 3) can be carried out. In the example of FIG. 3, the desired processing sequence is as follows: The objects similar to securities, for example different bank notes, are initially in a stack (not shown) in an input compartment 311 of an input and separation module 31; they are drawn into the device and separated from one another, read, deflected and transported, deflected again, sorted and stacked.

This processing sequence consists of a sequence of completed Processing functions, each of which is carried out by a module 31-36. Corresponding modules 31-36 are shown schematically in FIG. 3: an input and Separation module 31 with an input compartment 311, which acts as the input of the device serves, a first transport module 32.1, a first reading module 33.1, a second reading module 33.2, a first deflection module 34.1, a second transport module 32.2 and a third transport module 32.3, a second deflection module 34.2, a sorting module 35 first stacking module 36.1 and a second stacking module 36.2, each with an output compartment 361.1, 361.2, the output compartments 361.1, 361.2 as outputs of the device serve. A single reading module is sufficient if only one side of the banknotes has been read must become; this can be the case if the banknotes are only recognized must, for example for later sorting in the sorting module 35. Two reading modules 33.1, 33.2 are necessary if both sides of the banknotes are to be read; This is For example, necessary when the banknotes are verified, d. H. must be checked. In general, several read modules 33.1, 33.2 provide redundancy and thus Increase accuracy and security of the processing sequence.

Bolts 2.1, 2.2, ... protrude from the plate 1, onto which the modules 31-36 can be plugged. For this purpose, the modules 31-36 with indentations and / or openings 22.1, 22.2, ... into which the bolts 2.1, 2.2, ... are inserted. Through a such plugging results in a simple, detachable, but nevertheless stable mechanical Connection between plate 1 and modules 31-36. The plate 1 preferably has a standardized grid 21 of attachment points 20.51, 20.52, ... for others Bolt on. If necessary, additional bolts can be attached to the plate 1, others can be removed from plate 1 conversely. The distances of the indentations and / or openings 22.1, 22.2, ... in modules 31-36 correspond to this Distance, preferably a standardized grid spacing, of the attachment points for Bolts 2.1, 2.2, ... The modules 31-36 can thus be used in a modular system with large Freedom can be arranged on the plate 1. For modules that use electrical power need - e.g. a reading module 33.1, 33.2 - are corresponding (in Fig. 1 indicated) electrical connection means 83, for example. Slots, on the plate 1 Printed circuit boards 82.1-82.3 or on other elements attached to board 1 intended.

FIG. 4 shows a frontal view of a detail IV from FIG. 3, namely the attachment or suspension of two modules, for example the second transport module 32.2 and the third transport module 32.3. The two modules 32.2, 32.3 are plugged onto two bolts 2.5, 2.6 (as well as further bolts, which are not visible in FIG. 4), in that the bolts 2.5, 2.6 are pushed into formations 22.51, 22.52, 22.61, 22.62. Each of the two bolts 2.5, 2.6 connects the two modules 32.2, 32.3 to the plate 1. Conversely, a stable attachment of a module normally requires two, sometimes more bolts.

Figure 5 shows, in the same view as Figure 4, a detail V of Figure 3. Here, a bolt 2.7 connects the four modules 36.1, 36.2, 34.3, 35 to the plate 1. Such an arrangement is in a sense even more advantageous than that of Figure 4, because fewer bolts are required for attaching the modules.

The modules have standardized interfaces at which the banknotes are transferred from one module to the other. An example of an embodiment of such an interface 30, for example between the input and separation module 31 and the first transport module 32.1 of the device from FIG. 3, is shown in cross section in FIG . A banknote 100 is transported through a first passage gap 312 in the input and separation module 31 and through a subsequent second passage gap 322 in the first transport module 32.1; their direction of movement is indicated by an arrow 101. The two passage gaps 312, 322 communicate via the interface 30. At the interface 30, the input and separation module 31 has, for example, a wedge-shaped, elongated comb 301, and the first transport module 32.1 has an elongated groove 302 for receiving it at the corresponding point of the comb 301. The interlocking of comb 301 and groove 302 offers an additional positioning aid for the two modules 31, 32.1 and ensures error-free transfer of the banknotes 100 from one module 31 to another module 32.1 at the interface 30. The device is designed and constructed in such a way that the Interfaces 30 are correctly positioned with respect to one another and banknotes 100 can be transferred if the modules 31-36 are used in the device.

