JP3562720B2 - GAME DEVICE AND CONTROL METHOD THEREOF - Google Patents

Description

[0001]
TECHNICAL FIELD OF THE INVENTION
The present invention relates to a gaming machine and a control method therefor, and more particularly to a spinning-type gaming machine corresponding to a medal lending machine that lends intangible medals using a game value medium on which a game value such as a prepaid card is recorded, and its control technology. Effective technology.
[0002]
[Prior art]
In the field of pachinko gaming machines, prepaid ball rental machines have become widespread. Such a ball lending machine lends a game ball by inserting a game value medium such as a prepaid card into a predetermined reading unit of the ball lending machine and performing a lending request operation. Then, along with the lending of the lending ball, the corresponding game value is subtracted from the game value medium. The player does not need to put cash in the ball lending machine, and has the advantage of helping to prevent fraud.
[0003]
Ball lending by a prepaid ball lending machine generally only transmits information on lending balls to pachinko gaming machines, and ball lending machines do not handle actual lending balls. That is, the pachinko gaming machine that has received the information on the lending ball pays out the lending ball to its payout port, and the lent lending ball is accumulated in the saucer. Since the game balls accumulated in the saucer are automatically supplied to the insertion slot, the player can start the game immediately after the payout of the loaned ball, which is convenient for the player. Further, since the ball lending machine does not handle actual lending balls, the ball lending machine can be reduced in size and can be integrated as one component of a pachinko game machine.
[0004]
On the other hand, in a spinning-type gaming device called a pachi-slot (hereinafter sometimes simply referred to as a gaming device), a medal lending system of a prepaid system has not been generalized yet. However, there is a demand for introducing a prepaid system also in a torso type game machine.
[0005]
When trying to introduce the prepaid system into a spinning-type gaming machine, it can be easily conceived to realize the prepaid system with the same configuration as the pachinko gaming machine. For example, a game value medium in which the amount or balance of an intangible medal is recorded is prepared, and a medal lending machine provided with a reading unit for the game value medium communicates with the game apparatus to receive the medal information. Is a method of paying out a tangible medal corresponding to the above from a medal payout exit. However, in the case of the spinning-type gaming machine, even if the medals are paid out to the payout port, the medals are not automatically inserted into the insertion port as in a pachinko game machine. Therefore, in the case of a spinning-type gaming device that uses medals as a game value, an operation of adding a bet operation or a credit corresponding to the number of lent intangible medals is realized instead of paying out tangible medals from a medal payout exit. The preferred method is
[0006]
In addition, the processing inside the spinning-type gaming machine is generally controlled by a main control board and a sub-control board. The main control board controls a series of game processes. That is, detection of inserted medals, betting operation (determination of a winning line), detection of start lever operation, internal lottery, selection of a control table according to a winning prize group or loss, detection of stop button press, reel control, winning determination, It controls a series of main processes of the game, such as payout of a payout and carryover control of a winning flag. The main control board is a member subject to laws and regulations, and the performance of the central processing unit (CPU) and the capacity of the main memory are limited. On the other hand, the sub control board controls processing other than the processing controlled by the main control board. For example, notification control according to a winning flag and control of a lamp, a sound, a display image, and the like for enhancing a game effect are performed. The sub-control board is generally less or less regulated than the main control board, and has a greater degree of freedom in device design.
[0007]
[Problems to be solved by the invention]
As described above, when introducing the prepaid system to the spinning-type gaming device, it is desirable that the lent intangible medals be credited or provided for betting operations. Since the credit operation or the bet operation is performed on the main control board, the information on the lent medals (information on the number of intangible medals) needs to be finally transmitted to the main control board.
[0008]
As a method of transmitting the rental medal information to the main control board, for example, a method of providing communication means with a medal lending machine on the main control board and exchanging information using this communication means can be considered. However, in this method, it is necessary to newly design and develop the communication means of the main control board. In order to reduce the time required for design development or reduce costs, it is desirable to use technologies that have been established as far as possible.However, this method requires new technology development, The burden increases. In addition, as described above, the main control board is subject to regulations such as laws, and it is necessary to undergo an inspection for compliance with regulations. If a new technology is incorporated in the main control board, the labor for passing the inspection increases, which is not preferable. Further, in order to realize a predetermined communication means, it is necessary to follow a predetermined protocol (rule). Generally, software or the like for realizing the communication means is more complicated than the conventional method of counting inserted medals, and it is considered that the hardware resources of the main control board are considerably consumed. It is obvious that such a situation is not preferable in view of the situation where the capacity of the main control board is regulated by laws and the like.
[0009]
Therefore, a measure can be conceived in which many of the communication functions are borne by the sub-control board and the burden on the main control board is reduced. The sub-control board is less regulated by law and the like, and it is relatively easy to realize a complicated communication function. Then, the communication between the sub-control board and the main control board can reduce the load on the main control board by applying a simplified protocol. However, even with this measure, there is no change in that the main control board is provided with a new communication function, and there is no essential solution.
[0010]
By the way, even if the spinning-type gaming machine is adapted to the prepaid system, it is hard to imagine that all of the conventional models will be replaced by the prepaid system. This is because it is considered that there is still a demand for a conventional method of inserting a tangible medal into a medal insertion slot of a game device. There are aspects where the pleasure of the game can be realized only by actually holding a tangible medal whose game value has been materialized.In addition, amusement arcade managers want to provide various ways of putting in game value There will be. Alternatively, it may be considered that some game arcade managers hesitate to introduce the prepaid system. For this reason, as a game device maker, a method of inserting a game value by inserting a tangible medal into a conventional medal slot and transmitting information of an intangible medal recorded on a game value medium such as a prepaid card to the game device are provided. It is necessary to prepare two types of methods, that is, a method of inputting a game value by playing. As a method of providing such two types of methods, a method of providing two types of a conventional type and a prepaid type, and a method of providing one type having both types are conceivable.
[0011]
In the case of providing two models, a conventional model and a prepaid-compatible model, there is a problem that it is necessary to obtain approval specified by law or the like for the two models in addition to the problems in the design and development of the prepaid-compatible model described above. Since the work of obtaining approval is generally a heavy burden, it is necessary to devise a design so that the approval work for two models can be shared as much as possible. Most of the approval work specified by law is related to the main control board, so if the main control board can support two types of game value input methods, that is, even if it is two types of game machines, If the main control boards can be shared, there is a high possibility that the load of approval work can be reduced. On the other hand, when providing one model having both types, the main control board must have both functions of counting the insertion of tangible medals, which is a conventional technique, and a function of accepting communication of intangible medals information. is there. In order to realize this, in addition to the difficulty in realizing the communication control of the intangible medal information, there is also a difficulty in realizing the conventional method at the same time.
[0012]
It is an object of the present invention to provide a gaming machine having a function of receiving lending information of intangible medals from a medal lending machine and adding the same to credits, in addition to a function of counting inserted medals which is a conventional method. In addition, an additional function such as a medal lending information receiving function is realized without increasing or significantly reducing the load on the main control board of the gaming machine.
[0013]
Another object of the present invention is to provide a technology capable of sharing the main members of a conventional model for counting inserted medals and a model corresponding to intangible medal insertion from a game value medium such as a prepaid card. It is in.
[0014]
[Means for Solving the Problems]
Prior to describing the configuration of the present invention, terms used in this specification will be described below. Unless explicitly stated otherwise, the terms used in this specification shall have the meanings defined below.
[0015]
The “role” is a combination of symbols that gives a game value. For example, there are “red 7 role”, “plum role”, and “bell role”.
[0016]
The “prize group” refers to a group of one or a plurality of roles or a group of a plurality of symbol combinations giving a different game value from a combination other than a combination of specific symbols serving as a role. In the case of a prize group having one role, the role and the prize group formally match. The names of the prize groups include, for example, “BB prize”, “RB prize”, “Small role prize 1 (or watermelon prize)”, “Small role prize 2 (or Bell prize)”, “Small role prize 3 (Cherry prize) ) "And" Replay Award ". In addition, when there is a combination of symbols that can obtain a game value despite the absence of a combination (specific symbol combination), this is also included in the prize group.
[0017]
"Random number extraction" refers to a process of sampling one numerical value from a plurality of numerical values generated by a sequence generator.
[0018]
The “prize group lottery table” refers to a group of numerical value ranges (lottery divisions) determined for each of a plurality of prize groups.
[0019]
“Internal lottery” refers to determining a winning or a loss using a numerical value sampled as a result of random number extraction and a prize group lottery table.
[0020]
"Winning" means that a right to win according to any of the prize groups is generated.
[0021]
The “right to win” is a right that is a premise of winning as a result of an internal lottery. The right to win is converted to winning by arranging the symbols constituting the hand on the winning line. The right to win is given for each prize group, and includes a right to win that can be carried over to the next game and a right to win that cannot be carried over to the next game.
[0022]
“Loss” means that the right to win does not occur.
[0023]
“Winning carryover” means that there is a right to win carried over in the game before the previous game. For example, when the result of the lottery is controlled by the winning flag, the carryover of the winning is realized by not clearing the winning flag, and the winning carryover state is set regardless of the internal lottery of the next game. The corresponding bit is true).
[0024]
The term "winning" means that after winning by an internal lottery, the roles are arranged on an effective winning line.
[0025]
The “winning flag” is data that stores “right to win” generated as a result of the winning.
[0026]
The “carrying of the winning flag” means that the flag of the game that has won but has not won a prize has not been deleted in the next game.
[0027]
"Bet operation" refers to an operation of activating a pay line based on a game value. For the betting operation, a method of supplying a game value medium (for example, a medal) to a gaming machine (for example, inserting a medal from a medal slot), and supplying a credited game value medium by a mechanical operation (for example, credited) There is a method of supplying medals with bet buttons) and a method of using both methods in combination. The bet operation in the game starting with the replay prize is performed by automatically activating the same prize line as the prize line activated in the previous game.
