The present invention relates to banknote acceptors and dispensers, and improvements in the operation thereof.
Automated banknote acceptors and recyclers are now being used in many applications. Early banknote acceptors included a depleting supply of banknotes to provide change. These systems required frequent service to provide a new supply of banknotes and it was difficult to anticipate when service would be required. In a banknote recycling system, the arrangement includes a banknote accumulator where banknotes provided for payment by the customer are selectively stored in an accumulator for later dispensing as change. These types of arrangements reduce the frequency of service required to replenish banknotes and/or increase the transaction capabilities of the system.
It is a common practice in the vending industry to include a coin dispensing arrangement. It is also known with respect to vending machines to provide an arrangement where coins inserted by a customer are accumulated by the device for dispensing as change for a subsequent transaction.
Vending machines are now used for the sale of more expensive product and banknote validators are now commonly used in vending machines. The acceptance of banknotes, including banknotes of higher denominations, has increased the demand to recycle banknotes, making the banknotes available for settlement of future transactions. This capability increases the time between service of the device and reduces the probability of a lost sale due to the inability to provide the correct change.
The present invention provides further improvements of the banknote accumulator and the control thereof by an operator.
A banknote acceptor and dispenser according to the present invention comprising a banknote validator, a banknote accumulator and dispenser for temporarily receiving banknotes for dispensing as change for subsequent transactions and a removable banknote cassette.
The banknote accumulator and dispenser includes a count window that provides banknote information of the banknotes stored in the banknote accumulator and dispenser.
In an aspect of the invention, the banknote accumulator and dispenser, includes at least two actuators that allow an operator to load or unload the accumulator and dispenser with banknotes in an automated manner.
In a further aspect of the invention, the banknote acceptor and dispenser has a reversible banknote drive path that extends between said banknote validator and said banknote accumulator and dispenser.
In a further aspect of the invention, the banknote acceptor and dispenser includes a manual crank for manual adjustment of said banknote accumulator and dispenser.
In a preferred aspect of the invention, the banknote accumulator and dispenser has a back face with a series of actuators for loading and unloading of banknotes in said banknote accumulator and dispenser.
In an aspect of the invention, the said banknote accumulator and dispenser includes an electrical set arrangement for setting of a banknote denomination to be accumulated and dispensed.
In a preferred aspect of the invention, the electrical set arrangement includes at least two dip switches where each dip switch has at least two positions, preferably the electrical set arrangement is provided on an exterior rear surface of said accumulator and dispenser.
In yet a further aspect of the invention, the count window includes an electronic display, visible through said count window.
In a preferred aspect of the invention, the electronic display displays the number of banknotes accumulated in the banknote accumulator and dispenser.
In a different aspect of the invention, the banknote acceptor and dispenser includes a removable cover movable between a position covering said manual crank to an open position allowing access to said manual crank.
Preferred embodiments of the invention are shown in the drawings, wherein:
The banknote acceptor and dispenser 2 includes the banknote validator 4, an intermediary banknote accumulator and dispenser 6, and a removable banknote cassette 8. These components are preferably releasably held in the structural frame 10 with many of the operating components drive motors, drive gears, etc., mounted on the frame. The banknote validator 4, the banknote accumulator and dispenser 6 and the removable banknote cassette 8 are in an aligned stacked arrangement to reduce the depth of the banknote acceptor and dispenser. The banknote accumulator and dispenser 6, as well as the removable banknote cassette 8 are releasably held in the structural frame 10 to allow manual removal without requiring tools.
The banknote acceptor and dispenser 2 includes the reversible banknote path 12 which connects the banknote inlet/outlet 14 associated with the bezel 15 and directs a banknote to the banknote accumulator and dispenser 6 or the banknote cassette 8 as determined by the device if the banknote is accepted. Basically, the banknote validator accepts or rejects banknotes based on an evaluation carried out in the validator using the sensors 50. If the banknote is accepted, it will be moved along the banknote path 12 and directed by banknote gate 24 to the banknote accumulator and dispenser 6, if the gate is in the position of
The banknote validator includes a processor and computing arrangement for determining whether a banknote will be accumulated for later dispensing or merely stored in the banknote cassette. Typically, the software is based on a single denomination of banknote being accumulated by a banknote accumulator and dispenser.
As will be subsequently described with respect to
If a received banknote is of sufficient quality and of the correct denomination, it will typically be accumulated by the accumulator and dispenser 6 unless this device is at a maximum capacity. Typically, the capacity of the banknote accumulator is at least 20 banknotes and it is preferably 30 banknotes or more.
