JP4556264B2 - Card collection system and ball lending machine - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a card collection system and a ball lending machine for collecting cards used for lending balls used in a game machine, and in particular, a card collection system capable of collecting cards from a plurality of ball lending machines, And a ball lending machine constituting the same.
[0002]
[Prior art]
2. Description of the Related Art In recent years, ball lending machines for lending game balls have been proposed that use a card in which the lending price of balls is recorded as monetary amount data to convert the amount of balls to be purchased. When using such a ball lending machine, first, the user purchases a card corresponding to the amount of money to be played. At this time, amount data corresponding to the purchased amount is recorded on the purchased card. For example, if the user wants to play a game for 10,000 yen, the user purchases a card corresponding to 10,000 yen, and in this case, the purchased card records amount data equivalent to 10,000 yen. Will be.
[0003]
The user who purchased the card inserts the purchased card into the ball lending machine and lends the ball as much as necessary. At the time of lending, the price of the loaned ball will be subtracted from the amount data recorded on the card, and lending of the ball with this card will be done until the amount recorded on the card falls below the lending price and fee of the ball be able to. The card whose balls are purchased in this way and whose balance indicated by the amount data is below a certain value is discharged from the ball lending machine and returned to the user.
[0004]
However, in a ball lending machine that returns used cards to the user in this way, virtually all used cards are discarded, which is undesirable in terms of effective use of resources and reduction of running costs. . Therefore, as a means for solving such a problem, a ball lending machine has been proposed in which used cards are temporarily stored in a ball lending machine and can be collected and reused. As another method, a system has been proposed in which used cards are collected from a plurality of ball lending machines by a belt conveyor or the like and the cards are reused.
[0005]
[Problems to be solved by the invention]
However, while the game space is being effectively used, the occupied width in which the ball lending machine is arranged is limited, and the width of the ball lending machine has to be made smaller than the width of the card. In the case of a ball lending machine whose width is narrower than the width of the card in this way, in the conventional method of temporarily storing the used card in the ball lending machine, the used card is stored in the ball lending machine. There is a problem that used cards cannot be collected.
[0006]
In addition, in the conventional method of temporarily storing used cards in a ball lending machine, collection of the cards stored in the ball lending machine must be manually performed by a store clerk for each ball lending machine. In addition, there is a problem that it takes time and labor to collect cards.
[0007]
Furthermore, in the conventional method of collecting used cards from a plurality of ball lending machines using a belt conveyor or the like, if a problem such as card clogging occurs in a part of the collection system, the entire collection system will not function. There is.
[0008]
In addition, if a problem occurs during the transportation of a used card, the entire system must be stopped until the problem is repaired.
The present invention has been made in view of the above points, and even when the occupied width of the ball lending machine is limited, it is possible to efficiently collect used cards, and there is a problem with a part of the collection system. However, it is an object of the present invention to provide a card collection system that can repair a defect without stopping the collection system.
[0009]
[Means for Solving the Problems]
In the present invention, in order to solve the above-mentioned problems, the cards used for lending balls used for the game machine are collected. Na In the card collection system, a card reading means for reading data recorded on the card, a collection control means for instructing collection of the card, a card storage section for storing the cards stacked in an oblique manner, and the card being ejected Card lending machine, a ball lending machine having a discharge card path for guiding the card discharged from the card discharge port to a position where the card can be transported, and a card for transporting the card guided by the discharge card path A transport unit, and a card collection unit for collecting the card transported by the card transport unit. The ball lending machine discharges the card that has received the collection instruction from the card discharge port when there is no problem in transporting the card, and there is a problem in transport of the card. The card that received the collection instruction is stored in the card storage unit. A card collecting system is provided.
[0010]
Here, the card reading means reads the data recorded on the card, the collection control means gives a card collection instruction, the card storage unit stores the cards stacked in an oblique direction, and the card discharge port stores the cards. The card is discharged to the outside of the ball lending machine, the discharge card passage guides the card discharged from the card discharge port to a position where it can be transported, and the card transport means transports the card guided by the discharge card passage. The card collecting unit collects the card conveyed by the card conveying means.
