The entire disclosure of Japanese Patent Application No. 2005-197761, filed Jul. 6, 2005, is expressly incorporated by reference.
1. Field of the Invention
The present invention relates to handling of partially folded paper currency.
2. Description of Related Technologies
Dog-eared paper currency, which is paper currency wherein a corner part is folded, is often an impediment to stabilized operation of automated teller (ATMs) by causing jams when the folded parts get into the joints in the conveyance paths within the equipment, destabilizing the paper currency conveyers because of the thickness of the folded parts, and so forth. Consequently, typically dog-eared paper currency is returned to the user. Usually the user who has received the rejected dog-eared paper currency straightens the currency to correct the problem and reinserts the paper currency into the ATM. Japanese Unexamined Patent Application Publication H 7-14048 and Japanese Unexamined Patent Application Publication 2003-288628 described these types of related technologies.
However, if the direction in which the user reinserts the paper currency is not good, the corner of the paper currency may be folded again through the use of the rollers in the conveyance system because the direction of conveyance is not good, causing the paper currency to be rejected again as being dog-eared paper currency. In this case, the user may have to fix the folds and reinsert the paper currency any number of times, with the problem that this costs the user too much time.
This type of problem is not limited to dog-eared paper currency wherein the corner part of the paper currency is folded, but rather is the same problem for creased paper currency that is partially torn, where the location where the tear curls and folds back. Furthermore the problem is not limited to ATMs, but rather is also common to chase dispensers, ticket vending machines, and other automatic transaction machines or money handling machines that have functions that handle paper currency.
The present invention was created to solve the problem described above, and the object thereof is to provide a technology aiming to reduce the burden on the user when inserting creased currency.
In order to solve, at least in part, the problem described above, the apparatus according to the present invention an apparatus for processing paper currency, comprising: a sensor unit for acquiring deposited paper currency characteristic data indicating characteristics of deposited paper currency by reading characteristics of the deposited paper currency; a folded paper currency determining unit for determining if the deposited paper is a folded paper currency or not, based on the deposited paper currency characteristic data, the folded paper currency having a possibility to have a folded portion, the determination being based on whether or not there is a missing area in the deposited paper currency; and a fold correcting processing unit for executing a fold correcting process in order to correct the fold in the deposited paper currency if the deposited paper currency is the folded paper currency.
The apparatus according to the present invention, with the object of reducing the time for the user when folded paper currency is inserted, is able to execute a fold correction process for correcting the fold in the folded paper currency.
Furthermore, a conveying unit for conveying the paper currency may be provided, the fold correcting process may be a process for controlling the conveying unit to reverse a direction of conveyance of the deposited paper currency.
Moreover, it is possible to correct the fold in the deposited paper currency through reversing the direction of conveyance of the deposited paper currency.
The aforementioned fold correcting process is a process for returning the deposited currency to a user and displaying a guidance indicative of a direction of reinsertion of the returned deposited paper currency. The direction of reinsertion is a direction in which there is a possibility that the fold will be corrected at a time of conveyance of the deposited paper currency.
Given this, there is the possibility of the user correcting the folds, by returning the paper currency to the user. Even if the user does not correct the folds, by looking at the guidance that is displayed, indicating that the paper currency is to be reinserted in a direction in which it is possible to correct the folds during conveyance of the deposited paper currency, there will be the possibility that the folds in the deposited paper currency will be corrected during transport. If the paper currency was inserted in a direction wherein it is possible to correct the fold in the deposited paper currency during transport, then the probability that there will be another fold in the paper currency during transport will be low.
The deposited paper currency characteristic data includes image data of the deposited paper currency within the apparatus, and the fold correcting processing part may display, in the aforementioned instructions, an image of the deposited paper currency based on the aforementioned image data.
Doing this makes it possible to show to the user an image of the deposited paper currency within the apparatus.
The aforementioned fold correcting processing part may further be provided with a determining part that determines, based on the aforementioned deposited characteristic data, whether or not there is the possibility of correcting the fold when the deposited paper currency is folded paper currency; wherein the aforementioned determining part may perform the aforementioned fold correcting process only when it has been determined that there is the possibility of correction.
