Patent Grant
6929259
1. Field of the Invention
The present invention relates to a compact bank note dispensing device that can assist in eliminating an erroneous duplication of the release of bank notes from a stack of bank notes. More specifically, the present invention provides a novel mechanical structure that limits dispensing of a bank note or sheet by effectively sorting and aligning the lowermost sheets to predispose them for one-by-one dispensing.
2. Description of the Related Art
Bank note dispensing devices for vending machines, ATM machines, gaming machines and other devices are known in the art. Japanese Laid Open Patent Application 2001-67527 represents one example and the schematic form of that disclosure is set forth in FIG. 5. As shown in
The utilization of the slanting surface in this arrangement requires two parallel sections to extend horizontally along with the slanting surface. Combining the two parallel sections with the feed roller and the gate roller located at the bank note exit position requires additional size for such a bank note dispensing device. Additionally, the feed roller and the gate roller must be located at this parallel section which increases the cost.
Thus, while there have been numerous attempts to address the problem of accurately dispensing a bank note on a one-by-one basis, the prior art is still seeking an efficient and economical solution to this problem.
The present invention is directed to providing a compact bank note or sheet dispensing device that can address the problem of duplicate dispensing of bank notes or sheets, while providing a relatively economical and easily manufactured configuration.
The present invention utilizes a duplicate let off prevention device for sheets, which includes a first exit guide for supporting a lowermost sheet to be let off from a stack of sheets and a second exit guide which is positioned above the first exit guide by a distance that is larger than the thickness of one sheet, but is smaller than the thickness of two sheets. A pre-exit guide is located adjacent the stack of sheets and is biased to a first position at a distance above the exit guide greater than the distance between the first exit guide and the second exit guide. The pre-exit guide can assist in providing a preliminary sorting or segregating of a portion of the lowermost sheets, while a stopper member positioned adjacent the pre-exit guide assists in stopping the upper sheets during any traverse movement of the pre-exit guide.
In such a structure, the sheets can be let off from the storing section by a let off device and can travel between the first exit guide and the pre-exit guide. The lower most sheet can have contact with the let off device so that it is transported towards the side of an exit aperture. Sheets, for example bank notes, which are above and have contact with the lower bank note, can also be transported in the same direction as a result of friction contact. As a result, several bank notes will travel between the first exit guide and the pre-exit guide and will be stopped by the pre-exit guide and the second exit guide. As a result, only the lower most sheet, which has contact with the let off device will eventually pass between the first exit guide and the second exit guide and be appropriately dispensed outside of the storing section, for example, of a safe unit.
When the upper sheets are positioned between the first exit guide and the second exit guide and are held for further movement, the pre-exit guide can be moved traverse to the surface of the first exit guide by the resulting force of the sheets. The movement of the pre-exit guide will help provide a fanning or segregating distribution of the upper sheets and the upper sheets will be further stopped or held back by a stationary stopper member. The sheets near the let off device will go between the first exit guide and the pre-exit guide. As a result, the contact pressure or downward force from the weight of the sheets will be reduced and only the lower most sheet, which has contact with the let off device, will travel further through the first exit guide and the second exit guide for release.
The pre-exit guide member can be journaled in elongated slots and can be biased by a spring member to permit a limited amount of movement with a progressive increase in the force being exerted back against the upper group of transported sheets that are driven with the lowermost sheet by frictional contact. As can be determined, the cost associated with the feed rollers and the guide rollers of prior art structures can be eliminated.
The present invention can be further defined as a duplicate let off prevention device for sheets, including a first exit guide of a planar plate that cooperates with a second exit guide having an arched curved configuration shape. The first and second exit guides are positioned a distance that is larger than the thickness of one bank note and smaller than the thickness of two bank notes. A pre-exit guide member can also have an arched like curved shape and can be located adjacent the stack of bank notes in the safe. The pre-exit guide can be positioned at a first position, which is a second distance larger than the first distance, but can be forced upward against a biasing force.