Figures 7-12 show examples of different modules 31-36, which in the Device can be used. A movement of the (in Fig. 7-12 is not drawn-in) securities-like objects, for example banknotes 100, indicated schematically with arrows 102. The banknotes 100 move typically at a speed of 600 to 1,500 mm / s through the Contraption; their distance is approximately 20 to 50 mm. With these values we get a typical flow of four to ten banknotes per second. Are partial Indentations or openings for plugging on (e.g. shown in FIGS. 1-3) Bolts 2.1, 2.2, ... visible. Pins 55.1, 55.2, ..., are also partially visible which engage in (in FIG. 1) perforated wheels or perforated rings 53.1, 53.2, ... and thus transferring moments from plate 1 to modules 31-36. Through these means of transmission become transport shafts 551.1, 551.2, ... and finally transport rollers 552.1, 552.2, ... driven by means of static friction to transport the banknotes 100 effect.

FIG. 7 shows a module 31 for entering and separating banknotes 100. The bank notes 100 are placed in a stack in an input compartment 311, drawn in individually by the module 31 and thus separated from the stack or from one another. 8 shows a transport module 32 for the linear transport of the bank notes 100 through the module 33 of Figure 9, the bank notes are read optically 100, eg. By means of (in Fig. 9 does not visible) CCD arrays and / or CCD arrays , FIG. 10 shows a deflection module 34, which deflects the bank notes 100 by a certain angle α, for example by α = 90 °, relative to their original direction of movement 101.1. The module 35 from FIG. 11 is a branching module, a sorting module or a switch. Depending on the position of a switch 42 (shown in FIG. 1), the movements of which are transmitted to the module 35 with the aid of transmission means 56 (indicated in FIG. 1), the module 35 issues a banknote 100 in a first direction 101.2, for example. undeflected, or in a second direction 101.3, for example deflected by 90 °. Finally, a stack module 36 is shown in FIG . The banknotes 100 are stacked in an output compartment 361 and can be removed from the output compartment 361.

Of course, other modules, not described here, are also included in the device used. The connection between modules and the stationary part can also be made with other means.

Figures 13-19 refer to some details of certain modules of the device received.

FIGS. 13 and 14 show in longitudinal or cross section a transport unit for the transport of security-like objects 100 in a module. It contains a transport shaft 551 driven by (not shown in FIGS. 13, 14) drive means 41 and possibly existing transmission means 51-55 with preferably a plurality of transport rollers 552.1-552.4, which act on the objects 100 similar to securities and cause them to be transported through the transport unit. The transport rollers 552.1-552.4 or their active surfaces consist of a material which has a large coefficient of static friction, for example an elastomer, compared to the objects 100 similar to securities. So that a static frictional force acting in the transport direction 101 can be exerted on the security-like objects 100, the security-like objects 100 are pressed onto the transport rollers 552.1-552.4 by means of preferably several pressure rollers 554.1-554.4 interacting with the transport rollers 552.1-552.4 on pressure rollers 553.1-553.4 which are preferably not driven pressed. The distance between transport rollers 552.1-552.4 and pressure rollers 554.1-554.4 must be variable at least by the thickness d of the objects 100 similar to securities. For this purpose, the pressure rollers 554.1-554.3 are preferably suspended so that they can move vertically to the transport direction 101 and to the pressure axes 553.1-553.4, indicated by a double arrow 555. Such movable suspensions can be made by small rotations 555 'of the pressure axes 553.1-553.4 around a suspension axis 557 fixed to the device be approximated. The pressure axes 553.1-553.4 can be rotatably mounted, for example, in suspension elements 556.1-556.4, which are suspended on the suspension axis 557. In a particularly favorable embodiment (shown in FIG. 19), the pressure axes 553.1-553.4 could also be produced in one piece with the pressure rollers 554.1-554.4, for example made of plastic.