When it has been determined that there is the possibility of correcting the fold, then the fold correction process is performed, thus reducing the execution of unnecessary fold correcting processes.
Furthermore, a conveying unit for conveying the paper currency may be provided, and the aforementioned determining part may determine whether or not it is possible to correct a fold in the deposited paper currency based on determining whether or not the position of a part corresponding to the crease of the fold in the deposited paper currency is facing the direction of conveyance in the state in which the deposited paper currency is being conveyed.
The determining part may be a part that determines whether or not it is possible to correct a fold in the deposited paper currency through determining whether or not the size of the aforementioned missing area is larger than a predetermined threshold value.
The aforementioned fold correcting processing unit may further be provided with a return part that returns the deposited paper currency if it is determined by the aforementioned determining part that there is no probability of correcting the fold in the aforementioned deposited paper currency.
Given this, the deposited paper currency is returned to the user if it is determined that the fold cannot be corrected, making it possible to prevent the deposited paper currency from becoming an obstruction to the stable operation of the apparatus.
The aforementioned fold correcting processing part may further be provided with a memory part for storing genuine characteristic data that indicates the characteristics of genuine paper currency, an authenticity determining part that determines whether or not the aforementioned deposited paper currency is a genuine paper currency that is folded, based on the aforementioned deposited paper currency characteristic data and the aforementioned genuine characteristic data, where the aforementioned paper correcting process is performed only for those notes wherein the deposited paper currency is genuine, with a fold.
Given the above, the fold correcting process is performed only when the deposited paper currency is genuine, thus reducing the performance of unnecessary fold correcting processes.
The aforementioned authenticity determining part may determine whether or not a deposited paper currency is genuine with a fold by determining, based on the aforementioned genuine currency characteristic data, whether or not the deposited currency is genuine with a fold through generating characteristic data, when there is a fold in genuine currency the produces the aforementioned missing area, and comparing this characteristic data to the aforementioned deposited paper currency characteristic data.
The aforementioned characteristics may be at least one of the following: the paper currency design, magnetism added to the paper currency, and thickness of the paper currency.
The aforementioned folded paper currency may be dog-eared paper currency wherein a corner of the paper currency is folded, or may be torn paper currency wherein a part of the paper currency is torn and the torn part of the paper currency is folded.
Conversely, in order to at least partially solve the problem described above, the apparatus according to the present invention is An apparatus for executing a deposit transaction or a payment transaction using paper currency, comprising a conveying unit for conveying the paper currency, and a fold correcting processing part for performing a fold correcting process that changes, to the reverse direction, the direction of conveyance of the paper currency for the purpose of correcting a fold in the deposited paper currency regardless of whether or not there is a fold in a part of the paper currency that has been deposited.
Given the present invention, the fold correcting process is performed regardless of whether or not there is a fold in a part of the paper currency that has been deposited, and thus it is also possible to correct a fold, if there is one, through the fold correcting process, eliminate the determination of whether or not there is a fold in the deposited paper currency. This makes it possible to reduce the time for the user when folded paper currency has been inserted.
Note that the present invention may be embodied in a variety of forms, for example, the present invention can be embodied as a method, as a paper currency discriminating apparatus and method, as a computer program for producing the functions of these methods or apparatus, as a recording medium upon which said computer program is recorded, and so forth.
In the below, preferred forms of embodiment of the present invention will be described in detail referencing the figures.
The display/operating unit 100 displays guidance (instructions) such as the details of operations, and has a touch panel that receives inputs from the user regarding the details of transactions. The passbook handling unit 200 reads out the bank account number from a passbook that is inserted by the user, and has a function that, for example, prints the balance in the passbook. The card handling unit 300 has a function that reads out the bank account number from a cash card that is inserted by the user. The detailed receipt issuing unit 400 has a function that prints and issues a detailed receipt indicating the details of the transaction. The paper currency handling apparatus 500 handles the deposited paper currency that is deposited by the user in order to perform the transaction. Note that the deposited paper currency is not limited to paper currency that is deposited for a deposit transaction, but also includes paper currency that is deposited for a payment transaction using cash.
