This disclosure relates to a secure bag assembly for a lockable removable cassette.
In recent times, it has become more common for consumers to conduct transactions by using an automated terminal rather than person-to-person. The reasons for this are varied, but include the needs to reduce labor costs, reduce transaction errors and increase transaction speed.
In one example, consumers can utilize a self check-out terminal at a supermarket or retail store. In these environments, paper currency, i.e., banknotes or cash, is still extensively used. After the consumer presents his or her goods to the terminal, cash is deposited in a bill validator, which stacks the bills into a cassette after identification and verification. When it comes time to remove cash from the cassette(s), workers remove the stacks of bills and transport them accordingly. The current transport process requires that the workers directly handle and view the cash stored in the cassette.
From the merchant's point of view, cash can present problems associated with security and efficient handling. Unlike non-currency financial instruments such as credit cards, debit cards, checks and the like, which are generally integrated with a computerized banking system, cash is inherently liquid and requires no centralized authorization. Thus, notwithstanding the various security measures in use, from the instant cash is removed from the cassette(s), its anonymous and liquid nature makes cash a persistent and tempting target for pilferage, misappropriation and theft.
In an aspect of the present invention, a method and apparatus are provided relating to a secure container assembly to secure cash in transit (“CIT”) or other documents of value. In some implementations, the secure container assembly is installed in a lockable, removable cassette that is fitted to a bill validator. The cassette and bill validator can be installed in an enclosure like those found in retail kiosks, self-checkout terminals, retail safes or gaming machines. In such an implementation, bank notes are deposited in the bill validator and once identified and validated, are securely stacked in the container assembly within the cassette. The container assembly can be used for capacities of one banknote up to the maximum capacity allowed by the cassette. The container assembly is secured in place when installed and is sealed (i.e., closed or made secure against access) automatically upon removal from the cassette.
The details of one or more implementations are set forth in the accompanying drawings and the description below. Various features and advantages will be apparent from the description and drawings, and from the claims.
The following is a description of preferred implementations, as well as some alternative implementations, of a method and apparatus relating to a secure container assembly for a lockable removable cassette. The secure container assembly can be used for storing documents of value, e.g., banknotes, vouchers and the like. The secure container assembly includes a container (e.g., for storing documents) that can take many forms, e.g., the container may be rigid or flexible. In some implementations, the container is a bag.
In some implementations, a secure bag assembly is installed in a lockable, removable cassette which is fitted to a bill validator. Implementations that install in a lockable, removable cassette can provide document storage in a widely used format. In a particular implementation, the secure bag assembly includes four major components: (1) a front subassembly which includes security features and has a bill path opening, (2) a container (e.g., a bag) for storing bills, coupled to the bill path opening, (3) a back subassembly, which structurally supports the bag and (4) a strap which enables removal of the secure bag assembly from the cassette, seals the bill path opening and supports the contents of the bag. When the bag is ready to be emptied, e.g., the maximum capacity of the cassette has been reached, the cassette is removed from the validator and the cassette door is opened. The user is presented with the strap, which is accessible once the cassette door is open. The strap is coupled to the front subassembly and back subassembly, and surrounds the bag. The operator pulls the strap, which causes at least two actions to occur. First, the bill path opening is sealed as the strap is pulled. Second, the secure bag assembly is released from the cassette after the bill path opening is sealed. Preferably, the secure bag assembly is not released from the cassette until the bill path opening is fully sealed. Because the strap is a part of the secure bag assembly, it can allow a user to seal the bill path opening and unlock the secure bag assembly without needing special tools or extra pieces.
The strap operates in cooperation with locking features that allow only unidirectional movement of the strap. Once the strap has been pulled, security features mate with the strap to prevent backward movement, thereby preventing access to the bills via the bill path opening. The strap also helps to keep the stack of bills stable. To that end, some implementations include a strap that is made of two different materials: an elastic portion and an inelastic portion. For instance, when the secure bag is at maximum capacity and the strap is pulled, the elastic portion of the strap will stretch to the extra length needed to firmly hold the full stack of banknotes. However, it is the inelastic portion that mates with the locking features to preserve integrity.
Preferably, the secure bag assembly is separated from the cassette in a tamper-evident fashion and the bag remains tamper-evident until it is physically cut or opened. When a new secure bag assembly is inserted into the cassette, it is locked in place when inserted. The bag is intended to allow smoke and/or dye staining of the banknotes when used with a smoke/dye enabled system. The bag material preferably inhibits a clear view of the banknote contents by, e.g., being semi-opaque to opaque. The bag material can be made from a wide variety of materials depending on the application, with stretchable fabric being one option. Other options include mesh cloth, plastic or paper. The bag material can be folded on itself, e.g., in an accordion-like shape, to minimize volume when empty or only partially filled.
