JP4064619B2 - Card issuing device - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a card issuing device. More specifically, the present invention relates to a card issuing device including a card scrap ticket receiving unit for storing a card in which some error has occurred at the time of issuing the card.
[0002]
[Prior art]
When a card is issued by the card issuing device, some error may occur during recording on the card by the card reader unit, but it is not appropriate to issue the card in the same manner as a normal card. For this reason, a card scrap ticket receiving unit is provided inside the card issuing device for storing unnecessary cards that have caused some kind of error. Further, since a card feeding mechanism for taking out one card from the card stacker and transporting it to the card reader unit is installed inside the card issuing device, the card waste ticket receiving unit is installed at a position where it does not interfere with the card feeding mechanism. There is a need.
[0003]
For this reason, as a card scrap ticket reception part, what is shown, for example in FIG. 20 may be used. The card scrap ticket receiving unit 100 includes a reject box 102 that accommodates the unnecessary card 101, and a reject box moving mechanism 103 that moves the reject box 102 to a position P for receiving the unnecessary card 101 and a position Q for retracting. Yes. Accordingly, the reject box 102 can be retracted during a normal card issuing operation, and when the unnecessary card 101 is generated, the reject box 102 can be positioned at the receiving position P and the unnecessary card 101 can be collected.
[0004]
[Problems to be solved by the invention]
However, since the reject box 102 moves in the card issuing device described above, the following inconvenience occurs as compared with the case where a fixed reject box is used. First, since there are many moving members such as actuators and levers and position sensors for movement, and the number of parts increases, there is a high possibility of failure, resulting in low reliability and increased part cost. End up. In addition, the reject box 102 must be made smaller than a fixed type, and the card capacity is small. Furthermore, it is difficult to wire a connection cable such as a card detection sensor attached to the reject box 102. Moreover, the processing time required for the operation of scrapped tickets becomes long.
[0005]
SUMMARY OF THE INVENTION An object of the present invention is to provide a card issuing device that can reduce the number of parts, increase the capacity of a card, facilitate the wiring of connection cables, and expedite the operation of discarded tickets.
[0006]
[Means for Solving the Problems]
In order to achieve such an object, the invention described in claim 1 includes a card reader unit that performs predetermined recording on a card and discharges an unnecessary card from the card port, and an unnecessary card is inserted from the card port of the card reader unit. In a card issuing device provided with a card scrap ticket receiving unit to be collected, the card scrap ticket receiving unit includes a card stopper that contacts an unnecessary card discharged from the card slot, and an unnecessary card that contacts the card stopper that falls. A reject box to be accommodated, and a stopper moving mechanism for moving the card stopper to a use position where an unnecessary card abuts and a retreat position to retreat from the card transport path are provided.
[0007]
When a normal card is inserted into the card slot, the stopper moving mechanism positions the card stopper at the retracted position. As a result, the card can be moved back and forth on the card transport path without contacting the card stopper. On the other hand, when an unnecessary card is generated in the card reader unit, the stopper moving mechanism positions the card stopper at the use position. For this reason, the unnecessary card discharged from the card slot comes into contact with the card stopper and falls to be accommodated in the reject box. Therefore, unnecessary cards can be collected with the minimum number of moving parts.
[0008]
The stopper moving mechanism Before recording Card From card stacker to card reader The card stopper is moved between the use position and the retracted position by being actuated by the carriage to be conveyed. Therefore, since a dedicated actuator for operating the stopper moving mechanism is not required, the failure of parts can be reduced and the operation reliability can be improved.
According to a second aspect of the present invention, in the card issuing device according to the first aspect, the carriage is provided from the card stacker when issuing the card. Before recording The card stopper is movably provided so that the card is sent out to the card slot, and the card stopper may be moved between the use position and the retracted position by moving the carriage.
According to a third aspect of the present invention, in the card issuing device according to the second aspect, the card stopper is biased so as to be located at the use position, and the card stopper is moved by moving the carriage to the card port. From use position Evacuation position In place You may make it move.
[0009]
And claims 4 The invention described in claim 1 Any one of 3 In the described card issuing apparatus, the reject box is arranged below the card stacker unit. Therefore, the empty space of the card issuing device can be used effectively.
[0010]
And claims 5 The invention described is from claim 1 4 In the card issuing device described above, the reject box has an open / close lid on the side. Therefore, the unnecessary card collected in the reject box can be easily taken out by opening the opening / closing lid.
[0011]
DETAILED DESCRIPTION OF THE INVENTION
Hereinafter, the configuration of the present invention will be described in detail based on the best mode shown in the drawings.