The paper currency deposit/withdrawal receptacle unit 520 is provided with separating plate 524 to 526, where an insertion area 521, a resend area 522, and a return area 523 are divided by the separating plates 524 and 525. The separating plates 524 to 526 can be moved in both directions shown by the arrow A1 within the paper currency deposit/withdrawal receptacle unit 520 by the functioning of a movement control apparatus, not shown.
The paper currency discriminating unit 530 is provided with a sensor unit 530a.
Note that the number of the sensors 531 to 533 shown in the figure is merely an example, and actually a greater number of sensors will be lined up laterally than shown in the figure.
The sensor unit 530a is provided with two reflective color sensors 531 and 532, a transmissive sensor 533, a magnetic sensor 534, and a thickness sensor 535.
The light-emitting part 531a and the light-receiving part 531b of the reflected color sensor 531 are disposed on the same side from the perspective of paper currency. The same is true also for the light-emitting part 532a and the light-receiving part 532b of the other reflected color sensor 532. The reflected color sensors 531 and 532 read out images of both sides of the deposited paper currency, which are stored in the deposited paper currency data memory area 581, shown in
The light-emitting part 533a and the light-receiving part 533b of the transmissive sensor 533 in
The magnetic sensor 534 of
The thickness sensor 325 of
The deposited paper currency image data, the deposited paper currency external shape data, the deposited paper currency magnetic data, and the deposited paper currency thickness data is, together, referred to as the deposited paper currency characteristic data. Note that the external shape of the deposited paper currency Pm can also be discerned from the deposited paper currency image data.
The temporary storage vault 540 of
The paper currency handling apparatus control unit 570 has a paper currency state determining unit 571, a fold correcting processing unit 572, and a return unit 573. The paper currency handling apparatus control unit 570 determine whether or not there is potentially a fold in a portion of the deposited paper currency Pm based on whether or not there is a missing area wherein a portion of the deposited paper currency Pm is missing. The paper currency handling apparatus control unit 570 corresponds to the folded paper currency determining unit in the present invention. The paper currency state determining unit 571 determines the paper currency state of the deposited paper currency Pm when there is a missing area in the deposited paper currency Pm, and stores the results in the paper currency state memory area 582.
The fold correcting processing unit 572 in
The paper currency handling apparatus memory unit 580 is provided with a deposited paper currency characteristic data memory area 581, a paper currency state memory unit 582, and a genuine characteristic database (DB) 583. The deposited paper currency characteristic data memory area 581 is an area for storing the deposited paper currency characteristic data, as described above.
The paper currency state memory area 582 is an area for storing the paper currency state of the deposited paper currency Pm, as described above.
The memory unit 600 in
When the deposited paper currency characteristic data is stored in the deposited paper currency data memory area 581, the paper currency handling apparatus control unit 570 searches the genuine characteristic database 583, shown in
Next the paper currency handling apparatus control unit 570 compares the deposited paper currency external shape data of the deposited paper currency Pm to the genuine external shape data to determine whether or not there is a missing area La in the deposited paper currency Pm (Step S20). If there is not, then the authenticity decision is made for the deposited paper currency Pm (Step S30). At this time, the determination is made by comparing the deposited paper currency characteristic data in a paper currency area Pa of the deposited paper currency Pm shown in
If the deposited paper currency Pa is genuine (Step S40: Yes), then the paper currency handling apparatus control unit 570 sets the switching gate 554 in
On the other hand, if there is a missing area La in the deposited paper currency Pm (Step S20: Yes), then the paper currency state determining unit 571 performs the paper currency state determining process (Step S100).
The genuine folded paper currency magnetic data, thickness data, and image data are generated similarly, for the magnetic data and thickness data, the overlay part is produced through overlaying by adding together the data for the folded part image data Bd and the cut image data Cd.