[0028]
The “credit operation” refers to an operation of storing a game value inside the game machine by supplying the game value to the game machine or an operation of adjusting the stored game value. The “credit operation” includes a method of supplying a game value medium (for example, a medal) to a gaming machine (for example, inserting a medal from a medal slot), and a part of the game value from a game value medium such as a prepaid card in which the game value is recorded. Alternatively, there is a method of supplying the whole to the gaming machine and a method of using both methods in combination. Note that the method (operation) of inserting medals corresponds to one of the above-described betting operations, but the insertion of medals up to the maximum number (for example, three) required for one game is a betting operation. A medal insertion exceeding is a credit operation.
[0029]
The “game” refers to one game or a repetition of the game during a period from the bet operation to the next bet operation. The game includes various modes such as a “base game”, a “high winning base game”, a “jack game”, a “notification game”, a “replay winning high probability game”, and a “CT game”. The “base game” refers to a game in which one of a plurality of prize groups and a loss is drawn by internal lottery. The “high-winning base game” refers to a base game having a winning rate higher than the base game. The “jack game” refers to a game in which either one of a prize group or a loss is drawn by an internal lottery. The “notification game” refers to a game that always notifies the player of information related to a specific winning prize group. The “replay winning high probability game” refers to a game in which the probability of winning a replay award (replay) is increased instead of eliminating or reducing the loss. The “CT game” refers to a game in which at least one reel is stopped only by a stop operation to determine whether or not a winning combination in a specific prize group has won.
[0030]
“Notification” refers to notifying a player that there is some benefit such as an internal benefit. Representatively, there is a notification of a winning carryover status, a notification that a special game is being played, and the like. The notification may be incompletely conveyed (for example, stochastically conveyed) in addition to the case where the content is completely conveyed.
[0031]
The term “game” generally refers to entertainment that is permitted business, but the game also includes games in the more general sense of entertainment.
[0032]
The “game value” refers to a value obtained by a player. A game medal obtained by a player by payout or purchase is an example of a game value. The game value determined by the prize group or the role includes a payout, a shift to a high-winning normal game, a re-game, and the like. In some cases, the amount or amount of the game value is recorded as electronic or magnetic information on a prepaid card or the like.
[0033]
The “medal” is one mode of the game value, and is a game value stored inside the game device by a credit operation or a game value supplied to the game device as a premise of the bet operation. The medals include “material medals” and “intangible medals”. The “tangible medal” is a game value that is substantial and tangible. The tangible medal is usually formed of a medal-shaped metal body. The tangible medal inserted into the medal insertion slot is particularly called “inserted medal”. “Intangible medal” is a game value corresponding to a tangible medal, but is a game value treated as intangible information. The intangible medals are recorded on a game value medium, read out by a medal lending machine, and supplied to the gaming device as rental medal information.
[0034]
The “game value medium” is an information recording medium that records an amount or balance of an intangible medal, which is one mode of a game value. There are a prepaid card, a recording card supplied as a membership card unique to a game arcade, and the like. The game value medium is not limited to a card-shaped medium, but may be a coin-shaped medium or the like. Examples of the method of recording information on the game value medium include magnetic recording, electronic recording, magneto-optical recording, and optical recording. Various methods such as a method using a magnetic head, a method using an electromagnetic wave, a method using an optical probe, and the like can be applied as a method of reading information from the game value medium or writing information to the game value medium.
[0035]
The “game value medium” includes, for example, a data recording medium connected by communication means such as the Internet, and a portable information terminal capable of performing data communication by a suitable communication means such as a mobile phone. The value or balance of the game value can be recorded in the recording area connected to the Internet or the recording area of a portable information terminal such as a mobile phone, and the game value can be provided to the medal lending machine.
[0036]
Hereinafter, the configuration and the like of the present invention will be described. In order to solve the above problems, the present invention has the following configuration. In the following description, the inventions disclosed in this specification are numbered. However, this number is merely a convenient index, and does not indicate the order of the technical scope of each invention, the order of subordination, or the like.
[0037]
A gaming device according to a first invention disclosed in the present specification includes a medal detection unit that generates a first count signal indicating a predetermined state change each time an inserted medal is detected, a first control board, and a second control board. . In the second control board, means for communicating a medal lending signal with the medal lending machine, and when a lending transaction of an intangible medal using the medal lending signal is established, the number of inserted medals equivalent to the transaction number is provided. Means for generating a second count signal similar to that detected. The first control board includes means for receiving the first count signal and the second count signal, and means for performing a bet operation or a credit operation for the number of medals according to the received first count signal or the second count signal. .
[0038]
In the gaming machine according to the first aspect, the second control board performs most of the communication function with the medal lending machine, and the second control board generates a second count signal similar to the first count signal. Therefore, the processing load on the first control board can be significantly reduced. In other words, the second count signal indicating the number of traded intangible medals is the same signal as when the inserted medal is detected, that is, the same signal as the first count signal as long as the inserted or supplied number is indicated. For this reason, the first control board can handle the first count signal and the second count signal in the same manner without distinction. Therefore, the function of counting the inserted medals and the function of counting the intangible medals on the first control board can be realized with almost the same hardware configuration and software configuration. That is, in addition to the conventional technique of counting inserted medals (the first count signal), the gaming device that supports the count of intangible medals lent from the medal lending machine (the second count signal), Most of the technology applied to the control board can use the conventional technology, which has the effect of reducing the load on the design and development of gaming machines, shortening the design and development period, and easily obtaining approval as required by law. it can. The relatively complicated communication function with the medal lending machine is realized by the second control board. Since the regulation on the performance and the like of the second control board is smaller than that of the first control board, the design becomes easy and the approval by law or the like is easily received.
[0039]
Further, even if the conventional model corresponding to the inserted medal and the new model corresponding to the lending of the intangible medal from the medal lending machine are separately designed and developed, the first control board is to be shared. Can be. For this reason, the time required to design and develop a plurality of models at the same time is shortened, and approval is easily received when a plurality of models are simultaneously approved by law.
[0040]
Next, the interpretation of the terms used in specifying the first invention in this specification will be described below.
[0041]
The “medal detection unit” is a partial device of a gaming device having a function of detecting a medal inserted into a gaming device by a player. Before a medal is introduced into the medal detection unit, an operation is performed in which the authenticity of a tangible medal inserted in advance is determined and only the true medal is sorted to the medal detection unit. Fake medals are distributed to the medal payout exit. The medal detection unit generates a count signal. The medal detection unit includes medal detection means such as an optical sensor, and detects a sorted true medal to generate a first count signal. Here, the “count signal” is a signal that is received by the first control board as it is, and is a signal that gives information on the number of medals to be used for a bet operation or a credit operation. The information on the number of medals transmitted by the count signal includes both the information on the number of tangible medals and the information on the number of intangible medals. In this specification, a count signal related to a tangible medal generated by the medal detection unit is referred to as a first count signal, and a count signal related to an intangible medal generated by a second control board described later is referred to as a second count signal.
[0042]
The “first count signal” is a count signal indicating a predetermined state change each time a medal is detected. The “predetermined state change” is an aspect of a state change of a signal designed in advance. The “predetermined state change” in the case of the first count signal is a change in the signal state that always occurs when one inserted medal is detected, and is a change in the signal state that does not occur when it is not detected. is there. Note that the expressions "always occur" and "never occur" are used here, but "always occur" or "never occur" with a considerable probability in a substantial use condition It means that you can expect As a matter of course, there may naturally be a "non-occurrence" or "occurrence" of a signal state change not intended by the design.
[0043]
As a specific example of the “predetermined state change” of the first count signal, for example, a state change of a rectangular wave signal that changes from the first state to the second state each time a inserted medal is detected can be exemplified. In addition, a state change of a pulse wave or an arbitrary waveform pattern can be exemplified. Further, the present invention is not limited to the generation of one waveform pattern (for example, a rectangular wave) every time one inserted medal is detected. There may be two rectangular waves using two medal detectors).
[0044]
The “first control board” is one of the control boards provided in the spinning-type gaming machine, and is a control including a function of receiving a count signal and controlling a bet operation or a credit operation based on the count signal. It is a substrate. The first control board may include functions other than these, for example, functions such as internal lottery triggered by start lever operation, acquisition of the timing of pressing the stop button, turning control, winning determination, and execution of a payout. Note that the “first control board” of the present invention does not have a special communication function for acquiring transaction information on intangible medals. The function of receiving the second count signal (counter signal of the intangible medal) described later can be realized by hardware and software that realize the function of receiving the first count signal, which is a conventional technique. It is assumed that the “first control board” is generally called a main control board. However, it is sufficient for the first control board of the present invention to have at least the count signal receiving function, the bet operation or the credit operation execution function as described above. In general, the above-described functions of the main control board may or may not be included. When the functions of a general main control board are not included in the first control board, all functions of the main control board are realized by a plurality of control boards including the first control board.
[0045]
The term "control board" generally refers to hardware resources such as a central processing unit (CPU), a main memory, a non-volatile memory, an external input / output port, and a bus interconnecting these. However, in this specification, the term of the control board is used, including software for realizing the function processed by the control board. That is, as long as software (a program, a program module, or the like) necessary for the function realized by the control board is introduced and recorded in the main memory or the non-volatile memory, such software is also one of the elements constituting the control board. . Even if such software is recorded outside the control board, it is software constituting the control board as long as commands (instructions) and data are loaded into the CPU via input / output ports and the like. . The control board does not necessarily need to include all or a part of the aforementioned components (central processing unit, main memory, nonvolatile memory, external input / output port, bus connecting these components, etc.). .