[0012]
1 to 4 show an example of an embodiment of the card issuing device 86 of the present invention. The card issuing device 86 performs predetermined recording on the card 14 and ejects the unnecessary card 14 from the card port 87, and collects the unnecessary card 14 from the card port 87 of the card reader unit 3. And a card scrap ticket receiving unit 4 to be used. The card scrap ticket receiving unit 4 includes a card stopper 88 on which the unnecessary card 14 discharged from the card port 87 abuts, a reject box 58 in which the unnecessary card 14 abutting on the card stopper 88 is dropped and accommodated, A stopper moving mechanism 89 for moving the card stopper 88 between the use position S and the retracted position T is provided. Here, the use position S of the card stopper 88 is a position where the unnecessary card 14 discharged from the card slot 87 contacts the card stopper 88. Further, the retracted position T of the card stopper 88 is a position where the card stopper 88 is retracted from the card transport path L1. Further, the card stopper 88 at the use position S is provided so as to be spaced from the card slot 87 for one card 14. Thereby, the discharged unnecessary card 14 is surely dropped.
[0013]
Thus, when a normal card 14 is inserted into or removed from the card slot 87, the stopper moving mechanism 89 positions the card stopper 88 at the retracted position T. Therefore, the card 14 can travel back and forth on the card transport path L1 without contacting the card stopper 88. On the other hand, when the unnecessary card 14 is generated in the card reader unit 3, the stopper moving mechanism 89 positions the card stopper 88 at the use position S. For this reason, the unnecessary card 14 discharged from the card slot 87 abuts against the card stopper 88 and falls and is accommodated in the reject box 58. Therefore, the unnecessary card 14 can be collected with the minimum number of moving parts.
[0014]
The stopper moving mechanism 89 is provided on the bracket 55 fixed to the frame 54, supports the card stopper 88 so as to be swingable between the use position S and the retracted position T, and the card stopper 88 at the use position. And a return spring 57 formed of a torsion coil spring that is biased so as to be positioned at S. The stopper moving mechanism 89 is operated by the carriage 26 that conveys the card 14. That is, when the carriage 26 moves to the card port 87 side, the card stopper 88 at the use position is pushed down to the retracted position T, and when the carriage 26 moves away from the card port 87, the card stopper 88 at the retracted position T returns. 57 returns to the use position S. For this reason, since a dedicated actuator for operating the stopper moving mechanism 89 is not necessary, the failure of parts can be reduced and the operation reliability can be improved.
[0015]
Further, the card stopper 88 at the use position S is positioned by 59 per degree formed on the bracket 55. A sliding portion 60 having a low frictional resistance is formed at a portion of the card stopper 88 where the carriage 26 abuts. The sliding portion 60 is made of, for example, low friction plastic such as polyacetal, and is provided so as to be in contact with the carriage 26 moving toward the card port 87 at an angle. For this reason, the carriage 26 can push down the card stopper 88 with a minimum force.
[0016]
The reject box 58 is arranged below the card stacker unit 1 as shown in FIG. Thereby, the empty space of the card issuing device 86 can be used effectively. The reject box 58 is preferably provided with a slippery, for example, vinyl chloride sheet that has been subjected to an antistatic treatment on the inner surface. According to this, it is possible to prevent the dropped unnecessary card 14 from being caught on the inner surface of the reject box 58 obliquely. Here, a card sensor for detecting that the unnecessary card 14 has been collected is provided at the bottom of the reject box 58. Since the reject box 58 is fixed, the card sensor can be easily wired.
[0017]
The reject box 58 has an open / close lid 61 on the side. Therefore, by opening the opening / closing lid 61, the unnecessary card 14 collected in the reject box 58 can be easily taken out. The opening / closing lid 61 is swingably provided around a support shaft 70 provided on the lower side of the reject box 58. A return spring 71 made of a torsion coil spring that biases the opening / closing lid 61 in the closing direction is provided. Thus, even if an external force is applied to the opening / closing lid 61 and the lid is opened, the external spring is automatically recovered by the urging force of the return spring 71 and closed.
[0018]
By the way, the card scrap ticket receiving unit 4 is in contact with the one side in the width direction of the unnecessary card 14 between the card stopper 88 and the card port 87 from below and rotates the unnecessary card 14 to rotate the unnecessary card 14 when dropped. It has. For this reason, the unnecessary card 14 discharged from the card port 87 comes into contact with the card stopper 88 and falls. At this time, as shown in FIG. 3, the one side portion in the width direction of the unnecessary card 14 is brought into contact with the rotation imparting means 62 and rotated so that the one side portion on the opposite side of the unnecessary card 14 is lowered. As a result, the unnecessary card 14 can be collected in a fixed posture aligned with the reject box 58.
[0019]
The rotation imparting means 62 includes a stopper-side projection 63 formed from the card stopper 88 toward the lower side of the card port 87, and a card port-side first projection formed from the lower side of the card port 87 toward the card stopper 88. 64 and a card port side second protrusion 65 formed toward the card stopper 88 adjacent to the card port side first protrusion 64. As a result, the unnecessary card 14 discharged from the card slot 87 is rotated while being in contact with the stopper-side protrusion 63 and the card slot-side first protrusion 64, and is in contact with the card slot-side second protrusion 65 during the rotation. It will be returned to the back. However, whether the unnecessary card 14 is rotated halfway, once or more depends on the height from the rotation applying means 62 to the bottom of the reject box 58.