Next, the paper currency state determining unit 571 compares the deposited characteristic data and the genuine folded paper currency characteristic data for the image data, the magnetic data, and the thickness data (Step S102). If not all of the individual characteristic data match within the predetermined tolerance values, then, the deposited paper currency is not genuine folded paper currency, and so the counterfeit/torn state is stored in the paper currency state memory area 582 (Step S103). However, for the image data, if one of the two sides matches beyond a tolerance value, then the decision of genuine folded paper currency may be made. When the paper currency is a counterfeit/torn state, then the return part 573 conveys the deposited paper currency Pm to the return area 523, shown in
If matching beyond the tolerance value, an investigation is performed on the deposited external diameter data as to whether either the length L1 or width W1 of the missing part La are outside of the respective threshold values B1 (Step S104). If the length L1 or the width W1 is greater than the threshold value B1 then the folded-large state is stored in the paper currency state memory area 582 (Step S105), and the deposited paper currency Pm is conveyed to the return area 523 (Step S108).
If both the lengths length L1 and width W1 are less than the threshold values B1, then an investigation is performed as to whether the crease of the fold L1 is facing in the forward direction of the conveyance direction of the paper currency, based on the deposited external shape data (Step S106). If not in the forward direction, then the reverse small fold state is stored in the paper currency state memory area 582 (Step S107), and the deposited paper currency Pm is conveyed to the return area 523 (Step S108).
If facing the forward direction (Step S106: Yes) then the forward small fold state is stored in the paper currency state memory area 582 (Step S109). Following this, the fold correcting processing unit 572 not only switches the switching gate 554, shown in
Once the paper currency conveying process, as described above, has been performed for all of the paper currency, that was inserted into the insertion area 521 (Step S2 in
Next the fold correcting processing unit 572 performs the paper currency conveyance process for the deposited paper currency Pm within the resend area 522 (Step S1). In the below, the process of the fold correcting processing unit 572 conveying the deposited paper currency Pm from the resend area 522 to the sensor unit 530a shall be termed the “resend process.” In the resend process, the fold correcting processing unit 572 conveys the paper currency within the resend area 522 one sheet at a time following the arrow B1 while shifting the separating plate 525 in the direction of the right arrow of arrow A1 to convey said paper currency one sheet at a time to the sensor unit 530a. As described above, because the crease of the fold L1 of the deposited paper currency Pm within the resend area 522 is facing upwards, the fold in the deposited paper currency Pm can be expected to be pressed and extended to be straightened out, and thus corrected by the conveyer rollers 55i and 552 during the conveyance along the arrow B1. Conversely, the fold may be corrected within the resend area 522. Here the process wherein the fold correcting processing unit 572 convey the deposited paper currency Pm to the resend area 522 (Step Siio) and the resend process together shall be termed the “fold correcting process.” If the fold is corrected by the fold correcting process, then it is determined in step 520 in
For paper currency in the reverse small fold state the reason for not performing the fold correcting process is that the reverse small fold state (
Given this, if the fold is not corrected by a single fold correcting process, then the fold correcting process is terminated. However, conversely the fold correcting process may be performed repetitively a number of times, or may be repeated until the fold is corrected. Moreover, while the conveyer rollers 551 and 552 were used in the conveying unit, the present invention is not limited thereto, but rather other structures may be used insofar as the paper currency can be conveyed and the fold correcting effect can be anticipated.
If the paper currency conveying process has been performed for all of the paper currency within the resend area 522 (Step 2 in
Note that the paper currency Pm that has been conveyed to the temporary storage vault 540 is genuine, and so this paper currency Pm is conveyed in the direction opposite of the arrows B4 and B3, along the arrow B2 to be conveyed to and stored in the paper currency storage vault 560.
The ATM 1000 of the aforementioned example of embodiment is able to perform fold correcting processes for correcting folds in the deposited paper currency Pm. Because the folds are corrected automatically, this can reduce the burden on the user in terms of correcting the folds, making it possible to reduce the per-user transaction time, making it possible to reduce the wait time for other users.
In the ATM 1000 in the example of embodiment described above, a process is performed wherein the fold is corrected when it has been determined by a paper currency state determining unit 571 that the deposited paper currency Pm is in a forward small fold state that can be corrected, and thus there is little wasted effort at attempting to correct folds. When it is determined that the fold would be difficult to correct (a reverse small fold state or a large fold state), the deposited paper currency Pm is returned, making it possible to prevent folded deposited paper currency from becoming an obstruction to the stable operation of the ATM 1000.