[0046]
The “second control board” is a control board that controls processing other than the processing performed by the first control board, and realizes at least a communication function with the medal lending machine and a generation function of the second count signal. Including processing means. That is, the processing that can be performed by the second control board is processing other than the processing that is performed at least by the first control board (the processing that implements the count signal receiving function and the bet operation or credit operation execution function). Therefore, the second control board may realize the function of the main control board. When a so-called sub-control board is assumed as the second control board, for example, a notification operation, an effect control operation, and the like are processed and controlled. The effect control operation is an operation for performing sound output control, lamp control, image display control, or the like in accordance with the progress of the game, and the notification operation is an operation for notifying a player of a result of an internal lottery in the game. The second control board does not need to be single, and a plurality of second control boards may exist. For example, it is possible to have a plurality of second control boards for performing a rendering process and a notification process, and a plurality of second control boards for realizing a function of communicating with a medal lending machine and a function of generating a second count signal. Other arbitrary functions or combinations of functions may be realized by being divided into a plurality of second control boards.
[0047]
The first control board and the second control board used in the description of the present invention are conceptually different from the so-called main control board and sub-control board, which are called control boards. In other words, the main control board is a control board whose performance and the like are regulated by laws and the like, and the sub-control board is a control board that is not regulated by the laws and the like or whose regulation is less strict than the main control board. On the other hand, the first control board of the present invention is a control board including processing means for receiving at least a count signal of medals and realizing a function of performing a bet operation or a credit operation, and the second control board is provided for communication with a medal lending machine. And a control board including processing means for realizing a function of generating a second count signal. Therefore, the first control board is a part of the main control board or a plurality of control boards, but the second control board may be a part of the main control board, or all or a part of the sub control board. There may be.
[0048]
The “medal lending machine” is a device that lends tangible medals or intangible medals. Usually, medals are lent out in exchange for cash input or subtraction of a game value from a game value medium. There are also medal lending machines specialized in lending tangible medals or intangible medals. When lending an intangible medal from a medal lending machine, communication is performed with a gaming device to perform a lending transaction of medals.
[0049]
The “medal lending transaction” is a transaction relating to the lending of medals performed between the gaming device and the medal lending machine. A medal lending contract is established by an application reflecting the intention of the player, such as pressing a medal lending switch, and the medal lending machine consent to the application. Then, the lending transaction is completed (completed) with the medal lending, which is the fulfillment of the medal lending contract, and the settlement of the consideration. The intangible medal lending transaction is executed using a medal lending signal.
[0050]
The “medal lending signal” is a signal group used when a lending transaction of an intangible medal is executed. The intangible medal lending transaction can be performed using a single signal, but a series of processes such as the above-described application, consent, medal lending, and settlement of consideration are executed in combination. Therefore, it is preferable to perform a lending transaction by combining a plurality of signals. In this case, the medal lending signal is a general term for a signal group including a plurality of signals. As a case where the medal lending signal is a single signal, a communication signal using a serial interface can be exemplified.
[0051]
The “second count signal” is a count signal generated by the second control board, and when a lending transaction of an intangible medal using a medal lending signal is established, the inserted medals equivalent to the number of transactions are detected. Is a signal similar to the signal generated when the That is, the second count signal is a count signal reflecting the number of intangible medals to be traded. Since the second count signal is a count signal similar to the first count signal, it is possible to process the second count signal in the first control board by using a technique in which most of the conventional technique is used.
[0052]
The “transaction number” is the number of intangible medals traded in one medal lending transaction. An arbitrary number of medals such as one medal or a plurality of medals can be set. For example, ten medals can be set as the number of transactions in one transaction.
[0053]
"The same signal as when the inserted medal equivalent to the number of traded coins is detected" means that when a lending transaction of an intangible medal is made, the inserted medal equivalent to the number of traded intangible medals is actually inserted into the slot. Is not inserted, but a signal that would be generated if the medal detection unit detected insertion of a medal. For example, if the number of traded coins is 10, and a lending transaction of intangible medals is completed once, a signal (second count signal) that would be generated when 10 inserted medals are detected by the medal detection unit is output. Two control boards are generated.
[0054]
"Means for receiving a count signal" refers to means capable of detecting a change in the state of the count signal. This state change can provide an opportunity to start some processing. Means for receiving a normal signal may include, in addition to detecting the signal, means for demodulating the signal if the signal is modulated. Here, if a change in the state of the signal can be detected, it is assumed that the means corresponds to the means.
[0055]
“The number of medals according to the count signal” means the number of medals corresponding to the number of repetitions of the predetermined state change indicated by the count signal. That is, the predetermined state change indicated by the count signal is a state change that occurs when one inserted medal is detected as described above. This indicates the number of intangible medals. The number of medals according to the count signal indicates the number of inserted tangible medals or the number of traded intangible medals.
[0056]
“Bet operation or credit operation” means that any operation is executed. Which operation is prioritized is a design matter of the gaming device, and may be selectable later. When the betting operation is prioritized, the reception of the count signal exceeding the maximum bet amount is provided to the credit operation.
[0057]
It should be noted that the interpretation of the terms described here is also applied to the second and subsequent inventions described below. The same applies to interpretation of terms described in the second and subsequent inventions.
[0058]
A second invention which further includes the following constituent features in the first invention described above can be disclosed. That is, the first control board of the second invention has means for generating a first blocker signal indicating a predetermined state change when the number of credits reaches a predetermined number, and the number of credits is reduced from the predetermined number by the number of transactions. Means for generating a second blocker signal indicating a predetermined state change when the number is exceeded. Further, the second control board may further include means for permitting or prohibiting the lending transaction of the intangible medal according to the second blocker signal. Further, a means for permitting or prohibiting the insertion of a tangible medal according to the first blocker signal can be further included.
[0059]
According to the second aspect, a blocker signal is generated, and by using the blocker signal, it is possible to limit the insertion of a tangible medal into the medal detection unit or a transaction of an intangible medal.
[0060]
Here, the “number of credits” refers to the number of intangible medals that have been credited. The “predetermined number” is a number recorded in advance by the gaming device, and is the maximum number of normal credits. The “predetermined state change” is a state change state of a signal designed in advance as described above, and the state change of the block signal referred to here is, for example, one of a permission state and a prohibition state (the state thereof). To maintain).
[0061]
The “first blocker signal” is a signal generated by the first control board, and is a signal indicating a predetermined state change when the number of credits reaches a predetermined number. Assuming that the predetermined number is, for example, 50, the first blocker signal is generated when the number of credits reaches 50, and the means for permitting or prohibiting the insertion of the tangible medal that has received the first blocker signal includes a tangible medal insertion. Restrict. Examples of the method of restricting the insertion of medals include a method of closing an insertion opening so that a tangible medal cannot be inserted, or a method of paying out an inserted tangible medal to a payout port.
[0062]
The “second blocker signal” is a signal indicating a predetermined state change when the number of credits exceeds a number obtained by subtracting the number of transactions from a predetermined number. Assuming that the predetermined number is, for example, 50 and the number of transactions is 10, a second blocker signal is generated when the number of credits exceeds 40, and the second control board that receives the second blocker signal trades intangible medals. Restrict. As a method of restricting the transaction, a method of setting a medal lending signal or a transaction permission signal included in the medal lending signal to a prohibited state can be exemplified.
[0063]
“Blocker signal” is a generic name for the first blocker signal and the second blocker signal. The blocker signal is received by means for permitting or prohibiting the insertion of a tangible medal or the second control board, and gives a command for permitting or prohibiting the insertion of the medal or the transaction according to the signal state. The signal states of the blocker signal are typically two states of permission or inhibition. When the power supply of the gaming machine is not turned on, the blocker signal can be set to the prohibited state. As a result, erroneous medals inserted as tangible medals when the power is not turned on can be paid out to the medal payout exit. In this sense, the blocker signal can be regarded as a signal for permitting a medal insertion or a medal transaction.
[0064]
The "means for prohibiting lending transactions of intangible medals" includes, in addition to the means for prohibiting lending transactions in advance, the means for prohibiting lending transactions by disabling the lending transaction after it has been established. . For example, after conducting a transaction using a medal lending signal, it is also possible to invalidate the lending transaction by discarding intangible medal information received as a lending medal and simultaneously adding the settled game value to the game value medium. Included in the concept of prohibition of lending transactions. The means for prohibiting the lending transaction also includes means that does not use a medal lending signal, such as restricting the entire function of the medal lending machine. When the medal lending transaction is realized by software using a medal lending signal, it is needless to say that permission or prohibition means can be realized by using software.
[0065]
The “means for prohibiting the insertion of tangible medals” includes, in addition to the means for prohibiting the insertion of tangible medals, receiving the medals themselves but discharging the medals thereafter, thereby prohibiting the insertion of medals. Means are also included. For example, means for discharging inserted medals to a medal payout exit is one example. Also, means for once detecting the insertion of a tangible medal, adding this to the credit, subtracting it from the credit, and paying out the corresponding tangible medal to the payout outlet is also included in the means for prohibiting the insertion of the tangible medal.
[0066]
A gaming device according to a third invention disclosed in the present specification includes a medal detection unit that generates a first count signal indicating a predetermined state change every time an inserted medal is detected, a first control board, and a second control board. . In the second control board, means for communicating a medal lending signal with the medal lending machine, and when a lending transaction of an intangible medal using the medal lending signal is established, the number of inserted medals equivalent to the transaction number is provided. Means for generating a second count signal similar to that detected, means for receiving the first count signal, and means for generating a composite signal of the first count signal and the second count signal are provided. The first control board includes a unit for receiving the combined signal, and a unit for performing a bet operation or a credit operation for the number of medals according to the received combined signal.
