JP3864766B2 - Card reader / writer - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a card reader / writer.
[0002]
[Prior art]
A prepaid card was introduced in the game system of pachinko halls, etc., taking into account accounting of pachinko stores and convenience of customers, etc., in a system that enables play based on data on recording media such as cards in Taima Sand. ing. This type of card is mainly a magnetic card. On the magnetic card, the purchase amount and the like are printed, and the remaining number of times after the game medium is lent out is magnetically recorded, but this magnetic card has a remaining number of 0. When it becomes, it is returned to the customer side and taken back to the customer.
[0003]
By the way, prepaid cards are not so high in security, so there is a problem that a card taken home is forged and reused, which has become a social problem. The future direction is expected to change from a magnetic card to an IC card due to the prevention of card counterfeiting and the increase in recorded data on the card, but the unit price of an IC card is higher than that of a conventional magnetic card. Since the loss of the hole occurs due to the takeout of the customer, etc., it is necessary to collect the 0-degree card as the hole.
[0004]
On the other hand, in order for the card reader / writer itself to be able to purchase cards, it is necessary to stack one or more cards in the stack section. However, if the card is removed for some reason (there is no card in the read / write section), it has been necessary to set the 0-degree card by the hand of the store clerk. In particular, the trend of using high-priced cards has been increasing recently, and cards with a remaining balance are expected to be returned from a pedestal machine for settlement or play on different platforms, so multiple stacks A card is desired.
[0005]
[Problems to be solved by the invention]
However, when making cards stackable, there is a possibility that new cards may be inserted from the insertion slot, so there is a possibility that the number of stacked cards will continue to increase, and the number of cards stacked is fluid . For this reason, there is a problem that the size of the stack area is increased and the size of the apparatus is increased.
[0006]
The present invention was invented in view of the problems of the above-described conventional example, and the object of the present invention is to prevent the counterfeiting of cards that are no longer needed, and to collect and reuse cards that are no longer needed. An object of the present invention is to provide a card reader / writer capable of minimizing the size of a stack area for stacking cards.
[0007]
[Means for Solving the Problems]
In order to solve the above problems, the present invention is a card reader / writer in which only the card 2 that needs to be returned is returned to the insertion slot 3 and the used card 2 is stacked in the stack unit 5. As a card transport path, an insertion slot 3 into which the card 2 is inserted, a read / write unit 4 for reading data recorded in the inserted card 2 and writing predetermined data into the card 2, and a recycle over the card 2 is not a stack portion 5 for keeping stacked by a predetermined number of sheets, when the total number of stack cards 2b in the stack state exceeds a predetermined number exhaust stack card 2b of the surplus backward C The collection discharge unit 15 is arranged in a line, and the collection box 12 is arranged behind the collection discharge unit 15 at the rear C. The collection discharge unit 1 When the total number of stack card 2b of becomes more full are characterized in that a configuration in which collected in the collection box 12 by dropping the stack card 2b surplus backwards C, and this structure that is, there is no possibility that the stack card 2b that is not recycled over is tampered with is returned to the customer, also, it is possible to prevent the loss of cost-per-minute of the IC card itself in the case of expensive IC card, stack When the total number of stack cards 2b in the state becomes full or more, the excess stack cards 2b are collected from the rear C collection discharge section 15 into the collection box 12 below the rear C. , stack card 2b minimum required number of the stack portion 5 becomes stackable, it is possible to reduce the size minimization of the stack area . In addition, since the excess stack card 2b can be dropped into the collection box 12 by dropping it from the collection discharge section 15 to the rear C, the number of stack cards 2b can be limited with a simple structure and complicated A recovery mechanism is not required.
[0008]
It is also preferable that a card passage 7 for moving the new card 2a newly inserted from the insertion slot 3 and the stack card 2b stacked in the stack unit 5 in synchronization is provided. In this case, all the cards 2 move synchronously on the card traffic path 7, and wasteful collection of the stack cards 2b can be prevented.
[0009]
Further, since the card passage 7 moves the new card 2a and the stack card 2b in a line, the thickness can be saved, and a complicated stack mechanism is not required.
[0010]
Further, the card comprises a card discriminating means 8 for discriminating whether the new card 2a is a member card or a non-member card, and a card remaining degree checking means 9 for checking the remaining card number. If the card is 0, it is preferable that the new card 2a is stacked on the stack unit 5 without being returned from the insertion slot 3, and in this case, the customer is prevented from taking back the used card 2 it can.