On the pressure rollers 554.1-554.4, the pressure axes 553.1-553.4 or the suspension elements 556.1-556.4, back-driving forces F _{R should} act in the direction of the transport rollers 552.1-552.4. In known devices, the restoring forces F _R were usually exerted with a plurality of coil springs; such an arrangement is complicated, expensive and prone to failure. In the device, the restoring forces F _R are exerted by at least one reversibly compressible foam element 558. The foam element 558 is preferably at least as long (in the z direction) as the total length of all the rollers 552.1-552.4 or 554.1-554.4. It is held in a holder 559 and supported against a module housing 371. This pressure unit has the advantages of being simple, inexpensive and not prone to malfunction. A single foam element 558 is sufficient to individually exert driving forces F _R on each pressure roller 554.1-554.4. In addition, the foam element 558 provides not only the restoring forces F _R , but also the desired damping, so that the pressure rollers 554.1-554.4 maintain the desired, variable working distance from the transport rollers 552.1-552.4 without oscillating.

Such a pressure unit with at least one foam element can of course not only in one transport unit, but also in other units come. For example, the pressure rollers 554.1-554.4 can print the securities-like ones Objects 100 also against other elements such as a reading window Press reading module 33.

At certain points on the device, position sensors are required to determine whether a security-like item is attached to a specific location or not. Known devices use this Purpose optical light barriers. The disadvantage of such light barriers is that they are close are attached to the passage of the objects similar to securities and soiling quickly, which affects their functionality. The Invention solves this problem by the presence of a security-like The object is mechanically scanned and soiled, e.g. optical parts of the position sensor from the passage of the security-like Objects are arranged or shielded, preferably even outside of a module.

An embodiment of such a position sensor 60 of the device is shown in FIGS. 15 and 16 in longitudinal section, similar to the illustration in FIG. 13, and in FIG. 17 in a perspective view. The position sensor 60 includes mechanical scanning elements 62.1-62.5, and at least one approach element 64 connected to the scanning elements 62.1-52.5. In this exemplary embodiment, the scanning elements 62.1-62.5 and the approach element 64 are arranged on a scanning axis 61 and are rigidly connected to them and rotatable. The scanning elements 62.1-62.5 have, for example, the shape of scanning fingers bent towards the ends. In addition, the position sensor 60 includes a measuring element 63 which interacts with the proximity element 64 and outputs an electrical output signal dependent on the position of the proximity element 64 to a line 634. The measuring element 63 z. B. As in FIGS. 15-17, a light barrier with a light source 631, a photodetector 633 and an intermediate light path 632, wherein the light path 632 can be interrupted by the approach element 64; however, the measuring element 63 can also be designed as a proximity switch etc. It is important that the measuring element 63 is arranged or shielded away from the passage of the objects 100 similar to securities and is thus inaccessible to contamination. This is preferably achieved by mounting the measuring element 63 on the first side 11 of the board 1 (see FIG. 1), for example on a printed circuit board 82.1-82.3. The approach element 64 thus transmits a mechanical signal from the corresponding module to the plate 1; Only on the plate 1 is the mechanical signal converted into an electrical signal. Contamination of the mechanical scanning elements 62.1-62.5 does not impair the function of the robust position sensor 60.

FIGS. 15 and 17 show the position sensor 60 in a rest position, in which there is no object 100 resembling a security at the measuring point 65, for example in the region of the rollers 552, 554. The measuring element 63 is in a first state; In this exemplary embodiment, the light path 632 of the light barrier is not interrupted. FIG. 16 shows the position sensor 60 in a deflection position, in which an object 100 resembling a security is located at the measuring point 65. The measuring element 63 is in a second state; it is Z. B. the light path 632 of the light barrier is interrupted by the proximity element 64, and the output signal of the measuring element 63 is different than in the first state. In the deflection position, a pushing back moment, indicated by an arrow 66, acts on the scanning elements 62.1-62.5; As soon as the security-like object 100 is removed from the measuring point 65, the position sensor returns to the rest position of FIGS. 15 and 17.

Another aspect of the invention relates to an intake or separation unit for the note-like objects 100.1, 100.2, ... One embodiment of such a feeder unit, with which the input and separation module 31 is provided is, in Figures 18 and 19 in the longitudinal or cross section shown. Security-like items, e.g. B. banknotes 100.3, 100.4, ... lie as a stack on an input ramp 380. They are pressed by a pressing force F _A against, preferably several, insertion rollers 382.1-382.4 located at the height of the banknotes 100.1, 100.2, ...; the pressure force F _A can be generated by its own mechanism or by gravity. The foremost banknote 100.1 is accelerated by the insertion rollers 382.1-382.4 driven by an insertion shaft 381 by means of sliding or static friction in the direction of preferably several transport rollers 384.1-384.4. The transport rollers 384.1-384.4 are driven by a transport shaft 383 and, like in the transport unit of FIGS. 13 and 14, interact with pressure rollers 386.1-386.4. The pressure rollers 386.1-386.4 are movably suspended and they act on driving forces F _R in the direction of the transport rollers 384.1-384.4; the restoring forces F _R are preferably generated by the mechanism described on the occasion of FIGS.