[0067]
In the gaming machine according to the third aspect, both the first count signal and the second count signal are received by the second control board, and a combined signal is generated. Since the generated composite signal is a signal similar to the count signal, the same effect as in the first invention can be obtained. Furthermore, in the third aspect, the conventional technology can be used as it is for the portion for receiving and processing the count signal of the first control board, so that the burden of design and development can be reduced and the approval as stipulated by law can be easily received. Can be further increased.
[0068]
Here, the “combined signal” is a count signal obtained by combining the first count signal and the second count signal. When a predetermined state change occurs in either the first count signal or the second count signal, the same state change occurs in the composite signal. An OR circuit can be exemplified as the configuration of the logic circuit that generates the composite signal.
[0069]
A fourth invention including the following constituent elements in the gaming machine according to the third invention can be disclosed. That is, the first control board further includes means for generating a first blocker signal indicating a predetermined state change when the number of credits reaches a predetermined number, and the gaming machine has a function corresponding to the first blocker signal. Means for permitting or prohibiting the insertion of a physical medal, wherein the second control board includes means for permitting or prohibiting the lending transaction of the intangible medal in response to the first blocker signal, and a means for transmitting the first blocker signal to the tangible medal. Means for transferring to the means for permitting or prohibiting the input.
[0070]
According to the fourth aspect, it is possible to limit the insertion of medals or transactions by the first blocker signal generated by the first control board.
[0071]
In the fourth invention, a credit operation exceeding a predetermined number is performed depending on the number of intangible medals traded. Therefore, according to the fifth invention including the following configuration, it is possible to perform the processing of the credit operation exceeding the predetermined number. That is, the gaming machine according to the fifth aspect of the present invention is configured such that when a credit operation exceeding a predetermined number is performed, the credit operation exceeding the predetermined number is invalidated and invalidated on the first control board of the game device according to the fourth invention. Means for returning the number of tangible medals corresponding to the number, or stopping the credit operation when trying to execute a credit operation exceeding a predetermined number, and tangible medals corresponding to the number of credits to be executed Means for returning the information.
[0072]
In the gaming machines of the fourth and fifth inventions, a sixth invention in which the following components are added to the second control board can be disclosed. That is, the second control board generates a first blocker signal that prohibits the insertion of a tangible medal during the period in which the medal lending signal is being communicated, and inputs the tangible medal according to the first blocker signal. It may further include means for transmitting to the means for permitting or prohibiting, and means for prohibiting lending transactions of intangible medals for a predetermined period when the first count signal is received.
[0073]
According to the sixth aspect, it is possible to avoid a situation in which the operation of inserting the tangible medal and the operation of trading the intangible medal are performed at the same time.
[0074]
Further, a seventh invention in which the first control board and the second control board of the first to sixth inventions have the following configurations can be disclosed. That is, either the configuration in which the second control board is housed in a board case with a fraud prevention structure, or the configuration in which the first control board and the second control board are housed in the same board case with a fraud prevention structure. This is the configuration.
[0075]
According to the seventh aspect, it is possible to thoroughly prevent impropriety in medal transactions. Here, the “substrate case having the fraud prevention structure” is a container that seals the substrate by an irreversible fastening method, and has a structure in which once opened, the trace remains as a history. It is a structural member such as plastic covering the control board, and it can be determined that opening and closing have been performed a predetermined number of times. In consideration of opening and closing once to receive an inspection or the like, a structure is usually adopted that can determine that the second opening and closing has been performed. That is, when the second opening / closing is performed, it can be determined that there is a high probability that an illegal act has been performed.
[0076]
An eighth invention disclosed in this specification is a control method relating to the gaming device of the first invention. A control method according to an eighth aspect of the present invention is a control method for a gaming machine including a medal detection unit that generates a first count signal indicating a predetermined state change each time a inserted medal is detected, a first control board, and a second control board. And has the following steps: That is, the second control board communicates a medal lending signal with the medal lending machine to execute a lending transaction of an intangible medal, and when the lending transaction is established, an inserted medal equivalent to the number of transactions is detected. The second control board generates a second count signal similar to the above, and the first control board performs a bet operation or a credit operation on the number of medals according to the second count signal.
[0077]
According to the control method of the eighth aspect, lending medal information as a result of the lending transaction of intangible medals is transmitted to the first control board as the second count signal, and the first control board transmits the second count signal. A bet operation or a credit operation can be originally performed.
[0078]
In the control method of the eighth invention, the step of the first control board receiving the first count signal separately from the second count signal and performing a betting operation or a credit operation of the number of medals according to the first count signal is further performed. Can be included. According to such a control method, the first control board also processes the first count signal, which is the count signal of the inserted medals, and control of the gaming machine corresponding to both intangible medals and tangible medals can be realized.
[0079]
Further, when the number of credits reaches a predetermined number, the first control board generates a first blocker signal indicating a predetermined state change, and the number of credits exceeds a number obtained by subtracting the number of transactions from the predetermined number. In the case, the first control board generates a second blocker signal indicating a predetermined state change, and the second control board receives the second blocker signal, and lends the intangible medal according to the second blocker signal. Means for permitting or prohibiting the transaction, and means for permitting or inhibiting the insertion of a tangible medal according to the first blocker signal receives the first blocker signal and permits the insertion of the tangible medal according to the first blocker signal Or a prohibition step. According to such a control method, it is possible to control the gaming machine described as the second invention.
[0080]
A ninth invention disclosed in this specification is a control method relating to the gaming device of the third invention. A control method according to a ninth aspect of the present invention is a control method for a gaming machine including a medal detection unit that generates a first count signal indicating a predetermined state change each time a inserted medal is detected, a first control board, and a second control board. And has the following steps: That is, a step in which the second control board receives the first count signal, a step in which the second control board communicates a medal lending signal with the medal lending machine, and executes a lending transaction for intangible medals, Is established, the second control board generates a second count signal similar to the detection of the inserted medals corresponding to the number of transactions, and the second control board generates the first count signal and the second count signal. Generating a composite signal with the signal; and performing a bet operation or a credit operation on the number of medals according to the composite signal by the first control board.
[0081]
According to the control method of the ninth aspect, the lending medal information as a result of the intangible medal lending transaction is generated as the second count signal, and further combined with the first count signal as the tangible medal count signal. A signal is generated and transmitted to the first control board, and the first control board can perform a betting operation or a credit operation based on the composite signal.
[0082]
In the control method according to the ninth aspect, when the number of credits reaches a predetermined number, the first control board generates a first blocker signal indicating a predetermined state change; Receiving a blocker signal and permitting or prohibiting lending transactions of intangible medals according to the first blocker signal. With such a control method, it is possible to limit transactions of intangible medals.
[0083]
A step of invalidating the credit operation exceeding the predetermined number when a credit operation exceeding the predetermined number is performed and returning a number of tangible medals corresponding to the invalidated credit number; or The method may further include a step of stopping the credit operation when the user attempts to execute the operation, and returning a number of tangible medals corresponding to the number of credits to be executed. Accordingly, it is possible to execute processing when a credit operation exceeding a predetermined number is performed.
[0084]
In the control methods according to the eighth and ninth aspects of the present invention and the related aspects, the steps of executing the intangible medal lending transaction may include the following steps. That is, a step in which the second control board changes the state of the lending permission signal to permission, a step in which the second control board changes the state of the lending switch signal to permission when the medal lending button is pressed, A step in which the medal lending machine changes the state of the lending preparation signal to permission in response to the state change; and a condition that both the lending permission signal and the lending preparation signal are permitted, and a lending permission signal or lending preparation. A step of the medal lending machine changing the state of the lending request signal to permission in response to the state of any of the signals being changed to permission; and changing the state of the lending request signal to permission. The second control board changes the state of the lending response signal to "permitted" in response, and the medal lending machine responds to the change of the state of the lending response signal to "permitted". Changing the state of the lending request signal to prohibition, the second control board changing the state of the lending response signal to prohibition in response to the change of the state of the lending request signal to prohibition, and a second count signal corresponding to the number of transactions. Starting the generation of the game, and in response to the state of the lending response signal being changed to prohibition, the medal lending machine changes the state of the lending preparation signal to prohibition and, at the same time, the game value corresponding to the number of transactions from the game value medium. Performing the subtraction.
[0085]
By performing each of these steps, the intangible medal lending transaction can be executed reliably.
[0086]
Here, each of the "lending permission signal", "lending switch signal", "lending preparation signal", "lending request signal", and "lending response signal" constitutes all or a part of the medal lending signal. Note that the medal lending signal may include other additional signals. For example, a signal for displaying the balance of the game value medium provided to the game apparatus, a power supply, and the like can be exemplified.
[0087]
The "lending permission signal" is a preparation (ready) signal issued by the second control board of the gaming machine, and is a signal that is set to the permitted state when the gaming machine can perform a medal lending transaction. When the medal lending transaction is possible, the gaming device may be playing a game, an error may occur, or the number of credits may have reached a predetermined number (the maximum value). Say time. The permission state can be exemplified by a state in which the voltage level is at a low level, for example.
[0088]
The “lending switch signal” is a signal emitted by a lending switch provided in the gaming device, and is a signal that is set in a permission state according to operation of a button or the like of the lending switch. For example, a signal that is in a permission state (for example, low level) while the button is being pressed can be exemplified.
[0089]
The “lending preparation signal” is a preparation (ready) signal issued by the medal lending machine, and is a signal that is set to the permission state according to the lending switch signal. However, the condition is that the lending permission signal is in the permission state. Note that the lending preparation signal may be changed to the permission state when the lending switch signal is changed to the lending permission signal or the lending switch signal is changed to the permission state. In addition, the lending preparation signal is prohibited by receiving the lending response signal from the gaming machine, and ends the lending transaction processing. At this time, the game value is subtracted from the game value medium, such as the card frequency subtraction.