[0011]
When the total number of stack cards 2b in the stack unit 5 is full and a new card 2a is inserted from the insertion slot 3, the last stack card 2b in the stack unit 5 is moved backward from the collection discharge unit 15. It is preferable that the card is collected by a collection box 12 provided on the lower side of C. In this case, the stack card 2b can be aligned in one row, space can be saved with respect to the thickness, and a complicated stack mechanism is not required. It becomes.
[0012]
In addition, it has a transport means 10 for generating a grip force for transporting the new card 2a and the stack card 2b, and a card presence / absence recognition sensor 11 at a position where a grip force for the new card 2a inserted from the insertion port 3 is generated. It is preferable that the conveyance means 10 is driven when the card 2 is detected by the card presence / absence recognition sensor 11. In this case, a grip force capable of conveying the card 2 is generated. Only when the card presence / absence recognition sensor 11 detects the new card 2a on the rear C side from the position, the transport means 10 can be operated by the card presence / absence recognition sensor 11 and only the stack card 2b can be prevented from moving. It becomes like this. As a result, useless collection of the last stack card 2b can be prevented.
[0013]
Further, when the card 2 having a data reading / writing portion built in the substantially central portion of the card 2 is used, the read / write portion 4 is provided at the substantially central portion in the card width direction A on the card passage 7. In this case, even if the card 2 is inserted upside down by mistake, the data on the card 2 can be read.
[0014]
In addition, it is preferable that the collected stack card 2b is dropped by its own weight into a collection box 12 disposed at the lower rear portion of the stack unit 5, and in this case, a complicated collection mechanism is not required.
[0015]
In addition, it is preferable that a space setting means 13 is provided for setting the space F between the cards 2 on the card passage 7 to the minimum space. In this case, the space F between the cards 2 By setting it to the minimum, the stack area can be minimized and the waste collection of the stack card 2b can be prevented.
[0016]
DETAILED DESCRIPTION OF THE INVENTION
Hereinafter, the present invention will be described based on embodiments shown in the accompanying drawings.
[0017]
The card reader / writer 1 of this embodiment is used as a medal machine such as a slot machine or an inter-game game lending machine such as a pachinko machine. FIG. 1 shows an arrangement of a new card 2a and a stack card 2b. FIG. 2 is a front view, FIG. 3 is a rear view illustrating the driving device 14, and FIG. 4 is a control block diagram of the card reader / writer 1. In FIG. 1, reference numeral 20 denotes a shutter.
[0018]
In the present embodiment, as a card transport path, an insertion slot 3 into which a card 2 is inserted, a read / write unit 4 for reading data recorded on the inserted card 2 and writing predetermined data on the card 2 A stack unit 5 for stacking a certain number of cards 2 that have not been recycled over, and when the total number of stacked stack cards 2b exceeds a certain number, the excess stack cards 2b are moved backward C The collection discharge portions 15 are arranged in a line, and a collection box 12 that is the collection means 6 is arranged behind the collection discharge portion 15 below the rear C. Then, the card 2 that needs to be returned (member card or non-member card whose remaining number is not 0) is returned to the insertion slot 3, and the used card 2 (non-member card whose remaining number is 0) is stacked on the stack unit 5. In addition, it is possible to purchase the card 2 at any time, and when the total number of stack cards 2b is more than full (in this example, 3 or more), the surplus stack cards 2b are placed in the collection box 12. It comes to collect. In the case where the card reader / writer 1 can purchase a new card 2, necessary data (frequency, date, etc.) is written in the stack card 2 b and discharged to the insertion slot 3.
[0019]
The card 2 is conveyed by the driving device 14. The drive device 14 is composed of a set of motor 16, gear 17, belt 10a, and the like, and conveys all the cards 2 synchronously. Thereby, the new card 2a and the stack card 2b inserted from the insertion slot 3 are arranged in a line and can move on the card passage 7 in synchronization.
[0020]
In consideration of the case where a data reading / writing unit (not shown) is built in substantially the center of the card 2, the read / write unit 4 is an abbreviation for the card width direction A on the card passage 7. Located in the center.
