JP2004054613A - Device for issuing media - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a device for issuing media that can be used for replenishing any cassette with it without stopping a customer service for issuing the media, and the devices are installed at financial institutes. <P>SOLUTION: The cassettes 3a and 3b comprise entrances 5a and 5b, which receive a replenished medium 1b inserted from an outside, transporting exits 10a and 10b, which transport the replenished medium 1b to the entrance 5b located at the lower reaches of transportation of the replenished medium 1b, and means for switching directions 6a and 6b which switch the direction of the replenished medium 1b received from the entrances 5a and 5b. The cassettes 3a and 3b comprise first transporting means 7a and 7b which transport the replenished medium 1b, the direction of which is switched to the side of a medium storage with the means for switching directions 6a and 6b, and accommodate the medium in the medium storages 8a and 8b, and furthermore, comprise second transport means 9a and 9b which eject the replenished medium 1b from transporting exits 10a and 10b by transporting the medium, the transporting direction of which is switched to the side of the transporting exits with the means for switching directions 6a and 6b. <P>COPYRIGHT: (C)2004,JPO

Description

[0001]
TECHNICAL FIELD OF THE INVENTION
The present invention relates to a medium issuing device such as an ATM (automatic teller machine), a passbook carry-over machine, and a certificate issuing machine which are installed in a financial institution and the like, and particularly to a transaction without stopping a customer service operation of the medium issuing device. The present invention relates to a medium issuing device capable of replenishing a medium (passbook, cut-sheet, certificate, etc .; hereinafter, referred to as a medium) for printing the above predetermined data into a medium storage cassette (hereinafter, referred to as a cassette).
[0002]
In recent years, there has been an increasing demand for media issuing devices to support multiple financial institutions and operate customer services without interruption. In addition, the issuance of new media may temporarily increase due to the merger of financial institutions, etc., focusing on specific media (especially the new passbook after the merger). For this reason, although the number of cassettes increases with the increase in the types of media required for the medium issuing device, the medium storage capacity of each cassette tends to decrease in order to avoid an increase in the size of the medium issuing device. . As a result, a shortage of necessary media has occurred during the operation of the customer service, and the number of situations in which media needs to be replenished during the operation of the customer has been increasing. Therefore, it is desired to be able to replenish a desired cassette among a large number of cassettes with a replenishing medium without stopping the customer service operation of the medium issuing device.
[0003]
[Prior art]
The related art will be described below with reference to the drawings. FIG. 6 is a configuration diagram of a conventional medium issuing device, and FIG. 7 is an external side view (cross-sectional view) of the conventional medium issuing device.
In FIG. 6, the medium issuing device 22 sucks the already issued issuance medium 1 a inserted from the insertion slot 241 by the customer, conveys the same on the conveyance path 242 of the medium printer unit 24, and the MS unit 243 issues the issuance medium 1 a The upper magnetic stripe is read to recognize the issuing medium 1a. Thereafter, the optical scanner unit 244 reads a page mark on the opened page of the issuing medium 1a, and based on the confirmation, prints predetermined data on a predetermined print line in the printing unit 245.
[0004]
In the case where the printing of the predetermined data extends to another page (for convenience of description, the next page is used), the issuing medium 1a is conveyed to the turn page unit 246, the page is turned, and then the optical scanner unit 244 is turned on again. After the page is turned back, the page mark on the predetermined page after the page is turned is read and confirmed, and subsequently, the printing unit 245 prints the predetermined data on a predetermined print line.
[0005]
If it is determined that the printing of the predetermined data is to be performed on the next page, and if the page at that time is already the last page, the printing medium 1a on which the last page has been printed is located on the transport path 242. To a medium evacuation unit (not shown). Next, as a substitute for the issuance medium 1a on which the last page has been printed, a predetermined new medium corresponding to the issuance medium 1a is stored in the cassettes 23-1, 23-2, 23-n in which the new medium is stored. The new medium is supplied to the medium printer unit 24 from the cassette (the cassette 23-1 for convenience of explanation).
[0006]
In this case, the new medium is fed out from the medium storage unit 28-1 in the cassette 23-1 through the feeding port 211-1 by a feeding roller (not shown), and is conveyed onto the conveying path 242 of the medium printer unit 24. In the medium printer unit 24, the magnetic stripe on the new medium conveyed from the cassette 23-1 is read by the MS unit 243 to confirm that it is a new passbook. Is printed.
[0007]
Next, after being conveyed to the turn page unit 246 to turn the cover page and to a predetermined page, it is sent back to the optical scanner unit 244 again to read the page mark on the predetermined page after the page is turned. After printing, the printing unit 245 prints predetermined data on a predetermined print line, and the MS unit 243 records the predetermined data on a magnetic stripe, and then conveys it to the insertion slot 241 to newly issue the issuance medium 1a. And is discharged from the insertion port 241.