[0090]
The "lending request signal" is a signal of a lending request issued from a medal lending machine. For example, when a prohibited state (for example, High level) changes to a permitted state (for example, Low level), a medal lending request for one transaction unit is executed.
[0091]
The “lending response signal” is a signal of a lending acknowledgment issued by the gaming device. In response to the change of the lending request signal from the prohibited state to the permitted state, the state changes from prohibited (for example, High level) to permitted (for example, Low level), and the lending request signal changes from the permitted state to the prohibited state. When the reception of the request is completed, a response is made by changing the state from permitted to prohibited. The point in time at which the lending response signal changes from permitted to prohibited is the point in time when the reception of the medal lending is completed, and at this point, the addition processing to the credit (generation of the second count signal) is started. The reception of the medal lending may be completed by completing the processing actually added to the credit in the first control board. In this case, the lending response signal changes from permission to prohibition in response to the credit processing completion signal from the first control board.
[0092]
BEST MODE FOR CARRYING OUT THE INVENTION
Hereinafter, embodiments of the present invention will be described in detail with reference to the drawings. Note that the present invention can be implemented in many different modes and should not be construed as being limited to the description of the embodiments. Note that the same elements are denoted by the same reference numerals throughout the embodiments.
[0093]
(Embodiment 1)
FIG. 1 is a front view showing an example of a gaming machine according to an embodiment of the present invention. The game effect display 1 is a model of a dice or the like driven by a game effect, and the game effect device 5 is a lamp. The game effect display devices 1 and 5 are not limited to the dice models and lamps illustrated here, but may be replaced with, for example, a light-emitting display device, a liquid crystal display device, or the like. The bonus game display 2 is a display displayed when a BB prize or an RB prize is won. The speakers 3, 4, and 32 generate various sound effects. The game medal insertion display lamps 7, 8, 9 are turned on when a game medal is inserted by a bet operation. When one medal is inserted, the one medal lamp 7 lights up, and at the same time indicates that one rightward winning line is valid. When two medals are inserted, the first medal lamp 7 and the second medal lamp 8 are turned on, and at the same time, it indicates that the right three pay lines are valid. In the case where three medals are inserted, all of the one medal lamps 7 to 3 are turned on, and at the same time, five pay lines including three rightward and two diagonal ones are effective. The start lamp 10 is a lamp indicating that the rotating body rotation starter can be operated. The replay prize prize display lamp 11, the prize display lamp 12, the stop display lamp 13, the BB game display lamp 14, and the RB game display lamp 15 are a replay operation, a prize, a stop, a BB game control operation, and an RB game control, respectively. Displays the operation of the game control. The medal insertion possible display lamp 16 is turned on when it is possible to insert a game medal. Buttons 17 to 20 are bet buttons (storage game medal insertion buttons), and pressing of the one-bet button 17, the two-bet button 18, and the three-bet button 20 depresses one, two, and three, respectively. This corresponds to inserting a credited gaming medal and placing a bet. The credit settlement button 19 is pressed to settle the stored (credit) game medals. The game medal return button 21 is a button for performing a return operation when the inserted defective medals are jammed. The game medal slot 22 is a slot for inserting a game medal. The door key 23 also serves as a stop release key. The start lever 24 is a lever that is operated when starting the rotation of the reel. The start lever also functions as an operation lever when performing step setting. The number-of-credits display device 25, the bonus count display device 26, and the medal payout display device 27 respectively display the number of stored game medals, the number of bonuses, and the number of paid game medals. The stop button 28 is a button to be pressed when stopping the rotation of the reel. Three stop buttons 28 corresponding to each of the left middle right reels are provided. The medal lending button 29 is a button switch that is pressed to perform an intangible medal lending operation. The game medal payout exit 33 is an exit for paying out game medals, and the paid-out medals are received at the tray 34.
[0094]
FIG. 2 is a block diagram showing an example of the structure of the gaming machine according to the present embodiment with respect to its functions. The gaming machine according to the present embodiment includes a first control board 50, a second control board 70, and a medal selector 90. The medal selector 90 is a part of the gaming machine having a function of determining whether the inserted medal is true or false and distributing the true medal to the medal detection unit and the false medal to the medal payout exit. The medal selector 90 includes a medal insertion sensor 91 as an example of a medal detection unit, and a medal blocker solenoid 92 as an example of a unit for permitting or prohibiting the insertion of a tangible medal. The medal blocker solenoid 92 has a function of distributing medals to payout outlets or a medal detection unit by the action of magnetism generated by energizing the solenoid.
[0095]
Also, a medal lending machine 95 outside the gaming device is provided. The medal lending machine 95 may be provided as a position component inside the game procedure.
[0096]
The first control board 50 is a control board that controls a series of processing of the game. The first control board 50 includes a CPU (central processing unit) 51, an input port 52, a clock generation circuit 53, a ROM (read only memory) 54, a RAM (random access memory) 55, a random number generation circuit 56, an output port 57, 58, a data transmission circuit 59, and a transmission timing control circuit 60.
[0097]
The CPU 51 controls input and output of various data and performs calculations. The input port 52 is a port for receiving external input data. The data input to the input port 52 includes data from a player's button or lever operation, data from an administrator's button or switch operation, and data from various sensors. The data obtained by the player's operation includes button press detection data from the one-bet button 17, the two-bet button 18 and the maximum bet button 20, operation detection data of the start lever 24, press detection data of the stop button 28, and credit settlement button 19 There is press detection data of. The data by the administrator operation includes switch data of the step setting key switch and switch data of the reset switch 61. The sensor data includes a signal CNT1 (first count signal) from a medal insertion sensor 91 provided in a medal selector 90, or a medal payout sensor 63, a medal full sensor 64, a position detection sensor 65 or a door sensor 66 of each reel. There is sense data from The occurrence of an event corresponding to each sensor or a change in state is detected from each sensor. The clock generation circuit 53 generates a clock signal for setting the operation timing of the CPU 51.
[0098]
Various data such as a control program of the apparatus and a prize group lottery table are recorded in the ROM 54. The control program included in the ROM 54 includes a subprogram for receiving a first count signal CNT1 from the medal insertion sensor 91 and a count signal CNT2 generated by a second control board 70 described later, and performing a bet process or a credit process. Including subroutines, parts of main programs or program components. Also, a subprogram, a subroutine, a part of a main program or a program component for generating a blocker signal (BLK1, BLK2) described later with reference to the credit amount is included. The operation of these programs will be described later in detail.
[0099]
Various data indicating a winning flag and a game state are recorded in the RAM 55. It is also used as a work area for data used by the CPU 51. The random number generation circuit 56 generates a random number used when performing an internal lottery or other lottery.
[0100]
The output port 57 outputs a control signal to a reel rotation driving device or the like. That is, a control signal to each of the left-middle-right reel drive motors 67, a control signal to the medal payout motor 68, and a control signal to a medal blocker solenoid 92 provided in the medal selector 90. Also, it outputs a blocker signal (BLK2) to the second control board, which will be described later.
[0101]
The output port 58 outputs output data to various lamps and a display. That is, 1 medal lamp 7, 2 medal lamp 8, 3 medal lamp 9, start lamp 10, replay prize winning display lamp 11, winning display lamp 12, stop display lamp 13, BB game display lamp 14, RB game display lamp. 15, a lamp lighting signal or a display signal to the medal insertion possible display lamp 16, the number-of-credits display device 25, the bonus count display device 26, and the medal payout display device 27.
[0102]
The data transmission circuit 59 is a circuit that controls transmission of data to be transmitted to the second control board 70. The transmission timing control circuit 60 controls the transmission timing of the data transmission circuit 59.
[0103]
The second control board 70 communicates with the medal lending machine 95 and controls a transaction for medal lending. Further, a count signal (second count signal) of the intangible medal lent as a result of the lending transaction is generated. Further, the second control board 70 controls and outputs a mechanism or sound for the effect. The second control board 70 includes a CPU 72, an input port 73, an output port 74, an input / output port 75, a data input circuit 76, a clock generation circuit 77, a control ROM 78, a RAM 79, a sound LSI (large scale integrated circuit) 80, and an amplifier circuit. 81, and a voice ROM 82.
[0104]
The CPU 72 controls and calculates various signals and data for controlling the second control board 70. The input port 73 receives a switch signal from the medal lending button 29 and also receives a blocker signal BLK2 generated by the first control board. The input port 73 receives sense data from the mechanism position sensor 83. The output port 74 outputs a second count signal generated in response to an intangible medal lending transaction described later, and outputs control data to the mechanism drive motor 84 and the game effect lamps 2 and 5. The input / output port 75 inputs and outputs a medal lending signal communicated with the medal lending machine 95. The medal lending signal will be described later in detail. Although the input / output port 75 is illustrated as an input / output port used exclusively for communication with the medal lending machine 95, it may be used for input / output of other data. In addition, the function of the input / output port 75 may be distributed to the input port 73 and the output port 74 to perform the functions.
[0105]
The data input circuit 76 receives control data from the first control board 50. The clock generation circuit 77 generates a clock signal to be provided to the CPU 72. The control program is stored in the control ROM 78. The control programs stored in the control ROM 78 include a program for realizing a communication function with the medal lending machine 95 described later and a program for generating a second count signal. Further, a program for processing the blocker signal BLK2 received from the first control board 50 is also included. It goes without saying that these programs may be provided as subprograms, subroutines, parts of main programs, or program components.
[0106]
A program is loaded into the RAM 79 and used as a data work area. The sound LSI 80 controls sound data and performs calculations to generate sound signals. The amplifier circuit 81 amplifies the sound signal generated by the sound LSI 80. The volume of the amplified audio signal is adjusted by the volume adjustment circuit 85 and output from the speakers 3, 4, and 32. The sound ROM 82 stores sound, sound sources for effect effects, and other sound source data.