[0020]
The stopper-side protrusion 63 is formed on the uppermost surface and has a sliding surface 66 having a small friction coefficient and a step at a slightly lower position on the center side in the width direction of the card 14 than the sliding surface 66. And a locking portion 67 having a large friction coefficient. When the stopper-side protrusion 63 is made of, for example, metal, the sliding surface 66 can be made smooth, but for example, a slippery, for example, vinyl chloride-based sheet subjected to antistatic treatment may be provided. The locking portion 67 is made of rubber, for example. For this reason, when the unnecessary card 14 is discharged, it is guided with a small frictional force along the sliding surface 66 of the stopper-side protrusion 63. Therefore, even the unnecessary card 14 that is curved can be reliably collected without being caught. Further, when the unnecessary card 14 falls, as shown in FIG. 3, since it is caught by friction on the edge of the locking portion 67, a rotational force is applied without sliding off from the stopper side protrusion 63.
[0021]
Further, the card port side first protrusion 64 has a length of about 15 mm, for example. A locking portion 68 made of a material having a large friction coefficient such as rubber is formed at the tip of the card port side first protrusion 64. For this reason, when the unnecessary card 14 falls, the engaging portion 68 is caught by friction, so that a rotational force is applied without sliding off from the card port side first protrusion 64.
[0022]
Further, the card port side second protrusion 65 is, for example, about 9 mm long, and is formed at a position slightly lower on the center side in the width direction of the card 14 than the uppermost surface of the locking portion 68 of the card port side first protrusion 64. ing. The protrusions 64 and 65 are about 18 mm apart. Thereby, it is possible to rotate the vicinity of the center of the unnecessary card 14 around the rotation center.
[0023]
On the other hand, the card slot 87 of the card reader unit 3 is provided with a static elimination brush 69 that contacts the unnecessary card 14 discharged from the card slot 87. For this reason, the unnecessary card 14 discharged from the card port 87 is prevented from being charged with static electricity, so that it is surely aligned inside the reject box 58, and at the time of discharging the unnecessary card 14 from the card port 87. It is possible to prevent jumping away with momentum.
[0024]
A card guide 90 is provided on the side of the card reader portion 3 where the rotation providing means 62 of the card port 87 is provided. As a result, the unnecessary card 14 is prevented from being accidentally dropped to the side on the rotation imparting means 62 side.
[0025]
Here, the overall configuration of the card issuing device 86 described above will be described below. The card issuing device 86 includes, for example, a card stacker unit 1, a card removal / moving mechanism 2, a card reader unit 3, a card scrap ticket receiving unit 4, an indent / embossing mechanism 5, a topper mechanism 6, and a control unit 7. Yes.
[0026]
The card stacker unit 1 is configured by stacking and stocking a large number of cards and arranging a plurality of card stackers 9 each having a card supply unit 8 formed at an end thereof at predetermined positions. In the present embodiment, for example, four card stackers 9 are provided, and each card stacker 9 is arranged side by side so that cards can be taken out in the same direction on the same plane. Different types of cards may be stocked in each card stacker 9, and the same type of cards may be stocked in all card stackers 9. The card supply unit 8 of each card stacker 9 is formed below the card stacker 9. That is, each card stacker 9 is of a type that replenishes cards from above. As shown in FIG. 9, each card supply unit 8 includes a convex portion 10 provided on a side wall 9 a inside each card stacker 9 (indent / embossing mechanism 5 side) and an inner convex portion 11 of the card receiving block 13. A gap larger than the thickness of one card and smaller than the thickness of two cards is formed between the convex portion 10 and the inner convex portion 11. Therefore, two or more cards 14 do not pass through the card supply unit 8 at the same time, and the cards 14 in each card stacker 9 are taken out one by one.
[0027]
The upper portions of the side walls 9a to 9d of each card stacker 9 spread in a funnel shape. Here, the side wall 9b located outside the card issuing device 86 (on the side opposite to the indent / embossing mechanism 5) and the side wall 9c on both sides in the longitudinal direction of the card issuing device 86 are simply folded outward and expanded in a funnel shape. However, it is necessary to prevent interference between the side walls 9d arranged side by side in the adjacent card stacker 9 between the bent portions. For this reason, as shown in FIG. 10 and FIG. 11, the upper part of the side wall 9d arranged side by side with the adjacent card stacker 9 is notched so as to alternate with the adjacent side wall 9d. 15, the upper part of the side wall 9 d adjacent thereto is bent. In this way, by bending the upper portion alternately, the two adjacent side walls 9d can be arranged close to each other, and each card stacker 9 can be arranged compactly. In addition, by expanding the upper portions of the side walls 9a to 9d of each card stacker 9 in a funnel shape, the cards 14 can be easily replenished to each card stacker 9.
