JP2010155708A - Bankbook slip processing device - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To solve the problem of a carrying jam, since dislocation is caused between a first slip and second and subsequent slips in a slip carrying passage, when a plurality of slips become one set with one side end pasted and the other end not pasted such as in copy paper. <P>SOLUTION: A slip suction monitoring sensor is arranged between feed rollers. When carrying the slip of pasting one end side by preceding the unpasted side, a first sheet of the slip of pasting one end side is precedently carried. When the slip suction monitoring sensor cannot detect, in a specific time, a jam state stopping the carrying by a load contacted with a guide since the slip on and after the second slip is dislocated between the slips without being carried, a pressure roller is separated from the feed roller, and thus, the jam state is released when the tip and the rear end are aligned with the same position on and after the second slip when the first slip returns up to the same position on and after the second slip by rigidity (elasticity) of the slip. <P>COPYRIGHT: (C)2010,JPO&INPIT

Description

  The present invention relates to a passbook slip processing apparatus having a function of printing on a passbook or slip.

A conventional bankbook slip processing apparatus will be described with reference to FIGS.
The following description will explain a passbook slip processing apparatus used in a bank.
In FIG. 21, reference numeral 110 denotes a passbook inserter unit, which is mounted on the front side in the passbook slip processing apparatus 101, receives a set of passbooks by an operator, takes in a set passbook, and discharges a passbook that has been processed. Etc.

A printing unit 120 is mounted on the rear side of the passbook inserter unit 110, and has functions such as printing on the passbook and detection of printed lines for printing.
Reference numeral 130 denotes an auto turn page (ATP) unit mounted on the rear side of the printing unit 120, and has a function of turning pages of the passbook among the passbooks handled.
A slip inserter unit 140 is mounted on the upper side of the passbook inserter unit 110, and has a function of receiving a set of media such as a slip by an operator, and taking in the set media and discharging the completed media.

Next, the bankbook inserter unit 110 will be described.
113, 114 and 115 are feed rollers for conveying the medium in the passbook stage and passbook guide 116, and pressure rollers are arranged to face each other.
The pressure rollers of the feed rollers 113 and 114 have a structure that can be separated from the feed rollers 113 and 114 by an actuator A (not shown).

Reference numeral 111 denotes a passbook width adjusting feed roller for carrying the passbook against the reference surface.
A passbook width adjusting pressure roller 112 presses the passbook against the passbook width adjusting feed roller 111.
The passbook width adjusting pressure roller 112 has a structure that can be separated from the passbook width adjusting feed roller 111 by an actuator B (not shown).

Reference numeral 118 denotes a passbook transport path, and 116 and 117 are passbook guides constituting the passbook transport path 118.
Reference numeral 119 denotes a blade provided at the junction of the passbook conveyance path 118 and the slip conveyance path 147, and switches the medium conveyance direction.
Although not shown, the passbook stage and passbook guide 116 are provided with magnetic heads.

Next, the printing unit 120 will be described.
Reference numeral 126 denotes a print transport path for a medium provided in the print unit 120. A plurality of feed rollers 121, 122, 123 for transporting the medium, a pressure roller for pressing the medium against these feed rollers, and a vertical transport guide 124 for guiding the medium. , 125 and the like.

The front side of the print conveying path 126 is connected to the blade 119 portion of the inserter unit 110. When the medium that has been processed by the print unit 120 is discharged, the blade 119 operates according to the type of the medium, and prints. The medium conveyed through the conveyance path 126 is sent to the slip conveyance path 147 or the passbook conveyance path 118.
Further, the blade 119 is operated to connect the passbook transport path 118 and the print transport path 126, and the passbook set in the passbook transport path 118 is sent to the print transport path 126, or the blade 119 is operated to connect the slip transport path 147. A slip set on the slip transport path 147 by connecting the print transport path 126 can be sent to the print transport path 126.