[0107]
FIG. 3 shows a first count signal CNT <b> 1 generated by the medal selector 90, a medal lending signal communicated between the second control board 70 and the medal lending machine 95, and a second count signal generated by the second control board 70. 6 is a timing chart illustrating an example of a two-count signal CNT2.
[0108]
The first count signal CNT1 shown in the upper part of FIG. 3 is an example of a signal output by the medal insertion sensor 91 of the medal selector 90. When one medal is detected at time t1, one rectangular wave is generated. Thereafter, each time a medal is detected, a rectangular wave indicating a similar state change is generated. Although a rectangular wave is illustrated here, other waveforms, for example, a pulse, a sine wave, and other arbitrary waveforms may be used. Further, here, one state change (generation of a rectangular wave) is illustrated each time one medal is detected, but two or more rectangular waves or other waveforms may be generated. That is, as long as the predetermined state change is generated each time one medal is detected, an arbitrary signal waveform can be adopted.
[0109]
The lending permission signal PRDY, the lending switch signal SW, the lending preparation signal BRDY, the lending request signal PREQ, and the lending response signal BACK shown in the lower part of FIG. 3 are some of the medal lending signals. Other signals are omitted. The description of each signal has been already described in the detailed description of the invention, and thus will not be repeated. Assume that at time t2, PRDY shifts to a permitted state (low level). The conditions for setting PRDY to the permission state are that the game is not in the middle of the game, that no error occurs, and that the blocker signal BL2 is in the permission state. For example, in the middle of a game, the gaming device is not in a state of accepting medals, and the PRDY signal is in a prohibited state (High level). When the medal lending button 29 is pressed at the time t3, the signal SW shifts to the permission state (Low level), and at the time t4 when the SW returns to the prohibition state (High level), the BRDY becomes the permission state (Low level). ). In response to the transition of BRDY to the permission state (Low level), the medal lending machine 95 sets the lending request signal PREQ to the permission state (Low level), and issues this to the gaming device (time t5). The gaming device that has received the PREQ being in the permitted state (Low level) responds by setting the lending response signal BACK to the permitted state (Low level) (time t6). In the medal lending machine 95, the PREQ is returned to the prohibition state (time t7) in response to the response of the gaming device (the BACK goes into the permission state), and the gaming device receiving this returns the BACK to the prohibition state (time t8). From the time t8, the second control board 70 starts generating the second count signal CNT2 (time t9). On the other hand, the medal lending machine 95 returns BRDY to the prohibited state in response to the shift to the prohibited state of BACK (time t10), and at the same time, subtracts the game value equivalent to the transaction from the game value medium such as a prepaid card. The intangible medal lending transaction is executed as described above.
[0110]
Note that the generated second count signal CNT2 is a count signal similar to CNT1, and generates a predetermined state change (here, one rectangular wave is illustrated) for each medal. . Here, an example in which ten intangible medals are traded in one transaction is shown. Although omitted in the figure, ten rectangular waves are generated after time t9. Although the number of medals traded in one lending is set to 10 here, it goes without saying that other medals such as 5 may be used.
[0111]
FIG. 4 is a timing chart showing the relationship between the number of credits and the blocker signals BLK1 and BLK2. BLK1 and BLK2 are generated on the first control board 50. A state in which the count signal CNT is input and an intangible medal is added to the credit is shown together with the signal CNT. The numbers at the top indicate the number of credits. When the number of credits reaches 46, the blocker signal BLK2 becomes in a prohibited state (High level). Here, the case where the transaction unit of the intangible medal is five is exemplified. The blocker signal BLK2 is transmitted from the first control board 50 to the second control board 70, and can be used as information for restricting the transaction of intangible medals. At the same time that BLK2 is in the prohibited state (High level), the PRDY signal is set in the prohibited state (High level), and it is possible to restrict the intangible medal from being traded. Note that the BLK2 signal can be directly applied to the PRDY signal.
[0112]
FIG. 5 is a flowchart illustrating an example of a control method of the gaming machine according to the present invention. These control methods are realized by the programs recorded in the ROM 54 and the control ROM 78 described above.
[0113]
When the process is started, first, it is determined whether there is an input of CNT1 or CNT2 (step 100). When the input of CNT1 or CNT2 is detected, it is determined whether the current bet number is the maximum bet number (step 101). If it is not the maximum bet number, bet processing is performed (step 102), and if it is the maximum bet number, credit processing is performed (step 103). The credit processing will be described later. After the processing in step 102 or step 103, the process proceeds to step 105.
[0114]
On the other hand, if the input of CNT1 or CNT2 is not detected in step 100, it is determined whether there is a supply operation from credit (step 104). If there is a supply operation from credit, the process proceeds to step 105. If the supply operation from the credit is not detected, the process returns to step 100 to continue the process.
[0115]
FIG. 6 is a flowchart showing an example of the credit processing (step 103). The credit processing may be configured as a part of the program shown in FIG. 5, or may be configured as a subroutine, a subprogram, or a program component.
[0116]
When the credit process starts, first, the count is added to the credit (step 131). Next, it is determined whether or not the number of credits is 46 or more (step 132). If it is 46 or more, it is further determined whether or not the number of credits is 50. Here, it is assumed that the maximum number of credits (predetermined number) is 50, and the number of intangible medals to be traded is five.
[0117]
If it is determined in step 132 that the number of credits is not equal to or more than 46, the process proceeds to step 133, where both BLK1 and BLK2 are permitted, and then the credit processing is terminated.
[0118]
If it is determined in step 134 that the number of credits is not 50, BLK1 is permitted and BLK2 is prohibited (step 135), and then the credit processing is terminated. On the other hand, if it is determined in step 134 that the number of credits is 50, both BLK1 and BLK2 are disabled (step 136), and then the credit processing ends.
[0119]
By generating the blocker signals BLK1 and BLK2 by performing such credit processing, it is possible to limit the insertion of tangible medals exceeding the maximum number (predetermined number) and the transaction of intangible medals.
[0120]
Returning to FIG. 5, the description will be continued. When the supply operation from the credit is detected in step 104, it is determined whether or not the start lever is operated (step 105). Step 105 is repeated until the operation of the start lever is detected, and the process proceeds to step 106 when the operation is detected.
[0121]
The bet operation is prohibited in step 106, and a prize group lottery table according to the game mode is set (step 107). The prize group lottery table for the normal game is set during the normal game, the prize group lottery table for the high winning game is set during the high winning game (BB game), and the prize group lottery table for the jack game is set during the RB game.
[0122]
Next, an internal lottery is performed (step 108), and a winning flag is set (step 109). A reel stop data group for the prize group corresponding to the winning flag is selected (step 110), the reel starts rotating (step 111), and reel rotation stop processing is performed (step 112). The rotation stop processing refers to the reel stop data group, and controls the drawing or kicking of the symbol.
[0123]
When the rotation of the reels is stopped, it is determined from the symbols aligned on the pay line whether or not it is a medal payout winning combination (step 113). If it is a payout combination, a medal payout process is performed (step 114). If it is not a payout combination, the process proceeds to step 115.
[0124]
Next, it is determined whether or not the RB game is in progress (step 115). If the RB game is in progress, an RB game end determination process is performed (step 116). If it is not during the RB game, the process proceeds to step 117. The RB game end determination processing will be described later. The determination as to whether or not the RB game is being performed in step 115 includes the case of the RB game during the BB game.
[0125]
Next, it is determined whether or not it is an RB game winning combination (step 117). If it is an RB game winning combination, an RB game start process is performed (step 118). If it is not the RB game winning combination, the process proceeds to step 119. The RB game start process will be described later.
[0126]
Next, it is determined whether or not the BB game is in progress (step 119). If the BB game is in progress, a BB game end determination process is performed (step 120). If it is not during the BB game, the process proceeds to step 121. The BB game end determination processing will be described later.
[0127]
Next, it is determined whether or not it is a BB game winning combination (step 121). If it is a BB game winning combination, a BB game start process is performed (step 122). If it is not the BB game winning combination, the process proceeds to step 123. The BB game start processing will be described later.
[0128]
In step 123, it is determined whether or not a replay prize is received (step 123). If not, it is determined whether the BB prize or the RB prize has been missed (step 124). The missing of the BB prize or the RB prize means that the BB prize or the RB prize has not been won in spite of being won. If the BB prize or the RB prize has been missed, the process proceeds to step 126 without clearing the winning flag. If the BB prize or the RB prize has not been missed, the winning flag is cleared (step 125), and the routine proceeds to step 126. In step 126, the prohibition of the bet operation is released (step 126). End the game.
[0129]
FIG. 7 is a flowchart illustrating an example of the RB game end determination process. First, it is determined whether or not it is a jack winning combination (step 151). If it is a jack winning combination, the number of jack input awards is increased by 1 (step 152). If it is not the jack winning combination, the process proceeds to step 154. After step 152, it is determined whether or not the number of jack winnings is eight (step 153). If it is not 8, the number of jack winnings is displayed (step 154), and the number of jack games is reduced by one (step 154).
[0130]
After step 154, it is determined whether the number of jack games is 0 (step 156). If the number of jack games is 0, the process proceeds to step 158. If not, the number of jack games is displayed (step 157). Return to the original processing.
[0131]
In step 158, the flag that records that the RB game is being executed is cleared (step 158), and it is determined whether or not the BB game is being executed (step 159). When the BB game is not in progress, the process returns to the original processing. When the BB game is in progress, the RB winning number is reduced by 1 (step 160), and it is determined whether the remaining RB winning number is 0 (step 161). When the remaining number of RB winnings is 0, the flag indicating that the BB game is in progress is cleared (162). Otherwise, the number of RB winnings is displayed (step 163), and the process returns to the original processing.