Overview of an Implementation
Although the stacker assembly 16 is shown installed inside the cassette 6, this is not mandatory. In other implementations, the stacker assembly 16 can be outside the cassette 6. In such a configuration, the stacker assembly 16 would feed documents into the cassette 6 via an aperture on the outside of the cassette 6.
Assembly Details
The aperture plate may be made part of the front subassembly, or remain integrated in the cassette. In the illustrated implementation, the aperture plate 3 includes side rails 2 and mating features 20. Side rails 2 mate with stacker transport side rails 17 (see
Prior to receiving any bills, the assembly 100 should be held in a substantially flat configuration to prevent premature expansion of the bag 8. A retaining clip 31 integral to the backplate 5 (see
Plates 3, 5, 19 and 28 can be made from a variety of different materials, including, e.g., an injection-molded polymer. It is possible to make the assembly 100 for single-use only. In such an implementation, it is desirable to minimize material and assembly cost. Alternatively, the assembly 100 can be made such that the bag 8 can be replaced after each use. In that implementation, durable materials are preferred.
A portion of the strap 32 is disposed between the aperture plate 3 and the finger plate 19. Before it is pulled, the strap aperture 14 lines up with aperture opening 4 of aperture plate 3. This alignment permits bills to pass through aperture opening 4 and into the bag 8. After the strap 32 is pulled, a solid (preferably inelastic) portion of the strap blocks the aperture opening 4 (see
To provide greater security, strap 32 includes one-way locking features 9. In this implementation, the locking features 9 are holes that align with locking fingers 13 of finger plate 19. The combination of locking features 9 and locking fingers 13 allow only unidirectional movement of the strap 32. Therefore, once the strap 32 has been pulled and the aperture opening 4 sealed, the strap 32 cannot be moved backward to gain access to the bag 8 contents. Also, the strap 32 includes channels 11 which mate with lock release 12. When the channels 11 end, a solid portion of the strap depresses (i.e., triggers) the lock release 12 causing the secure bag assembly 100 to unlock from the cassette 6. These locking and unlocking features are discussed in greater detail with reference to
Finger plate 19 includes a finger plate aperture 33 that aligns with the aperture opening 4 of aperture plate 3. This alignment, combined with the alignment of the strap aperture 14, allows bills to pass into the bag 8. In this implementation, the assembly of the aperture plate 4 and finger plate 19 forms a front subassembly that is forms a side of the bill transport path. In the illustrated implementation, without the secure bag assembly 100 installed, reliable bill transport into the cassette 6 is not possible. In operation, the front subassembly is functionally similar to a standard aperture plate used in a standard stacker assembly. While in this implementation the aperture plate 3 is made part of the front subassembly, other implementations are possible in which the standard aperture plate remains a part of the stacker assembly, and the front subassembly mates with the stacker aperture plate. However, making the aperture plate part of the front subassembly is advantageous because it can reduce the combined overall thickness of the stacker assembly and bag assembly 100, thereby allowing greater bill storage capacity in the cassette 6.
The finger plate 19 couples to the aperture plate 3 by the mating of stacker locks 20 and aperture plate lock cutout 26. The aperture lock cutout 26 and stacker locks 20 increase the tamper resistance of the assembly because they prevent separating the finger plate 19 from the aperture plate 3 without visibly damaging the assembly 100. Other means may be used to couple the aperture plate 3 and finger plate 19, including adhesives.
Backplate 5 includes a retaining clip 31 that mates with the portion of the aperture plate 3 that defines the aperture opening 4 to attach the front subassembly and back subassembly together until a bill is loaded, e.g., by a pusher plate 18 (see
Backplate 5 is coupled to the bottom backplate 28 by the bottom backplate coupling features 34. The bag hold down 29 contributes to fastening the bag to the backplate 5 and bottom backplate 28. Prior to its expansion, some of the bag 8 is stored in the bag storage region 35, which includes the space between the inner and outer walls of the bottom backplate 28.
The strap 32 is preferably a continuous member and includes three major components: (1) a handle 1 used for pulling the strap upward (i.e., for removing the assembly 100 from a cassette and blocking access to the contents of the bag 8), (2) an inelastic portion 37 connected to handle 1, and disposed at least in the space between the aperture plate 3 and finger plate 19 and some of the distance between the lower edges of the front and back subassemblies and (3) an elastic portion 25 that extends at least some of the distance between the upper edges of the front and back subassemblies, that is connected to the inelastic portion 37, and is further connected to the front subassembly 101. The inelastic portion 37 can be made of various materials having limited elasticity including, for example, biaxially-oriented polyethylene terephthalate (boPET) polyester film (also known as Mylar® material). The elastic portion 25 can be made of any of a variety of flexible materials including rubbers, plastics (both thermoplastics and thermosets), polymers and/or elastomers.
