JP4270677B2 - Passbook / slip printer - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a passbook / slip printer.
[0002]
[Prior art]
FIG. 6 shows a conventional example of a passbook / slip printer in which a printing unit and a conveyance path are embedded in a desk. In this conventional example, a passbook insertion slot 12 and a slip insertion slot 13 are opened on the front end surface of the top plate 10 of the desk 11, and the processing target medium inserted from each insertion slot 12, 13 is formed inside the desk 11. After being conveyed to the printing unit 1 via the conveyance paths 14 and 14 ′ and processed in the printing unit 1, the passbook discharge port 12 a formed on the front end surface of the top plate 10 or the slip discharge port It is discharged from 13a.
[0003]
However, in the above-described conventional example, since the printing unit 1 corresponding to each medium is individually provided in the desk 11, the volume of the desk 11 is increased and the cost is increased. is there.
[0004]
On the other hand, sharing the passbook and slip printing unit 1 is realized in a relatively large dedicated machine, and has the configuration shown in FIG. That is, in this example, the passbook conveyance path 6 and the slip conveyance path 8 are joined to the printing unit 1, and the discharge conveyance path 14 is connected to the discharge end of the printing unit 1. When a passbook is inserted from the passbook insertion slot 12 formed at the end of the passbook transport path 6 and a slip is inserted from the slip insertion slot 13 of the slip transport path 8, the passbook is first transported to the printing section 1 for printing processing. Then, the sheet is discharged to the stacker 9 via the discharge conveyance path 14, and then the slip that has been waiting on the slip conveyance path 8 is conveyed to the printing unit 1 and processed in the printing unit 1. Be transported.
[0005]
However, the above-described conventional example has a disadvantage that the processing time becomes long because the transport path length of the medium 3 becomes long. Further, as shown in FIG. 7B, if this is incorporated into the desk 11 as it is, the occupied volume inside the desk 11 increases, and for example, it cannot be built into a standardized desk. There is.
[0006]
[Problems to be solved by the invention]
The present invention has been made to eliminate the above drawbacks, and can reduce the manufacturing cost by sharing the printing unit or its peripheral devices, and can be reduced in size. The purpose is to provide a slip printer.
[0007]
[Means for Solving the Problems]
According to the present invention, the object is
A discharge conveyance path 4 that is connected to a processing conveyance path 2 that includes a printing unit 1 at the end and that can carry forward and reverse bidirectional conveyance, and that discharges the medium 3 that has been processed in the printing unit 1;
A passbook transport path 6 that joins the discharge transport path 4 via the first gate 5;
A slip conveyance path 8 that merges with the discharge conveyance path 4 via the second gate 7;
During the reverse conveyance operation of the processing conveyance path 2, the connection destination conveyance path of the first and second gates 5 and 7 is switched to the discharge conveyance path 4, and the passbook 3 </ b> A and the slip 3 </ b> B processed by the printing unit 1 are changed to the discharge conveyance path 4. This is achieved by providing a passbook / slip printer that feeds sequentially.
[0008]
When the passbook 3A and the slip 3B are respectively inserted into the passbook insertion port 12 and the slip insertion port 13, one of them is first transported to the processing transport path 2, and the processing transport path 2 is the target medium 3 (in this specification, the passbook 3A and voucher 3B, or when not specified, passbook 3A or voucher 3B is referred to as “medium 3”.) Is conveyed to printing unit 1 side, and processing at printing unit 1 is performed. Done. In addition to transporting the medium 3 to the printing unit 1 side (hereinafter referred to as “forward transport”), the processing transport path 2 can transport the medium 3 to the start end side of the processing transport path 2 (hereinafter referred to as “reverse transport”). Yes, when the printing process on the medium 3 is completed, the processing conveyance path 2 is driven in the reverse direction. Due to the reverse conveyance drive of the processing conveyance path 2, the first and second gates 5 and 7 close the connection path between the passbook conveyance path 6 and the slip conveyance path 8, so that the printed medium 3 is discharged from the discharge conveyance path. 4 is discharged to a stacker 9 on the desk, for example.
[0009]
Thereafter, the first and second gates 5 and 7 return to the initial state, that is, the state in which the discharge conveyance path 4 is connected to the passbook conveyance path 6 and the slip conveyance path 8, and the other medium 3 is transferred to the processing conveyance path 2. Are printed and discharged to the stacker 9 in the same procedure as described above.
[0010]
Accordingly, in the present invention, it is not necessary to further convey the medium 3 after printing in the normal conveyance direction and convey it to the stacker 9, so that the area occupied by the conveyance path is reduced, and the apparatus can be miniaturized. In particular, since the passbook 3A has high rigidity, as shown in FIG. 7, when sending in the forward direction, it is necessary to increase the bending radius R at the bent portion. Although the volume occupied by the portion becomes excessive, in the present invention that transports in the reverse direction toward the feed direction of the passbook transport path 6, as shown in FIG. Since a large bending radius R can be set, there is a special effect for downsizing the apparatus.
