JP2021194331A - Game machine - Google Patents

Abstract

To provide a game machine which can accurately manage plural pieces of information.SOLUTION: When a start switch is operated in a circumstance in which an input number is "3", and internal lottery processing is executed, and consequently a start switch of a game next to a game in which a re-game combination is determined is operated, "3" can be stored, as information related to the input number, in a first storage area of a first work area. When the start switch is operated in the circumstance in which the input number is "3", and the internal lottery processing is executed, and consequently the start switch of the game next to the game in which the re-game combination is determined is operated, "0" can be stored, as the information related to the input number, in a second storage area of a second work area.SELECTED DRAWING: Figure 1

Description

The present invention relates to a gaming machine.

Conventionally, a slot machine (rotating drum type gaming machine) has been known as one of the gaming machines. As a slot machine of this type, there is known a point-type slot machine capable of performing a game by using the points stored in the card without using medals (see, for example, Patent Document 1).

Japanese Unexamined Patent Publication No. 2013-56055

The problem to be solved by the present invention is to improve the performance as a gaming machine.

The present invention
The first work area and
With a second work area
When the start switch is operated in a situation where the number of inputs is "3" and the start switch of the next game in which the re-game combination is determined is operated as a result of executing the internal lottery process, the number of inputs is related to the number of inputs. As information, "3" can be stored in the first storage area of the first work area.
When the start switch is operated in a situation where the number of inputs is "3" and the start switch of the next game in which the re-game combination is determined is operated as a result of executing the internal lottery process, the number of inputs is related to the number of inputs. A gaming machine characterized in that "0" can be stored in a second storage area of a second work area as information.

According to the present invention, the performance as a gaming machine can be improved.

FIG. 1 is a perspective view of a gaming machine according to the present embodiment. FIG. 2 is a rear view of the front door of the gaming machine according to the present embodiment. FIG. 3 is a front view of the cabinet of the gaming machine according to the present embodiment. FIG. 4 is a diagram showing a reel arrangement of the gaming machine according to the present embodiment. FIG. 5 is a diagram showing a symbol combination of the gaming machines according to the present embodiment. FIG. 6 is a diagram showing a symbol combination of the gaming machines according to the present embodiment. FIG. 7 is a diagram showing a symbol combination of the gaming machines according to the present embodiment. FIG. 8 is a diagram showing a symbol combination of the gaming machines according to the present embodiment. FIG. 9 is a diagram showing a symbol combination of the gaming machines according to the present embodiment. FIG. 10 is a diagram showing a condition device for a gaming machine according to the present embodiment. FIG. 11 is a diagram showing an object of internal lottery of the gaming machine according to the present embodiment. FIG. 12 is a diagram showing the result of internal lottery of the gaming machine according to the present embodiment. FIG. 13 is a diagram showing the result of internal lottery of the gaming machine according to the present embodiment. FIG. 14 is a diagram showing the contents of a telegram used for communication between the gaming machine of the gaming machine according to the present embodiment and the rental unit. FIG. 15 is a diagram showing the content of the gaming machine information notification among the telegrams output from the gaming machine of the gaming machine according to the present embodiment to the rental unit. FIG. 16 is a diagram showing a gaming machine type among the information included in the gaming machine information notification output by the gaming machine according to the present embodiment. FIG. 17 is a diagram showing game machine information included in a telegram when game machine performance information is set among game machine information notifications output by the game machine according to the present embodiment. FIG. 18 is a diagram showing game machine information included in a telegram when game machine installation information is set among game machine information notifications output by the game machine according to the present embodiment. FIG. 19 is a diagram showing game machine information included in a telegram when hall control / fraud monitoring information is set among the game machine information notifications output by the game machine according to the present embodiment. FIG. 20 is a diagram showing a basic communication sequence between the gaming machine and the rental unit according to the present embodiment. FIG. 21 is a diagram showing an activation sequence of the gaming machine and the rental unit according to the present embodiment. FIG. 22 is a diagram showing an activation sequence of the gaming machine and the rental unit according to the present embodiment. FIG. 23 is a diagram showing a counting notification sequence between the gaming machine and the rental unit according to the present embodiment. FIG. 24 is a diagram showing a lending notification sequence between the gaming machine and the lending unit according to the present embodiment. FIG. 25 is a diagram showing a recovery sequence from a communication abnormality between the gaming machine and the rental unit according to the present embodiment. FIG. 26 is a diagram showing a sequence when a communication abnormality occurs during counting between the gaming machine and the rental unit according to the present embodiment. FIG. 27 is a diagram showing a sequence when a communication abnormality occurs during lending of the gaming machine and the lending unit according to the present embodiment. FIG. 28 is a flowchart relating to counting control of the gaming machine according to the present embodiment. FIG. 29 is a flowchart relating to the score-giving process of the gaming machine according to the present embodiment. FIG. 30 is a flowchart relating to the game machine information management of the game machine according to the present embodiment. FIG. 31 is a diagram showing a transmission pattern of the gaming machine information notification after the first activation of the gaming machine according to the present embodiment. FIG. 32 is a diagram showing a second transmission pattern of the hall controller / fraud monitoring information in the gaming machine information notification of the gaming machine according to the present embodiment. FIG. 33 is a diagram showing a pattern in which the transmission timings of the hall control / fraud monitoring information and the gaming machine installation information are matched in the gaming machine information notification of the gaming machine according to the present embodiment. FIG. 34 is a diagram showing a pattern in which the transmission timings of the hall control / fraud monitoring information, the gaming machine installation information, and the gaming machine performance information are matched in the gaming machine information notification of the gaming machine according to the present embodiment.