[0011]
In addition, the card used to rent balls used for the game table The card is discharged to a card transport means for transporting the card to the card collection unit, and the card In the ball lending machine for collecting the card, a card reading means for reading the data recorded on the card, a collection control means for instructing the collection of the card, a card storage section for storing the cards stacked in an oblique manner, A card outlet for discharging the card; To a position where the card conveying means can convey, The card discharged from the card discharge port Invite A discharge card passage to guide If there is no problem in the card transport, the card that has received the recovery instruction is ejected from the card discharge port. If there is a problem in the card transport, the recovery instruction The received card is stored in the card storage unit. A ball lending machine is provided.
[0012]
Here, the card reading means reads the data recorded on the card, and the collection control means Said The card collection instructions are given, and the card storage section Said Cards are stacked and stored diagonally, and the card outlet is Said The card is discharged to the outside of the ball lending machine, To the position where the card transport means can transport, The card discharged from the card discharge port Invite Guide.
[0013]
DETAILED DESCRIPTION OF THE INVENTION
Hereinafter, embodiments of the present invention will be described with reference to the drawings.
FIG. 1 is a configuration diagram showing a schematic configuration of a card collection system 1 in the present embodiment.
[0014]
The card collection system 1 includes a ball lending machine 10 for lending gaming balls using a non-contact IC card, a prepaid card or the like as an information medium, and the card used in the ball lending machine 10 is stored in the ball lending machine 10. A card storage unit 11 to be stored and a ball lending machine 10 are provided in a discharge card path 12 and a discharge card path 12 for guiding a card discharged from the ball lending machine 10 to a position where the card can be conveyed. Exit sensor 12a for detecting a card passing through the card lending machine 10, a card transport rail 3 which is a card transport means for transporting a card ejected from the ball lending machine 10 and guided by the ejected card path, and the card transported by the card transport rail 3 Are provided in the card transport safe 2 and the card transport safe 2 which are card recovery units from which the card is recovered and collected in the card transport safe 2 It has an inlet sensor 2a for detecting the card that.
[0015]
Here, a plurality of ball lending machines 10 are installed for one card transport safe 2 and a card transport rail 3, and a card discharged from the plurality of ball lending machines 10 is one card via the card transport rail 3. It will be collected in the transport safe 2.
[0016]
FIG. 2 is a perspective view showing a specific configuration example of the card collection system 1.
In the card collection system 1 in the configuration example of FIG. 2, a plurality of ball lending machines 10 that correspond one-to-one with a plurality of gaming machines 4 are installed between the gaming machines 4. One card transport rail 3 and a card transport safe 2 are installed for the plurality of ball lending machines 10, and a card discharged from each ball lending machine 10 is a discharge card installed in each ball lending machine 10. The card transport rail 3 is guided to the card transport rail 3 by the passage 12, and the card transport rail 3 transports the card discharged from each ball lending machine 10 to the card transport safe 2, and the card transport safe 2 collects the transported card.
[0017]
FIG. 3 is a cross-sectional view showing the configuration of the ball lending machine 10, and FIG. 4 is a front view thereof. 4A shows a state in which the front panel 11f is closed, and FIG. 4B shows a state in which the front panel 11f is opened.
[0018]
The ball lending machine 10 receives instructions from a card reader / writer 15 that is a card reading unit that reads data recorded on the card 20, a control device 13 that is a collection control unit that instructs collection of the card 20, and a control device 13. The ball supply control device 14 that gives the ball supply instruction to the game stand, the card storage unit 11 that stores the cards 20 in an oblique stack, the card discharge port 16 that discharges the cards 20, and the card discharge port 16 The discharge card passage 12 guides the card 20 to a position where it can be conveyed.
[0019]
The card reader / writer 15 has a card insertion slot 15a, and the card 20 is inserted from the card insertion slot 15a.
The card storage unit 11 is a front panel 11f which is an openable / closable door disposed outside the card storage unit 11, and the card 20 stored in the card storage unit 11 is prevented from popping out from the card outlet 11aa. It is determined whether or not the card 20 is stored in the stopper 11g as a means, a drawer structure portion 11a for transporting the card 20 stored by being pulled out to the outside, a panel key 11h for locking the front panel 11f, and the card storage portion 11. Presence / absence sensor light-emitting unit 11b that emits detection light for detection, presence / absence sensor light-receiving unit 11c that detects detection light emitted by presence / absence sensor light-emitting unit 11b, and whether or not the number of stored cards 20 has reached the upper limit. The upper limit sensor light emitting unit 11d that emits the detection light for detection and the upper limit sensor light emitting unit 11d It is constituted by the upper light-receiving unit 11e for detecting light.