[0028]
A card receiving portion 16 is provided below each card stacker 9, that is, on the side opposite to the side on which the cards 14 are stacked. This card receiving portion 16 is configured to receive the card 14 at three positions in the front and rear positions in the card delivery direction. In this embodiment, as shown in FIG. 12, the outer side wall 9b of each card stacker 9 is provided. It is comprised from the inner convex part 11 and the outer side convex part 12 of the card receiving block 13 fixed to the lower end, and the convex part 17 attached to the lower end of the outer side wall 9b. The card receiving block 13 is formed, for example, by cutting the upper surface of an aluminum block to form the convex portions 11, 12, and 17. As described above, the front end and the rear end of the card 14 are one place (the convex portion 11) inside the card stacker 9 and two places (the convex portions 12 and 17) outside, that is, three positions in the front and rear positions in the card feeding direction. Even if the card 14 is curved by receiving the card 14 at the two locations, the inner convex portion 11 will surely support the inner edge of the card 14, and the card 14 that is sent out will be securely in the gap of the card supply portion 8. Can be passed through. Reference numeral 18 in FIG. 12 denotes a sensor for detecting the IC contact of the card 14. Whether the card 14 is properly oriented by detecting the IC contact provided on the front surface of the card 14 from the back side of the card 14. Is detected. Reference numeral 19 denotes a sensor that detects the presence or absence of the card 14. These sensors 18 and 19 are attached to the lower ends of the side walls 9a to 9d of each card stacker 9.
[0029]
The card take-out moving mechanism 2 is provided so as to be movable between the card supply units 8 of the plurality of card stackers 9, and takes out (sends out) the card 14 from the card supply unit 8 of each card stacker 9. The card removal / movement mechanism 2 includes a card holding unit 20, a card removal unit 21, an X-axis movement mechanism 22, and a Y-axis movement mechanism 23.
[0030]
The X-axis moving mechanism (card moving mechanism) 22 moves the card holding unit 20 and the card removal unit 21 in the arrangement direction of the card stacker 9 at a position separated from the card stacker 9, as shown in FIG. The rotation of the X-axis drive motor 24 is transmitted to the X-axis drive belt 25, and the carriage 26 of the card holder 20 connected to the X-axis drive belt 25 is moved along the two X-direction guide shafts 27 and 28. .
[0031]
The card holding unit 20 moves between the card stackers 9, and as shown in FIG. 14, the carriage 26 that moves along the two X direction guide shafts 27 and 28 of the X axis moving mechanism 22, and the card 14. The card holding member 29 is movable between a temporary holding position (a solid line P1 position in FIG. 15) for temporarily holding the card 14 and a strong pressure position (a two-dot chain line P2 position in FIG. 15) for holding the card 14 with a strong pressure. . The card holding member 29 is Y Axis moving mechanism 23 by Y Axial direction (Arrow direction) It is set to be the strong pressure position P2 when moving to. That is, the strong pressure position P2 is a position where the card holding member 29 and the card take-out portion 21 are separated from the card stacker 9. When the card holding member 29 is moved to the strong pressure position P2, the X-axis moving mechanism 22 is operated, and the card 14 Transport.
[0032]
Two Y-direction guide shafts 30 of the Y-axis moving mechanism 23 are attached to the carriage 26. Guided by these two Y-direction guide shafts 30, the card holding member 29 moves between the temporary holding position P1 and the strong pressure position P2. Further, as shown in FIG. 15, a cam groove 31 for driving the card holding member 29 is formed on the upper surface of the carriage 26. That is, when the card holding member 29 moves along the two Y-direction guide shafts 30, the L-shaped lever 33 to which the roller 32 moving in the cam groove 31 is attached rotates to move the operation lever 34. The lower end of the card pressing lever 35 is operated. As shown in FIG. 16, the tip of the card pressing lever 35 presses the intermediate lever 37 via the coil spring 36, and the intermediate lever 37 presses the card holding lever 38. That is, when the card holding member 29 moves from the temporary holding position P1 to the strong pressure position P2, the L-shaped lever 33 rotates so that the tip end portion thereof is positioned substantially in line with the operating lever 34. The lower end of the pressing lever 35 is pushed out. As a result, the end of the card pressing lever 35 pushes down the intermediate lever 37 via the coil spring 36 and presses the upper card holding block 39 attached to the tip of the card holding lever 38 against the lower card holding block 40. In this state, as shown by a two-dot chain line in FIG. 15, the tip of the L-shaped lever 33 and the operation lever 34 are positioned substantially in a straight line, so that a so-called toggle clamp state is established, and each card holding block 39, 40 is placed. Even when an external force is applied in the direction of widening the gap, the space between the card holding blocks 39 and 40 is difficult to spread, and the card 14 can be firmly held between the card holding blocks 39 and 40. On the other hand, when the card holding member 29 is moved from the strong pressure position P2 to the temporary holding position P1, the L-shaped lever 33 pulls the operation lever 34, so that the force that the operation lever 34 pushes the lower end of the card pressing lever 35 is released. Accordingly, the force for pressing the upper card holding block 39 against the lower card holding block 40 is also released. In this state, the card 14 cannot be firmly held by the card holding blocks 39 and 40, but the card 14 can be held with a relatively light force by the leaf springs 41 provided on both sides of the card holding blocks 39 and 40. Hold it. That is, the card 14 can be temporarily held.