<Glossary>
"Medal (number of medals)", "game medium (number of game media)", "game value", and "point (point or score)" are synonymous, and even if there is no actual medal, it is conceptually called a medal. There is. "Bet", "BET", and "input" relating to a game medium are synonymous, and all are acts of betting a game medium. The "effect selection switch P8W" and the "effect determination switch P8E" may be collectively referred to as a "sub switch". When expressing a hexadecimal numerical value, it is described as "0xOO" or "OOh", and when there is no particular description before and after the number, it is represented by a decimal number. The "reel" may be referred to as a "reel", both of which have the same meaning. The "storage means" may be referred to as "RWM", "RAM", or "storage area", all of which have the same meaning. The "grant" used in "granting a game medium" or "giving a score" may be referred to as "payout", and both have the same meaning. The "setting / reset switch" may be referred to as a "setting change switch" or a "reset switch" for each function, but in both cases, the same switch is indicated. The "setting change switch" and the "reset switch" may be provided as different switches.

The features (outline) of the gaming machine P according to the present embodiment will be described. Each element will be described in detail with reference to the drawings below.

<Explanation of the appearance of the gaming machine P>
First, the basic structure of the gaming machine P according to the present embodiment will be described with reference to FIG. In the gaming machine P, a front door P2 (also referred to as a front mask, a front door, and a front panel) and a cabinet P1 (also referred to as a back box and a housing) are locked by a hinge structure. The hinge structure is provided on the left side when the gaming machine P is viewed from the front, and the front door P2 can be opened with the left side as an axis. In order to open the front door P2, insert the door opening key into the cylinder provided on the right side when the gaming machine P is viewed from the front (provided on the right side of the front door P2), and press the door opening key. By rotating it to the right, it is possible to change from a locked state to an unlocked state (unlocked state). It may be possible to cancel the door opening error by rotating the door opening key to the left while the door opening key is inserted into the cylinder of the front door P2. In addition, the error that can be cleared is not limited to the door open error, and for example, the error type is a recoverable error that can be recovered by operating the reset switch (specifically, input error, settlement error, payout error, communication error). , Total score upper limit error, Total score threshold reached status, Lending device connection error, Lending serial number error, Lending device communication error 1, Lending device communication error 2, Lending device communication error 3, Lending device communication error 4, Lending device communication error 5 , Lending device communication error 6, lending device communication error 7, etc.) may be included in whole or in part.

On the front side of the front door P2, a start switch P3, a left stop switch P4L, a middle stop switch P4C, a right stop switch P4R (hereinafter, these may be collectively referred to as "stop switch P4"), and a MAX bet switch. P5M, 1-bet switch P5O (hereinafter, these may be collectively referred to as "bet switch P5"), settlement switch P6, counting switch P7 (sometimes referred to as counting button), effect selection switch P8W, effect. A determination switch P8E or the like is provided. Further, as a display unit for notifying information about the game, a game medium number display unit P9 and a grant number display unit (not shown) are provided. Further, a display window P10 for making the reel visible, an image display device (image display device P11M, image display device P11S) for enhancing the interest in the game, and the like are provided.

(Start switch P3)
It is a lever-shaped switch, and an arbitrary specified number of game media can be bet (for example, a player can bet (bet) an arbitrary number of game media out of 1 to 3 input points). It becomes effective by, and the rotation of the reel is started by the operation.