A stopper member can stop the upper bank notes that are being transported by friction when the pre-exit guide moves. The pre-exit guide and the second exit guide are positioned to face the first exit guide and a sheet exit entrance section is made up between the pre-exit guide and the first exit guide and can have roughly a wedge-like cross-sectional shape. Additionally, the sheet entrance sections can also include the distance between the second exit guide and the first exit guide that further define the wedge-like shape. At the entrance section of the let off prevention device, the sheets are stopped by the pre-exit guide or the second exit guide thereby limiting the number of sheets that can travel between the first exit guide and the pre-exit guide and ultimately between the first exit guide and the second exit guide thereby minimizing the possibility of jamming of the sheets.
As the sheets above the lower most sheet become wedged between the first exit guide and the pre-exit guide, the pre-exit guide can be moved upward to a second position and a part of the upper sheets will be stopped by the stopper. The movement of the pre-exit guide will lower the contact pressure between the sheets entering into the area between the first exit guide and the second exit guide to thereby help eliminate any jamming effect. Therefore, only one sheet which has contact with the let-off device will be ultimately dispensed.
The second exit guide can have a cylindrical shape with an arc-like configuration and can be located opposite the first exit guide. The second exit guide can be made of a cylindrical configuration of a relatively inexpensive material. Thus, the present invention provides primarily a mechanical sorting configuration that will occupy a relatively small space adjacent the exit aperture of a safe, while still adequately addressing the potential problem of releasing duplicated bank notes.
The following description is provided to enable any person skilled in the art to make and use the invention and sets forth the best modes contemplated by the inventors of carrying out their invention.
As used in the present invention, a sheet can encompass a rectangular piece of paper, a monetary bank note, a check, a certificate, a coupon, paper currency, scrip, or other valuable paper members with an associated cash value. As described in our preferred embodiment, bank notes are used that can be dispensed, for example, from an automatic transaction machine (ATM), gaming and vending machines, ticket dispensers, etc. The duplicated let off prevention device of the present invention can be installed in a safe unit that can be charged with a stack of bank notes and inserted into a bank note dispenser, for example, of a vending machine.
Referring to
A second exit guide 23 can include a rubber roller 20 of an elongated cylindrical like configuration that is positioned at a predetermined distance over the first exit guide 17. This distance will be larger than the thickness of the sheet or bank note that is to be dispensed, but smaller than the thicknesses of two bank notes. The rubber roller 20 can be fixed at the stays 21 and 22 which extend from the front wall 13. The undersurface of this rubber roller 20 forms the second exit guide 23 and can be configured into an arc-like shape that will have a larger radius than the remaining surfaces of the roller 20. Preferably, a pair of arc-like shapes are spaced to define the second exit guide member. The material of the rubber roller 20 can be of a hard urethane rubber which can be both durable and have a high friction factor.
The second exit guide member will be located a first distance D1 away from the planar first exit guide 17. The second exit guide 23 can be made up of rubber material which is readily available and can be configured to be assembled on an assembly line in an inexpensive manner. The aperture between the first exit guide 17 and the second exit guide 23 constitutes the first exit 24 from the bank note safe. As mentioned above, this first distance D1 is larger than the thickness of one sheet, and preferably smaller than the thicknesses of two sheets to thereby limit the space to accommodate only one bank note B for passing through the first exit 24.
In accomplishing the purposes of the present invention, it is desirable to have a cross-sectional wedge-like entrance section at the side of the bank note storing section 11 between the first exit guide 17 and the second exit guide 23. This configuration can be created with the assistance of a pre-exit guide 30 that is mounted in a pair of slanting elongated holes 32 located at the bracket 31. The bracket 31 protrudes from both sides of the front wall 13, although only one side is shown for illustration purposes. The slanting elongated hole 32 slants away from the bank note storing section 11 and also from the first exit guide 17. The slanting elongated holes 32 slant downwards towards the right side of
Thus, the pre-exit guide 30 is located closer to the side of the bank note storing section 11 than the second exit guide 23. That portion of the pre-exit guide 30 that is to have contact with the bank notes can be configured to have an arc-like shape. This assists in providing an entrance section 35 having a cross-sectional wedge-like shape which is located at the side of the bank note storing section 11 between the first exit guide 17 and the pre-exit guide 30. The utilization of the wedge-like shape is to assist in the sorting or fanning out of the lower group of bank notes from the stacked array to facilitate a release of the lower most bank note from the upper bank notes. Thus, the second distance D2 will be larger than the first distance D1 and will have a thickness of a few bank notes.