[0008]
It should be noted that the last page-printed issue medium 1a that has been saved in the medium evacuation unit until then is ejected following the ejection of the newly issued issue medium 1a from the insertion slot 241.
In the above medium issuing device 22, when the new media stored in the cassettes 23-1, 23-2, and 23-n becomes insufficient, a financial institution official assigned to manage and maintain the device. And a contracted maintenance manager (hereinafter referred to as a bank employee) needs to replenish the new medium. Hereinafter, description will be made with reference to FIG.
[0009]
In FIG. 7, in order to replenish a new medium to one of the cassettes 23-1, 23-2, 23-3, and 23-4 in the medium issuing device 22 (for convenience of description, a cassette 23-2), First, the employee temporarily stops the customer service operation of the medium issuing device 22. Thereafter, at least the cassette 23-2 is exposed from the staff operation surface side (opposite to the customer operation surface) of the medium issuing device 22 until the cassette 23-2 is exposed from the main body of the medium issuing device 22 so that the cassette 23-2 can be replenished with the medium. (A state), the medium issuing block 15 on which the cassettes 23-1, 23-2, 23-3, and 23-4 are mounted in series is pulled out.
[0010]
For the purpose of operation, it is desired that a large number of the medium issuing devices 22 be installed adjacent to each other on the left and right sides of the customer operation surface on the front side of the device. On the opposite side of the surface). As a result, the cassettes are usually arranged in a row in the depth direction of the medium issuing device 22 (the direction connecting the customer operation surface and the clerk operation surface), so that the cassette operability from the clerk operation surface side is generally improved. A medium issuing block 15 in which a plurality of cassettes (for example, four cassettes) are mounted in tandem is used.
[0011]
When a large number of cassettes are required, a plurality of medium issuing blocks are provided, for example, in a structure in which they are vertically stacked. Further, in the figure, the medium issuing block 15 and the medium printer unit 24 have a combined structure, but some have a separated structure.
The cassette 23-2 on the medium issuing block 15 which has been pulled out (state A) is structured so as to be detachable from the medium issuing block 15, and a staff member inserts a new medium into the medium storage section in the removed cassette 23-2. Replenish. Thereafter, the original state is returned to the cassette 23-2 and the medium issuing block 15 in the reverse order of the above procedure. Thereafter, the staff member restarts the medium issuing device 22 that has temporarily stopped the customer service operation, and restarts the customer service operation.
[0012]
Only the cassette 23-1 closest to the staff operation surface side opens the upper lid or the side cover of the cassette 23-1 from the staff operation surface side without pulling out the medium issuing block 15 to the medium storage unit. Some media can be replenished. Therefore, only when the cassette 23-1 is to be replenished, the medium replenishing operation can be performed without temporarily stopping the customer service operation of the medium issuing device 22.
[0013]
Further, the cassettes other than the cassette 23-1 are not configured to be detachable from the medium issuing block 15, but, for example, a lid is provided on the upper part of each cassette, and the lid is opened to supply the medium to the medium storage unit. Some have done so.
[0014]
[Problems to be solved by the invention]
As described above, in the conventional method, during operation of the customer service of the medium issuing device 22, a cassette for a medium of a different type from the medium stored in the cassette 23-1 closest to the staff member operation surface side is set. When the medium replenishment is required, the medium replenishment work cannot be performed unless the medium issuance block 15 on which the medium replenishment target cassette is mounted is pulled out from the medium issuance device 22, so that the customer service operation of the medium issuance device 22 is temporarily performed. And the customer service is degraded.
[0015]
Further, since the replenishment of the medium into each cassette involves operations such as pulling out the medium issuing block 15 from the medium issuing device 22, attaching and detaching the cassette from the medium issuing block 15, and opening and closing the upper cover of the cassette, a desired cassette is required. When the medium is replenished, when returning to the original apparatus state in the reverse procedure, an error such as a setting error occurs when the medium issuing apparatus 22 is restarted due to a defective setting or insertion during the operation. There is a problem that it takes time to restart the system, and further, the customer service is deteriorated.
[0016]
Therefore, an object of the present invention is to provide a medium issuing device capable of replenishing any cassette with a supplementary medium without stopping the customer service operation of the medium issuing device.
[0017]
[Means for Solving the Problems]
The invention according to claim 1 is a cassette having a medium storage portion and a feeding port, wherein the cassette has a receiving port for receiving a replenishment medium inserted from the outside and a receiving port for a cassette adjacent to a downstream side of the transport of the replenishment medium. A transfer port for delivering the replenishment medium to the inlet; and a direction switching means for switching a transport direction of the replenishment medium received from the receiving port to either the medium storage unit side or the transfer port side.