[0020]
FIG. 5 is a configuration diagram showing an electrical configuration of the ball lending machine 10 according to the present embodiment.
As described above, the ball lending machine 10 includes the control device 13, the card reader / writer 15, the panel key 11h, the ball supply control device 14, the exit sensor 12a, the presence sensor light emitting unit 11b, the presence sensor light receiving unit 11c, and the upper limit sensor light emitting unit. 11d and an upper limit sensor light receiving portion 11e. The control device 13 is electrically connected to the panel key 11h, the card reader / writer 15, the ball supply control device 14, the exit sensor 12a, the presence sensor light emitting portion 11b, the presence sensor light receiving portion 11c, the upper limit sensor light emitting portion 11d, and the upper limit sensor light receiving portion 11e. The ball supply control device 14 is electrically connected to the game machine. Furthermore, the control device 13 is electrically connected to a management computer 40 installed in the store or the like, and the management computer 40 is electrically connected to the entrance sensor 2a, the unlocking device 30, and other ball lending machines. It is connected.
[0021]
Next, the operation of the card collection system 1 will be described with reference to FIGS.
When a user lends a game ball using the ball lending machine 10, the user first purchases the card 20 using a card vending machine or the like separately installed in the store. In the card purchased here, the price necessary for lending the ball is recorded as amount data.
[0022]
A user who has purchased the card 20 inserts the purchased card 20 into the direction A shown in FIG. 3 from the card insertion slot 15 a of the ball lending machine 10, and the inserted card 20 is taken into the card reader / writer 15. The card reader / writer 15 that has taken in the card 20 reads the amount data recorded on the taken-in card 20 and informs the control device 13 of the result.
[0023]
The control device 13 that has received the amount data separately considers the number of balls lent out and the like input by the user, subtracts the price and fee of the lent balls from the amount data, and purchases them to the ball supply control device 14. Give instructions to supply the finished balls. Upon receiving the ball supply instruction, the ball supply control device 5 gives a ball supply instruction to the game machine, and the game machine that receives this instruction outputs the ball. Here, the ball output itself is performed by the game stand, but a structure for outputting a ball to the ball lending machine 10 may be provided so that the ball is output from the ball lending machine.
[0024]
On the other hand, the amount data obtained by subtracting the ball lending price etc. is sent to the card reader / writer 15 where it is recorded on the card 20. Here, the amount corresponding to the subtracted amount data is once. In other words, if the number of balls that can be lent by the card 20 is less than or equal to the number of balls that are normally lent by one ball rental, the control device 13 The ball supply control device 14 is instructed to output as many balls as can be lent out to the card 20 to output balls for the balance. At the same time, the amount indicated in the amount data of the card 20 is set to 0, and a collection instruction for collecting the card 20 is given to the card reader / writer 15. Receiving this instruction, the card reader / writer 15 sets the amount indicated in the amount data of the card 20 to 0, and discharges the card 20 from the card discharge port 16 in the direction C shown in FIG.
[0025]
The card 20 discharged from the card discharge port 16 is inserted into the discharge card passage 12, and the card 20 inserted into the discharge card passage 12 falls freely along the inner wall of the discharge card passage 12, and the card is conveyed. Guided to the top of the rail 3. The card 20 guided to the upper part of the card transport rail 3 is transported in the transport direction shown in FIG. 1 by the card transport rail 3 and collected in the card transport safe 2. By doing in this way, the used card | curd 20 in each ball lending machine 10 can be collect | recovered collectively.
