The present application relates to a banknote validator system and in particular, relates to an improved banknote cassette used with the banknote validator system.
It is now common place to have unattended payment terminals where a customer provides payment in the form of banknotes to a banknote validator system that confirms the validity of the banknotes as part of the payment process. Typically, the banknote validators are associated with vending equipment, gaming machines or other payment terminals.
The actual banknote validator system can be quite sophisticated and include a banknote accumulator which allows the recycling of banknotes as necessary, to provide change for a particular transaction. In other applications, the system merely includes a banknote validator and an associated banknote cassette for storing and stacking of received banknotes. The banknote cassette is removable from the system by an operator. Typically, a banknote cassette is removed and a new empty banknote cassette is inserted. The banknote cassettes are typically locked and the contents thereof are not accessible without additional security provisions being met.
Banknote cassettes have traditionally been made of a number of different materials and designs. The cassettes are typically of a rectangular configuration and initially were metal boxes with an access door provided in the bottom thereof. One side of the banknote cassette includes an interior stacker mechanism and the opposite side of the banknote cassette includes a large storage area for receiving stacked banknotes. A banknote slot and guide arrangement is provided adjacent the stacker mechanism that receives banknotes from the validator. The stacker mechanism forces a received banknote through the guide arrangement and into a storage area provided to one side of the guide arrangement where the banknotes are maintained in a stack. A pressure plate was provided in the storage arrangement for engaging the first banknote to be added to the storage arrangement and a spring bias arrangement urges the pressure plate against the stack of banknotes.
Power for moving of the stacker arrangement from an initial compressed state to one side of the guide arrangement to an extended state pushing the banknote through the guide arrangement and into the storage area is provided by a transfer mechanism or drive member exposed to the exterior of the banknote cassette. Many of these banknote cassettes are made of a metal construction that allows the walls of the banknote cassette to be relatively thin while providing excellent security. As can be appreciated, the structural integrity of the banknote cassette is important as service personnel will be removing these cassettes and transporting them to a distant secure environment. The possibility of tampering with the banknote cassette remains high and thus, security is critical.
In some environments such as the gaming environment, the possibility of physically damaging of the banknote cassette is less, however, the cassette must provide a system where it is not possible to withdraw the banknotes without authorized opening of the access door. Some banknote cassettes also include a removable memory device to record the number and amount of the banknotes stored in the cassette.
There are applications for banknote cassettes where security is somewhat less important. In this case it has been known to produce banknote cassettes with a plastic housing while the cassette remains lockable. More recently, it has been proposed to produce a banknote cassette where the actual box of the cassette is a single molded plastic component with a hinged lockable access door. Allegedly, plastic cassettes are more durable and resistant to damage caused by dropping of the cassette.
Banknote cassettes are not necessarily of the same capacity. Basically, the banknote cassette is designed to store a certain number of banknotes before service is required. A small capacity banknote cassette may store 100 banknotes whereas other applications require storage of several hundred banknotes. Basically, the depth of the banknote cassette changes with the capacity thereof.
Plastic molded cassettes have certain advantages with respect to resiliency and are less prone to damage if the cassette is dropped. Metal cassettes are typically more secure but somewhat more prone to damage if dropped.
It would be desirable to provide a banknote cassette design which is economical to manufacture and easily varied to accommodate a particular capacity.
A banknote cassette for receiving and stacking of banknotes according to the present invention comprises a rectangular housing selectively closed at one end by a movable access lid. The rectangular housing includes two plastic molded endcaps forming opposite walls of the housing and cooperating with a sleeve defining three connected walls of the housing. The plastic molded endcaps interconnect with the sleeve portion to provide the rectangular housing with the interior thereof being accessible through the access lid.
According to an aspect of the invention, one endcap of the banknote cassette is a stacker endcap having an interior surface adapted to receive a stacker mechanism to one side of a banknote slot provided in said cassette.
According to a further aspect of the invention, the other endcap is a storage endcap adapted to hingedly engage the access lid.
In a preferred aspect of the invention, each end cap includes recessed walls receiving and locking with securing portions of said sleeve interior to said endcaps.
According to a different aspect of the invention, the storage end cap includes an interior molded spring retainer that engages and retains a bias spring connected to a movable banknote pressure plate.