[0018]
The cassette further includes a first transporting unit that transports the replenishment medium, the transport direction of which has been switched to the medium storage unit side by the direction switching unit, and stores the replenishment medium in the medium storage unit; And a second transport means for transporting the replenishment medium switched to the side and discharging the replenishment medium from a transport port.
The invention according to claim 2 is a cassette having a medium storage portion and a feeding port, wherein the cassette receives a replenishing medium discharged from a transfer port of a cassette adjacent to a transport upstream side of the replenishing medium; A second cassette configured to include a first transport unit that transports the replenishment medium received from a receiving port and stores the replenishment medium in a medium storage unit.
[0019]
A medium issuing device according to a third aspect includes a medium printer unit that prints and discharges predetermined data on a medium fed from a cassette having a medium storage unit and a feeding outlet, and includes the first cassette or the second cassette. Configuration.
According to the medium issuing device having the configuration of the present invention, the replenishment medium from the outside inserted from the receiving port of the cassette located at the most upstream side of the replenishment medium conveyance is sequentially passed through each cassette toward the cassette on the downstream side of the conveyance. By passing the medium, the replenishment medium can be stored in the medium storage section of a desired cassette.
[0020]
Therefore, in replenishing a medium into any cassette, the replenishment medium can be stored in a desired cassette without pulling out the medium issuing block in which each cassette is mounted from the medium issuing apparatus. Media can be replenished without stopping.
[0021]
BEST MODE FOR CARRYING OUT THE INVENTION
Hereinafter, embodiments of the present invention will be described with reference to the drawings. FIG. 1 is a principle configuration diagram of a medium issuing apparatus according to the present invention.
In FIG. 1, the medium issuing device 2 includes a cassette group having a first cassette 3 a and one or more second cassettes 3 b-1 and 3 b-n, and a medium printer unit 4. The medium printer unit 4 has a configuration equivalent to the media printer unit 24 of the above-described conventional medium issuing device 22, or a configuration that functions equivalently to the media printer unit 24.
[0022]
The first cassette 3a is provided with a replenishment insertion slot 5 which is a receiving port into which a replenishment medium 1b from the outside is inserted, and a conveyance direction of the replenishment medium 1b inserted from the replenishment insertion port 5 is set to the medium storage portion 8a side. Or, a direction switching means 6a for switching to one of the transfer ports 10a and a transfer port 10a for transferring the inserted replenishment medium 1b to the second cassette 3b-1 on the downstream side of the transport adjacent to the cassette. Prepare.
[0023]
Further, a first transporting means 7a for transporting the replenishment medium 1b whose transport direction has been switched to the medium storage section 8a side by the direction switching means 6a and storing it in the medium storage section 8a, and a transport direction for the direction switching means 6a. A second transport means 9a for transporting the replenishment medium 1b switched to the transport port 10a side and discharging the replenishment medium 1b transported from the transport port 10a; and a medium storage for accommodating the replenishment medium 1b transported by the first transport means 7a. And a discharge port 11a for discharging the storage medium fed from the medium storage section 8a to the outside of the cassette in order to supply the medium printer section 4.
[0024]
The second cassette 3b-1 is loaded from the receiving port 5b-1 into which the replenishment medium 1b discharged from the transfer port 10a of the upstream cassette adjacent to this cassette is loaded, and from the receiving port 5b-1. Direction switching means 6b-1 for switching the transport direction of the replenishment medium 1b to either the medium storage section 8b-1 side or the transfer port 10b-1 side, and a transport downstream portion adjacent to the cassette for transporting the replenishment medium 1b carried in. And a transfer port 10b-1 for sending to the second cassette 3b-n on the side.
[0025]
Further, a first transport means 7b-1 for transporting the replenishment medium 1b whose transport direction has been switched to the medium storage section 8b-1 side by the direction switching means 6b-1 and storing the replenishment medium 1b in the medium storage section 8b-1; A second transport unit 9b-1 for transporting the replenishment medium 1b whose transport direction has been switched to the transport port 10b-1 side by the direction switching unit 6b-1 and discharging it from the transport port 10b-1, and a first transport unit A medium storage section 8b-1 for storing the replenishment medium 1b transported by the means 7b-1 and a storage medium fed out from the medium storage section 8b-1 are discharged out of the cassette to be supplied to the medium printer section 4. And an outlet 11b-1 for performing the operation.
[0026]
The first second cassette 3b-1 of the second cassette is disposed adjacent to the first cassette 3a on the downstream side of the transport of the replenishment medium 1b. Further, a second second cassette 3b-2 (not shown) following the second cassette 3b-1 is positioned adjacent to the second cassette 3b-1 on the downstream side of the transport of the replenishment medium 1b. is set up. The third and subsequent second cassettes (the last one being 3b-n) are installed in the same manner as the installation relationship between the second cassette 3b-1 and the second cassette 3b-2. You.