[0011]
In addition, the passbook / slip printer allows the passbook transport path 6 to be transported in both forward and reverse directions.
In addition, the first gate 5 can be configured to be able to select either the bankbook transfer path 6 or the discharge transfer path 4 during the reverse transfer operation of the processing transfer path 2. In this case, after the reading operation of the magnetic stripe information of the bankbook 3A, the processing in the printing unit 1 is performed, and the bankbook 3A is transported to the bankbook transport path 6 to stand by, and then the slip 3B is printed. After that, the magnetic stripe information of the bankbook 3A can be updated (written), and the bankbook 3A can be discharged to the stacker 9. As a result, even when processing in the passbook / slip printer is performed by the procedures of reading the magnetic stripe information of the passbook 3A, printing on the slip 3B, and updating (writing) the magnetic stripe information, the magnetic stripe writing device is ejected and conveyed. Since it is not necessary to separately arrange on the road 4, further downsizing is possible.
[0012]
In addition, the slip conveyance path 8 is capable of forward / reverse bidirectional conveyance,
In addition, when the second gate 7 constitutes a passbook / slip printer that can select either the slip transport path 8 or the discharge transport path 4 during the reverse transport operation of the processing transport path 2, the second gate 7 performs processing in the printing unit 1. Since it is possible to repeat the operation of once transporting the completed medium 3 to the corresponding transport path and waiting it, and processing the other by the printing unit 1, the flexibility of processing can be improved and the processing speed is also increased. It becomes possible to improve.
[0013]
DETAILED DESCRIPTION OF THE INVENTION
FIGS. 1 and 2 show a desk-embedded passbook / slip printer incorporated in the desk 11. In this embodiment, the processing conveyance path 2 is formed inside the top plate 10 of the desk 11, and the printing unit 1 is disposed at the end of the processing conveyance path 2. The processing conveyance path 2 is further extended rearward from the printing unit 1 to form a switchback extra length path 2a. Further, a page turning device 15 and an image scanner 16 are arranged facing the processing conveyance path 2, and page turning of the passbook 3A conveyed to the processing conveyance path 2, and printing information of the slip 3B and the passbook 3A are read. Done.
[0014]
A passbook transport path 6 is connected to the start end of the processing transport path 2, and the start end of the passbook transport path 6 is opened to the front end surface of the top plate 10 to form a passbook insertion port 12. In the top plate 10, a magnetic stripe read / write device 17 is disposed facing the bankbook transport path 6, and the magnetic stripe of the bankbook 3 </ b> A on the bankbook transport path 6 can be read or written.
[0015]
A connecting portion between the passbook transport path 6 and the processing transport path 2 is connected to a starting end of a discharge transport path 4 for transporting the medium 3 that has been processed in the printing unit 1 to the surface of the top plate 10. The end of the discharge conveyance path 4 is opened in the top plate 10 of the desk 11 main body to form a medium discharge port 18, and a stacker 9 for receiving the medium 3 discharged from the medium discharge port 18 in the vicinity of the medium discharge port 18. Is formed on the top plate 10 surface.
[0016]
The discharge conveyance path 4 is connected to the end of a slip conveyance path 8, and the leading end of the slip conveyance path 8 opens on the surface of the top plate 10 to form a slip insertion slot 13.
[0017]
A first gate 5 is provided at the junction of the processing conveyance path 2, the passbook conveyance path 6, and the discharge conveyance path 4. The first gate 5 guides the bankbook 3A to the processing conveyance path 2 side when the bankbook 3A is conveyed to the processing conveyance path 2 side, and from the processing conveyance path 2 to the bankbook conveyance path 6 side. It is configured so that it can be guided to either the passbook conveyance path 6 or the discharge conveyance path 4 that has been conveyed.
[0018]
As shown in FIG. 3, in this embodiment, the first gate 5 is composed of parallel upper and lower guide plates 5 a and 5 b and is pivotally supported in the vicinity of the start end of the processing conveyance path 2 so as to be rotatable. The rotation-side end portions of the upper and lower guide plates 5a, 5b of the first gate 5 reach the passbook conveyance path 6 side. By rotating the first gate 5 around the support shaft 5c, a solid line in FIG. It can be located at either the passbook transport path connection position shown or the discharge transport path connection position shown by the solid line in FIG. As shown in FIG. 3A, when the first gate 5 is at the passbook transfer path connection position, the passbook transfer path 6 is processed in the passbook 3A conveyed in the forward direction indicated by the arrow A in FIG. The medium 3 that can be transferred to the transport path 2 and is transported in the reverse direction (arrow B) on the processing transport path 2 is either the passbook transport path 6 or the discharge transport path 4 depending on the position of the first gate 5. Is passed on. When the medium 3 is transferred between the conveyance paths, the passbook conveyance path 6 and the processing conveyance path 2 are arranged substantially in a straight line so that the medium 3 is not excessively bent, and the discharge conveyance path 4 is the passbook. They merge so as to form an acute angle with respect to the forward conveyance direction of the conveyance path 6, that is, an obtuse angle with respect to the reverse conveyance direction of the processing conveyance path 2.