In a further aspect of the invention, the sleeve is mechanically secured to the storage endcap and the stacker endcap.
In a further aspect of the invention, the stacker endcap is elongate and includes a recessed end wall that receives a drive portion of said stacker mechanism exposed on the exterior of the cassette.
In yet a further aspect of the invention, the exposed drive portion of the stacker includes a banknote slot for receiving banknotes into said cassette.
In a further aspect of the invention, the exposed drive portion includes drive rollers on opposite sides of the banknote slot.
In yet a further aspect of the invention, the exposed drive portion includes a drive gear of the stacker mechanism.
In a different aspect of the invention, the stacker endcap includes alignment slots on one end thereof and latching recesses in sidewalls and an end wall of the stacker endcap.
Preferred embodiments of the invention are shown in the drawings, wherein:
The banknote cassette 6 has a generally rectangular housing 8 defined by the plastic molded stacker endcap 10, the plastic molded storage endcap 12, and the interconnecting sleeve 14. These components cooperate to define five sides of the rectangular housing 8 and the hinged access lid 16 forms the sixth side to allow selective closure of the rectangular housing. Preferably the interconnecting sleeve is of a stamped metal component and the access lid 16 is of a molded plastic construction.
The molding of the stacker endcap 10 and the storage endcap 12 is relatively straightforward as these components are relatively shallow and each endcap is generally open to the interior thereof. The stacker endcap 14 also receives a stacker mechanism 28. The stacker mechanism 28 cooperates with the stacker endcap 14 to define locking recesses 24 and 26 which accommodate the lock cylinders 20 and 22 provided at the free end 18 of the access lid 14. Suitable latching arrangements are provided on the lock cylinders for engaging latching surfaces of the molded stacker endcap 14.
In
The upwardly extending hooks 48 have a similar cooperation with locking recesses provided in the storage endcap 12 as shown in
The stacker endcap 10 includes exposed alignment ribs 85 that act as guide surfaces for registering the banknote cassette with the frame of the banknote validating system 2. The storage endcap 12 includes a recess 89 in an exterior surface that receives and retains the foldaway handle 91.
The stacker mechanism 28 as shown in
As can be appreciated from a review of
Assembly of the stacker mechanism 28 to the stacker endcap 10 is shown in
The assembled stacker mechanism 28 and stacker endcap 10 are shown in
The forward edge 106 of the toggle strikes face 108 when the banknote cassette is inserted and causes the toggle to rotate about pivot axis 110. The curved surface 112 of the cassette cooperates with the spring bias to move the cassette to a consistent received position.
The lower surface 114 of the latch can include a switch 116 with an actuating arm 118. The actuating arm 118 is moved upwardly by the cassette closing the switch when the cassette is properly received. Logic of the validator is used to process the signal as part of the banknote cassette loading confirmation. This signal can also be used to actuate an alarm if the cassette is removed without authorization.
This particular arrangement for a banknote cassette advantageously uses shallow endcaps 10 and 12 in combination with an interconnecting sleeve 14 preferably of a metal construction for defining of the rectangular housing 8. A suitable access lid 16 is provided at the open end of the container. With this arrangement, the endcaps can remain the same for banknote cassettes of different capacities. As can be appreciated, the interconnecting sleeve 14 can be made of additional depth to thereby define a banknote cassette of additional capacity. In some cases, if the capacity becomes large enough, an additional biasing arrangement may be required. Typically the stacker endcap 10 and the stacker mechanism remain the same, regardless of the capacity. This arrangement provides a structure where the tooling for the endcaps can be justified based on the manufacture of essentially a number of different capacity banknote cassettes. The actual endcaps and stacking mechanism can have significant detail and undercutting as the endcaps are not particularly deep and the higher cost of any movable portions of the mold are easily justified. Different interconnecting sleeves are required for different capacities but these components are relatively inexpensive and the tooling is relatively simple. The edge profile of the sleeves remains the same. The interconnecting sleeve is preferably of metal and produced by a metal stamping operation.
The sidewalls of the connecting sleeve can include viewing ports 87 for providing an indication of the number of banknotes stored, and the remaining capacity.
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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2,516,549 | Aug 2005 | CA | national |
Filing Document | Filing Date | Country | Kind | 371c Date |
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PCT/CA2006/001346 | 8/17/2006 | WO | 00 | 11/27/2009 |