Banknote transfer variable-path channel

FIELD: transport.

SUBSTANCE: invention relates to processing of banknotes. Banknote transfer path comprises at least first inlet/outlet to receive or to discharge banknotes from pay system and can displace second transfer inlet/outlet to be connected with assemblies arranged over the transfer path length. Said second transfer inlet/outlet comprises moving carriage to displace in said path.

EFFECT: continuous transfer of banknotes between transfer path and automatic pay system assemblies.

11 cl, 8 dwg

 

The SCOPE of the INVENTION

The present invention relates to the channels move banknotes, in particular to changing the length of the channel for transporting banknotes for selective connection with a variety of modular units for banknotes.

BACKGROUND of the INVENTION

There are a number of automated systems to receive payment of bills and efficient processing of banknotes for storage within the device or for temporary storage in silos. Banknotes stored in the storage devices, can be used for making change occurring during the subsequent financial transactions. Typically, such systems banknote processing include detector authenticity of banknotes, determining the authenticity of banknotes and establish, adopt or not to adopt a specific bill. If the bill is adopted, it is directed to the intermediate storage device for temporary accommodation until such time as the operation is carried out. If the financial transaction is not completed, the intermediate storage device outputs the received banknotes to refund the same bills that have been accepted from the user. After the completion of a financial transaction system, decide on the received banknotes. Some of the banknote is transferred to the corresponding drives along the channel for transporting banknotes, etc the many banknotes are sent in a tape for banknotes, which are not intended to return the banknote. Often the banknotes received in the cartridge for banknotes, have the quality or properties that do not allow their reuse. It is possible that the banknotes can be of proper quality for reuse, but are not required at present or are not re-used value.

The data processing system of the banknote can enable the machine to issue banknotes, in which the banknotes are accumulated and displayed through a separate exit the machine to issue, allowing the user to make the necessary change. In less complex systems banknotes are issued when the output of the detector authenticity of banknotes, and a separate machine for issuing banknotes is not provided.

In the banknote processing system disclosed in U.S. patent No. 7051926, located in the center of the switch is connected to the channel for transporting banknotes for selective direction of banknotes in one of a number of modular units for banknotes. The switch can be rotated in one of several different positions for the connection of the channel for transporting banknotes with necessary modular node for banknotes. In addition, the switch is used to connect the modular units with the transport channel for issuing banknotes banknotes through the machine to issue banknotes or detector the authenticity of banknotes, if the machine for issuing banknotes is not provided.

In U.S. patent No. 7441695 on the name of the present applicant disclosed a drive for banknotes and a device for issuing banknotes, which contains a check valve that moves between an extended position across the channel transporting banknotes and retracted position. In the retracted position, the selector valve directs the banknote drive or from it.

Often, the banknote processing are independent systems and, as a rule, do not have a direct staff entitled, if there is a need for maintenance. Therefore, in order to avoid malfunctions during operation, it is important that the system has high reliability. The problem of high reliability is difficult, as the system can handle banknotes vary greatly. New banknotes easier to handle than the banknote with significant wear. In addition to determining the authenticity of banknotes detector authenticity of banknotes can also determine the quality of banknotes and to assess the need for a processing system such banknotes for its reuse. This assessment can reduce such common problems as the clamping banknotes because of the physical deterioration of banknotes is more pronounced.

When transporting banknotes move the s between channel for transporting banknotes and modular units for banknotes or navigation channel for transporting banknotes to prevent the clamping must be carefully designed for example, used to direct banknotes rotary switch. When using drive belts both sides of the banknote are driven accordingly and eliminate transitional areas, if there are only a few modular units for banknotes. If you have a larger number of modular units for banknotes, it is usually provided by rotary switches or switches valves swing-out type, to determine the transition area between the canal transportation of banknotes and the respective modular unit. Transitional areas located along the canal transportation, increase possible damage to the banknotes, reducing the reliability of the automated system.