[0026]
As described above, the card 20 discharged from the card discharge port 16 moves along the discharge card passage 12 and the card transport rail 3 and is collected in the card transport safe 2. Detected by an exit sensor 12a installed in the discharge card passage 12 and an entrance sensor 2a installed in the card transport safe 2, it is possible to detect problems such as card clogging during the transport. When the exit sensor 12a detects a malfunction in the middle of transporting the card 20, the ball lending machine 10 provided with the exit sensor 12a that has found the malfunction and the transport direction of the card 20 in the card transport rail 3 are malfunctioned. The collection of the cards 20 in all the ball lending machines 10 located upstream from the ball lending machine 10 that has found the above is switched to internal storage. Here, “internal storage” refers to storing used cards 20 in the card storage units 11 of the respective ball lending machines 10, and in this case, the ball lending machine 10 receives the cards from the card outlet 16. Do not discharge. On the other hand, when the entrance sensor 2a detects a trouble in transporting the card 20, the collection of the card 20 in all the ball lending machines 10 that transport the used card 20 to the card transport safe 2 is switched to internal storage. At the same time, the malfunction detected by the exit sensor 12a or the entrance sensor 2a is notified to the store clerk, and the store clerk or the like who knows it will process the malfunction. By doing so, even if a problem in the conveyance of the card 20 occurs in the conveyance path of the card collection system 1, it is possible to repair the defect without interrupting the operation of the entire system. Become.
[0027]
Next, the collection switching process of the card 20 at the time of occurrence of a failure will be described with reference to FIG.
When the outlet sensor 12a detects a problem in conveying the card 20, the outlet sensor 12a sends a detection signal to the control device 13. Receiving the detection signal, the control device 13 sends a signal indicating that a failure has occurred to the management computer 40 and issues a collection processing switching command to the card reader / writer 15. Upon receiving this, the card reader / writer 15 stores the card 20 that has received the collection instruction in the card storage unit 11. On the other hand, the management computer 40 that has received a signal indicating that a failure has occurred is upstream of the ball lending machine 10 that has transmitted a signal indicating that a failure has occurred with respect to the transport direction of the card 20 in the card transport rail 3. A command is issued to all the ball lending machines 10 located at, and the collection of the cards 20 in those ball lending machines 10 is switched to internal storage.
[0028]
When the entrance sensor 2a detects a failure in transporting the card 20, the entrance sensor 2a sends a signal indicating that a failure has occurred to the management computer 40. The management computer 40 that has received this signal issues a command to all the ball lending machines 10 and switches the collection of the cards 20 in those ball lending machines 10 to internal storage.
[0029]
Next, the internal storage of the card 20 in the ball lending machine 10 will be described.
The card 20 is stored inside the card reader / writer 15 when the card 20 freely drops the card 20 in the direction B shown in FIG. 3. The dropped card 20 is stored in the drawer structure 11 a of the card storage unit 11.
[0030]
6 is a DD cross-sectional view of the drawer structure portion 11a in FIG. 3, and FIG. 7 is a perspective view showing a state of the card 20 housed in the drawer structure portion 11a.
As shown in FIGS. 6 and 7, the drawer structure portion 11 a includes an inclined plate 11ac having a planar shape that is disposed obliquely with respect to the bottom surface of the drawer structure portion 11 a, and has a planar shape with respect to the bottom surface. And a side plate 11ad having a planar shape arranged at a position perpendicular to the bottom surface, the inclined plate 11ac, and the vertical plate 11ab, respectively, and a vertical plate 11ab that forms a V shape in combination with the inclined plate 11ac. It is configured. Here, the inclined plate 11ac has a detection light passage portion 11ae that allows detection light output from the presence / absence sensor light emission portion 11b to pass therethrough.
[0031]
The card 20 dropped in the direction B falls down along the inclined plate 11ac arranged obliquely, and is stacked on the inclined plate 11ac. As a result, the cards 20 are stacked and stored obliquely with respect to the bottom surface of the drawer structure portion 11 a, and the cards 20 can be stored in a space narrower than the width of the cards 20.
[0032]
As shown in FIG. 7, the card 20 is stacked on the inclined plate 11ac, and one side surface thereof is held by the vertical plate 11ab, and another side surface is held by the side plate 11ad and stored. Here, the stored card 20 is held only by the three planes of the inclined plate 11ac, the vertical plate 11ab, and the side plate 11ad, and is not held from the surface on the card ejection port 11aa side facing the side plate 11ad. Therefore, a stopper 11g is disposed as means for holding the card 20 from the surface on the card removal port 11aa side and preventing the card 20 from jumping out from the card removal port 11aa.