[0027]
The configuration of the second and subsequent second cassettes is the same as the configuration of the first second cassette 3b-1 described above, and a description thereof will be omitted. Note that the rearmost second cassette 3b-n does not need to be ejected to deliver the replenishment medium 1b to the next cassette since the second cassette does not exist after this cassette. Any or all of the switching means 6b-n, the second transport means 9b-n, or the transfer port 10b-n may be omitted.
[0028]
When the direction switching means 6b-n is eliminated, instead of the direction switching means 6b-n, for example, a transport roller is provided to guide the replenishment medium 1b carried in from the receiving port to the first transport means 7b-n. Irrespective of the presence or absence of the relay path, at least a transport relay means such as a transport path is provided.
The medium issuing device 2 is an ATM (automatic teller machine) installed by a financial institution (bank, credit union, post office, etc.) or a financial institution (life insurance company, etc.), a passbook carryover machine, and a certificate issuing machine. Machine. The replenishment medium 1b is a passbook, a cut sheet, a certificate, and the like used in these devices.
[0029]
FIG. 2 is a configuration diagram of a cassette according to an embodiment of the present invention. FIG. 2 is an example, and so far as the configuration of the present invention is satisfied and the problem is solved, the configuration of FIG. There may be a strategic configuration.
In FIG. 2, the cassette 3 is supplied with the replenishment medium 1b discharged from the replenishment insertion port 5 which is a receiving port into which the replenishment medium 1b from the outside is inserted, or the transfer port 310 of the cassette on the upstream side of the conveyance. A receiving port 5b, and a transfer port 310 for discharging the inserted or loaded replenishment medium 1b for delivery to a cassette on the downstream side of the transport. At the position, a passage detection sensor 391 for detecting passage of the replenishment medium 1b is provided.
[0030]
The transport rollers 392-1, 392-2, and 392-3 are rotationally driven by a motor (not shown), suck the replenishment medium 1b from the refill insertion port 5 or the receiving port 5b, and transport and transport the transport medium to the transport port 310. The replenishment medium 1b is discharged out of the cassette 3 through the opening 310. Here, the space along the lower surface of the separator 360 is a conveyance path for guiding the replenishment medium 1b to the medium storage section 380. In particular, the conveyance roller 392-1 sucks the replenishment medium 1b 1 It is also driven to rotate when transported to the storage section 380.
[0031]
The separator 360 is, for example, in the form of a lever. The other end of the separator 360 is rotated up and down within a predetermined range around a fulcrum provided near one end of the separator 360, and the refilled medium 1 a is sucked. The transport direction is switched. The transport direction is switched to the separator 360-b side when the replenishment medium 1b is transported to the medium storage unit 380 side, and is switched to the separator 360-a side when transported to the transfer port 310 side. .
[0032]
The storage detection sensor 371 detects that the replenishment medium 1b has been conveyed to the medium storage section 380 and stored in the medium storage section 380. The replenishment medium 1b stored in the medium storage unit 380 becomes a part of the storage medium 1c. The weight 381 is for appropriately pressing the storage medium 1c (weight 381-a state). When storing the replenishment medium 1b in the medium storage section 380, the weight 381 does not hinder the stacking of the replenishment medium 1b. Then, it is pulled up to the upper part of the medium storage section 380 (weight 381-b state).
[0033]
The full detection sensors 382-1 and 382-2 indicate that the stacking amount of the storage medium 1c in the medium storage section 380 is full (storage limit), and the near-end detection sensors 383-1 and 383-2 indicate that the storage medium 1c is The end detection sensors 384-1 and 384-2 detect the state of the end of the storage medium 1c and the end of the storage medium 1c. Each of the three types of sensors is an optical sensor composed of a pair of a light-emitting and a light-receiving sensor. However, as long as the three states can be detected, the method is not limited.
[0034]
The feeding roller 385 is driven to rotate by a motor (not shown). The feeding roller 385 is brought into contact with the lowermost storage medium 1c of the medium storage section 380 and is rotated to feed the storage medium 1c one by one. The dispensing roller 385 may be disposed either inside or outside the cassette 3, but here it is disposed outside the cassette 3, for example, on the above-described medium issuing block.
[0035]
The feeding port 311 is for discharging the storage medium 1c fed from the medium storage section 380 by the feeding roller 385 to the outside of the cassette in order to supply the medium to the above-described medium printer section.
In the case where the present cassette is installed at the rear end, the transport rollers 392-2 and 392-3, the transfer port 310, the separator 360, and the like may not be provided. Instead of a fixed structure in which the 360 is located on the 360-a side, a transport path (transport relay means) through which the replenishment medium 1b from the receiving port 5b is guided to the medium storage section 380 can be secured. Just fine.