The present invention uses a modified channel for transporting banknotes, which contains at least a first input/output connected to a channel for transporting banknotes, in combination with a second input/output channel for transporting banknotes made with the possibility of movement along the channel length. The second inlet/outlet configured to move relative to the first input/output, and this location also has a number of important advantages. The mobile input/output channel for transporting banknotes essentially eliminates transitional areas or provides a mobile switched the Noah land. In addition, to change the length of the channel for transporting banknotes system does not use switching device.

In a preferred embodiment, the mobile input/output has an established relationship with modular units for banknotes, which provides an opportunity to improve the transition between channel for transporting banknotes and concrete modular node for receiving banknotes in or issuing from it.

The INVENTION

The banknote processing system made in accordance with the present invention, includes a detector authenticity of banknotes to assess the authenticity of the received banknotes and determine whether to accept the bill for further processing or return it at least one drive banknotes for the reception and temporary accommodation of banknotes to be returned to the user to complete the operation, and a cassette for storing banknotes, intended for storage of the banknotes. Provides variable along the length of the channel for transporting banknotes, which contains the first transmitting input/output connected to a detector authenticity of banknotes, at least to get accepted banknotes to advance along the transport channel, and the second transmitting input/output configured to move along the transportation channel connected to the I variable along the length of the transport channel at least any one storage device, and a cassette for storing banknotes. Transmitting input/output and movable transmitting input/output connected to a variable length channel transporting banknotes.

In accordance with one aspect of the invention, the first transmitting input/output configured to move along the transportation channel and communicates with the second transmission input/output restrictions between them is variable along the length of the channel for transporting banknotes.

In another aspect of the invention the second transmitting input/output contains a movable carriage configured to move along the channel for transporting banknotes. The carriage includes front and rear drive belts located with the ability to capture the opposite sides of the banknote transported along the transportation channel of banknotes through the second entrance/exit.

In another aspect of the invention the second transmitting input/output contains two rotating deflecting element placed on the carriage for movement direction of the front drive belts from one side of the carriage in the input/output together with the rear drive belts for transporting the banknotes through the entrance/exit.

In another aspect of the invention, the banknote processing system contains the transport channel for transporting banknotes banknotes between the first input/output for banknotes and a second entrance/exit for banknotes and about who has the opportunity to promote banknotes between the various modular units, provided along the processing channel. The second entrance/exit for banknotes is arranged to move along the length of the channel processing circuit changes the channel length of the banknote processing between the first and second input/output for banknotes.

In accordance with one aspect of the invention, the channel for transporting banknotes contains a node of the belt, interacting with the opposite sides of the banknotes, when they move around the system.

In another embodiment, the banknote processing system includes a detector authenticity of banknotes to assess the authenticity of the received banknotes and directions adopted banknotes in the channel for transporting banknotes; in addition, the system includes at least one drive banknotes for the reception and temporary accommodation of banknotes to be returned to the user during the operation, and at least one additional node for banknotes made with the possibility of receiving and storing banknotes. Channel transporting banknotes contains the first input/output intended for receiving the accepted banknotes from the detector authenticity of banknotes, and a second entrance/exit for banknotes, designed for the transportation of banknotes to drive banknotes or from him in one position of the second input/output and configured to move in a second position in which the second input is in/out combined with the additional node for conveying to him the accepted banknotes.

In one aspect of the invention a channel for transporting the banknotes between the first inlet/outlet and the second inlet/outlet is continuous.

In another aspect of the invention, the channel for transporting banknotes have an adjustable length without interruption between the first and second input/output.

In one aspect of the invention, the first input/output configured to move from a first position, aligned with the detector authenticity of banknotes, in the second position, combined with an additional node for receiving banknotes.

In another aspect of the invention specified at least one additional node under the banknote represents the number of nodes under banknotes located with transportation of banknotes to the first and/or second input/output or from them.

BRIEF DESCRIPTION of DRAWINGS

Preferred embodiments of the invention shown in the drawings, in which:

Fig.1 depicts a partial view in axonometric site supply of banknotes.

Fig.2 depicts a partial view of a perspective view of the transport channel banknotes, similar to those shown in Fig.1, in which the number of the banknotes transported by the infeed banknotes.