[0021]
Thus, since one or more cards 2 (two in this example) can be stacked in the stack unit 5, the customer can purchase the card 2 from the card reader / writer 1 of the present invention at any time. In addition, by stacking the used card 2 (for example, a non-member card with a remaining count of 0) on the stack unit 5, there is no risk that the used card 2 will be returned to the customer and tampered with it, In the case of an expensive IC card, a loss corresponding to the unit price of the IC card itself can be prevented. Further, when the total number of stack cards 2b in the stack state is full or more (in this example, 3 or more), the surplus stack cards 2b are put into the collection box 12 from the collection unit 15 for collection at the rear C. Since the cards are collected, the minimum necessary number (two in this example) of cards 2 can be stacked, and the size of the stack area can be minimized. In addition, as a method of collecting the stack card 2b, a so-called heart thick method is adopted in which when one new card 2a is inserted, the last one stack card 2b is dropped to the rear C. It becomes possible to limit the quantity of 2b.
[0022]
Further, in this example, the new card 2a and the stack card 2b are arranged in a line on the card passage 7 and can be moved synchronously, thereby making it possible to save space with respect to the thickness and eliminating the need for a complicated stack mechanism. Become. Incidentally, when the new card 2a and the stack card 2b move differently on the card passage 7 (for example, the new card 2a moves and the stack card 2b is stationary), a plurality of drive systems (for example, This requires a plurality of motors 16 and a plurality of belts 10a, which raises the problem of increased costs, complicated mechanisms, and increased dimensions. However, in this example, a new card path 7 and driving device 14 are used. Since the card 2a and the stack card 2b are moved in a single line in synchronization, only one drive system is required, and cost reduction and space saving can be achieved, and the stack card 2b is recovered by unnecessary forward rotation. There is also an advantage that it does not occur.
[0023]
Further, since the read / write unit 4 is positioned at the approximate center in the card width direction A on the card traffic path 7, the card 2 having a data read / write unit built into the approximate center of the card 2 is used. It can be used optimally for systems that do this. By the way, if the read / write unit 4 is positioned so as to be shifted from the substantially central part in the card width direction A, data may not be read when the card 2 is inserted upside down, and in this case, once The motor 16 rotates forward and the new card 2a is returned. At this time, the stack card 2b may move backward C and be collected. Therefore, in this example, since the read / write unit 4 is positioned at the center in the card width direction A, the data can be read even if the card 2 is mistakenly inserted, leading to an increase in operating rate. There is.
[0024]
Furthermore, as shown in FIG. 4, the card discriminating means 8 for discriminating whether the new card 2a inserted from the insertion slot 3 is a member card or a non-member card, and the remaining card number for checking the remaining card number. Confirmation means 9 is provided. The card discriminating means 8 and the remaining card number checking means 9 are composed of, for example, a magnetic sensor. When the card 2 that is a non-member card and the remaining number is 0 is detected, the new card 2a is not returned from the insertion slot 3. The cards are stacked on the stack unit 5 so that the customer can be prevented from taking back the card 2 which is a non-member card and the remaining number is 0. In the case of a membership card even if the remaining number is 0, the card 2 is returned to the insertion slot 3 so that it can be taken home. In other words, only the card 2 with the remaining frequency remaining or the member card only coming out from the insertion slot 3 is the non-member card 0 with the remaining frequency 0, is the remaining frequency increased from the stacked state? Either it will be collected.
[0025]
When the total number of stack cards 2b in the stack unit 5 is full and a new card 2a is inserted from the insertion slot 3, the control unit 18 drives the motor 16 to stack the last stack in the stack unit 5. Only the card 2b is collected from the collection discharge unit 15 into the collection box 12. Here, the card 2 to be collected is the last card 2b of the stack unit 5 when the number of cards 2 in the stack unit 5 is full and a new card 2 is inserted from the insertion slot 3. By collecting the last stack card 2b in this way, it becomes possible to align and stack a certain number of stack cards 2b in a line. Further, since the collected stack card 2b falls into the collection box 12 disposed in the lower rear portion of the stack portion 5 due to its own weight, a complicated collection mechanism is not required. Note that the stack card 2b is not necessarily dropped by its own weight, but can be collected by, for example, a transport device.