[0036]
FIG. 3 is a diagram showing a medium issuing apparatus according to an embodiment of the present invention. FIG. 4 is a part (part 1) of a flowchart showing a medium replenishing process according to the embodiment of the present invention. It is a part (2) of the flowchart which shows a replenishment process. In FIG. 3, the number of mounted cassettes is four, but the number is not limited to two or more as long as the number is two or more.
[0037]
In FIG. 3, since the configuration in each cassette in the figure corresponds to the above-described cassette configuration diagram in FIG. 2, detailed description of each configuration in FIG. 3 is omitted. The medium issuing device 2 includes a cassette group of # 1 cassette 300a, # 2 cassette 300b, # 3 cassette 300c, and # 4 cassette 300d mounted on the medium issuing block 150, and a medium printer unit 4.
[0038]
The medium issuing block 150 includes feeding rollers 385a, 385b, 385c, and 385d for feeding out the storage media 1c-1, 1c-2, 1c-3, and 1c-4 in each cassette, and a feeding port 311a for each cassette. , 311b, 311c, 311d, and feed-out detection sensors 386a, 386b, 386c, 386d for detecting the storage media 1c-1, 1c-2, 1c-3, 1c-4 discharged from the cassettes. And a transport path 151 for transporting each of the storage media 1c-1, 1c-2, 1c-3, and 1c-4 to the media printer unit 4.
[0039]
In order to receive the replenishment medium 1b, the # 1 cassette 300a has a refill insertion slot 350a, and the other three cassettes except the # 1 cassette 300a have receiving ports 350b, 350c, and 350d.
In each of the four cassettes, passing detection sensors 391a, 391b, 391c, 391d, transport rollers 392a-1, 392b-1, 392c-1, 392d-1, separators 360a, 360b, 360c, 360d, It has storage detection sensors 371a, 371b, 371c, 371d and medium storage units 380a, 380b, 380c, 360d.
[0040]
Further, in each of the four cassettes, a full detection sensor 382a, 382b, 382c, 382d, a near-end detection sensor 383a, 383b, 383c, 383d, and an end detection sensor 384a, 384b, 384c are provided around the respective medium storage portions. , 384d.
The medium printer unit 4 includes an insertion slot 41 into which the issuing medium 1a is inserted, an MS unit 43a, an optical scanner unit 44a, a printing unit 45a, a turn page unit 46a, and a transport of the issuing medium 1a and the medium issuing block 150. And a transport path 42a for transporting each of the storage media 1c-1, 1c-2, 1c-3, and 1c-4 from the path 151.
[0041]
The configuration and function of each unit of the medium issuing apparatus and the cassette according to the present invention have been described above. The processing operation will be described below with reference to FIGS.
4 and 5 are a part of a flowchart showing the medium replenishing process according to the embodiment of the present invention. FIG. 4 is a flowchart showing the whole medium replenishing process of the present invention. The symbol S in both figures is a symbol representing a processing step.
[0042]
In FIG. 4, the medium issuing device 2 first receives a medium replenishment command from an external host device (S10). At this time, the medium replenishment command is accompanied by the designation of a cassette that indicates the cassette to be replenished and the additional information of the number of replenishment media that specifies the number of replenishment media to the cassette to be replenished.
The medium replenishment command is issued from the higher-level device automatically or in response to an operation instruction based on the staff member's judgment when the higher-level device recognizes the storage medium amount of each cassette in the passbook issuing device 2. Recognition of the storage medium amount in the host device is performed based on detection information from the full detection sensor, near-end detection sensor, or end detection sensor in each cassette, or based on the detection information and the cassette feeding medium count value. .
[0043]
Next, it is determined whether or not a replenishment stop command has been received from the host device (S11). The replenishment stop command is issued when it becomes necessary to stop replenishment of the medium by the medium replenishment command due to some cause (for example, suspension of replenishment due to the staff work situation).
If it is determined in step S11 that the replenishment stop command has been received (Yes determination), the medium replenishment process is stopped and the end of the medium replenishment process is notified to the host device (S25). Complete the operation.
[0044]
On the other hand, if it is determined in step S11 that the replenishment stop command has not been received (No determination), then it is determined whether the replenishment medium 1b has been inserted into the replenishment insertion slot 350a (S12). . Specifically, the determination is made based on the presence / absence detection signal of the replenishment medium 1b detected by the passage detection sensor 391a disposed immediately downstream of the refill insertion slot 350a.
[0045]
If it is determined in step S12 that there is no insertion (No determination), the process returns to step S11, and after determining the presence or absence of the replenishment stop command, it is again determined in step S12 whether the refill medium 1b has been inserted. On the other hand, if it is determined in step S12 that there is an insertion (Yes determination), the conveying rollers 392a-1, 392a-2, and 392a-3 in the # 1 cassette 300a are rotated to be inserted into the replenishment insertion port 350a. The replenishment medium 1b is sucked and transported (S13).