Fig.3 depicts a partial view in axonometric site submission notes showing the internal drive belts of the infeed notes, which form part of the input/output of each of the th from the first and second input/output node of submission.

Fig.4 depicts a partial front view of the infeed banknotes, showing the first input/output.

Fig.5 depicts a partial side view of the infeed banknotes, showing the carriage of the first entrance/exit.

Fig.6 depicts a cross-section along the line a-a shown in Fig.4.

Fig.7 depicts a cross-section on line b-B shown in Fig.4.

Fig.8 depicts a cross-section along the line C-C shown in Fig.4.

A DETAILED DESCRIPTION of the PREFERRED embodiments

Node 2 of the supply of banknotes depicted in Fig.1-3, includes a housing 4 having an upper axis 6 and the lower axis 8 with a number of belts or pulleys associated with each of these axes. The upper axis 6 contains five rollers 61, 90, 92, 94 and 65, and the lower axis 8 contains five rollers 67, 110, 112, 114 and 69. Extreme rollers 61, 67 and 65, 69 form part of the channel for the front of the drive belts 44 and 46 (see Fig.2). These belts contain inverted channel passing from the outside of the carriages, and will be described below. The rollers 90, 92, 94 and the rollers 110, 112, 114 are designed for the rear of the belts 50, 52 and 54.

In a preferred embodiment, the node 40 of the belt contains a first movable carriage 20, limiting the first input/output 22, and a second movable carriage 30, bounding the second input/output 32. The first movable carriage and a second movable carriage is moved along the length of the unit to supply banknotes and essentially re amauta to the front carriage, located between the upper axis 6 and the bottom axis 8, or removed from it. Each of these carriages is arranged to move independently of the other of the carriage and being moved along the length of belts 44, 46, 50, 52 and 54. Extreme positions of the carriage specify the maximum length of the channel for transporting banknotes, and the intermediate position to change the length of the channel for transporting banknotes. In a preferred embodiment, the carriage is moved along the channel transporting banknotes, limited to a maximum length.

Preferably the channel for transporting banknotes has only two input/output, selectively connecting channel for transporting banknotes from any of a number of separate units under the banknotes along the canal transport of banknotes.

In this arrangement the position of the first input/output 22 is fully adjustable and can be set to accept banknotes 19a, as shown in Fig.2. Similarly, the second carriage 30 is made to move and is shown displaced to the second input/output 32 in the lower position and gives bill 19, as shown in Fig.2. Bill 19, shown in Fig.2, is located between the first input/output 22 and the second inlet/outlet 32.

In this arrangement the variable length of the channel for transporting banknotes limited between p the pout input/output 22 and the second inlet/outlet 32. Moving either the first carriage or the second carriage causes a corresponding change in the length of the channel for transporting banknotes between inputs/outputs. In addition, in Fig.2 shows that the front drive belts 44 and 46 are directed around the deflecting pulleys 60, 62, 64 and 66, providing input of banknotes in the input/output or output banknotes of them. In this arrangement the channel for transporting banknotes is continuous and without interruption between the first and second inputs/outputs 22 and 32. In a continuous channel for transporting banknotes do not use intermediate switches or valves, which can lead to tightening of the transported banknotes.

Basically, deflecting pulleys 60 and 62 are placed front strap 44 on the outside of inputs/outputs, allowing for the passage of bills of the inputs/outputs, while deflecting rollers 64 and 66 operate in the same manner, placing the front strap 46 on the opposite side of node 2 of the supply of banknotes.

This aspect can be understood from view in the perspective view depicted in Fig.3, in which the deflecting pulleys 64 and 69, connected with a drive belt 46, removed for better understanding. In addition, in Fig.3 rear drive belts 50, 52 and 54 are not shown.