As seen in
Alternatively, other mechanisms can be used to bias the pre-exit guide 30 within its journaled elongated holes 32. For example, a weight member can be used instead of a cantilevered spring member 37. The purpose is to provide a predetermined force on the shaft. When the shaft is stopped by the lower section of the slanting elongated hole 32, the pre-exit guide 30 and the first exit guide 17 are maintained at the second distance D2. As can be appreciated, shaft 33 can not rotate because the flat section 36 is pushed by the blade spring 37.
The pre-exit guide 30 can be formed of an ethylene polypropylene rubber (EPDM) which can have an improved wear resistance. Alternatively, the pre-exit guide 30 can be made from a resin, such as nylon, to have even better wear resistance. If the pre-exit guide is made from a metal material, it can be formed into an arc shape. The lower section of guide 38 is bent to be parallel to the first exit guide 17 and has a larger distance than the first distance D1.
The end of the side of the bank note storing section 11 of the lower section of bracket 31 constitutes a stopper member 40 which slants with a curved surface about 15° towards the traveling direction of the bank notes. The slanted angle is at a position so that it does not separate the bank notes between the first exit guide 17 and the control surface 41. The control surface 41 of the bracket 31 is parallel to the first exit guide 17 and has a distance which is slightly longer than the second distance D2.
When the discharge roller 16 rotates in a counter-clockwise direction, the lowest bank note is moved and a series of bank notes stacked above it are also carried towards the exit side. These upper bank notes contact the pre-exit guide 30 and push it along the slanted elongated holes 32 approximately traverse to a plane containing the support surface of the first exit guide member until the stopper member 40 stops a portion of the bank notes. The stopper member 40 has a surface which is also slanted with a slanted angle between 75° to 90° to the moving direction of the bank notes.
Reference can be made to
If the condition of the bank notes create an abnormal situation so that a higher force is experienced, the provision of the wedged-like shape will limit the amount of force that will be applied to the lowest bank note B. The wedged-like shape will be of assistance because the radius of the arced surface of the pre-exit guide 30 will be relatively large. Increasing the radius of this arced surface of the pre-exit guide 30, however, can force a portion of the pre-exit guide 30 to extend into the safe and occupy additional room. Thus, the range of shape or radius of the pre-exit guide 30 can be limited. Alternatively, if the radius of the pre-exit guide is relatively small, the wedge effect will become larger and the bank notes B can become jammed at the section between the pre-exit guide 30 and first exit guide 17. The provision of the present configuration wherein the pre-exit guide 30 is journaled and biased to move upward to the left along the slanting elongated holes 32 as a result of the contact with the overlaying bank notes B help resolve these issues. A portion of the bank notes B will have a contact with the stopper member 40 and be stopped. The bank notes B that pass beneath the stopper member 40 will then extend between the control surface 41 and the first exit 17 (shown in FIG. 4).
Because the bank notes B, which are located between the control surface 41 and the first exit guide 17, are not subjected to a substantial wedging effect, which results because the control surface 41 and the first exit guide 17 are parallel, the friction between the bank notes will be reduced. As a result, the bank notes B are much less likely to jam and they can travel towards the first exit 24. Afterwards, a part of the bank notes B are stopped by the second exit guide 23 and therefore only the lowest bank note B will be let off from the first exit 24. Thus, the present invention provides a gradient sorting or segregation of those portions of the bank notes immediately above the lowest most bank note and performs this function in a relatively short dimensional space with mechanical components. As a result, the present invention is not only effective in achieving its results, it is relatively inexpensive and can be easily serviced and maintained.
Those skilled in the art will appreciate that various adaptations and modifications of the just-described preferred embodiment of the invention can be configured without departing from the scope and spirit of the invention. Therefore, it is to be understood that, within the scope of the appended claims, the invention may be practiced other than as specifically described herein.
| Number | Date | Country | Kind |
|---|---|---|---|
| 2001-318226 | Oct 2001 | JP | national |
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| Number | Date | Country |
|---|---|---|
| 2001-67527 | Mar 2001 | JP |
| Number | Date | Country | |
|---|---|---|---|
| 20030080494 A1 | May 2003 | US |