A reading unit 127 reads a page mark, a printed line, and the like of the passbook sent to the print conveyance path 126.
Reference numeral 128 denotes a print head unit, and 129 denotes a platen.
Next, the ATP unit 130 will be described.
Reference numeral 135 denotes an ATP conveyance path of a medium provided in the ATP unit 130, a plurality of feed rollers 131 and 132 for conveying the medium, pressure rollers for pressing the medium against these feed rollers, and upper and lower conveyance guides 133 and 134 for guiding the medium. It is composed of

The front side of the ATP transport path 135 is connected to the rear side of the print transport path 126 of the printing unit 120, and a passbook determined to require page turning is sent from the print transport path 126, and the passbook after page turning is completed. It feeds into the print conveyance path 126.
Next, the slip inserter unit 140 will be described.
Reference numerals 143 and 144 denote feed rollers for conveying the medium in the slip stage and the slip guide 145, and pressure rollers for pressing the medium against these feed rollers are arranged to face each other. This pressure roller has a structure that can be separated from the feed rollers 143 and 144 by an actuator C (not shown).

Reference numeral 141 denotes a slip width-feeding feed roller that carries the medium to abut the reference surface, and reference numeral 142 denotes a slip width-feeding pressure roller that presses the medium against the slip width-feeding roller 141. The slip width adjusting pressure roller has a structure that can be separated from the slip width adjusting feed roller 141 by an actuator D (not shown).
A slip conveyance path 147 and a slip guide 146 are provided opposite to the slip guide 145.

  In FIG. 22, 151 is a passbook inhalation detection sensor that detects that a passbook is set, 152 is a passbook inhalation monitoring sensor that detects that a passbook has been inhaled into the passbook transport path 118, and 153 is a passbook that is in the passbook transport path 118. A passbook conveyance monitoring sensor that monitors the conveyance, 154 is a reading monitoring sensor that monitors the reading timing of the reading unit 127, 155 is a printing monitoring sensor that monitors the timing of printing by the print head unit 128 of the printing unit 120, 156 Is an ATP monitoring sensor that monitors the timing of the turn page of the ATP unit 130, 157 is a slip inhalation detection sensor that detects that a slip has been set, and 158 is a slip suction that detects that the slip has been absorbed by the slip transport path 147. Monitoring sensor, 159 is that the slip is being conveyed on the slip conveyance path 147 A slip conveyance monitoring sensor for monitoring.

Next, the slip processing operation of the passbook slip processing apparatus 101 will be described.
The operator sets the slip on the slip stage and slip guide 145. When the slip suction detection sensor 157 detects a slip, the slip width adjusting pressure roller 142 is pressed against the slip width adjusting feed roller 141 by driving an actuator E (not shown).
Next, when the slip is set in the slip transport path 147, the blade 119 is switched from the slip transport path 147 to the print transport path 126 by an actuator F (not shown). An actuator G (not shown) is driven to press the slip against the reference surface.

After the actuator G is turned off, the actuator E is turned off.
Next, the actuator C is driven, and the pressure roller is pressed against the feed rollers 143 and 144. Thereafter, the slip passes through the slip transport path 147 by driving an actuator H (not shown), passes the slip suction monitoring sensor 158 and the slip transport monitoring sensor 159, and is transported to the printing unit 120 side.

After predetermined printing by the printing unit 120, the slip is transported from the print transport path 126 to the slip transport path 147, the actuator H (not shown) is driven, the pressure roller is pressed against the feed rollers 143 and 144, and the slip transport monitoring sensor 159, the slip inhalation monitoring sensor 158 and the slip inhalation detection sensor 157 are discharged (see, for example, Patent Document 1).
JP 2000-281234 A

However, in the above-described conventional technology, when a plurality of slips such as a copy sheet in which one side edge is glued and the other edge is not glued are set in one set, There is a problem that a slip occurs between the first slip and the slip after the second slip, which causes a transport jam or a transport skew.
An object of the present invention is to solve such a problem.

    Therefore, according to the present invention, when the slip suction monitoring sensor is arranged between the feed rollers and the slip with one end glued is transported with the non-glue side leading, the first slip of the slip with one end glued is If the slip suction monitoring sensor cannot detect in a certain time the jammed state where the transport is stopped due to the load that has been transported in advance and is not transported between the slips and touches the guide without being transported between the slips, the pressure roller is fed. The slip is freed from the roller, so that the first sheet returns to the same position as the second and subsequent sheets due to the rigidity (elasticity) of the slip, and the leading and trailing edges are aligned at the same position as the second and subsequent sheets. It is characterized by releasing the jammed state.

  In the present invention as described above, the pressure roller can be released from the feed roller, so that the slip which is composed of a plurality of sheets and is glued on one end side depends on the rigidity (elasticity) of the slip after the second sheet in the jam state. Returning, the effect that the leading edge and the trailing edge can be released at the same position as the first sheet and the second and subsequent sheets can be obtained.