In addition, in Fig.3 shows that each input/output 22 and 32 of the first movable carriage 20 and the second movable carriage 30 is at adnie belts, United with tension rollers, which is part of the input/output node of the supply of banknotes. For example, the first movable carriage 20 includes rollers 70 and 74, having appropriately covering their front straps 44 and 46. Each of these pulleys has the appropriate tension pulleys 71 and 75, forming a gap clutch banknotes with front belt-driven, respectively, 44 and 46. A second movable carriage 30 includes pulleys 72 and 76 with the respective tension rollers 73 and 77 for coupling with the front drive belts 44 and 46.

The first carriage 20 also includes pulleys 80, 82 and 84 for receiving the rear drive belts 50, 52 and 54 to set the clamping connection with the tensioning rollers 81, 83 and 85. The pulleys 80, 82 and 84 have respective pulleys 90, 92 and 94 and interact with the upper axis 6. Rear drive belt 50 passes over the upper roller 90 and goes down to the pulley 80, then passes between the pulley 80 and the idler pulley 81 and falls to the pulley 100 of the second carriage. The pulley 100 includes corresponding idler roller 101. The drive belt passes between the idler pulley 100 and the pulley to the front surface of the carriage and then drops down to the pulley 110. This drive belt 50 rejects up the rear surface of the specified pulley 110, moving back through the gap in the rear surface of the carriage to the rear surface of the pulley 90. Thus the om, the same strap 50 is part of the input/output of the first mobile carriage 20 and part of the second input/output of the second mobile carriage 30. The rear straps 52, 54 operate in the same way and have the appropriate pulleys.

All drive belts 44, 46, 50, 52 and 54 are essentially driven by the actuator 150. It contains the output gear 152, coupled with the pinion 154 fixed on the bottom axis 8. Located in the middle of the rear drive belt 52 is essentially a timing belt and drives the rollers 82 and 102 of the first and second movable carriages. This results in movement of the axis 160 and 162 of the second mobile carriage 30 through gears 164 and moves the axis 168 and 170 of the first carriage. The first slide contains the transmission gear 172, which connects the axis 168 and 170.

Both the first and second movable carriage has its own made with the possibility of regulation establishing a mechanism for placing in the predetermined inputs/outputs. Each carriage is arranged to move through the transport channel, and the channel for transporting banknotes provides the ability to selectively connect different modular units, located along the length of the channel for transporting banknotes to the front surface of the delivery unit.

From the above experts should is about to be clear, what channel transport bills can contain fixed input/output and flexible input/output to enable efficient communication between a fixed point on the surface of the channel for transporting banknotes and moving points along the channel for transporting banknotes. It is advisable that the supply system of banknotes and the first entrance/exit and a second entrance/exit were made with the possibility of moving, especially if separately provided a machine for issuing banknotes. This simplifies the placement, taking into account the multi-functionality.

Fig.4 depicts a partial front view of the infeed banknotes, showing the first movable carriage and related various drive belts. Shows the section line AA, bb and CC show, respectively, the belts 54, 46 and 52. These cross sections are shown in Fig.6-8. Fig.5 depicts a right side view of the delivery unit shown in Fig.4.

In Fig.4 essentially shows the movable carriage 20 with two axes 300 and 302, which is driven by the gears 304 and 306. Thus, rotation of one of the axes of one of the belts causes rotation of the other of the drive axis in the opposite direction. In addition, in Fig.5 shows that the deflecting roller 64 sets the position of the belt 46 from the outside of the movable carriage 20 with the purpose reverse direction to the upper pulley 65. The belt 6 passes over the front surface of the carriage, then placed for connection with a pulley 74, as shown in Fig.3.

In Fig.6 shows the arrangement of the belt 54, which passes through the carriage 20. The belt passes over the upper roller 94 from top to bottom near the front surface of the carriage to the pulley 84, and then passes between the pulley 84 and the tension pulley 85. It should be noted that the belt 54 is returned to the upper pulley 94 through the carriage. Another possible arrangement, but this arrangement works satisfactorily.