[0046]
Subsequent to step S13, it is determined whether the replenishment target cassette of the replenishment medium 1b is the # 1 cassette 300a (S14). Specifically, the determination is made based on the cassette designation which is information attached to the medium replenishment command from the host device.
If it is determined in step S14 that the replenishment target is the # 1 cassette 300a (Yes determination), the separator 360a is switched to the side where the replenishment medium 1b is transported to the medium storage unit 380a (S15).
[0047]
Next, it is determined whether or not the replenishment medium 1b transported to the medium storage section 380a through the separator 360a has been stored in the medium storage section 380a (S16). More specifically, the determination is made based on the detection of the leading end of the replenishment medium 1b 2 detected by the storage detection sensor 371a and the subsequent detection of the rear end of the replenishment medium 1b.
If it is determined in step S16 that the storage is to be completed (No determination), the determination in step S16 is repeated and the storage is completed. However, in the case where the repetition is performed even after the lapse of a predetermined time, a predetermined error (for example, a medium storage error) is generated, the processing is terminated with an error, and the fact is described. Notify to If it is determined in step S16 that the storage is completed (Yes determination), the rotation of the transport rollers 392a-1, 392a-2, and 392a-3 rotated in step S13 is stopped.
[0048]
Thereafter, the replenishment medium count value (such as a digital counter) for counting the number of replenishment media in the # 1 cassette 300a as the medium replenishment destination is updated by, for example, plus one (S18).
Next, it is determined whether the storage medium 1c-1 in the medium storage unit 380a is full (S19). Specifically, the determination is made based on whether or not the full detection sensor 382a has detected the storage medium 1c-1.
[0049]
If it is determined in step S19 that the medium is full (Yes determination), it is impossible to further replenish the medium storage unit 380a in the # 1 cassette 300a. The end of the replenishment process is notified (S25), and all operations of the medium replenishment process are completed.
However, if it is determined in step S19 that the medium is not in the full state (No determination), the replenishment medium count updated in step S18 is the replenishment medium that is the additional information of the medium replenishment command from the higher-level device. It is determined whether or not the number has reached the specified value (S20).
[0050]
If it is determined in step S20 that the medium has not arrived (No determination), it is determined that there is further medium replenishment to the # 1 cassette 300a, and the process returns to step S11 to return to the next replenishment medium 1b inserted. Prepare. However, if it is determined in step S20 that the medium has been reached (Yes determination), the medium replenishment to the # 1 cassette 300a is determined to be the last replenishment medium 1b, and the medium replenishment process is terminated to replenish the medium to the host apparatus. The end of the processing is notified (S25), and the entire operation of the medium replenishment processing is completed.
[0051]
If it is determined in step S14 that the replenishment target is other than the # 1 cassette 300a (No determination), the separator 360a is switched to the side where the replenishment medium 1b is transported to the transfer port 310a (S21).
Thereafter, the replenishment medium 1b conveyed through the separator 360a is discharged from the transfer port 310a (S22). At the time when the replenishment medium 1b has been discharged from the transfer port 310a (after the replenishment medium 1b has passed the transport roller 392a-3 closest to the transfer port 310a), the # 1 cassette 300a rotated in step S13 The rotation of the transport rollers 392a-1, 392a-2, 392a-3 is stopped (S23). The replenishment medium 1b discharged from the transfer port 310a is transferred to the next cassette # 2 cassette 300b on the downstream side of the medium, and shifts to the processing in the # 2 cassette 300b shown in FIG.
[0052]
In FIG. 5, it is determined whether or not the replenishment medium 1b discharged from the transfer port 310a of the # 1 cassette 300a and delivered to the # 2 cassette 300b has reached the receiving port 350b of the # 2 cassette 300b ( S30). Specifically, the determination is made based on the presence / absence detection signal of the supplementary medium 1b detected by the passage detection sensor 391b disposed immediately downstream of the medium downstream of the receiving port 350b.
[0053]
If it is determined in step S30 that there is no arrival (No determination), the determination in step S30 is repeated, and the flow waits for the arrival of the supplementary medium 1b. However, in the case where the repetition is performed even after the lapse of a predetermined time, a predetermined error (for example, a medium transport error) is generated, the processing is terminated with an error, and the fact is described. Notify to
[0054]
On the other hand, when it is determined in step S30 that there is arrival (Yes determination), the transport rollers 392b-1, 392b-2, and 392b-3 in the # 2 cassette 300b are rotated to reach the receiving port 350b. The replenishment medium 1b is sucked and transported (S31).
Subsequent to step S31, it is determined whether or not the refill target cassette of the refill medium 1b is the # 2 cassette 300b (S32). Specifically, the determination is made based on the cassette designation which is information attached to the medium replenishment command from the host device.
[0055]
If it is determined in step S32 that the replenishment target is # 2 cassette 300b (Yes determination), the separator 360b is switched to the side where the replenishment medium 1b is transported to the medium storage section 380b (S33).