To ensure that only one 100.1 banknote and not multiple banknotes is drawn in simultaneously, the feed unit is preferably with several, in essential standing, non-rotating retention rollers 388.1-388.4. These are located on a retaining shaft 387 and become sporadic or continuous but very slow (compared to the rotation speed of the Transport rollers 384.1-384.4) rotated to wear on one side Avoid surface. The retention rollers 388.1-388.4 usually prevent by sliding or static friction that, in addition to a first banknote 100.1, a second (and further) banknote 100.2 is drawn. In the known feed units are the Retaining rollers and the transport rollers are mutually offset, and only those Pinch rollers face the feed rollers (such as in Fig. 14). This causes a drawn banknote to curl in the z direction, which is a considerable Disadvantage in the subsequent processing functions such as transport or reading means. It also happens from time to time that undesirably several banknotes are drawn in simultaneously.

The feed unit avoids these disadvantages in that each retaining roller 388.1-388.4 is opposite a transport roller 384.1-384.4. The distance a between the retention rollers 388.1-388.4 and the transport rollers 384.1-384.4 must be set fairly precisely to the banknote thickness d, ie in any case the following must apply: d ≤ a <2d. This requirement for increased precision initially appears to be disadvantageous compared to the prior art. However, this gives you two major advantages: firstly, there is no ripple in the drawn banknotes, and secondly, guaranteed separation of the banknotes when they are drawn in.

In the exemplary embodiment shown here, there are one pressure roller 386.1 and one Retaining roller 388.1 opposite a transport roller 384.1; it would also be possible that, for example, alternately a pressure roller of a first transport roller and subsequently a retaining roller is opposite a second transport roller. Of course, according to the invention, more or less than four Push-in, transport, pressure or retention rollers are available.

FIG . 20 shows how an embodiment of the device can look from the outside. The device is surrounded by a housing 9. The input compartment 311 and, for example, two output compartments 361.1, 361.2 are visible from the outside. An operating unit 90 can be provided for communication with a user. The operating unit 90 can include an input unit, for example a screen or an LCD display, and / or an output unit, for example a keyboard. In the present exemplary embodiment, the input and output unit are combined and designed as a screen 91 (touch screen) which reacts to touch.

Claims (8)

Position sensor (60) for determining whether a security-like object (100) is at a certain time at a specific location or not, can be built into a device for processing security-like objects, characterized in that the position sensor (60) has at least one mechanical scanning element ( 62.1-62.5), at least one proximity element (64) mechanically connected to the scanning element (62.1-62.5) and a measuring element (63) which interacts with the proximity element (64) and an electrical output signal dependent on the position of the proximity element (64) delivers a line (634). Position sensor (60) according to claim 1, characterized in that the measuring element (63) for protection against soiling is arranged at a distance from the passage of the security-like objects (100) or is shielded. Position sensor (60) according to claim 1 or 2, characterized in that the at least one mechanical scanning element (62.1-62.5) and the at least one approach element (64) are mounted on a scanning axis (61) located in a mobile part (31-36) and with this rigidly connected and rotatable. Position sensor (60) according to one of Claims 1 to 3, characterized in that the measuring element (63) is a light barrier with a light source (631), a photodetector (633) and an intermediate light path (632), the light path (632) can be interrupted by the approach element (64). Position sensor (60) according to one of claims 1 to 4, characterized in that the at least one scanning element (62.1-62.5) has the shape of a scanning finger bent towards the end. Device for processing objects similar to securities, characterized by a position sensor according to one of claims 1 to 5. Apparatus according to claim 6, characterized by a stationary part (1) and exchangeable mobile parts (31-36), the mobile parts (31-36) being modules for performing a completed processing function on each of the securities-like objects (100) to be processed and these modules can be used reversibly in the fixed part (1), and at least one of the modules has the position sensor (60). Apparatus according to claim 7, characterized in that the measuring element (63) is attached to the fixed part (1).

Images