Is depicted in Fig.7 is a view in cross section illustrates that the drive belt 46 passes outside of the carriage and inserted through the deflecting roller 64, not shown in Fig.7, as it is not visible in the cross section. The belt 46 passes over the pulley 74, between the pulley 74 and the tension roller 75. Then he goes down to the second movable carriage. In depicted in Fig.7 section it should be noted that the strap does not reach directly to the upper pulley, and instead shows the pulley 92 of the next node of the belt. The belt 46 is redirected by means of deflecting pulley 64 and passes over the upper roller 65, as shown in Fig.4 and 5.

The cross-section in Fig.8 shows a drive belt 54 passing over the upper roller 92, descending down to the movable carriage 20 between the driving roller 82 and the tension roller 83.

It was found that on the config particular the drive unit provides a variable channel for transporting banknotes, the ends of which are connected with a variety of modular nodes, located along the canal transport of banknotes. In this arrangement adopted by the banknote passes through the first movable entrance/exit and down the length of the banknote to the required modular unit, located along the canal under the notes and opposite the second mobile carriage. The specified channel for transporting banknotes is reversible, with the possibility of moving from modular nodes to other nodes along the canal transport of banknotes. When changing the length of the channel transport of banknotes and the corresponding effective changing the channel of the reverse movement of the drive belts move in the channel between the mobile I/o no. This provides a preferred location for the transportation of banknotes between the different modular units.

Although described in detail various preferred embodiments of the present invention, professionals need to understand that its possible modification without departing from the invention or scope of the attached claims.

1. The banknote processing system containing the detector authenticity of banknotes, designed to assess the authenticity of the received banknotes and determine whether to accept the bill for further processing and or return it,
at least one drive banknotes, used for receiving and temporary storage of banknotes to be returned to the user for the operation to complete,
a cassette for storing banknotes, intended for storage of received banknotes, and
variable along the length of the channel for transporting banknotes containing the first transmitting input/output connected to a detector authenticity of banknotes to at least get accepted banknotes to promote on the specified channel transport, and the second transmitting input/output, configured to move on the specified channel to connect this channel with any of the devices specified at least one drive and the specified cassette for storing banknotes,
the first transmitting input/output and the second transmitting input/output supports United by a given variable along the length of the channel for transporting banknotes and
second transmitting input/output contains a movable carriage arranged to travel on the specified channel transporting banknotes.

2. The system under item 1, in which the first transmitting input/output configured to move on the specified channel transport and interacts with the second transmission input/output with software restrictions between the specified variable to the ine of the channel for transporting banknotes.

3. The system under item 1 or 2, in which the carriage contains the specified second transmitting input/output located between the front and rear drive belts placed to receive between them the banknote and transportation of the banknote through the second entrance/exit.

4. The system under item 3, in which the second transmitting input/output contains the specified carriage two rotating deflecting element for the direction of movement of the front drive belts from one side of the given carriage to the second input/output together with the specified rear drive belts for transporting the banknotes through the second entrance/exit.

5. Channel transporting banknotes, located in the banknote processing system and designed for the transportation of banknotes between the first input/output for banknotes and a second entrance/exit for banknotes to ensure the promotion of banknotes between the various modular units, provided along a specified channel transportation,
and the second input/output for banknotes is arranged to move along the length of the specified channel for transporting banknotes from the change of length of the channel between the first and second inputs/outputs for banknotes, thereby providing selective connection of the second input/output for banknotes with those of the mi modular nodes, spaced from each other along the specified channel.

6. The channel under item 5 that contains the node of the belt, interacting with the opposite sides of the banknotes.

7. The banknote processing system, comprising:
detector authenticity of banknotes, designed to assess the authenticity of the received banknotes and directions adopted banknotes in the channel for transporting banknotes
at least one drive banknotes, used for receiving and temporary storage of banknotes to be returned to the user as part of the operation, and at least one additional node for banknotes made with the possibility of receiving and storing banknotes,
moreover, the specified channel for transporting banknotes contains the first input/output intended for receiving the accepted banknotes from said detector, the authenticity of banknotes, and a second entrance/exit for banknotes, designed for the transportation of banknotes in the specified drive banknotes or from him in one position of the specified second input/output and configured to move in a second position, wherein said second input/output combined with the specified unit to transport him to the accepted banknotes, with the specified channel for transporting the banknotes between the first and second inputs/outputs is continuous and has an adjustable length is at.