Next, it is determined whether the replenishment medium 1b transported to the medium storage section 380b through the separator 360b has been stored in the medium storage section 380b (S34). Specifically, the determination is made based on the detection of the leading end of the replenishing medium 1b 2 detected by the storage detection sensor 371b and the subsequent detection of the rear end of the replenishing medium 1b.
[0056]
If it is determined in step S34 that the storage is to be completed (No determination), the determination in step S34 is repeated, and the storage is completed. However, in the case where the repetition is performed even after the lapse of a predetermined time, a predetermined error (for example, a medium storage error) is generated, the processing is terminated with an error, and the fact is described. Notify to If it is determined in step S34 that the storage is completed (Yes determination), the rotation of the transport rollers 392b-1, 392b-2, and 392b-3 rotated in step S31 is stopped.
[0057]
Thereafter, the replenishment medium count value (such as a digital counter) counting the number of replenishment media in the # 2 cassette 300b as the medium replenishment destination is updated by, for example, plus one (S36).
Next, it is determined whether or not the storage medium 1c-2 in the medium storage unit 380b is full (S37). Specifically, the determination is made based on whether or not the full detection sensor 382b detects the storage medium 1c-2.
[0058]
If it is determined in step S37 that the medium is full (Yes determination), it is impossible to further replenish the medium in the medium storage unit 380b in the # 2 cassette 300b. The end of the replenishment process is notified (S25), and all operations of the medium replenishment process are completed.
However, if it is determined in step S37 that the medium is not in the full state (No determination), the replenishment medium count value updated in step S36 is the replenishment medium that is the supplementary information of the medium replenishment command from the host device. It is determined whether or not the number has reached the specified value (S38).
[0059]
If it is determined in step S38 that the medium has not arrived (No determination), it is determined that there is a further medium replenishment to the # 2 cassette 300b, and the process returns to step S11 shown in FIG. In the replenishing medium 1b. However, if it is determined in step S38 that the medium has been reached (Yes determination), the medium replenishment to the # 2 cassette 300b is determined to be the last replenishment medium 1b, the medium replenishment process is terminated, and the medium replenishment is performed to the host device. The end of the processing is notified (S25), and the entire operation of the medium replenishment processing is completed.
[0060]
If it is determined in step S32 that the replenishment target is other than the # 2 cassette 300b (No determination), the separator 360b is switched to the side where the replenishment medium 1b is transported to the transfer port 310b (S41).
Thereafter, the replenishment medium 1b transported through the separator 360b is discharged from the transfer port 310b (S42). At the time when the replenishment medium 1b has been discharged from the transfer port 310b (after the replenishment medium 1b has passed through the transport roller 392b-3 closest to the transfer port 310b), the # 2 cassette 300b rotated in step S31 The rotation of the transport rollers 392b-1, 392b-2, 392b-3 is stopped (S43). The replenishment medium 1b discharged from the transfer port 310b is transferred to the next cassette # 3 cassette 300c on the downstream side of the medium, and shifts to the processing of the # 3 cassette 300c.
[0061]
The processing in the # 3 cassette 300c after the replenishment medium 1b has been handed over to the # 3 cassette 300c, and the processing in the # 4 cassette 300d when the replenishment medium 1b is handed over next, are all described above with reference to FIG. Since the processing is the same, the description is omitted.
After the replenishment medium 1b is stored in the medium storage portion of any one of the cassettes and becomes a part of each of the storage media 1c-1, 1c-2, 1c-3, and 1c-4, if necessary, The storage medium is fed out from the feeding outlets 311a, 311b, 311c, 311d of any one of the medium storage sections, and is sent to the medium printer section 4 via the transport path 151 of the medium issuing block 150.
[0062]
The storage media 1c-1, 1c-2, 1c-3, 1c-4 discharged from the feeding outlets 311a, 311b, 311c, 311d are monitored by feeding detection sensors 386a, 386b, 386c, 386d, respectively. If it is not possible to obtain from the start of feeding to the detection of arrival at the front end or from the arrival at the front end to the detection of arrival at the rear end within a predetermined time, it is determined that a feeding error or a medium conveyance failure has occurred, and a predetermined error is detected. (For example, a delivery error), the process is terminated with an error, and the fact is notified to the host device.
[0063]
Subsequent processing for the storage medium sent to the medium printer section 4 and processing for the issuing medium 1a inserted from the insertion port 41 are both performed by the medium printer section 24 of the conventional medium issuing apparatus 22 described above. The description is omitted because it is the same.
By the above-described series of processing for each cassette, the replenishment medium 1b inserted from the replenishment insertion slot 350a is stored in the medium storage section of the desired cassette.