[0019]
Further, a second gate 7 is disposed at the joining position of the discharge conveyance path 4 and the slip conveyance path 8. Similar to the first gate 5 described above, the second gate 7 has upper and lower guide plates 7a and 7b and is arranged to be rotatable around the support shaft 7c. The second gate 7 guides the slip 3B transported in the forward direction on the slip transport path 8 to the discharge transport path 4 at the connecting position of the slip transport path 8, and the transport path when the medium 3 is transported in the reverse direction on the discharge transport path 4. Switching to the open position prohibits the transfer of the medium 3 to the slip conveyance path 8.
[0020]
As shown in FIG. 4, a pair of conveyance rollers 19 is disposed in each conveyance path so as to sandwich the medium 3 and convey the medium 3 in a predetermined direction. The bankbook transport path 6 is configured to be transportable in the forward / reverse direction, and includes a bankbook clamp roller pair 19A disposed in the vicinity of the bankbook insertion slot 12 and a plurality of bankbook transport roller pairs 19B. The bankbook clamp roller pair 19A can capture the vicinity of the insertion leading edge of the bankbook 3A inserted from the bankbook insertion port 12, and can clamp and hold the bankbook 3A until a predetermined timing. The bankbook transport roller pair 19B can be driven to rotate in both forward and reverse directions, and transports the bankbook 3A to the processing transport path 2 side or transports the bankbook 3A passed from the processing transport path 2 to the bank insertion slot 12 side. can do. The bankbook transport roller pair 19B can be driven independently of the bankbook clamp roller pair 19A, and the other bankbook 3A in the bankbook transport path 6 is both forward and reverse while the bankbook 3A is captured by the bankbook clamp roller pair 19A. Can be conveyed.
[0021]
The processing transport path 2 has a plurality of processing transport roller pairs 19C that can be driven to rotate in both forward and reverse directions, and transports the medium 3 to the printing unit 1 side or transports the printed medium 3 to the starting end side in the reverse direction. can do.
[0022]
The discharge conveyance path 4 includes a relay conveyance roller pair 19D and a discharge conveyance roller pair 19E. The relay conveyance roller pair 19D is disposed at the junction with the slip conveyance path 8 and can be driven to rotate in the forward / reverse direction. The discharge conveyance roller pair 19E can be driven forward and reverse bidirectionally independently of the relay conveyance roller pair 19D, and can be stopped to capture the slip 3B.
[0023]
The slip transport path 8 has a pair of slip transport rollers 19F that can be driven in the forward direction and clamp the slip 3B, and clamps the slip 3B inserted into the slip insertion port 13 at a predetermined position, or on the discharge transport path 4 side. Can be transported.
[0024]
Next, the operation of the passbook / slip printer configured as described above will be described. First, when the passbook 3A is inserted into the passbook insertion slot 12 and the slip 3B is inserted into the slip insertion slot 13 by the operator, the passbook clamp roller pair 19A and the slip conveyance roller pair 19F are driven in the forward direction to correspond to the medium 3. Inhale into the transport path. When there is a medium 3 being processed in each conveyance path, as shown by a broken line in FIG. 4A until the processing of the medium 3 is finished and discharged to the stack, a pair of passbook clamp rollers 19A, The slip conveyance roller pair 19F captures the medium 3 in the conveyance path.
[0025]
When there is no medium 3 being processed, the bankbook 3A is first conveyed in the forward direction to the magnetic stripe read / write device 17 by the bankbook conveying roller pair 19B to read the magnetic stripe information of the bankbook 3A, and further processed and conveyed. It is conveyed to the path 2 side. At this time, the first gate 5 is located at the passbook transfer path connecting position, and the passbook 3A that has been transferred in the forward direction through the passbook transfer path 6 is transferred to the process transfer path 2 as indicated by an arrow C in FIG. It is.