[0132]
FIG. 8 is a flowchart illustrating an example of the RB game start process. A flag indicating that the RB game is being performed is set (step 164), and the number of jack winnings is set to 8 (step 165). Further, the number of jack games is set to 12 (step 166), and the process returns to the original processing. Although the number of jack winnings in the RB game is set to eight and the number of jack games is set to twelve in this case, the number can be changed arbitrarily within the scope of the law.
[0133]
FIG. 9 is a flowchart illustrating an example of the BB game end determination process. First, the number of BB games is reduced by 1 (step 171), and it is determined whether the number of remaining games is 0 (step 172). If the number of remaining games is 0, the flag indicating that the BB game is being executed is cleared (step 173). Otherwise, the number of BB games is displayed (step 174), and the process returns to the original processing.
[0134]
FIG. 10 is a flowchart illustrating an example of the BB game start process. A flag indicating that the BB game is in progress is set (step 175), and the number of RB winnings is set to 3 (step 176). Further, the number of BB games is set to 30 (step 177), and the process returns to the original processing. Here, the number of RB winnings is set to three and the number of BB games is set to thirty, but can be arbitrarily changed within the scope of the law.
[0135]
As described above, according to the gaming machine and the control method of the present embodiment, in addition to the supply of the game value by inserting the tangible medal as in the related art, the addition of the game value by the lending of the intangible medal from the medal lending machine 95 Supply is possible. Moreover, in the technology of the present embodiment, communication with the medal lending machine 95 is performed by the second control board 70, and the second control board 70 generates a second count signal CNT2 similar to the first count signal CNT1. Therefore, the load on the first control board 50 is extremely small. For this reason, it becomes possible to cover many of the technologies relating to the counting function of the first control board 50 with the conventional technology. Considering that the performance of the first control board is regulated by laws and the like, and considering that most of the approval work is related to the first control board, it is clear that the effect of reducing the load on the design and development of the present invention is remarkable. Would.
[0136]
(Embodiment 2)
FIG. 11 is a block diagram showing an example of the structure of the gaming machine according to the second embodiment with respect to its functions. Since the gaming machine of the second embodiment has many parts similar to those of the first embodiment, only different parts will be described below.
[0137]
In the gaming machine according to the present embodiment, the first count signal CNT1 from the medal selector 90 is input to the second control board 70, and the blocker signal BLK3 to the medal selector 90 is supplied from the second control board 70. The count signal CNT3 to the first control board 50 and the blocker signal BLK from the first control board 50 are both transmitted and received by the second control board 70. That is, both the count signal for the tangible medal and the count signal for the intangible medal are processed by the second control board 70, and the first control board 50 receives the combined count signal (BLK3) generated by the second control board 70. It is configured to provide.
[0138]
By employing such a configuration, the first control board 50 does not need to process the intangible medals and the tangible medals separately, and receives the supply of the tangible medals by using the same counting function as in the past. Becomes possible.
[0139]
FIG. 12 is a timing chart showing an example of main signals handled in the gaming machine according to the present embodiment.
[0140]
The OR signal of the first count signal CNT1 generated by the medal selector 90 and the second count signal CNT2 generated by the second control board 70 is the composite signal CNT3. A state where the rectangular waves generated after times t11, t14, and t16 are OR-combined and output are illustrated as CNT3. By using such a synthesized signal CNT3, it is possible to perform a bet operation or a credit operation on the first control board 50 regardless of its origin. Such processing can be executed by applying the conventional technology as it is.
[0141]
By the way, the second control board 70 can grasp both signals of CNT1 and CNT2, and outputs a signal (BLK3 or PRDY) for stopping the processing of the device (medal selector 90 or medal lending machine 95) that generates these signals. Can control. Therefore, it is possible to control these signals so that both processes are not performed simultaneously.
[0142]
As shown in the figure, the transaction with the medal lending machine can be restricted by setting the PRDY signal to the prohibition state (High level) for a certain time from the time (t11, t16) when the CNT1 signal changes to the permission state (Low level). . Thereby, it is possible to prevent the operation of the medal lending machine at the same time when the tangible medals are inserted.
[0143]
Further, as shown in the figure, the operation of the medal lending machine is started (specifically, the medal lending machine use signal BUSE is set to the prohibited state (High level) when the medal lending button is pressed (t13), and the first control board is turned off. By inputting the OR signal BLK3 with the received blocker signal BLK to the medal blocker, it is possible to limit the insertion of medals in the medal blocker. Can be blocked.
[0144]
In the BLK received from the first control board, it is only necessary to know whether or not the number of credits has reached a predetermined number (maximum number). Therefore, both the PRDY signal and the BLK3 signal are in a state in which the BLK is prohibited (high level). As a result, the state becomes the prohibited state (High level) (t17).
[0145]
FIG. 13 is a flowchart illustrating an example of the control method according to the present embodiment. It is the same as the first embodiment except that it is determined whether or not there is an input of CNT3 in step 300. Note that the credit processing (step 301) of the present embodiment is different from that of the first embodiment.
[0146]
FIG. 14 is a flowchart showing an example of the credit processing (step 301) of the present embodiment.
[0147]
First, the count is added to the credit (step 310), and it is determined whether the credit is 50 or more (step 311). If the number is equal to or greater than 50, the BLK is disabled (step 312). If the number is less than 50, the BLK is enabled (step 313). Then, the process ends.
[0148]
In this case, when the number of intangible medals is two or more, the number of credits may exceed 50 depending on the number of credits. In such a case, credit addition exceeding 50 is permitted here.
[0149]
If credits exceeding 50 (predetermined number) are not allowed, a control method as shown in FIG. 15 can be adopted. In other words, after the BLK is disabled in step 312, the number of credited tangible medals exceeding -50, that is, more than 50, is paid out from the medal payout exit (step 314). Then, the number of credits is set to 50 (step 315). After that, the process ends.
[0150]
By performing such processing, it is possible to maintain the maximum number of credits and the predetermined number even if an intangible medal exceeding the predetermined number of credits is traded.
[0151]
As described above, the invention made by the inventor has been specifically described based on the embodiment of the invention. However, the invention is not limited to the embodiment, and various changes can be made without departing from the gist of the invention. Is possible.
[0152]
For example, in the above-described embodiment, an example has been described in which the counted medals (both tangible and intangible) are first used for betting operations. However, the medals counted as shown in FIG. 16 may be configured to be first subjected to a credit process, and then bet processed by a player's operation.
[0153]
Further, in the above-described embodiment, the case where the first control board is a so-called main control board and the second control board is a so-called sub-control board, and each is physically constituted by one board has been exemplified. However, the first control board and the second control board need not be formed of one board. For example, as shown in FIG. 17, the second control board 70 (sub-control board) is replaced with the second control board A ( 70a) and the second control board B (70b). The second control board A (70a) is a control board that mainly performs a rendering process, and the second control board B (70b) has a function of communicating with the medal lending machine of the present invention and a function of generating a second count signal. It is a control board. As shown in FIG. 17, it goes without saying that the functions of the control boards can be arbitrarily separated and implemented by one or more control boards. Similarly, it goes without saying that the above-described function of the first control board can be separated into a plurality of control boards.
[0154]
The first control board described in the embodiment is usually housed in a case having a fraud prevention function. The second control board can be housed in a case having a fraud prevention function simultaneously with or separately from the first control board. As a result, fraudulent acts relating to the medal transaction can be suppressed.
[0155]
【The invention's effect】
The effects obtained by typical aspects of the invention disclosed in the present application are as follows. In other words, it is possible to provide a gaming machine having a function of receiving lending information of intangible medals from a medal lending machine and adding the same to credits, in addition to a function of counting inserted medals, which is a conventional method. Further, the additional function such as the reception function of the medal lending information can be realized without increasing the load on the first control board (main control board) of the gaming machine or in a state where it is significantly reduced. In addition, it is possible to share the main members of a conventional model that counts inserted medals and a model that supports the insertion of intangible medals from game value media such as prepaid cards.
[Brief description of the drawings]
FIG. 1 is a front view showing an example of a gaming machine according to an embodiment of the present invention.
FIG. 2 is a block diagram showing an example of the structure of the gaming machine according to Embodiment 1 with respect to its functions.
FIG. 3 is a diagram showing a first count signal CNT1 generated by a medal selector 90, a medal lending signal communicated between a second control board 70 and a medal lending machine 95, and a second count signal generated by a second control board 70. 6 is a timing chart illustrating an example of a two-count signal CNT2.
FIG. 4 is a timing chart showing a relationship between the number of credits and blocker signals BLK1 and BLK2.
FIG. 5 is a flowchart showing an example of a control method of the gaming machine of the present invention.
FIG. 6 is a flowchart illustrating an example of a credit process (step 103).
FIG. 7 is a flowchart illustrating an example of an RB game end determination process.
FIG. 8 is a flowchart illustrating an example of an RB game start process.
FIG. 9 is a flowchart illustrating an example of a BB game end determination process.
FIG. 10 is a flowchart illustrating an example of a BB game start process.
FIG. 11 is a block diagram showing an example of the structure of a gaming device according to Embodiment 2 regarding its functions.
FIG. 12 is a timing chart showing an example of main signals handled by the gaming machine according to the second embodiment.
FIG. 13 is a flowchart illustrating an example of a control method according to the second embodiment.
FIG. 14 is a flowchart illustrating an example of a credit process (step 301) according to the second embodiment.
FIG. 15 is a flowchart showing another example of the credit processing (step 301) of the second embodiment.
FIG. 16 is a flowchart illustrating an example of a control method according to another embodiment of the present invention.