[0033]
As shown in FIG. 3 and FIG. 4B, the stopper 11g has a plate shape, and the side surface of the card 20 stored in the drawer structure portion 11a is formed by the plate-shaped flat portion by the card outlet 11aa. Hold from the side. The stopper 11g has one side attached to the side surface of the drawer structure portion 11a, and is capable of rotational movement with the mounting portion as a rotation axis. By this rotational movement, the stopper 11g can be rotated and moved from a position where the flat surface portion is arranged in parallel with the side surface of the drawer structure portion 11a on the card outlet 11aa side to a vertically arranged position. Yes. Further, the stopper 11g is pressed by an elastic force of an elastic body such as a spring so that a flat surface portion thereof is arranged in parallel with the side surface on the card ejection port 11aa side. Thus, in a state where the drawer structure portion 11a is stored in the card storage portion 11, the stopper 11g always holds the side surface of the card 20 stored in the drawer structure portion 11a from the card ejection port 11aa side. .
[0034]
Next, the drawer operation of the drawer structure part 11a will be described. FIG. 8 is a cross-sectional view taken along line EE of the card storage unit 11 in FIG. 8A shows a state in which the drawer structure portion 11a is stored in the card storage portion 11, and FIG. 8B shows a state in which the drawer structure portion 11a is pulled out from the card storage portion 11. It shows the state.
[0035]
When the drawer structure portion 11a is pulled out, the front panel 11f attached to the outside of the card storage portion 11 is first opened. The front panel 11f has a plate shape, and opens and closes the door by performing a rotational motion around one end of the plate shape. The front panel 11f is locked by a panel key 11h, and the panel key 11h can be unlocked by inserting a key into the panel key 11h or by performing a remote operation described later. When the panel key 11h is unlocked and the front panel 11f is opened in the direction F shown in FIG. 8A, the drawing operation of the drawer structure portion 11a is started.
[0036]
The drawer structure part 11a is pulled out to the outside of the card storage part 11 in the direction (H direction) from the inside of the card storage part 11 toward the front panel 11f. When a force in the H direction is applied to the drawer structure portion 11a, the drawer structure portion 11a presses the stopper 11g from the inside toward the outside by the side surface on the card removal port 11aa side. The stopper 11g pressurized by the drawer structure portion 11a performs the rotational movement (G direction) around the rotation axis described above, and the plane portion rotates and moves to a position perpendicular to the side surface on the card ejection port 11aa side. . As a result, the stopper 11g that holds the card outlet 11aa side is stowed in the side surface of the card storage portion 11, and then a force in the H direction is further applied to the drawer structure portion 11a, whereby the card of the drawer structure portion 11a. The take-out port 11aa is pulled out of the card storage unit 11 (FIG. 8B). FIGS. 9 and 10 are detailed perspective views of the card storage unit 11 showing a process in which the card outlet 11aa is pulled out of the card storage unit 11. FIG. Here, FIG. 9 shows a state in which the stopper 11g holds the side surface of the card 20 accommodated in the drawer structure portion 11a from the card outlet 11aa side, and the front panel 11f is opened, and FIG. The state where the mouth 11aa is pulled out of the card storage unit 11 is shown.
[0037]
Next, a presence / absence sensor light emitting unit 11b, a presence / absence sensor light receiving unit 11c for determining whether or not the card 20 is stored, an upper limit sensor light emitting unit 11d for determining whether or not the number of stored cards 20 has reached the upper limit, and an upper limit sensor The operation of the light receiving unit 11e will be described. FIG. 11 and FIG. 12 are diagrams showing operations of the presence / absence sensor light emitting unit 11b, the presence / absence sensor light receiving unit 11c, the upper limit sensor light emitting unit 11d, and the upper limit sensor light receiving unit 11e.
[0038]
As shown in FIGS. 11 and 12, the presence / absence sensor light-emitting portion 11 b is inside the bottom surface of the card storage portion 11, and the presence / absence sensor light-receiving portion 11 c and the upper limit sensor light-receiving portion 11 e are inside the side surface of the card storage portion 11. 11 d is arranged inside the upper surface of the card storage unit 11. As a result, the detection light is output from the presence / absence sensor light emitting unit 11b and the upper limit sensor light emitting unit 11d in a direction that obliquely crosses the stacking direction of the stored cards.
[0039]
These sensors are controlled by the control device 13, and when the control device 13 instructs the card reader / writer 15 to store the card 20, an unlocking instruction is given to the panel key 11h by a remote operation described later. In this case, the detection light output from the presence / absence sensor light emitting unit 11b is detected by the presence / absence sensor light receiving unit 11c, and the detection light output from the upper limit sensor light emitting unit 11d is detected by the upper limit sensor light receiving unit 11e.