[0033]
In addition, as shown in FIG. 17, the rubber plate 42 is affixed on the surface of each card holding block 39, 40 in order to protect the card 14 to be held and to prevent the card 14 from slipping (see FIG. 17). 17 shows only the lower card holding block 40). Also, the vicinity of both ends of the surface of each card holding block 39, 40 swells, and the card 14 is held at two points.
[0034]
The card takeout unit 21 is a card delivery mechanism that takes out the card 14 from the card supply unit 8 formed in each card stacker 9. The card delivery mechanism constitutes a card delivery device together with the card stacker unit 1.
[0035]
The card take-out part (card delivery mechanism) 21 includes a moving body 44 reciprocated by a Y-axis drive motor 43 of a Y-axis movement mechanism 23 that is a drive source, and a card engagement claw part that engages with an end face of the card 14. 45. The moving body 44 is disposed on the card stacker 9 side of the card holding member 29, and moves while being guided by the two Y-direction guide shafts 30 of the Y-axis moving mechanism 23 in the same manner as the card holding member 29. Here, as shown in FIG. 18, the card holding member 29 cannot penetrate under the card stacker 9, but the moving body 44 can penetrate under the card stacker 9, and the rear of the card stacker 9. Can move up to. The card engaging claw portion 45 is supported so as to be able to turn in the vertical direction with respect to the moving body 44, and as shown in FIG. It is biased by a spring 85. Therefore, the card engaging claw portion 45 is pushed down by the lower surface of the card 14 when it goes under the card stacker 9, while the card engaging claw portion 45 is lifted to catch the claw 45 a on the edge of the card 14. Can do. It is also possible to follow the curve of the card 14. The card engagement claw portions 45 are provided at two positions spaced apart from each other by the movable body 44. The two card engagement claw portions 45 are arranged in the arrangement direction of the card stacker 9, in other words, the X-direction guide shaft 27. , 28 are arranged in parallel with each other. In addition, the movement locus | trajectory of the two card engaging parts 45 is shown with the dashed-dotted line L2 in FIG.
[0036]
The moving body 44 is provided with a card support 46 that contacts the card 14 remaining in the card stacker 9 when the card 14 is taken out. The card support portion 46 prevents the second card 14 from the bottom from hitting the card engagement claw portion 45 and pushing it down when the card engagement claw portion 45 feeds the lowermost card 14. For this reason, the claw 45a of the card engagement claw portion 45 does not come off from the lowermost card 14.
[0037]
The Y-axis moving mechanism 23 moves the card take-out unit 21 so as to take out the card 14 from the card supply unit 8 of each card stacker 9, and the two Y-direction guide shafts 30 of the Y-axis moving mechanism 23 are the X-axis. A moving mechanism 22 is attached to a carriage 26 that can move in the X-axis direction. The rotation of the Y-axis drive motor 43 of the Y-axis moving mechanism 23 is transmitted to a pulley 78 attached to the end of the Y drive shaft 47 on the topper mechanism 6 side via a belt 77 as shown in FIG. The rotation of the pulley 78 is transmitted to the Y drive shaft 47, and the rotation of the Y drive shaft 47 is interposed between the Y drive timing pulley 48 and the Y driven pulley 49 via the Y drive timing pulley 48 as shown in FIG. Is transmitted to the Y drive belt 50 wound around the belt. The Y drive belt 50 is connected to the moving body 44 of the card removal unit 21. Accordingly, when the Y drive belt 50 rotates, the moving body 44 moves along the Y direction guide shaft 30. At this time, the card holding member 29 is always pulled toward the card stacker 9 by a spring (not shown), that is, toward the moving body 44. For this reason, when the moving body 44 moves from the position shown in FIG. 14 toward the card stacker 9, it moves integrally with the moving body 44. That is, it moves from the strong pressure position P2 toward the temporary holding position P1. However, since the card holding member 29 cannot pass through the card stacker 9, when the moving body 44 passes through the card stacker 9, it is pressed against the side wall 9a of the card stacker 9 as shown in FIG. Yes.