[0026]
Further, as shown in FIG. 1, a card presence / absence recognition sensor 11 is provided at a position where a grip force is generated for the new card 2a inserted from the insertion slot 3. The card presence / absence recognition sensor 11 is provided at an S ₁ position D ahead of the front end of the belt 10a, an S ₂ position C rearward of the front end of the belt 10a, and an S ₃ position C rearward. The belt 10a is driven when the card 2 is detected by the presence / absence recognition sensor 11. Incidentally, since the new card 2a and the stack card 2b are moved synchronously by a set of driving devices 14, the card presence / absence recognition sensor 11 for driving the driving device 14 is located on the front D side (insert port 3) from the front end of the belt 10a. The belt 10a may start to operate while the new card 2a cannot be transported. In this case, the new card 2a does not move and only the stack card 2b moves, and the rear C The stack card 2b may be collected. Therefore, in this example, since the card presence / absence recognition sensor 11 is provided at the positions S ₂ and S ₃ (FIG. 1) where the grip force is generated for the new card 2a inserted from the insertion slot 3, the card 2 can be transported. Since the belt 10a is operated only when the card presence / absence recognition sensor 11 detects the new card 2a at the position where a strong grip force is generated, that is, the rear C side of the belt 10a, only the stack card 2b moves. Can be prevented. Therefore, useless collection of the last stack card 2b can be prevented. Incidentally, S ₄ position in front D of the rear end of the belt 10a in FIG. 1, further S ₅ position of the front D, the card presence recognition sensor 11 to S ₆ position behind C of the rear end of the further belt 10a It is provided so that the presence or absence of the last stack card 2b can be detected.
[0027]
Further, the control unit 18 is provided with an interval setting means 13 for setting the interval F (FIG. 1) between the cards 2 on the card passage 7 to the minimum interval. When the new card 2a is inserted, the card presence / absence recognition sensor 11 detects this, and the belt 10a starts to move. At this time, if the interval F between the new card 2a and the stack card 2b or the interval F between the stack cards 2b is large. In addition, the stack area becomes wider, and the last stack card 2b may move backward C, resulting in wasteful collection. Therefore, in this example, the control unit 18 fixes the stack position of the stack card 2b. That is, when a new card 2 is inserted, the drive device 14 is driven and controlled so that the interval F between the cards 2 does not increase greatly. As a result, the interval F between the new card 2a and the stack card 2b and the interval F between each stack card 2b can be set to the minimum, the stack area can be further minimized, and the stack card 2b It becomes possible to prevent useless collection.
[0028]
【The invention's effect】
As described above, in the first aspect of the invention, as the card transport path, the insertion slot into which the card is inserted and the data recorded on the inserted card are read and the predetermined data is written on the card. and a read / write unit, and the stack part of the order to keep the stack a certain number of cards that are not recycled over, the stack card of the surplus when the total number of stack cards in the stack state has exceeded a predetermined number The collection discharge units that discharge to the rear are arranged in a line, the collection box is arranged behind the collection discharge unit, and the total number of stack cards in the collection discharge unit is more than full. since collected in the collection box by dropping the stack card surplus backwards when the return stack card to the customer that is not recycled over It is it eliminates the risk of being tampered with, also, it is possible to prevent loss of bid amount of IC card itself in the case of expensive IC card, when the total number of stack cards in the stack state has become more full Since the excess stack cards are collected from the rear collection discharge unit into the collection box, the minimum required number of stack cards can be stacked in the stack unit, limiting the number of stack cards. Therefore, it is possible to minimize the size of the stack area. In addition, since the excess stack cards can be dropped from the collection discharge section to the lower back and collected in the collection box, the number of stack cards can be limited with a simple structure, and a complicated collection mechanism is not required. Become.
[0029]
In addition to the effect of claim 1, the invention described in claim 2 is a card for synchronously moving a new card newly inserted from the insertion slot and a stack card stacked in the stack portion. Since the traffic path is provided, all the cards move synchronously on the card traffic path, so that wasteful collection of the stack cards can be prevented and the operating rate can be increased.
[0030]
In addition to the effect of the second aspect, the invention according to the third aspect allows the card passage to move the new card and the stack card aligned in a line, thereby saving space with respect to the thickness. Thus, a complicated stack mechanism is not necessary.
[0031]
In addition to the effect of claim 2, the invention described in claim 4 is a card determination means for determining whether the new card is a member card or a non-member card, and a card for checking the card remaining frequency If the remaining number is a non-member card and the remaining number is 0, the new card is stacked in the stack portion without being returned from the insertion slot. Taking it away can be prevented, and in the case of an IC card with a high unit price, loss of the IC card itself can be prevented.
[0032]
In addition to the effect described in claim 1, the invention according to claim 5 is characterized in that when the total number of stack cards in the stack portion is full and a new card is inserted from the insertion slot, Stack cards are collected from the collection discharge section by a collection box provided at the lower rear side of the collection card, so that the stack cards can be aligned in one row, space can be saved with respect to thickness, and a complicated stack mechanism is not required. .