[0064]
Note that the flowcharts showing the medium replenishment processing in FIGS. 4 and 5 are an example for explaining the processing, and are not limited to the flowcharts in both figures as long as the functions and effects of the present invention can be exhibited. . For example, in FIGS. 4 and 5, for convenience of explanation, processing of the replenishment medium 1b inserted immediately after the first replenishment medium 1b until the replenishment medium 1b inserted from the replenishment insertion slot 350a is completely stored in a predetermined cassette. Do not start. However, in order to improve the work efficiency of the medium replenishment, it is desirable to perform the processing in parallel. Therefore, the processing may be performed in parallel as long as the medium replenishment processing of each replenishment medium 1b does not cause inconvenience.
[0065]
By the above series of processing, the replenishing medium can be replenished to any cassette in which the storage medium is in a shortage state.
[0066]
【The invention's effect】
As described above, according to the present invention, when the number of storage media in a cassette becomes insufficient, the media operation block of the medium issuing apparatus can be used without pulling out the medium issuing block on which each cassette is mounted from the medium issuing apparatus. The replenishment medium can be inserted into the replenishment medium of any desired cassette by inserting the replenishment medium from the replenishment insertion port provided on the side.
[0067]
Therefore, in a financial institution or the like in which the medium issuing apparatus to which the present invention is applied is installed, the replenishment medium can be replenished without stopping the customer service operation of the medium issuing apparatus.
[Brief description of the drawings]
FIG. 1 is a diagram showing the principle configuration of a medium issuing device according to the present invention
FIG. 2 is a configuration diagram of a cassette according to an embodiment of the present invention.
FIG. 3 is a diagram showing a medium issuing device according to an embodiment of the present invention;
FIG. 4 is a part (part 1) of a flowchart showing a medium replenishment process according to the embodiment of the present invention;
FIG. 5 is a part (part 2) of a flowchart showing a medium replenishment process according to the embodiment of the present invention;
FIG. 6 is a configuration diagram of a conventional medium issuing device.
FIG. 7 is an external side view (cross-sectional view) of a conventional medium issuing device.
[Explanation of symbols]
1a Issuing medium
1b Replenishment medium
1c Storage medium
2,22 Medium issuing device
3 cassettes
3a First cassette
3b-1, 3b-n Second cassette
4,24 media printer
5 Refill slot
5b, 5b-1, 5b-n Inlet
6a, 6b-1, 6b-n direction switching means
7a, 7b-1, 7b-n First transporting means
8a, 8b-1, 8b-n Medium storage unit
9a, 9b-1, 9b-n Second transport means
10a, 10b-1, 10b-n Transfer port
11a, 11b-1, 11b-n
15,150 Media issuing block
16 Operation panel
23-1, 23-2, 23-3, 23-4, 23-n cassette
41, 241 insertion slot
300a # 1 cassette
300b # 2 cassette
300c # 3 cassette
300d # 4 cassette
310a, 310b, 310c, 310d Transfer port
311a, 311b, 311c, 311d
350a Refill slot
350b, 350c, 350d Inlet
360a, 360b, 360c, 360d Separator
371a, 371b, 371c, 371d Storage detection sensor
380a, 380b, 380c, 380d Medium storage unit
381-a, 381-b weight
382a, 382b, 382c, 382d Full detection sensor
383a, 383b, 383c, 383d Near-end detection sensor
384a, 384b, 384c, 384d End detection sensor
385a, 385b, 385c, 385d Feeding roller
386a, 386b, 386c, 386d Feeding-out detection sensor
391a, 391b, 391c, 391d Passage detection sensor
392a-1, 392a-2, 392a-3 Transport roller
392b-1, 392b-2, 392b-3 Transport roller
392c-1, 392c-2, 392c-3 Transport roller

Claims (3)

A cassette having a medium storage section and a feeding port,
The cassette is
A receiving port for receiving a replenishing medium inserted from outside,
A transfer port for delivering the replenishment medium to an adjacent cassette receiving port,
Direction switching means for switching the transport direction of the replenishment medium received from the receiving port to either the medium storage unit side or the transfer port side,
First transporting means for transporting the replenishment medium, the transport direction of which has been switched to the medium storage part side by the direction switching means, and for storing the replenishment medium in the medium storage part;
A second transport unit that transports the replenishment medium whose transport direction has been switched to the transport port side by the direction switching unit and transports the replenished medium from the transport port;
A first cassette, comprising: A cassette having a medium storage section and a feeding port,
The cassette is
A receiving port for receiving the replenishment medium discharged from the transfer port of the adjacent cassette;
A first transport unit that transports the replenishment medium received from the receiving port and stores the replenishment medium in a medium storage unit;
A second cassette, comprising: In a medium issuing apparatus including a medium printer unit that prints and discharges predetermined data on a medium fed from a cassette having a medium storage unit and a feeding outlet,
A medium issuing device comprising the first cassette according to claim 1 or the second cassette according to claim 2.

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