[0038]
On the other hand, when the Y drive belt rotates in the reverse direction to that described above, the moving body 44 moves toward the card holding member 29 while taking out the card 14 from the position shown in FIG. The removed card 14 enters between the card holding blocks 39 and 40 of the card holding member 29 and is temporarily held by being sandwiched by a leaf spring 41 with a light force. The removed card 14 enters between the card holding blocks 39 and 40 while sliding with respect to the leaf spring 41 until the moving body 44 hits the card holding member 29. When the moving body 44 passes under the card stacker 9 and hits the card holding member 29, the moving body 44 moves while pushing the card holding member 29 forward. As a result, the card holding member 29 moves from the temporary holding position P1 to the strong pressure position P2, and the card 14 is firmly held between the card holding blocks 39 and 40.
[0039]
The rotation of the Y drive shaft 47 is transmitted to the pulley 75 via a pulley 74 attached near the end of the Y drive shaft 47 on the card reader unit 3 side as shown in FIG. By detecting the rotation angle of the pulley 75 by the sensor 76, the positions of the card holding member 29 and the card take-out portion 21 with respect to the carriage 26 can be detected.
[0040]
The card reader unit 3 is configured to be able to deliver a card to and from the card take-out moving mechanism 2, and performs predetermined recording on the card 14 delivered from the card slot 87 and issues the card 14 from the card issuing slot 51. And a recording unit. The transport unit transports the card 14 on the movement line in the X-axis direction by the X-axis moving mechanism 22, and has, for example, three pairs of rollers 52. The recording unit performs recording on the card 14, and includes a magnetic head that performs recording on the magnetic stripe of the card 14 and an IC contact block that performs recording by contacting the IC contact of the card 14. Here, the card reader unit 3 is provided at a position corresponding to the temporary holding position P <b> 1 of the card holding member 29. Therefore, when the card 14 sent out from the card stacker 9 is moved between the indent / emboss mechanism 5 and the topper mechanism 6 by the X-axis moving mechanism 22, the card holding member 29 moves to the strong pressure position P2. The card 14 is firmly held between the card holding blocks 39 and 40. However, when the card 14 is paid out to the card reader unit 3, the card holding member 29 is moved to the temporary holding position P1. The card 14 is lightly temporarily held by leaf springs 41 on both sides of each card holding block 39, 40. For this reason, when the leading end of the card 14 is inserted between the rollers 52 of the card reader unit 3, the card 14 is drawn into the card reader unit 3.
[0041]
The indent / emboss mechanism 5 and the topper mechanism 6 are provided at positions opposite to the card stackers 9 with the X-axis moving mechanism 22 of the card removal moving mechanism 2 interposed therebetween. The indent / embossing mechanism 5 is an embossing device that engraves predetermined characters, symbols, and the like on the card 14, and since an already known embossing device is used in this embodiment, its detailed description is omitted. Further, the topper mechanism 6 is a topper device that colors characters, symbols, etc. engraved by the indent / emboss mechanism 5, and since a known device is used in this embodiment, its detailed description is omitted. To do. However, the topper mechanism 6 is provided so as to be close to and away from the X-axis moving mechanism 22. That is, guide rails 72 and 72 that are orthogonal to and horizontal to the two X-direction guide shafts 27 and 28 of the X-axis moving mechanism 22 are attached to the frame 54 of the card issuing device 86, and the topper mechanism 6 It can move along the guide rails 72, 72. Thus, even when the topper mechanism 6 is arranged close to the X-axis moving mechanism 22, when maintenance such as exchanging the topping foil of the topper mechanism 6 is performed, the work space can be reduced by moving the topper mechanism 6 away from the X-axis moving mechanism 22. Therefore, the card issuing device 86 can be made compact.
[0042]
Note that reference numeral 73 in FIG. 5 denotes a sensor that detects the end of the card 14. This sensor 73 is for detecting whether or not the card 14 held by the card holding member 29 is inclined with respect to the X direction guide shafts 27 and 28. That is, by measuring the amount of movement of the card holding member 29 in the Y direction and the amount of movement of the carriage 26 in the X direction from when the sensor 73 detects one end of the card 14 until the other end is detected, the card 14 is inclined. Whether or not it is tilted, and if it is tilted, the amount of tilt can be detected. Further, a one-dot chain line L1 in FIG. 6 indicates a movement locus of the card 14, that is, a card conveyance path.
[0043]
A procedure for issuing the card 14 by the card issuing device 86 described above will be described below.
[0044]
In this card issuing device 86, the X-axis drive motor 24 and Y-axis drive motor 43, the indent / emboss mechanism 5, and the topper mechanism 6 of the card removal movement mechanism 2 are controlled by the control unit 7, and the card is removed from the plurality of card stackers 9. One card 14 is taken out by the moving mechanism 2, predetermined recording is performed by the card reader unit 3, and the card 14 is issued from the card issuing slot 51. Further, when the unnecessary card 14 is discharged from the card reader unit 3, the carriage 26 is moved in a direction away from the card reader unit 3, and the card stopper 88 is raised.