(Stop switch P4)
In the case of the present embodiment, the left reel P18L corresponds to the left stop switch P4L, the middle reel P18C corresponds to the middle stop switch P4C, and the right reel P18R corresponds to the right stop switch P4R. Further, when the stop switch P4 can be operated, it is suggested that the stop switch P4 is effective by changing the lamp color of the main body of the stop switch P4 or its surroundings. For example, when the stop switch P4 can be operated, it lights up in blue, and when it cannot be operated, it lights up in red.

(Bet switch P5 (MAX bet switch P5M, 1 bet switch P5O))
A game medium number storage means (also referred to as a total score storage area) provided on the game machine P (more specifically, the game medium number control board P16) and storing the number of game media (also referred to as total score) possessed by the player. ) Is not 0 (when the information displayed on the game medium number display unit P9 is not 0), the bet switch P5 is operated to set the bet number. However, if the information stored in the game medium number storage means is 0, even if the bet switch P5 is operated, it becomes invalid (not accepted). Further, it is composed of a MAX bet switch P5M that can bet the maximum number set for each game machine P and a 1-bet switch P5O that can bet "1", and the 1-bet switch P5O is operated a plurality of times. This makes it possible to bet the same number of bets as the number of operations within the range of the maximum bet number.

(Settlement switch P6)
When the settlement switch P6 is operated in a situation where a value of "1" or more is stored in the bet number storage means provided in the game machine P (in a situation where the bet number is a value of "1" or more). , The process of adding the number of bets stored in the bet number storage means to the game medium number storage means is configured. For example, when the settlement switch P6 is operated in a situation where "2" is stored in the bet number storage means and "100" is stored in the game medium number storage means, "0" is stored in the bet number storage means. It is stored, and "102" is stored in the game medium number storage means. The period during which the settlement process can be executed when the operation of the settlement switch P6 is accepted is from the time when the game medium is inserted until the start switch P3 is operated. In other words, even if the operation of the settlement switch P6 is accepted, the settlement process is not executed until the game is completed after the start switch P3 is operated. Further, instead of this, the operation of the settlement switch P6 is accepted from the time when the game medium is inserted until the start switch P3 is operated, but from the time when the start switch P3 is operated until the game ends. The operation of the settlement switch P6 may not be accepted.

Further, the 1-bet switch P5O and the settlement switch P6 may be configured as one switch (1-bet switch / settlement switch). For example, the function may be switched according to the long press time of the 1-bet switch / payment switch, and when the pressing time is less than 1000 ms (1-bet switch / 1-bet switch / before 1000 ms has elapsed after receiving the operation of the 1-bet switch / payment switch). When the operation of the settlement switch is no longer accepted), the function of the 1-bet switch P5O is executed, and when the pressing time is 1000 ms or more (1000 ms has passed since the operation of the 1-bet switch / settlement switch was accepted), the settlement is performed. It may be configured to perform the function of switch P6. It is not necessary to stop accepting the operation of the 1-bet switch / settlement switch in order to execute the function of the settlement switch P6 when 1000 ms has elapsed from the operation of the 1-bet switch / settlement switch, and the 1-bet switch / settlement switch is not accepted. Even if the operation of the 1-bet switch / settlement switch is accepted 1000 ms after the operation of the switch is accepted, the function of the settlement switch P6 is executed.

(Counting switch P7)
By operating the counting switch P7, the information stored in the game medium number storage means is transferred to the outside of the game machine P via the game ball rental device connection terminal plate (described later) provided in the game machine P. It is configured to be able to be sent to the lending unit. For example, in a situation where "50" is stored in the game medium number storage means, when the counting switch P7 is operated, the information "50" as the counting value is transmitted to the game ball or the like lending device connection terminal board. After that, the lending unit is configured to be able to transmit the information "50" as a counting value. It should be noted that after the counting switch P7 is operated and the counting value is transmitted, "0" is stored in the game medium number storage means.

(Production selection switch P8W)
The effect selection switch P8W is a so-called "cross key", and is composed of an upward switch, a rightward switch, a downwardward switch, and a leftward switch. For example, by operating the effect selection switch P8W upward switch, it is possible to move the cursor or the like displayed on the image display device P11M or the image display device P11S upward. Also, while waiting for a game (also called a game standby state), operating the upward switch increases the volume, operating the downward switch reduces the volume, and operating the right switch increases the amount of light from the lamp. Or, it may be configured so that the amount of light of the lamp is reduced by operating the left direction switch.