FIG. 17 is a block diagram showing an example of the structure of a game device according to still another embodiment of the present invention with respect to its functions.
[Explanation of symbols]
DESCRIPTION OF SYMBOLS 1 ... Game effect indicator, 2 ... Game effect lamp, 3 ... Speaker, 5 ... Game effect device, 7 ... 1 medal lamp, 8 ... 2 medal lamp, 9 ... 3 medal lamp, 10 ... Start lamp, 11 ... Replay prize Winning indicator lamp, 12 ... Winning indicator lamp, 13 ... Stop indicator lamp, 14 ... BB game indicator lamp, 15 ... RB game indicator lamp, 16 ... Medal insertion possible indicator lamp, 17 ... 1 bet button, 18 ... 2 Bet button, 19: credit settlement button, 20: maximum bet button, 21: game medal return button, 22: game medal slot, 23: door key, 24: start lever, 25: credit number display, 26: bonus count Display machine, 27 ... Medal payout display machine, 28 ... Stop button, 29 ... Medal lending button, 33 ... Game medal payout exit 34 receiving tray, 50 first control board, 51 CPU, 52 input port, 53 clock generating circuit, 54 ROM, 55 RAM, 56 random number generating circuit, 57 output port, 58 output port, Reference numeral 59: data transmission circuit, 60: transmission timing control circuit, 61: reset switch, 63: medal payout sensor, 64: medal full sensor, 65: position detection sensor, 66: door sensor, 67: reel drive motor, 68: medal payout Motor, 70 second control board, 72 CPU, 73 input port, 74 output port, 75 input / output port, 76 data input circuit, 77 clock generation circuit, 78 control ROM, 79 RAM, 80: sound LSI, 81: amplifier circuit, 82: voice ROM, 83: mechanism position sensor, 84: mechanism drive motor, 85: sound Adjustment circuit, 90: medal selector, 91: medal insertion sensor, 92: medal blocker solenoid, 95: medal lending machine, BACK: lending response signal, BLK: blocker signal, BLK1: blocker signal, BLK2: blocker signal, BLK3: blocker Signal, BRDY: lending preparation signal, BUSE: medal lending machine use signal, CNT: count signal, CNT1: first count signal, CNT2: second count signal, CNT3: composite signal, PRDY: lending permission signal, PREQ: lending request Signal, SW: lending switch signal.

Claims (14)

A gaming machine comprising: a medal detection unit that generates a first count signal indicating a predetermined state change each time a inserted medal is detected; a first control board; and a second control board.
The second control board includes means for communicating a medal lending signal with the medal lending machine, and, when a lending transaction of an intangible medal using the medal lending signal is established, the number of inserted medals corresponding to the number of traded tokens. Means for generating a second count signal similar to that detected, and means for permitting or prohibiting lending transactions of the intangible medal in response to the second blocker signal ,
Means for receiving the first count signal and the second count signal, and means for performing a bet operation or a credit operation for the number of medals according to the received first count signal or the second count signal, Means for generating a first blocker signal indicating a predetermined state change when the number of credits reaches a predetermined number, and a predetermined blocker signal when the number of credits exceeds the number obtained by subtracting the transaction number from the predetermined number. means for generating a second blocker signal indicating a state change, only including,
A gaming machine comprising means for permitting or prohibiting the insertion of a tangible medal according to the first blocker signal . A gaming machine comprising: a medal detection unit that generates a first count signal indicating a predetermined state change each time a inserted medal is detected; a first control board; and a second control board.
The second control board includes means for communicating a medal lending signal with the medal lending machine, and, when a lending transaction of an intangible medal using the medal lending signal is established, the number of inserted medals corresponding to the number of transactions is provided. Means for generating a second count signal similar to that detected, means for receiving the first count signal, and means for generating a composite signal of the first count signal and the second count signal. Including
A gaming device, wherein the first control board includes: means for receiving the composite signal; and means for performing a bet operation or a credit operation on the number of medals according to the received composite signal. The first control board further includes means for generating a first blocker signal indicating a predetermined state change when the number of credits reaches a predetermined number,
The gaming device further includes means for permitting or prohibiting the insertion of a tangible medal according to the first blocker signal,
The second control board includes means for permitting or prohibiting a lending transaction of the intangible medal according to the first blocker signal, and inputting a tangible medal according to the first blocker signal according to the first blocker signal. 3. The gaming device according to claim 2 , further comprising: a means for transferring to said means for permitting or prohibiting. Means for, when the credit operation exceeding the predetermined number is performed, invalidating the credit operation exceeding the predetermined number and returning a number of tangible medals corresponding to the invalidated credit number, when the credit operation exceeding the predetermined number is performed. Or a means for stopping the credit operation when trying to execute the credit operation exceeding the predetermined number, and returning a number of tangible medals corresponding to the number of credits to be executed. The gaming device according to claim 3, including: The second control board generates the first blocker signal for prohibiting the insertion of a tangible medal during the communication of the medal lending signal, and generates the tangible medal according to the first blocker signal. of the input means for transmitting to said means for permitting or prohibiting the first case where a count signal has been received, according to claim 3 or 4, wherein further comprising means for prohibiting lending transactions predetermined period the intangible medals, the Gaming equipment. A configuration in which the second control board is housed in a board case with a fraud prevention structure, or a configuration in which the first control board and the second control board are housed in the same board case with a fraud prevention structure; The gaming device according to any one of claims 1 to 5 , wherein the gaming device has any one of the following configurations. A method for controlling a gaming machine, comprising: a medal detection unit that generates a first count signal indicating a predetermined state change each time a inserted medal is detected; a first control board; and a second control board.
A step in which the second control board performs communication of a medal lending signal with the medal lending machine to execute a lending transaction of intangible medals;
When the lending transaction is established, the second control board generates a second count signal similar to the detection of the inserted medals corresponding to the number of transactions,
A first control board receiving the second count signal from the second control board;
Performing a betting operation or a credit operation on the number of medals according to the received second count signal by the first control board. 8. The method according to claim 7 , further comprising the step of the first control board receiving the first count signal separately from the second count signal, and performing a bet operation or a credit operation on the number of medals according to the received first count signal. The control method of the game device according to the above. When the number of credits reaches a predetermined number as a result of performing the betting operation or the credit operation of the number of medals, the first control board generates a first blocker signal indicating a predetermined state change;
Means for permitting or prohibiting the insertion of a tangible medal according to the first blocker signal receives the first blocker signal, and permits or prohibits the insertion of a tangible medal according to the received first blocker signal. control method for a game apparatus according to claim 7 or 8, wherein further comprising the steps, a. As a result of the step of performing the betting operation or the credit operation of the number of medals, when the number of credits exceeds a number obtained by subtracting the number of transactions from a predetermined number, the first control board is configured to perform a second state indicating a predetermined state change. Generating a blocker signal;
The second control board, the second receiving a blocker signal, the steps of permitting or prohibiting lending transactions of the intellectual medals in response to the received second blocker signal, further according to claim 7 or 8 including A control method for a gaming device. A method for controlling a gaming machine, comprising: a medal detection unit that generates a first count signal indicating a predetermined state change each time a inserted medal is detected; a first control board; and a second control board.
The second control board receiving the first count signal;
Other than the step of receiving the first count signal, the second control board performs communication of a medal lending signal with a medal lending machine, and executes an intangible medal lending transaction;
When the lending transaction is established, the second control board generates a second count signal similar to the detection of the inserted medals corresponding to the number of transactions,
After receiving the first count signal and generating the second count signal, the second control board generates a composite signal of the first count signal and the second count signal;
The first control board receiving the composite signal from the second control board;
The first control board performing a betting operation or a credit operation on the number of medals according to the received composite signal. When the number of credits reaches a predetermined number as a result of performing the betting operation or the credit operation of the number of medals, the first control board generates a first blocker signal indicating a predetermined state change;
The gaming device according to claim 11 , further comprising: the second control board receiving the first blocker signal, and permitting or prohibiting a lending transaction of the intangible medal according to the received first blocker signal. Control method. When the credit operation exceeding the predetermined number is performed by the step of permitting the lending transaction of the intangible medal, the credit operation exceeding the predetermined number is invalidated and the number of tangible medals corresponding to the invalidated credit number is invalidated. When an attempt is made to execute a credit operation exceeding the predetermined number in the returning step or the step of permitting the intangible medal lending transaction, the credit operation is stopped, and the number of credits corresponding to the number of credits to be executed is stopped. The method according to claim 12 , further comprising the step of returning a body medal. Executing the lending transaction of the intangible medal,
A step in which the second control board changes the state of the lending permission signal to permission;
After the step of changing the state of the lending permission signal to permitted, the second control board changes the state of the lending switch signal to permitted when the medal lending button is pressed,
In response to a change in the state of the lending switch signal, the medal lending machine changes the state of the lending preparation signal to permitted;
On condition that both the state of the lending permission signal and the lending preparation signal are permission, and in response to the state of either the lending permission signal or the lending preparation signal being changed to permission, the A medal lending machine changing the state of the lending request signal to permitted;
In response to the state of the lending request signal being changed to permission, the second control board changing the state of the lending response signal to permission;
In response to the state of the lending response signal being changed to permitted, the medal lending machine changing the state of the lending request signal to prohibited;
In response to the state of the lending request signal being changed to prohibition, the second control board changes the state of the lending response signal to prohibition, and generates the second count signal corresponding to the number of transactions. Initiating the
In response to the state of the lending response signal being changed to prohibition, the medal lending machine changes the state of the lending preparation signal to prohibition, and displays a game value corresponding to the number of transactions from a game value medium. The method of controlling a gaming device according to any one of claims 7 to 13 , comprising a step of performing subtraction.

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