[0040]
First, a determination method for determining whether or not the card 20 is stored will be described with reference to FIG.
As shown in FIG. 11A, when the card 20 is not housed in the drawer structure portion 11a, the detection light output from the presence sensor light emitting portion 11b passes through the detection light passage portion 11ae of the drawer structure portion 11a. Then, it reaches the presence / absence sensor light receiving portion 11c and is detected there. On the other hand, as shown in FIG. 11B, when the card 20 is stored in the drawer structure portion 11a, the detection light output from the presence / absence sensor light emitting portion 11b is transmitted by the card 20 stored in the drawer structure portion 11a. The detection light does not reach the presence / absence sensor light receiving portion 11c. In this case, the detection light is not detected by the presence / absence sensor light receiving unit 11c.
[0041]
As described above, when the card 20 is not accommodated in the drawer structure portion 11a, the presence / absence sensor light receiving portion 11c detects the detection light, and when the card 20 is accommodated, the presence / absence sensor light reception portion 11c detects the detection light. Therefore, it is possible to determine whether or not the card 20 is stored in the drawer structure portion 11a by determining whether or not the presence / absence sensor light receiving portion 11c detects the detection light. Become.
[0042]
Next, a determination method for determining whether or not the number of stored cards 20 has reached the upper limit will be described with reference to FIG.
FIG. 12A shows a case where the stored card 20 has not reached the upper limit of the storage number. In this case, the detection light output from the upper limit sensor light emitting unit 11d reaches the upper limit sensor light receiving unit 11e and is detected there. On the other hand, (b) of FIG. 12 shows a case where the card 20 has reached the upper limit of the storage number. In this case, the detection light output from the upper limit sensor light emitting unit 11d is blocked by the card 20, and this detection light. Does not reach the upper limit sensor light receiving part 11e. In this case, the detection light is not detected by the upper limit sensor light receiving unit 11e.
[0043]
As described above, when the stored card 20 has not reached the upper limit of the storage number, the upper limit sensor light receiving unit 11e detects the detection light, and when the card 20 has reached the upper limit of the storage number, the upper limit sensor light receiving unit. Since 11e does not detect the detection light, it is determined whether or not the stored card 20 has reached the upper limit of the storage number by determining whether or not the upper limit sensor light receiving unit 11e detects the detection light. It becomes possible to do.
[0044]
Next, the determination procedure of the presence sensor and the upper limit sensor described above will be described with reference to FIG.
When the control device 13 instructs the card reader / writer 15 to store the card 20, or when an unlocking instruction is given to the panel key 11h by remote operation to be described later, the control device 13 causes the upper limit sensor light emitting unit 11d and The presence / absence sensor light emitting unit 11b is instructed to output detection light for a certain period. Upon receiving this instruction, the upper limit sensor light emitting unit 11 d and the presence sensor light emitting unit 11 b emit detection light, and the presence sensor light receiving unit 11 c and the upper limit sensor light receiving unit 11 e send detection results of these detection lights to the control device 13. Based on the detection results received from the presence / absence sensor light-receiving unit 11c and the upper limit sensor light-receiving unit 11e, the control device 13 determines the presence / absence and storage state of the card 20 according to the determination method described above, and performs various types according to the determination results Perform processing.
[0045]
Next, the collective unlocking operation of the plurality of ball lending machines 10 performed by remote operation will be described.
The collective unlocking operation of the plurality of ball lending machines 10 is performed by the unlocking device 30 installed in the store. As shown in FIG. 5, the unlocking device 30 is electrically connected to the management computer 40. The unlocking device 30 outputs an unlock signal by a key operation or the like, and the output unlock signal is transmitted to the management computer 40. The management computer 40 that has received the unlock signal sends an unlock signal to the control devices 13 of all the ball lending machines 10 connected. Receiving the unlock signal, each control device 13 determines whether or not the card 20 is stored in the card storage unit 11 by the above-described method, and controls itself when determining that the card 20 is stored. The panel key 11h is unlocked. Here, when it is determined that the card 20 is not stored, the panel key 11h is not unlocked. By doing so, only the ball lending machine 10 in which the card 20 is housed can be unlocked by interlocking a plurality of panel keys 11h, thereby simplifying the unlocking operation. Here, the management computer 40 sends the unlocking signal to all the ball lending machines 10, but the configuration is such that the unlocking signal is sent only to some of the ball lending machines 10 by an operation by the unlocking device 30 or the like. Also good.