[0033]
According to a sixth aspect of the present invention, in addition to the effect of the second aspect, the invention further includes a transport means for generating a grip force for transporting the new card and the stack card, and a new card inserted from the insertion slot. Since the card presence / absence recognition sensor is provided at a position where the grip force is generated and the card is detected by the card presence / absence recognition sensor, the conveyance means is driven. As a result, the transport means can be operated by the card presence / absence recognition sensor only after the card presence / absence recognition sensor detects a new card on the rear side, so that only the stack card can be prevented from moving. Wasteful collection can be prevented.
[0034]
According to a seventh aspect of the present invention, in addition to the effect of the first aspect, the card width on the card passage is used when a card having a data reading / writing portion is incorporated in a substantially central portion of the card. Since the read / write unit is positioned at the approximate center of the direction, even if the card is inserted upside down, the data can be read, leading to an increase in operating rate.
[0035]
In addition to the effect of claim 1, the invention according to claim 8 is that the collected stack card falls into a collection box disposed at the lower rear part of the stack portion by its own weight, so that a complicated collection mechanism is unnecessary. It becomes.
[0036]
In addition to the effect described in claim 2, the invention described in claim 9 is provided with interval setting means for setting the interval between the cards on the card passage to the minimum interval. It is possible to minimize the stack area and to prevent waste collection of the stack card by setting the interval of the minimum.
[Brief description of the drawings]
FIG. 1 is a side cross-sectional view illustrating an example of an embodiment of the present invention and explaining an arrangement state of a new card and a stack card and a collection state of a stack card.
FIG. 2 is a front view of the insertion slot and the recovery box of the above.
FIG. 3 is a rear view for explaining the above drive device;
FIG. 4 is a control block diagram of the card reader / writer of the above.
[Explanation of symbols]
DESCRIPTION OF SYMBOLS 1 Card reader / writer 2 Card 2a New card 2b Stack card 3 Insertion slot 4 Read / write part 5 Stack part 6 Collection means 7 Card passage 8 Card discrimination means 9 Card remaining frequency confirmation means 10 Conveyance means 11 Card presence / absence recognition sensor 12 Collection box 13 Interval setting means A Card width direction B Card insertion direction C Rear D Front F Interval

Claims (9)

Only the cards that need to be returned are returned to the insertion slot, and used cards are card readers / writers that are stacked in the stacking section. and a read / write unit for writing the predetermined data to the card reads the data recorded on the card, and the stacking unit for keeping stacked certain number of cards that is not recycled over and is in the stack state When the total number of stack cards exceeds a certain number, a collection discharge unit for discharging the excess stack cards to the rear is arranged in a line, and a collection box is located behind the collection discharge unit at the lower rear side. When the total number of stacked stack cards in the collection discharge section is full, drop the excess stack cards backwards. Card reader writer, characterized in that it is configured to be collected in the collection box.   2. A card reader / writer according to claim 1, further comprising a card passage for synchronously moving a new card newly inserted from the insertion slot and a stack card stacked in the stack section. .   3. The card reader / writer according to claim 2, wherein said card passage moves a new card and a stack card in line.   A card discriminating means for discriminating whether the new card is a member card or a non-member card, and a card remaining frequency number confirming means for confirming the remaining card number, which is a non-member card and the remaining frequency is zero 3. The card reader / writer according to claim 2, wherein the new card is stacked in the stack section without being returned from the insertion slot. When the total number of stack cards in the stack section is full and a new card is inserted from the insertion slot, the last stack card in the stack section is removed from the collection discharge section by a collection box provided on the lower rear side thereof. The card reader / writer according to claim 2, wherein the card reader / writer is collected.   A card presence / absence recognizing sensor is provided at a position where a gripping force for the new card inserted from the insertion slot is generated, and a card presence / absence recognizing sensor is provided. 3. The card reader / writer according to claim 2, wherein the conveying means is driven when a card is detected.   In the case of using a card having a data reading / writing unit at a substantially central part of the card, a read / write unit is located at a substantially central part in the card width direction on the card passage. The card reader / writer according to claim 2.   6. The card reader / writer according to claim 5, wherein the collected stack card falls by its own weight into a collection box disposed at a lower rear portion of the stack portion.   3. The card reader / writer according to claim 2, further comprising interval setting means for setting the interval between the cards on the card passage to a minimum interval.

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