(Direction decision switch P8E)
The effect determination switch P8E serves as a determination button when determining an effect, or as a chance button when executing an effect that suggests to the player that a situation advantageous to the player will occur. For example, when the cursor is indicated on a certain item displayed on the image display device P11M or the image display device P11S, the effect determination switch P8E can be operated to determine the item indicated by the cursor. Further, when an effect such as "press the chance button!" Appears on the image display device P11M or the image display device P11S during the game, the next effect can be executed by operating the effect determination switch P8E. It is configured in. A drive source (solenoid, motor, or the like) may be arranged on the effect determination switch P8E so that the operation unit of the effect determination switch P8E can vibrate up and down.

(Game medium number display unit P9)
It is a display device for displaying information on the number of game media (also referred to as total score) stored in the game medium number storage means, and can display numerical information of up to 5 digits. Five segment display units are arranged in a horizontal row in the display unit of each digit constituting the game medium number display unit P9, and the game is played by a combination of lighting and extinguishing of the seven segments constituting the segment display unit. Information on the number of media can be notified. The five segments may have decimal points (sometimes referred to as DP points), and there is no problem in the display mode using the decimal points.

In the present embodiment, the maximum number of game media that can be displayed on the game medium number display unit P9 is "16383", and when "1" is displayed, "□□□□ 1" (four □ are blanks (5). 4 of the segment display units are not lit)) and are displayed right-justified. Further, when the number of game media stored in the game medium number storage means is "0", it is displayed as "□□□□ 0". If the number of game media stored in the game medium number storage means is "0" and the display of the game medium number display unit P9 is set to "□□□□□", the game medium number display unit P9 will display. Even if it is not out of order, there is a possibility that the game medium number display unit P9 may be mistaken for being out of order. Therefore, by displaying "□□□□ 0" on the game medium number display unit P9 in some way, it can be understood that the game medium number display unit P9 is not out of order.

When an error occurs, the game medium number display unit P9 may display the error information corresponding to the generated error instead of the notification of the game medium number information. In this case, the information on the number of game media and the error information may be alternately displayed on the game medium number display unit P9. For example, it is conceivable that the information on the number of game media is displayed for 3 seconds → the error information is displayed for 3 seconds → the information on the number of game media is displayed for 3 seconds → ... When an error is displayed on the game medium number display unit P9, "Pxx □□" (two □ indicate blanks. Two x indicate numerical values, symbols, or alphabets (identification of errors corresponding to various errors). By displaying the information "xx", the type of error can be grasped))) and left-justified. In other words, the information on the number of game media is displayed right-justified like the above-mentioned "1", and the minimum digit (the rightmost segment display part) is a numerical value of any one of "0" to "9". Information is displayed. On the other hand, the error information is displayed left-justified like the above-mentioned "Pxx □□", and the minimum digit is hidden and the numerical information is not displayed (the rightmost segment display portion is not lit). With this configuration, it is currently displayed depending on whether or not the minimum digit of the game medium number display unit P9 is displayed (whether or not at least a part of the rightmost segment display unit is lit). It is possible to easily determine whether the information is numerical information or error information.

Also, in the game medium number display unit P9, by confirming whether the second segment display unit from the right is also lit or not lit, whether the currently displayed information is numerical information or error information. Can be easily identified.

Further, when the gaming machine is controlled by using the main control chip and the number of game media chips as in the present embodiment, the error detected by the main control chip is expressed as "Pxx □□" and detected by the number of game media chips. By expressing the error to be performed as "Hxx □□", it is possible to make it easier to determine where the error is occurring. For example, since the input abnormality is detected by the main control chip, it may be displayed as "P01 □□", "PE1 □□", etc., and the communication abnormality is detected by the number of game media chips, "H01 □□", It is conceivable to display "HE1 □□" or the like. In this way, the identification information such as "P" and "H" corresponding to the chip (abnormality occurrence location) in which the error is detected, and the error identification information such as "E1" and "01" corresponding to the above "xx", respectively. By displaying and at the same time, even if there are 100 or more types of abnormalities, it is possible to display the location where the abnormality occurs and the type of abnormality (error type) without changing the number of digits.

Further, the example in which the identification information is changed according to which chip detects the error has been described, but the present invention is not limited to this, and the identification information may be changed according to the type of error. For example, in the case of a recoverable error, it may be expressed as "Pxx □□", and in the case of a recoverable error, it may be expressed as "Hxx □□". With such a configuration, it is possible to easily determine the importance of the error.

Further, in the case of displaying an error on the game medium number display unit P9, when an error capable of counting processing occurs and the counting switch is operated during the error display to perform counting processing, counting processing is performed. Even if it is inside, the information on the number of game media and the information on the error may be displayed alternately on the game medium number display unit P9. With this configuration, it is possible to check the error information even during the counting process.