The limitation on the number of banknotes to be stored is basically a space requirement and it is desired that the back face 62 of the accumulator is approximately in line with or slightly inwardly of the back face 64 of the banknote cassette 8. To allow for additional banknotes to be accumulated in device 6, the banknote path 12 includes an angled transition 12a which connects to the inwardly offset portion 12b associated with the accumulator 6 and a further angled transition portion 12c for connecting with the inlet 66 of the banknote cassette 8. The angled transition 12c provides a banknote to the drive roller 18 and idler roller 20 at the first portion of the removable banknote cassette 8. The offsetting of the banknote path at 12b allows for additional room within a central portion of the banknote accumulator and dispenser 6. In this way, additional banknotes can be stored on the banknote accumulating drum 26. The angled transition portion 12c connects to the normal slightly offset inlet of a banknote cassette. A banknote pusher arrangement 53 is provided to one side of the banknote cassette. A drive motor 55 is provided in the frame 10 for driving the pusher arrangement 53 via the cam actuator 57, also secured in the frame 10.
When a banknote is fed to the banknote accumulator and dispenser via the gate 24, the banknote is wound around the drum 26 and includes opposed separating tapes 28 and 30 either side of the banknote. In this way, banknotes are wound on the drum 26 in a sequential manner and are unwound from the drum in a sequential manner and returned to the banknote path 12.
The banknote path 12 moves a received banknote through the banknote centering mechanism 52 provided in the banknote validator 4. It subsequently moves the banknote past the sensors 50. The validator then determines whether the banknote is valid and whether the valid banknote should be accumulated for later dispensing or merely provided to the banknote cassette 8. The validator controls the position of the banknote gate 24. The validator also controls the drive mechanism for the banknote accumulator and dispenser 6. It will only operate this mechanism when a banknote is to be received or when a received banknote in the accumulator is to be dispensed and provided to the banknote path 12 and moved to the banknote inlet/outlet 14.
From
In
Imbedded in the exterior surface 70 and exposed on the exterior thereof, are light prisms 74 and 76 a beam of light is emitted at the sensors 78 and 80 and the prisms 74 and 76 return the light to these sensors if a banknote is not present. Software logic is provided to determine whether a banknote has become jammed at a certain point in the banknote path or is passing a specific sensor.
A modified accumulator 102 is shown in
The modified accumulator 102 includes a load actuator 106 and an unload actuator 108. Each of these actuators when operated, provides a signal to the banknote acceptor and dispenser for completing a particular action. For example, if the banknote acceptor and dispenser 102 are received in a vending machine, the operator may access the vending machine and the back face of the modified accumulator 102 is accessible. By pressing the actuator 106, the operator can feed a number of banknotes through the validator 4 into the banknote accumulator for loading of the banknotes to the modified accumulator. Typically, the banknotes are red through the front bezel of the validator. This provides a simple mechanism for the operator to load the modified accumulator with banknotes of a particular denomination for later use in completing transactions.
The actuator 108 allows for unloading of the modified accumulator 102. For example, the operator may wish to replace the modified accumulator 102 with a different accumulator or merely wish to unload the accumulator. By actuating the unload actuator 108, the banknote acceptor and dispenser 101 causes the modified accumulator 102 to discharge the accumulated banknotes typically into the unlocked plastic cassette 130. This provides a simple arrangement for the operator to carry out this function in an automated manner.
The modified accumulator 102 also includes a two position dip switch 110 and a two position dip switch 112. By changing the position of the dip switches, the operator can program the modified accumulator for storing of banknotes of different denominations. This arrangement allows for the operator to program four predetermined denominations, which in most cases is satisfactory. Additional dip switches could be provided for programming of a further selection of banknotes. This provides a relatively convenient approach for the operator to effectively program the modified accumulator 102.
A further feature of the modified accumulator 102 is the count window 116. This count window displays the number of banknotes that are stored in the accumulator. This provides a simple read out for the operators to determine whether banknotes need to be loaded to the accumulator, or how many banknotes the accumulator has stored. It also provides the number of banknotes that would be discharged to the unlocked plastic cassette if this particular unloading operation was initiated.
Furthermore, it can be appreciated that if there is a problem with the banknote accumulator, for example, if it has become jammed or requires service, the count window 116 provides the number of banknotes that are stored in the accumulator. The modified accumulator 102 can then be removed from the frame 10 of the overall system.
The modified accumulator 102 as shown in
A further actuator 104 is shown in
Although various preferred embodiments of the present invention have been described herein in detail, it will be appreciated by those skilled in the art that variations may be made thereto without departing from the spirit of the invention or the scope of the appended claims.
Number | Date | Country | Kind |
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2,586,469 | Apr 2007 | CA | national |