Because the strap 32 loops around the contents of the bag 8, passes through the back subassembly and is connected to the front subassembly, pulling the strap 32 securely binds the contents of the bag 8 between the front and back subassemblies. The strap 32 is made to secure the stack of bills in a tight, bundle-like manner. When the bag 8 is in the flat (empty and near empty) condition the remainder of the strap is stored in a folded condition and housed in the back subassembly. At a point roughly midway to a full stack of bills, the elastic portion 25 of the strap 32 begins to stretch. The elastic portion 25 of the strap 32 continues to stretch to the point where the bag 8 is full. The elasticity of the elastic portion 25 contributes to securing the stack of bills in a tight, bundle-like manner.
Installing the Bag Assembly 100 into a Cassette
However, before the bag portion of the assembly 100 can extend, the front subassembly and back subassembly must be separated from each other. As discussed in connection with
To clearly illustrate the coupling of the assembly 100 to the stacker assembly 16,
In some implementations, if the bill is properly validated in the acceptor portion of the bill validator, the bill is transported from the acceptor portion (not shown) lengthwise during transport into the cassette, with the flat surface of the bill parallel to the face of the aperture plate 3. The bill is then pushed through the aperture plate opening 4 by the stacker pusher plate 18. The first bill fed into the assembly will come in contact with the backplate 5, and each subsequent bill is stacked on the previously stacked bill. During stacking, the bill conforms to the size of the aperture plate opening 4, resulting in a temporary tri-fold shape. When the lengthwise trailing ends of the bill clear the aperture plate opening 4, the bill springs back to the flat shape. A spring (and spring-like force from the bag 8) in the cassette 6 exerts a constant force opposite the stacker pusher plate 18. The pressure exerted by the spring helps to restore the bill to its flat shape and also presses the bill (or stack of bills) against the back of the finger plate 19. The bag 8 will stretch with each stroke of stacker pusher plate 18 and will return to the starting position (plus one bill thickness) with each cycle.
Removing the Assembly from a Cassette
After the user removes the cassette 6 from the bill validator, the cassette door 23 is opened to gain access to the secure bag assembly 100. No cash is visible, only the bag 8 (which is preferably at least semi-opaque). To remove the assembly from the cassette 6, the user pulls the strap 32 upward via handle 1, as shown in
In some implementations, instead of the strap 32, the sealing means includes sliding lateral doors, a key plate or a flexible film plate. Further details of those implementations are discussed below.
To further illustrate the relationship between the secure bag assembly 100 and the stacker assembly 16,
Locking Features
In the illustrated implementation, the strap 32 may move only in the direction that seals the aperture 4. The strap 32 can move only in the sealing direction as a result of to the fingers 13, holes 9 in the strap 32 and the lock release 12 on the aperture plate 3. The fingers 13 prevent the strap from being pulled against the sealing direction. The strap 32 is flexible enough to glide over the fingers 13 due to the angle of the fingers protruding from the finger plate 19. But if the strap 32 is moved in the opposite direction (e.g., in an attempt to unseal the aperture 4), the fingers 13 are at such an angle that the holes 9 will get caught on the fingers 13 preventing travel in the opposite direction. Thus, once the strap 32 is pulled and seals the aperture 4, the aperture 4 cannot be unsealed. At that point, the only way to access the contents of the bag 8 is by cutting it open or otherwise tampering with the assembly 100 in a manner that would leave visible evidence.
Upgrading an Existing Cassette
As mentioned earlier, existing cassettes typically include a stacker mechanism with an aperture plate. Since some implementations of the secure bag assembly 100 include an aperture plate 3 that functionally replaces the aperture plate of a standard cassette, some modifications to existing cassettes may be needed to accommodate the secure bag assembly 100.
Generally, the cassette modifications stem from integrating some aperture plate features into the cassette, while at the same time removing the aperture plate itself. Rail notches (e.g., locking features 21) are added to the cassette to lock the assembly 100 into the stacker assembly 16. These notches hold the assembly 100 in place during operation. Also, the shaft and wheels that are normally an integral part of the bill path transition from the bill acceptor to the cassette are incorporated into the cassette housing.