  Embodiments of the present invention will be described below with reference to the drawings.

A bankbook slip processing apparatus will be described with reference to FIGS.
In the figure, reference numeral 1 denotes a passbook slip processing apparatus, which is arranged at a bank window or the like, takes in a passbook or slip set by an operator such as an operator, and performs magnetic stripe read / write processing and predetermined printing processing. Some are implemented in slip printers, but are not limited to such devices, but are also implemented in various devices that process various types of tickets. The apparatus will be described.

In FIG. 1, reference numeral 10 denotes a passbook inserter unit, which is mounted on the front side in the passbook slip processing apparatus 1, receives a set of passbooks by an operator, takes in the set passbook, and discharges a passbook that has been processed. Etc.
A printing unit 20 is mounted on the rear side of the passbook inserter unit 10 and has functions such as printing on the passbook and detection of printed lines for printing.

Reference numeral 30 denotes an auto turn page (ATP) unit mounted on the rear side of the printing unit 20 and has a function of turning a page of the passbook among the passbooks handled.
A slip inserter unit 40 is mounted on the upper side of the passbook inserter unit 10 and has a function of receiving a set of media such as a slip by an operator, and taking in the set media and discharging the completed media.

Next, the bankbook inserter unit 10 will be described.
13, 14 and 15 are feed rollers for conveying the medium in the passbook stage and passbook guide 16, and pressure rollers are arranged facing each other.
The pressure rollers of the feed rollers 13 and 14 can be separated from the feed rollers 13 and 14 by an actuator A (not shown).

Reference numeral 11 denotes a passbook width adjusting feed roller for carrying the passbook against the reference surface.
A passbook width adjusting pressure roller 12 presses the passbook against the passbook width adjusting feed roller 11.
The passbook width adjusting pressure roller 12 has a structure that can be separated from the passbook width adjusting feed roller 11 by an actuator B (not shown).

Reference numeral 18 denotes a passbook transport path, and 16 and 17 are passbook guides constituting the passbook transport path 18.
Reference numeral 19 denotes a blade provided at the junction of the bankbook conveyance path 18 and the slip conveyance path 47, and switches the medium conveyance direction.
Although not shown, the passbook stage and passbook guide 16 are provided with magnetic heads.

Next, the printing unit 20 will be described.
Reference numeral 26 denotes a print transport path of a medium provided in the print unit 20, a plurality of feed rollers 21, 22, 23 for transporting the medium, a pressure roller for pressing the medium against these feed rollers, and a vertical transport guide 24 for guiding the medium. , 25 and the like.
The front side of the print conveying path 26 is connected to the blade 19 portion of the inserter unit 10, and when the medium that has been processed by the print unit 20 is discharged, the blade 19 is operated according to the type of the medium, and printing is performed. The medium transported on the transport path 26 is sent to the slip transport path 47 or the passbook transport path 18.

Also, the blade 19 is operated to connect the passbook transport path 18 and the print transport path 26, and the passbook set in the passbook transport path 18 is sent to the print transport path 26, or the blade 19 is operated to connect the slip transport path 47. The slip set on the slip transport path 47 by connecting the print transport path 26 can be sent to the print transport path 26.
A reading unit 27 reads a page mark, a printed line, and the like of the passbook sent to the print conveyance path 26.

Reference numeral 28 denotes a print head unit, and 29 denotes a platen.
Next, the ATP unit 30 will be described.
Reference numeral 35 denotes a medium ATP conveyance path provided in the ATP unit 30, a plurality of feed rollers 31 and 32 for conveying the medium, a pressure roller for pressing the medium against these feed rollers, and upper and lower conveyance guides 33 and 34 for guiding the medium. It is composed of

The front side of the ATP transport path 35 is connected to the rear side of the print transport path 26 of the printing unit 20, and a passbook determined to require page turning is sent from the print transport path 26, and the passbook after page turning is completed. It feeds into the print conveyance path 26.
Next, the slip inserter unit 40 will be described.
Reference numerals 43 and 44 denote feed rollers for conveying the medium in the slip stage and the slip guide 45, and pressure rollers for pressing the medium against these feed rollers are arranged to face each other. This pressure roller has a structure that can be separated from the feed rollers 43 and 44 by an actuator C (not shown).