[0045]
Specifically, first, the control unit 7 operates the X-axis drive motor 24 to move the carriage 26 in front of the predetermined card stacker 9, and then operates the Y-axis drive motor 43 to operate the card holding member 29. The card take-out part 21 is moved, and the card engaging claw part 45 of the card take-out part 21 is used to hook and remove the lowermost card 14 in the card stacker 9. At this time, when the card holding member 29 is moved to the strong pressure position P <b> 2, the taken out card 14 is firmly held by the card holding member 29.
[0046]
Next, the control unit 7 operates the X-axis drive motor 24 to move the card 14 in the Y direction at the end near the card reader unit 3 of the card 14 in front of the sensor 73 to cut the sensor 73. measure. This value is α. The card 14 is again returned to the original position in the reverse α direction. Next, the card 14 is fed β toward the card reader unit 3 in the X-axis direction. The end of the card 14 far from the card reader unit 3 is sent in the Y direction to measure the position at which the sensor 73 is cut. This value is γ. If the end of the card 14 is parallel to the X axis, α = γ, and if it is oblique, α ≠ γ. The controller 7 calculates the holding posture of the card 14 based on this difference and the amount of β. Can be recognized.
[0047]
Next, the control unit 7 operates the X-axis drive motor 24 to move the carriage 26 in front of the indent / emboss mechanism 5 and operates the indent / emboss mechanism 5 to engrave characters and the like at predetermined positions on the card 14. When engraving a plurality of characters, etc., the X-axis drive motor 24 is operated to move the characters one by one while engraving the characters. In this case, when the holding posture of the card 14 detected by the sensor 73 is oblique, the control unit 7 operates the Y-axis drive motor 43 in accordance with the holding posture of the card 14 so that a string of characters or the like is displayed. Try to be straight. When the marking of characters and the like is completed, the control unit 7 operates the X-axis drive motor 24 to move the carriage 26 in front of the topper mechanism 6 and colors the characters and the like that are carved by the indent / embossing mechanism 5.
[0048]
Thereafter, the control unit 7 operates the X-axis drive motor 24 to move the carriage 26 toward the card reader unit 3. Then, the carriage 26 pushes down the card stopper 88 to be positioned at the retracted position T. At this time, the control unit 7 operates the Y-axis drive motor 43 immediately before reaching the card reader unit 3 to move the card holding member 29 to the temporary holding position P1. As a result, the card 14 is temporarily held, inserted into the card reader unit 3 from the card slot 87, and delivered. The card reader unit 3 issues a card 14 from the card issuing port 51 after performing predetermined recording in accordance with the control of the control unit 7.
[0049]
On the other hand, when there is some abnormality in the card 14 to be issued, the carriage 26 is moved away from the card reader unit 3 and the card stopper 88 is raised at the use position S, and the card of the card reader unit 3 is Unnecessary cards 14 are discharged from the mouth 87. Thereby, the unnecessary card 14 comes into contact with the card stopper 88 and is collected in the reject box 58 and stacked in the same posture.
[0050]
In this way, the processing for one card 14 is completed. The control unit 7 repeats the above control and issues cards 14 one after another.
[0051]
In addition, although the above-mentioned form is an example of the suitable form of this invention, it is not limited to this, In the range which does not deviate from the summary of this invention, various deformation | transformation implementation is possible. For example, in the present embodiment, the card issuing device 86 is provided with the rotation imparting means 62. However, the present invention is not limited to this, and the rotation imparting means 62 may not be provided. In this case, the unnecessary card 14 discharged from the card slot 87 falls into the reject box 58 in the same direction without rotating.
[0052]
In the above-described embodiment, the stopper moving mechanism 89 is operated by the carriage 26 that conveys the card 14, but is not limited thereto, and may be operated using another power source.
[0053]
Further, in the above-described embodiment, the reject box 58 is disposed below the card stacker unit 1, but the present invention is not limited to this and may be disposed in another empty space. Also in this case, the empty space of the card issuing device 86 can be used effectively. Further, in the present embodiment, the reject box 58 is built in the card issuing device 86, but the present invention is not limited to this, and a hole for dropping the unnecessary card 14 is formed in the base 54 of the card issuing device 86, and the hole A reject box 58 for collecting the unnecessary card 14 may be provided outside. In this case, the capacity of the reject box 58 can be increased.
[0054]
In the above-described embodiment, the reject box 58 has the opening / closing lid 61 on the side portion. However, the present invention is not limited to this. good.
[0055]
In each of the above-described embodiments, the card stopper 88 and the stopper moving mechanism 89 are fixed to the base 54. However, the present invention is not limited to this, and may be provided on the carriage 26, for example. Further, in the above-described embodiment, the card stopper 88 is supported so as to be able to swing. However, the present invention is not limited to this.
[0056]
【The invention's effect】
As described above, according to the card issuing device according to the first aspect, the unnecessary card discharged from the card slot comes into contact with the card stopper and falls and is accommodated in the reject box. In addition, it is possible to collect unnecessary cards with a minimum of moving parts. In addition, the reject box is fixed and can be installed outside as required, so that the capacity can be increased. Furthermore, since the reject box is fixed, wiring of the card sensor can be facilitated.