Note that, in the past, there has been equipment that would detect folded paper currency based on whether or not the external shape of the paper currency and the thickness of the corners of the paper currency were standard, and would handle the paper currency as genuine if it were determined that the paper currency was genuine at a narrow area Na of the folded paper currency (Patent Document 1). However, in this type of determination, there are cases wherein paper currency wherein non-paper currency has been adhered to the corners thereof, such as in altered bank notes, have been handles as genuine paper currency. Moreover, because there are also cases wherein the thicknesses are not uniform, by design, depending on the paper currency, in foreign paper currency, etc., wherein this type of determination method often produces inaccurate determination results. Because the ATM 1000 in the present example of embodiment is provided with multiple sensors of multiple types, it is possible to obtain more detailed characteristic data, making it possible to perform the genuine/counterfeit determination more accurately. Because paper currency in the counterfeit/torn state is returned, it is possible to prevent counterfeit or altered notes from becoming an impediment to the stable operation of the ATM 1000.
Other examples of embodiment:
(1) While in the example of embodiment described above, all paper currency in the counterfeit/torn state or the large fold state, or the reverse small fold state were all returned to the user in the same manner, conversely, different processes may be performed for each.
(2) While in the example of embodiment described above, the paper currency states were categorized into the counterfeit/torn state, the large fold state, the reverse small fold state, and the forward small fold state; however, the method of categorizing is not limited thereto, and other categories may be added or a portion thereof may be omitted. For example, the counterfeit/torn state, large fold state, and reverse small fold state, may all be categorized as a “reject state,” where the deposited paper currency Pm is returned if in the reject state.
(3) In the example of embodiment described above, if not all of the data for the deposited currency data and the genuine folded paper currency characteristic data matched within a tolerance range established in advance, then it was determined that the paper currency was not genuine folded paper currency; however, the decision may be made based on one or more of these types of data: image data, magnetic data, and thickness data. In this case, not all types of sensors need be provided in the sensor unit.
(4) In the example of embodiment described above, the direction of conveyance of the paper currency was reversed by conveying the deposited paper currency Pm to the resend area 522; however, the method of reversing the direction of conveyance is not limited thereto, but rather a variety of methods may be envisioned. Mechanically turning around the direction of conveyance during the conveyance in the conveying unit 550 is also possible.
(5) The fold correcting process is not limited to that which was illustrated in the example of embodiment, described above, but rather there are a variety of processes. For example, the fold correcting processing unit 572 may return to the user any deposited paper currency Pm in the forward small fold state and may display guidance Gd, such as shown in
The image of the paper currency displayed in the guidance Gd of
(6) In the example of embodiment described above, the determination of whether or not the fold has been corrected by the fold correcting process was performed based on the deposited characteristic data read out by the sensor unit 530a however, a separate sensor may be provided instead of the sensor unit 530a, and the determination may be performed on the output of that sensor.
(7) In the example of embodiment described above, deposited paper currency Pm aside from genuine paper currency was conveyed directly to the resend area 522 or the return area 523; however, the deposited paper currency Pm that is not genuine paper currency may be conveyed to the resend area 522 or the return area 523 after storage in the temporary storage vault.
(8) In the example of embodiment described above, the resend area 522 and the return area 523 are divided by a separating plate 525, and are provided separately; however, rather than providing a separating plate 525, the resend area 522 and the return area 523 may be integrated. This integrated area shall be termed the “return/resend area,” below.