Reference numeral 41 denotes a slip width-feeding feed roller for carrying the medium to abut the reference surface, and reference numeral 42 denotes a slip-width-feeding pressure roller that presses the medium against the slip width-feeding feed roller 41. The slip width adjusting pressure roller 42 can be separated from the slip width adjusting feed roller 41 by an actuator D (not shown).
47 is a slip conveyance path, and 46 is a slip guide provided opposite to the slip guide 45.

  In FIG. 2, 51 is a bankbook inhalation detection sensor that detects that a bankbook has been set, 52 is a bankbook inhalation monitoring sensor that detects that a bankbook has been inhaled into the bankbook transport path 18, and 53 is a bankbook in the bankbook transport path 18. A passbook conveyance monitoring sensor that monitors the conveyance, 54 is a reading monitoring sensor that monitors the reading timing of the reading unit 27, 55 is a print monitoring sensor that monitors the printing timing of the print head unit 28 of the printing unit 20, 56 Is an ATP monitoring sensor that monitors the timing of the turn page of the ATP unit 30, 57 is a slip inhalation detection sensor that detects that a slip has been set, and 58 is a slip suction that detects that the slip has been absorbed by the slip transport path 47. A monitoring sensor 59 is a slip conveyance monitoring sensor for monitoring that the slip is being conveyed on the slip conveyance path 47.

Next, the slip processing operation of the passbook slip processing apparatus 1 will be described.
An operator sets a slip whose one end is glued to the slip stage and the slip guide 45 with the glued side facing the passbook slip processing apparatus 1 rather than the operator. When the slip inhalation detection sensor 57 detects the slip, the slip width adjusting pressure roller 42 is pressed against the slip width adjusting feed roller 41 by driving an actuator E (not shown) (FIG. 3). It should be noted that the means for recognizing that the slip is glued is any means such as a means for marking the slip and reading the medium type, or a means for optically detecting and identifying the thickness of the medium. Good.

Next, when a slip with one end glued to the slip transport path 47 is set, the blade 19 is switched from the slip transport path 47 to the print transport path 26 by an actuator F (not shown). An actuator G (not shown) is driven, and the glued end of the slip with one end glued is pressed against the reference surface.
After the actuator G is turned off, the actuator E is turned off (FIG. 4).

Next, the actuator C is driven, and the pressure roller is pressed against the feed rollers 43 and 44 (FIG. 5).
After that, the slip with one end glued passes through the slip transport path 47 by driving an actuator H (not shown), passes through the slip suction monitoring sensor 58 and the slip transport monitoring sensor 59, and is transported to the printing unit 20 side ( FIG. 6).

  After the predetermined printing is performed by the printing unit 20, the slip with one end glued is fed from the print transport path 26 to the slip transport path 47, and the slip with one end glued is transported. The slip is glued on one end side by pressing the pressure roller against the feed rollers 43 and 44, and the slip is passed through the slip conveyance monitoring sensor 59, but the feed roller 44 and the pressure roller being driven The first sheet of the slip with the one end side on the feed roller 44 side is conveyed in advance by the friction between the first sheet of the slip with one end glued and the second and subsequent slips, and the one end side is glued. The slips that are glued on one end side are not conveyed between the slips of the second and subsequent slips of the slips that are in contact with the slip guides 45 and 46. The document whose one end is glued by that load conveyance is stopped (jammed).

At this time, the leading end in the conveyance direction (discharge direction) of the slip whose one end is glued is not transported to the slip suction monitoring sensor 58. Further, the slip with one end glued stops on the slip transport monitoring sensor 59, and the rear end is located on the slip transport monitoring sensor 59 side from the blade 19 (FIG. 7).
Since the slip with which one end side is glued by the slip suction monitoring sensor 58 cannot be detected in a certain time, the driving of the actuator H is stopped. Thereafter, the driving of the actuator C that is pressing the pressure roller of the feed roller 44 is stopped, and the pressure roller is separated from the feed roller 44 (FIG. 8). As a result, the slip with one end glued becomes free, and the first sheet returns to the same position as the second and subsequent sheets by the rigidity (elasticity) of the slip (FIG. 9).