Because the front subassembly forms a part of the bill transport path as the bill is transported from the acceptor to the cassette, a sensor can be used to check that the assembly 100 is fully inserted into the rails (e.g., stacker transport side rails 17) and locked in place. Existing sensor systems found in some cassettes can be used to verify correct installation. When the cassette is installed in the validator, it will sense the presence of the cassette and secure bag assembly 100.
As mentioned above, in some implementations, instead of the strap 32, the sealing means includes sliding lateral doors, a key plate or a flexible film plate. Details of those implementations are discussed in the following paragraphs.
Implementation with Sliding Lateral Doors
As illustrated in
As in the implementation describe above, the soft bag 210 can be made of an expandable material such as mesh cloth, plastic or paper packed or folded on itself in accordion-like shape, for example, so as to reduce the volume taken when the bag is empty or only partly filled. The bag 210 can be made, for example, of elastic fabric or pliable material or a mix of the two where some sections are elastic and other sections are only of a pliable material.
To install the bag into a currency cassette, the collapsible framing door structure of the bag assembly 200 slides into a railing guide in a stacker plate that forms part of the stacker assembly. The framing door structure includes flexible push arms 213 that lock in openings in the railing guide of the stacker plate so as to lock the bag assembly 200 in place. When the bag assembly 200 is fully inserted into the currency cassette, the opening 212 aligns with a similar opening in the stacker plate.
The push arms 213 should be flexible with enough spring effect to snap into locking position when the bag assembly is inserted into the currency cassette, and rigid enough to push the door panes 202, 204 closed as the assembly is removed and to allow elastic deformation for bending to allow complete removal of the bag assembly from the cassette.
Each arm 213 is structured as a beam with a hinge point 251 and a buckling point around the middle point 252 (see
The door closes in an irreversible fashion by male locking features and matching female groove structures, which can be similar to the tie wrap systems commonly used to tie bundles of electric wiring. Preferably, the these structures are on both sides of the interlocking features. When the door is closed, further pulling on the handle 206 causes the arms 213 to buckle and their tips 245 come free to overcome the locking point and to move along the wall 234 as shown in
Implementation with Rigid Key Plate
In some implementations, a key plate is provided to seal the aperture opening and unlock the bag assembly from the stacker assembly.
An example of a secure bag assembly 300 that includes a rigid key plate is illustrated in
A thin steel or rigid plastic key plate 332 is connected to the front side plates. In its original position, when the bag is new, the key plate 332 is hinged at an end, but slides out of the hinge when pushed in to close the bag. When the pack is new, the key plate covers the other front side plates.
The secure bag assembly 300 can be used as follows. As shown in
Next, the key plate 332 is folded back (see
The key plate 332, in the direction of arrow, between the aperture plate 331 and the snap plate 333 gets out the hinges and closes the bag 336. Towards the end of its travel, the key plate 332 releases the locking features that maintain the bag assembly 300 in the currency cassette.
The rigid key plate has a hinge section that actuates locking levers. The levers are cantilever beams that can be formed as integral parts of the aperture plate 331 and preferably are made of polypropylene so that they are robust enough to provide the hinge function. The locking features can be integral parts of the aperture plate. As the key plate 332 is moved into its cavity, four tabs lock the key plate in place by locking into corresponding cavities in the snap plate 333. The aperture plate 331 can be made of a transparent material to allow inspection of the integrity of the tabs as tampering evidence.
Implementation with a Flexible Film Sheet
In some implementations, as illustrated in
The spring clips 408 can be attached to the housing 410 through a plastic guide located under the top section of the housing (i.e., at the location identified by 414 in
The material of the clips is preferably metal for robustness and elasticity, but they may be made of plastic.
Closing and sealing the bag 412 is achieved by pulling the handle 406 (see
A number of embodiments of the invention have been described. Nevertheless, it will be understood that various modifications may be made without departing from the spirit and scope of the invention. Accordingly, other implementations are within the scope of the claims.
This application claims the benefit of priority of U.S. Provisional Patent Application Ser. No. 60/754,355, filed on Dec. 27, 2005, the contents of which are hereby incorporated by reference.
Number | Name | Date | Kind |
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5890439 | McGunn | Apr 1999 | A |
6712352 | Bergeron | Mar 2004 | B2 |
7559183 | Bell | Jul 2009 | B2 |
20030180131 | Lewis | Sep 2003 | A1 |
Number | Date | Country |
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WO 0219287 | Mar 2002 | WO |
WO 2005054055 | Jun 2005 | WO |
Number | Date | Country | |
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20070145064 A1 | Jun 2007 | US |
Number | Date | Country | |
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60754355 | Dec 2005 | US |