[0046]
As described above, in this embodiment, the internal storage of the ball lending machine 10 is performed by stacking the cards 20 diagonally, so that even if the width of the ball lending machine 10 is narrower than the width of the card 20, the card 20. Can be stored.
[0047]
Further, the used card 20 that has received a collection instruction by the control device 13 is discharged from the card discharge port 16 and guided to the card transport rail 3 by the discharge card passage 12, and the card transport rail 3 uses the card 20 guided to the card. Since the card is transported to the transport safe 2 and the card transport safe 2 collects the transported card 20, it is possible to improve the efficiency of the card 20 recovery operation.
[0048]
Furthermore, when a problem in transportation occurs in the card 20, the card 20 is obliquely stacked in the card storage unit 11 of each ball lending machine 10 and stored internally, so a problem occurs in a part of the collection system. Even in this case, the function of the entire collection system can be maintained.
[0049]
In addition, when there is a problem in transporting the card 20, the card 20 is obliquely stacked in the card storage unit 11 of each ball lending machine 10 and stored internally, so that a problem occurred during the transport of the card. Even in such a case, it is possible to repair the defect without stopping the collection system.
[0050]
In this embodiment, every time the control device 13 instructs the card 20 to be collected, the card 20 is ejected from the card ejection port 16 and collected to the card transport safe 2 via the eject card path 12 and the card transport rail 3. The card 20 of each ball lending machine 10 is switched to the internal storage only when a problem occurs during the transfer. However, each time the control device 13 instructs the card 20 to be collected, the card 20 Only when the card 20 stored in the storage unit 11 and stored in the card storage unit 11 reaches the upper limit, the card 20 stored in the card storage unit 11 is discharged, and the card transport safe 3 is used by the card transport rail 3. It is good also as a structure collect | recovered in. In this case, whether or not the card 20 stored in the card storage unit 11 has reached the upper limit is determined by the upper limit sensor. The card transport rail 3 is operated only when one of the ball lending machines 10 ejects the card 20 stored in the card storage unit 11 and the discharged card 20 is collected in the card transport safe 2. It is good as well. This makes it possible to reduce running costs.
[0051]
In this embodiment, the money amount data is recorded on the card 20 and the control device 13 reads the money amount data recorded on the card 20 to lend the ball. However, the money amount data is recorded on the card 20 itself. Instead, the money amount data may be recorded in the management computer 40 installed in the store. In this case, an identification code or the like indicating the user is recorded on the card 20, and the amount data for each user recorded in the management computer 40 is read according to the contents of the card 20. The amount data will be subtracted.
[0052]
Furthermore, in this embodiment, the output of the detection light from the presence / absence sensor light emitting unit 11b and the upper limit sensor light emitting unit 11d is generated when the control device 13 instructs the card reader / writer 15 to store the card 20 or by remote operation. When the unlocking instruction is given to the panel key 11h, it is performed for a certain period, but the detection light may be output at other timing.
[0053]
【The invention's effect】
As described above, in the card collection system of the present invention, since the cards received with the collection instructions by the collection control means are stacked and stored diagonally in the card storage unit, the width of the ball lending machine is larger than the width of the cards. Cards can be stored even in a narrow case.
[0054]
Further, in the card collection system of the present invention, the card for which the collection instruction is received by the collection control means is discharged from the card discharge port, the discharged card is guided through the discharge card passage, and the guided card is transferred by the card transfer means. However, since the card collection unit collects the card, it is possible to improve the efficiency of the card collection operation.
[0055]
Furthermore, in the card collection system of the present invention, the cards that have been collected by the collection control means are stacked and stored diagonally in the card storage unit, or discharged from the card discharge port, and the discharged cards are guided through the discharge card passage. However, since the guided card is transported by the card transport means and recovered to the card recovery unit, the function of the entire recovery system can be maintained even if a failure occurs in a part of the recovery system. it can.