When the leading edge and the trailing edge return to the same position as the second and subsequent sheets (jam release), the load that is in contact with the slip guides 45 and 46 is eliminated. Thereafter, the actuator C (not shown) is driven again to press the pressure roller against the feed roller 44 (FIG. 10).
Next, the actuator H is driven to convey the slip with one end glued in the discharge direction, and is discharged after passing the slip conveyance monitoring sensor 59, the slip suction monitoring sensor 58, and the slip suction detection sensor 57 (FIG. 11). ).

  According to the embodiment having the above-described configuration, the pressure roller can be released from the feed roller, so that it is possible to maintain a high processing speed without causing a conveyance jam in a slip formed of a plurality of sheets and glued on one end side. It becomes.

The configuration is the same as that of the first embodiment, and different parts are shown in FIGS.
In the figure, 61 is a slip guide and 62 is a movable slip guide, which can be moved by an actuator I (not shown).
Next, the slip processing operation of the passbook slip processing apparatus 1 will be described.
An operator sets a slip whose one end is glued to the slip stage and the slip guide 45 with the glued side facing the passbook slip processing apparatus 1 rather than the operator. When the slip inhalation detection sensor 57 detects the slip, the slip width adjusting pressure roller 42 is pressed against the slip width adjusting feed roller 41 by driving an actuator E (not shown) (FIG. 3). It should be noted that the means for recognizing that the slip is glued is any means such as a means for marking the slip and reading the medium type, or a means for optically detecting and identifying the thickness of the medium. Good.

Next, when a slip with one end glued to the slip transport path 47 is set, the blade 19 is switched from the slip transport path 47 to the print transport path 26 by an actuator F (not shown). An actuator G (not shown) is driven, and the glued end of the slip with one end glued is pressed against the reference surface.
After the actuator G is turned off, the actuator E is turned off (FIG. 4).

Next, the actuator C is driven, and the pressure roller is pressed against the feed rollers 43 and 44 (FIG. 5).
After that, the slip with one end glued passes through the slip transport path 47 by driving an actuator H (not shown), passes through the slip suction monitoring sensor 58 and the slip transport monitoring sensor 59, and is transported to the printing unit 20 side ( FIG. 6).

  After the predetermined printing is performed by the printing unit 20, the slip with one end glued is fed from the print transport path 26 to the slip transport path 47, and the slip with one end glued is transported. The slip is glued on one end side by pressing the pressure roller against the feed rollers 43 and 44, and the slip is passed through the slip conveyance monitoring sensor 59, but the feed roller 44 and the pressure roller being driven The first sheet of the slip with the one end side on the feed roller 44 side is conveyed in advance by the friction between the first sheet of the slip with one end glued and the second and subsequent slips, and the one end side is glued. The second and subsequent sheets of slips that are not transported are slipped between the slips and contacted with the slip guides 45 and 46 without being conveyed. The document whose one end is glued by that load conveyance is stopped (jammed).

At this time, the leading end in the conveyance direction (discharge direction) of the slip whose one end is glued is not transported to the slip suction monitoring sensor 58. Further, the slip with one end glued stops on the slip transport monitoring sensor 59, and the rear end is located on the slip transport monitoring sensor 59 side from the blade 19 (FIG. 7).
Since the slip with which one end side is glued by the slip suction monitoring sensor 58 cannot be detected in a certain time, the driving of the actuator H is stopped. Further, the pressure roller is separated from the feed roller 44. Thereafter, the actuator I (not shown) is driven to move the movable slip guide 62 from a predetermined position to a position where it does not become a load for transporting the slip with one end glued (FIG. 14). As a result, the slip with one end glued becomes free, the second and subsequent sheets can be moved to the same position as the first sheet by the rigidity (elasticity) of the slip, and the jam is released.

After the movable slip guide 62 operates to a position where it does not become a transport load, the actuator H is driven to press the pressure roller against the feed roller 44, and the slip with one end glued is transported in the discharge direction, the slip transport monitoring sensor 59, It passes through the slip suction monitoring sensor 58 and the slip suction detection sensor 57 and is discharged (FIG. 15).
According to such an embodiment, by providing the movable slip guide, it is possible to perform the transport processing without temporarily stopping the transport motor, and without causing the transport jam to the slip composed of a plurality of sheets and glued on one end side. It is possible to maintain a high processing speed.