[0057]
The stopper moving mechanism Before recording Card From card stacker to card reader Actuated by the carriage to move, the card stopper is moved between the use position and the retracted position, so that a dedicated actuator for operating the stopper moving mechanism becomes unnecessary, reducing the number of component failures and improving the operation reliability. In addition, the cost of parts can be reduced. Moreover, the use of a dedicated actuator makes it possible to speed up the operation of scrapped tickets.
Further, as in the card issuing device according to claim 2, the carriage is provided from the card stacker when issuing the card. Before recording The card stopper may be provided so as to be movable so as to receive the card and send the card to the card slot, and the card stopper may be moved between the use position and the retracted position by moving the carriage.
Further, as in the card issuing device according to claim 3, the card stopper is biased so as to be positioned at the use position, and the card stopper is moved by moving the carriage to the card port. From use position Evacuation position In place You may make it move.
[0058]
And claims 4 According to the described card issuing device, the reject box is arranged below the card stacker unit, so that the empty space of the card issuing device can be used effectively.
[0059]
And claims 5 According to the described card issuing apparatus, the reject box has the opening / closing lid on the side portion, and therefore, the unnecessary cards collected in the rejection box can be easily taken out by opening the opening / closing lid.
[Brief description of the drawings]
FIG. 1 is a side view showing a main part of a card issuing apparatus according to the present invention.
FIG. 2 is a plan view showing a main part of the card issuing device.
FIG. 3 is a front view showing a main part of the card issuing device.
FIG. 4 is a front view showing a reject box.
FIG. 5 is a plan view showing a schematic configuration of a card issuing device.
FIG. 6 is a front view showing a schematic configuration of a card issuing device.
FIG. 7 is a left side view showing a schematic configuration of the card issuing device.
FIG. 8 is a right side view showing a schematic configuration of the card issuing device.
FIG. 9 is a front view of a card supply unit formed in a card stacker of the card issuing device.
FIG. 10 is a sectional view of the side wall of the card stacker of the card issuing apparatus arranged side by side with the adjacent card stacker.
FIG. 11 is a front view of a side wall arranged side by side in the adjacent card stacker among the side walls of the card stacker of the card issuing device.
FIG. 12 is a plan view showing a card receiving portion of the card issuing device.
FIG. 13 is a conceptual diagram showing an X-axis moving mechanism of the card issuing device.
FIG. 14 is a front view showing a card holding unit and a card removal unit of the card issuing device.
FIG. 15 is a plan view showing a cam groove formed in a carriage of a card holding unit of the card issuing device.
FIG. 16 is a side view showing a card holding member constituting a card holding unit of the card issuing device.
FIG. 17 shows a lower card holding block constituting a card holding unit of the card issuing device. B It is a perspective view which shows a hook.
FIG. 18 is a front view showing a card holding member and a card removal unit of the card issuing device.
FIG. 19 is an enlarged front view showing a card extraction unit of the card issuing device.
FIG. 20 is a side view showing a card scrap ticket receiving unit of a conventional card issuing device.
[Explanation of symbols]
1 Card stacker
3 Card reader part
4 card scrap ticket reception department
14 Unnecessary card
26 Carriage
58 Reject box
61 Opening and closing lid
86 Card issuing device
87 Card slot
88 Card stopper
89 Stopper moving mechanism
L1 card transport path

Claims (5)

A card issuing apparatus comprising a card reader unit that discharges an unnecessary card by performing predetermined recording on the card from a card port, and a card scrap ticket receiving unit that collects an unnecessary card from the card port of the card reader unit The card scrap ticket receiving unit includes a card stopper that contacts the unnecessary card discharged from the card port, a reject box that stores the unnecessary card that contacts the card stopper by dropping, and the card A stopper moving mechanism that moves the stopper to a use position where the unnecessary card abuts and a retreat position that retreats from the card conveyance path, and the stopper movement mechanism conveys the card before recording from the card stacker to the card reader unit. Actuated by a carriage to move the card stopper to the use position and the retracted position. Card issuing apparatus according to symptoms. The carriage receives the pre-recording from the card stacker card when the card issuing, the are those provided movably to deliver the card into the card slot, the card stopper and the use position by movement of the carriage The card issuing apparatus according to claim 1, wherein the card issuing apparatus is moved to the retracted position. The card stop is biased so as to be positioned in said use position, wherein the card stopper, characterized in that the moved from the use position by movement of the said card slot of the carriage in the retracted position location Item 3. A card issuing device according to item 2.   The card issuing device according to any one of claims 1 to 3, wherein the reject box is disposed below the card stacker unit.   5. The card issuing device according to claim 1, wherein the reject box has an opening / closing lid on a side portion.

Images