While omitted in the description of the example embodiment described above, the paper currency handling apparatus control unit of 570 searches the genuine characteristic database of 503 in
(10) In the example of embodiment described above, there was an explanation of a dog-eared paper currency were, primarily, the corner of the paper currency is folded, as being the folded paper currency; however, as shown in
(11) In the example of embodiment described above, the paper currency handling apparatus control unit 570 and the paper currency handling apparatus memory unit 580 were provided within the paper currency handling apparatus 500; however, at least portion thereof may be provided within the paper currency discriminating apparatus 530. For example, a paper currency state determining unit 571 and a genuine characteristic database 583 may be provided in a paper currency discriminating unit 530, where the paper currency discriminating unit 530 may be structured as a paper currency discriminating apparatus. Conversely, at least portion of the paper currency handling apparatus control unit 570 and the paper currency handling apparatus memory unit 580 may also be provided within a control unit 700 or a memory unit 600 for the ATM 1000. A variety of different structures is possible.
(12) In the example of embodiment described above, whether or not the deposited paper currency Pm is genuine folded currency was determined based on producing genuine folded currency characteristic data; however, the method of determining whether or not the deposited paper currency Pm is genuine folded paper currency is not limited thereto, but a variety of different methods may be used.
(13) In the example of embodiment described above, paper currency of a counterfeit/torn state, a large fold state, or a reverse small fold state was returned to the user; however, a reject box may be provided and this paper currency may be placed in the reject box. In this case, instead of paper currency in the large fold state or the reverse small fold state, paper currency that is not for the may be returned to the user.
(14) In the example of embodiment described above, a fold correcting process was performed only on the deposited paper currency Pm in the forward small fold state; however, the fold correcting process may be performed regardless of the state of the paper currency. Furthermore, the fold correcting process may be performed regardless of whether or not there exists a missing area La. Conversely, after the fold correcting process has been performed one or more times, and a determination is made as to whether or not there is a missing area La, the paper currency may be returned to the user if there is still a missing area La, but if it is determined that there is no missing area, then Steps S30-S70 may be performed. When this is done, the fold correcting process is performed depending on whether or not there is a missing area La in the deposited paper currency, or performed regardless of the state of the deposited paper currency Pm, and thus it is possible to eliminate the decision as to whether or not there is a missing area La in the deposited paper currency Pm and the determination of the state of the paper currency, making it possible to correcting the fold, using the fold correcting process, if there is a fold. This makes it possible to reduce the time for the user when inserting folded paper currency.
(15) In the example of embodiment described above, the explanation was for an ATM 1000 as the apparatus; however, the apparatus is not limited to the ATM 1000, but rather may be an automatic cash payment machine (a cash dispenser), an automatic transaction apparatus such as a ticket vending machine, a paper currency handling apparatus 500, or another apparatus having paper currency handling functions.
While the apparatus, method, paper currency discriminating apparatus, and programs for achieving these functions for the present invention have been described based on an example of embodiment, above, the forms of embodiment of the present invention, described above, are simply to facilitate an understanding of the invention, and in no wise limit the present invention. The present invention may be modified or change without deviating from the spirit or scope of patent claims of the present invention, and such modifications and changes are, of course, included as equivalent to the present invention.
Number | Date | Country | Kind |
---|---|---|---|
2005-197761 | Jul 2005 | JP | national |
Number | Name | Date | Kind |
---|---|---|---|
4623975 | Kagami | Nov 1986 | A |
5147274 | Mandel | Sep 1992 | A |
5265856 | Walker | Nov 1993 | A |
5895904 | Nissim | Apr 1999 | A |
6186307 | Mukai | Feb 2001 | B1 |
6595060 | Wunderer et al. | Jul 2003 | B2 |
6896117 | Nomura | May 2005 | B2 |
6994201 | Yu et al. | Feb 2006 | B2 |
7131539 | Mukai | Nov 2006 | B2 |
20040012144 | Matzig et al. | Jan 2004 | A1 |
20040256196 | Yu et al. | Dec 2004 | A1 |
Number | Date | Country |
---|---|---|
1 011 079 | Jun 2000 | EP |
1 160 737 | Dec 2001 | EP |
07-014048 | Jan 1995 | JP |
2003-288628 | Oct 2003 | JP |
2004-168489 | Jun 2004 | JP |
7707606 | Jan 1978 | NL |
WO 2004022465 | Mar 2004 | WO |
Number | Date | Country | |
---|---|---|---|
20070007103 A1 | Jan 2007 | US |