The configuration is the same as in the first embodiment.
Next, the slip processing operation of the passbook slip processing apparatus 1 will be described.
An operator sets a slip whose one end is glued to the slip stage and the slip guide 45 with the glued side facing the passbook slip processing apparatus 1 rather than the operator. When the slip inhalation detection sensor 57 detects the slip, the slip width adjusting pressure roller 42 is pressed against the slip width adjusting feed roller 41 by driving an actuator E (not shown) (FIG. 3). It should be noted that the means for recognizing that the slip is glued is any means such as a means for marking the slip and reading the medium type, or a means for optically detecting and identifying the thickness of the medium. Good.

Next, when a slip with one end glued to the slip transport path 47 is set, the blade 19 is switched from the slip transport path 47 to the print transport path 26 by an actuator F (not shown). An actuator G (not shown) is driven, and the glued end of the slip with one end glued is pressed against the reference surface.
After the actuator G is turned off, the actuator E is turned off (FIG. 4).

Next, the actuator C is driven, and the pressure roller is pressed against the feed rollers 43 and 44 (FIG. 5).
After that, the slip with one end glued passes through the slip transport path 47 by driving an actuator H (not shown), passes through the slip suction monitoring sensor 58 and the slip transport monitoring sensor 59, and is transported to the printing unit 20 side ( FIG. 6).

  After the predetermined printing is performed by the printing unit 20, the slip with one end glued is fed from the print transport path 26 to the slip transport path 47, and the slip with one end glued is transported. The slip is glued on one end side by pressing the pressure roller against the feed rollers 43 and 44, and the slip is passed through the slip conveyance monitoring sensor 59, but the feed roller 44 and the pressure roller being driven The first sheet of the slip with the one end side on the feed roller 44 side is conveyed in advance by the friction between the first sheet of the slip with one end glued and the second and subsequent slips, and the one end side is glued. The slips that are glued on one end side are not conveyed between the slips of the second and subsequent slips of the slips that are in contact with the slip guides 45 and 46. That transport the document whose one end is glued is stopped by the load.

At this time, the leading end in the conveyance direction (discharge direction) of the slip whose one end is glued is not transported to the slip suction monitoring sensor 58. Further, the slip with one end glued stops on the slip transport monitoring sensor 59 (jammed state), and the rear end is positioned on the slip transport monitoring sensor 59 side from the blade 19 (FIG. 7).
Since the slip suction monitoring sensor 58 cannot detect the slip with one end glued in a certain time, the blade 19 is switched so that it can be transported from the booklet transport path 18 to the print transport path 26 (FIG. 16).

Next, by stopping the driving of the actuator C that presses the pressure roller of the feed roller 44 and separating the pressure roller from the feed roller 44, the slip with one end glued becomes free, and the first sheet is 2 The slip returns to the same position as the first and subsequent sheets by the rigidity (elasticity) of the slip (FIG. 17).
Since the leading edge and the trailing edge have returned to the same position as the second and subsequent sheets, the load contacting the slip guides 45 and 46 is eliminated. Further, since the slip with one end glued is not clamped by the feed roller 44, the slip transport path 47 which is inclined due to its own weight falls (jam release), and the blade 19 is switched so that the blade 19 is switched to transport the print. It stops without falling down to the road 26 (FIG. 18).

Thereafter, the actuator C (not shown) is driven again to press the pressure roller against the feed roller 44 (FIG. 19).
Next, the actuator H is driven to convey the slip with one end glued in the discharge direction, and is discharged through the slip transport monitoring sensor 59, the slip suction monitoring sensor 58, and the slip suction detection sensor 57 (FIG. 20). ).

  According to the above configuration, by switching the blade to be switched to slip conveyance, the slip that is not clamped by the feed roller falls on the slip conveyance path inclined by its own weight, stops by hitting the blade, and one end side is glued Since the free ends of the slips are aligned and can be transported again by the feed roller, it is possible to avoid slip jams without stopping the transport motor and maintain a high processing speed. Become.