[0026]
The passbook 3A delivered to the processing transport path 2 is transported to the image scanner 16 by the processing transport roller pair 19 that is transported in the forward direction, and the page information and the like of the passbook 3A are read and transported to the printing unit 1. If necessary, the printing unit 1 turns the page using the page turning device 15 and performs necessary printing processing. After the printing process is completed, the processing conveyance roller pair 19 is rotated in the reverse direction to convey the passbook 3A in the reverse direction to the start end side, and as indicated by the arrow D, from the first gate 5 opened to the passbook conveyance path 6 side. It is delivered to the bankbook transport path 6. At this time, the bankbook transport roller pair 19B is driven in the reverse direction to transport the bankbook 3A to the magnetic stripe read / write device, and if necessary, the magnetic stripe information is updated (written) in the magnetic stripe read / write device.
[0027]
When the bankbook 3A is transferred to the bankbook conveyance path 6 and the processing conveyance path 2 is opened, the first gate 5 moves to the discharge conveyance path coupling position, and the slip conveyance roller pair 19F and the relay roller pair 19D move in the forward direction. Driven, the slip 3B being clamped is sucked into the slip conveyance path 8. At this time, the second gate 7 is located at the connecting position of the slip conveyance path 8 and the slip 3B transported in the forward direction passes through the second gate 7 and the first gate 5 as shown in FIG. To the processing conveyance path 2. The processing conveyance path 2 that has received the slip 3B performs the printing process in the same procedure as the processing for the bankbook 3A described above, and then transports the bankbook 3A in the reverse direction to the starting end again and discharges it via the first gate 5. Delivered to the conveyance path 4. In this state, the second gate 7 is moved to the conveyance path opening position, and the relay roller pair 19D and the discharge conveyance roller pair 19E are driven in the reverse direction, and the slip 3B is discharged and conveyed via the second gate 7. After being delivered to the roller pair 19E, it is discharged to the stacker 9.
[0028]
When the slip 3B is delivered to the discharge conveyance path 4 and the processing conveyance path 2 is opened, the first gate 5 is switched, and the passbook conveyance roller pair 19B is driven in the forward direction to read the magnetic stripe read / write device. The bankbook 3A that has been waiting in the vicinity of 17 is guided to the processing transport path 2 and is switched back in the processing transport path 2, and then transferred from the processing transport path 2 to the discharge transport path 4, and then discharged to the stacker 9. .
[0029]
In the above description, the case where the work is completed by one printing process for the bankbook 3A and the slip 3B has been described as an example. However, when the alternate printing process for the slip 3B and the bankbook 3A is necessary, As shown in FIG. 5 (b), the slip conveyance path 8 and the passbook conveyance path 6 are used as standby paths, and the medium 3 is alternately sent to the processing conveyance path 2 while confirming the opening of the processing conveyance path 2. Required printing process.
[0030]
【The invention's effect】
As is clear from the above description, according to the present invention, the printing unit or its peripheral devices can be shared, so that the manufacturing cost can be reduced and the apparatus can be downsized.
[Brief description of the drawings]
FIG. 1 shows the present invention.
2 is an overall perspective view of FIG. 1. FIG.
FIG. 3 is a diagram showing a gate.
FIG. 4 is a diagram showing a passbook processing procedure;
FIG. 5 is a diagram showing a slip processing procedure;
FIG. 6 is an overall perspective view showing a conventional example.
7 is a diagram illustrating the conveyance path of FIG. 6;
[Explanation of symbols]
DESCRIPTION OF SYMBOLS 1 Printing part 2 Processing conveyance path 3 Medium 3A Passbook 3B Voucher 4 Discharge conveyance path 5 1st gate 6 Passbook conveyance path 7 2nd gate 8 Voucher conveyance path 9 Stacker 10 Top plate 11 Desk

Claims (4)

A discharge conveyance path that is connected to a processing conveyance path capable of forward and reverse bidirectional conveyance having a printing unit at the end, and that discharges the medium that has been processed in the printing unit;
A passbook transport path that joins the discharge transport path via the first gate;
A slip conveyance path that merges with the discharge conveyance path via the second gate,
A passbook / slip printer that sequentially transfers the passbook and slip processed by the printing unit to the discharge conveyance path by switching the connection destination conveyance path of the first and second gates to the discharge conveyance path during the reverse conveyance operation of the processing conveyance path. The passbook transport path is capable of forward and reverse bidirectional transport,
2. The passbook / slip printer according to claim 1, wherein the first gate is capable of selecting either a passbook transport path or a discharge transport path during a reverse transport operation of the processing transport path. The slip conveyance path is capable of forward and reverse bidirectional conveyance,
3. The passbook / slip printer according to claim 2, wherein the second gate is capable of selecting either a slip transport path or a discharge transport path during a reverse transport operation of the processing transport path. 2. The passbook / slip printer according to claim 1, wherein the medium disposed inside the desk and transported to the stacker provided on the desk is transported to the printing medium .

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