[0056]
In the card collection system of the present invention, the cards that have been collected by the collection control means are stacked and stored diagonally in the card storage unit or are discharged from the card discharge port, and the discharged cards are guided through the discharge card passage. However, since the guided card is transported by the card transport means and recovered to the card recovery unit, even if a problem occurs during the card transport, the recovery system can be repaired without stopping the recovery system. Can be achieved.
[0057]
Furthermore, in the ball lending machine of the present invention, since the cards received with the collection instructions by the collection control means are stacked and stored diagonally in the card storage unit, the ball lending machine is narrower than the card width. However, the card can be stored.
[Brief description of the drawings]
FIG. 1 is a configuration diagram showing a schematic configuration of a card collection system.
FIG. 2 is a perspective view showing a specific configuration example of a card collection system.
FIG. 3 is a cross-sectional view showing a configuration of a ball lending machine.
FIG. 4 is a front view of a ball lending machine.
FIG. 5 is a configuration diagram showing an electrical configuration of a ball lending machine.
6 is a DD cross-sectional view of the drawer structure portion in FIG. 3. FIG.
FIG. 7 is a perspective view showing a state of a card stored in a drawer structure portion.
8 is a cross-sectional view taken along the line EE of the card storage portion in FIG. 3;
FIG. 9 is a detailed perspective view of the card storage unit showing a process in which the card outlet is pulled out of the card storage unit;
FIG. 10 is a detailed perspective view of the card storage unit showing a process in which the card outlet is pulled out of the card storage unit.
FIG. 11 is a diagram illustrating operations of a presence / absence sensor light emitting unit, a presence / absence sensor light receiving unit, an upper limit sensor light emitting unit, and an upper limit sensor light receiving unit.
FIG. 12 is a diagram illustrating operations of the presence / absence sensor light emitting unit, the presence / absence sensor light receiving unit, the upper limit sensor light emitting unit, and the upper limit sensor light receiving unit.
[Explanation of symbols]
1 Card collection system
2 card transport safe
2a Inlet sensor
3 Card transport rail
10 Ball lending machine
11 Card compartment
11a Drawer structure
11b Presence / absence sensor light emitting unit
11c Presence sensor light receiving part
11d Upper limit sensor light emitting unit
11e Upper limit sensor light receiving part
11f Front panel
11g stopper
11h Panel key
12 Discharge card passage
12a Exit sensor
13 Control device
16 Card outlet
20 cards
30 Unlocking device

Claims (3)

In a card collection system that collects cards used for lending balls used for game machines,
Card reading means for reading data recorded on the card, collection control means for instructing collection of the card, a card storage section for storing the cards stacked obliquely, and a card outlet for discharging the cards; A ball lending machine having a discharge card passage for guiding the card discharged from the card discharge port to a position where the card can be conveyed;
Card transport means for transporting the card guided by the discharge card passage;
A card collection unit for collecting the card conveyed by the card conveying means;
I have a,
The ball lending machine discharges the card that has received the collection instruction from the card discharge port when there is no problem in transporting the card, and when there is a problem in transport of the card. The card collection system storing the card that has received the collection instruction in the card storage unit . The discharge card passage is further provided with an outlet sensor for detecting the card passing through the discharge card passage, and the card recovery portion further includes an inlet sensor for detecting the card recovered by the card recovery portion. Provided,
  When the outlet sensor finds a defect in the conveyance of the card, the ball lending machine provided with the outlet sensor that has found the defect, and the ball that has found the defect in the conveyance direction of the card In all the ball lending machines located upstream from the lending machine, the card that has received the collection instruction is then stored in the card storage unit,
  2. When the entrance sensor finds a problem in transporting the card, all the ball lending machines store the card that has received the collection instruction thereafter in the card storage unit. The card collection system described. In the ball lending machine that discharges the card to a card conveying means that conveys the card used for lending the ball used for the game stand to the card collecting unit, and collects the card,
  Card reading means for reading data recorded on the card;
  A collection control means for instructing collection of the card;
  A card storage unit for storing the cards stacked diagonally; and
  A card outlet for discharging the card;
  A discharge card passage for guiding the card discharged from the card discharge port to a position where the card transfer means can be transferred;
  Have
  If there is no problem with the card transport, the card that has received the collection instruction is ejected from the card discharge port, and if there is a problem with the card transport, the card with the recovery instruction is received. A ball lending machine characterized in that the card is stored in the card storage unit.

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