8. The system under item 7, in which the specified channel for transporting the banknotes between the first inlet/outlet and the second inlet/outlet is continuous and without transition area.

9. The system under item 7, in which the specified channel for transporting banknotes have an adjustable length, and completed without interruption between the first and second inputs/outputs.

10. The system under item 7, in which the first input/output configured to move from the first position, combined with the specified detector of authenticity of banknotes, in the second position, combined with an additional node for receiving banknotes.

11. The system under item 10, in which indicated at least one additional node for banknotes represents the number of nodes for banknotes located with the ability to transport the banknote to the first and/or second input/output, or from them.



 

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11 cl

FIELD: banknote processing machines.

SUBSTANCE: banknote processing machine has a body of machine for transporting banknotes and storing banknotes, differing from unloaded banknotes, and detachable box having an installation section, mounted detachably on supporting section of machine body for storage and unloading of banknotes. Machine body contains a device for determining whether a banknote is unloaded banknote, device for transporting banknotes in normal and reverse direction between determining device and supporting section, and storage section for accumulated banknotes for storing banknotes differing from unloaded banknote, transported by transporting device. Detachable box has section for storing unloaded banknotes.

EFFECT: prevented cases of stuck banknotes, accelerated banknote processing operations.

6 cl, 10 dwg

FIELD: automatic teller machines.

SUBSTANCE: in accordance to the invention, automatic teller machine contains mechanism for receiving objects being deposited. Objects being deposited may be inserted into teller machine in envelopes, which are firstly dispensed to the user from the envelope storage area in teller machine by a transportation device and then dispensed to the user through an aperture. The device for storage and dispensing of envelopes only gives one envelope to a user. Then the user may place deposited objects into dispensed envelope. Deposited objects pass through an aperture and are positioned in container for deposits. Deposited objects may be marked by markings, corresponding to transaction or properties of deposited objects, when an envelope is originally given to the user for placement of deposited object inside it.

EFFECT: creation of automatic teller machine, providing recording of information about properties of objects being deposited, including measurement and recording of thickness thereof.

10 cl, 70 dwg

FIELD: engineering of banknote processing devices.

SUBSTANCE: banknote processing device has transportation system with several transportation sections (9, 11, 24, 99, 100, 107, 109) for moving banknotes. Transportation system has distribution pointer device with transportation section (109) positioned between two branches of transportation sections, driven in two directions for movement of banknotes in it in two mutually opposite directions. Distributing pointer device represents a distributing pointer module (33) with at least four inputs/outputs (34-37), which is a separate unit, made primarily detachable and/or opening.

EFFECT: simple and flexible solution to structural realization of device.

24 cl, 9 dwg

FIELD: polygraphy.

SUBSTANCE: invention relates to the method for sorting documents. The method for sorting banknotes presented in both arrangements with a face sheet upwards and a face sheet downwards, implies the use of a banknote sorting device. The device has three output magazines. The method involves stages whereat banknotes are sorted by arrangement of face sheets and orientation by different magazines. The total number of all banknotes sorted into output magazines is counted and displayed to the user. The method additionally involves stages whereat banknotes sorted into one of the three magazines are extracted, turned over to be placed in the opposite arrangement, and repeatedly loaded into the banknote sorting device for further sorting. The second version features a method for sorting banknotes presented both in a direct and opposite orientations.

EFFECT: improved design of the device for sorting documents.

2 cl, 47 dwg, 4 tbl

FIELD: physics; computer facilities.

SUBSTANCE: invention concerns to electronic system and method of performance of banking transactions. The method of performance of banking transactions through a communication network for the electronic banking transactions, containing the central block of data processing (2) and set of electronic terminals (3) with which help the user can carry out banking transactions and which are related to the central block of data processing through a communication channel (4), includes generation of a unique code which starts procedure of a randomisation during performance of banking operation.

EFFECT: increase of safety and reliability of operations of draw of rates.

5 cl, 3 dwg

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