Explanatory drawing which shows Example 1. Explanatory drawing which shows Example 1. Illustration of operating state Illustration of operating state Illustration of operating state Illustration of operating state Illustration of operating state Illustration of operating state Illustration of operating state Illustration of operating state Illustration of operating state Explanatory drawing which shows Example 2. Illustration of movable slip guide Explanatory drawing of the operation state of Example 2. Explanatory drawing of the operation state of Example 2. Explanatory drawing of the operating state of Example 3 Explanatory drawing of the operating state of Example 3 Explanatory drawing of the operating state of Example 3 Explanatory drawing of the operating state of Example 3 Explanatory drawing of the operating state of Example 3 Illustration of conventional example Illustration of conventional example

Explanation of symbols

DESCRIPTION OF SYMBOLS 1 Passbook slip processing apparatus 10 Passbook inserter unit 11 Passbook width adjustment feed roller 12 Passbook width adjustment pressure roller 13, 14, 15 Feed roller 16, 17 Passbook guide 18 Passbook conveyance path 19 Blade 20 Printing unit 21, 22, 23 Feed roller 24 , 25 transport guide 26 print transport path 27 reading section 28 print head section 29 platen 30 auto turn page (ATP) unit 31, 32 feed roller 33, 34 transport guide 35 ATP transport path 40 slip inserter unit 41 slip width feeding feed roller 42 Slip width adjusting pressure roller 43, 44 Feed roller 45, 46 Slip guide 47 Slip conveyance path
51 Passbook inhalation detection sensor 52 Passbook inhalation monitoring sensor 53 Passbook conveyance monitoring sensor 54 Reading monitoring sensor 56 ATP monitoring sensor 57 Voucher inhalation detection sensor 58 Voucher inhalation monitoring sensor 59 Voucher conveyance monitoring sensor 61 Voucher guide 62 Movable voucher guide

Claims (3)

In the passbook slip processing apparatus configured by disposing the pressure roller opposite to the feed roller at an appropriate interval in the conveyance path configured by the upper and lower guides,
A slip suction monitoring sensor is placed between the feed rollers,
When a voucher with one end glued is conveyed with the non-glued side leading, the first sheet of the voucher with one end glued is conveyed in advance, and the second and subsequent sheets are not conveyed between the vouchers. If the slip suction monitoring sensor cannot detect in a certain time a jammed state in which the conveyance is stopped due to a load that has shifted and touched the guide, the pressure roller is moved away from the feed roller, thereby freeing the slip. The slip is returned to the same position as the first and subsequent sheets due to the rigidity (elasticity) of the slip and the leading and trailing edges are aligned to the same position as the second and subsequent sheets, and the jammed state is released. A passbook slip processing apparatus, characterized in that it is transported. In the passbook slip processing apparatus configured by disposing the pressure roller opposite to the feed roller at an appropriate interval in the conveyance path configured by the upper and lower guides,
One guide of the upper and lower guides is a movable guide that can adjust the distance to the other guide,
A slip suction monitoring sensor is placed between the feed rollers,
When a voucher with one end glued is conveyed with the non-glued side leading, the first sheet of the voucher with one end glued is conveyed in advance, and the second and subsequent sheets are not conveyed between the vouchers. If the slip suction monitoring sensor cannot detect in a certain time a jammed state where conveyance has stopped due to a load that has shifted and touched the guide, the movable guide is moved from a predetermined position to a position that does not become the load for slip transport, and the interval is increased. , The pressure roller is moved away from the feed roller to free the slip, and the second and subsequent slips on one side of the slip are moved to the same position as the first slip due to the rigidity (elasticity) of the slip to release the jam. A passbook slip processing apparatus, wherein the slip is conveyed by pressing the pressure roller against the feed roller again. In the passbook slip processing apparatus configured by disposing the pressure roller opposite to the feed roller at an appropriate interval in the conveyance path configured by the upper and lower guides,
A blade for switching the conveyance direction is provided on the inclined conveyance path in the conveyance path,
A slip suction monitoring sensor is placed between the feed rollers,
When a voucher with one end glued is conveyed with the non-glued side leading, the first sheet of the voucher with one end glued is conveyed in advance, and the second and subsequent sheets are not conveyed between the vouchers. If the slip suction monitoring sensor cannot detect in a certain time a jammed state where conveyance has stopped due to a load that touches the guide, the blade is switched, the pressure roller is moved away from the feed roller, and the slip is freed. It falls by its own weight along the slope from the gluing end side, so that the first sheet of the slip returns to the same position as the second and subsequent sheets by the rigidity (elasticity) of the slip and the gluing end contacts the blade and The trailing edge is aligned to the same position as the second and subsequent sheets, the jam is released, and the pressure roller is pressed against the feed roller again to convey the slip. Passbook document processing apparatus according to claim and.

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