Further, in the case of displaying an error on the game medium number display unit P9, when an error that enables lending processing occurs and the lending switch is operated during the error display and the lending processing is performed, the lending processing is performed. Even if it is inside, the information on the number of game media and the information on the error may be displayed alternately on the game medium number display unit P9. With this configuration, it is possible to check the error information even during the lending process.

Further, when an error is displayed on the game medium number display unit P9, the power is turned off while the error is displayed on the game medium number display unit P9, and the power is turned on when the total score clear switch is operated. In this case, the total score is initialized, but the error is not cleared. Therefore, the information indicating “0” displayed on the game medium number display unit P9 and the error information may be displayed alternately. With this configuration, it is possible to check the error information even if the total score clear switch is operated and the total score is initialized.

(Granted number display section)
When a game medium (score) is given as a result of a game, it is a display device for displaying the number of the given game media, and can display numerical information of up to two digits. The display unit of each digit constituting the grant number display unit is composed of a plurality of segments, and information on the number of game media can be notified by lighting the segments. When the error information corresponding to the error generated in the game medium number display unit P9 is not displayed, the error information corresponding to the error generated in the granted number display unit may be displayed. In this case, the error information may be displayed on the grant number display unit after the information on the number of game media granted. For example, when the number of game media to be given as a result of a game is "7", "1", "2", "3", "4", "5", "6", "7" are displayed on the number of given game media. Is displayed, and then "E1" (error code) is displayed. Although the grant number display unit is not shown, it is conceivable that the payment switch P6 and the 1-bet switch P5O are arranged on the left side of the front view.

(Display window P10)
With the front door P2 closed, the reel tape design attached to each reel of the left reel P18L, middle reel P18C, and right reel P18R (see FIG. 3) that are rotatably provided in the vertical direction is displayed on the display window P10. It becomes visible through. Specifically, from the display window P10, when the reels are stopped, among the 21 symbols (20, 16, etc.), the left reel P18L, the middle reel P18C, and the right reel P18R are in the rotation direction. Three consecutive symbols can be visually recognized along the line. That is, 3 [designs] x 3 [reels] = a total of 9 symbols can be visually recognized on the display window P10. Here, of the stop display positions where the left reel P18L, the middle reel P18C, and the right reel P18R each stop and display three symbols, the uppermost stop display position is the upper row, the center stop display position is the middle row, and the lowermost stop display position. The stop display position is at the bottom.

(Image display device)
In addition to various effect images, the image display device displays a game instruction image instructing the pressing order of the stop switch P4 during the game, an error image when an error occurs, and the like. In the present embodiment, two image display devices, an image display device P11M and an image display device P11S, are provided as the image display device. Depending on the model, only one image display device may be installed, three or more image display devices may be installed, or none of them may be installed. As the image display device, various forms of display devices such as a liquid crystal display, a plasma display, an organic EL display, a dot display, and a projector can be adopted as long as they are display devices for allowing a player to visually recognize an image.

In addition, an operation mode display device (also referred to as an instruction monitor) for notifying the operation mode of the stop switch P4 may be provided. It should be noted that the operation mode of the stop switch P4 may be notified to the grant number display unit (may also be used). When notifying the operation mode of the stop switch P4 to the grant number display unit, the grant number display unit may be referred to as an instruction monitor. In addition, the game can be played by operating the 1-bet lamp, 2-bet lamp, 3-bet lamp for notifying the number of bets, the re-game indicator lamp indicating that the re-game (also referred to as replay) can be performed, and the start switch P3. A game executable lamp indicating that the game can be executed, a game medium input enable lamp indicating that the game medium can be input by operating the bet switch P5, and the like may be provided.

<Explanation of the main part arranged on the back side of the front door P2 of the gaming machine P>

Subsequently, the back structure of the front door P2 according to the present embodiment will be described with reference to FIG.

(Sub-control board P12)
The sub-control board P12 (also referred to as a sub-control means, a sub-control hand board (means), and an effect control board (means)) is housed in the case of the sub-control board P12. The sub-control board P12 is equipped with a sub-control CPU, a sub-control ROM, and a sub-control RAM (the sub-control CPU, the sub-control ROM, and the sub-control RAM may be built in one chip). The sub-control CPU, sub-control ROM, and sub-control RAM enable data communication with each other by a bus. The sub-control board P12 determines data to be output to the effect lamp, the speaker, and the image display device (image display device P11M, image display device P11S) based on the information (also referred to as a command) from the main control board P15 described later. do. In other words, the sub-control board P12 mainly executes the control related to the effect. Information cannot be transmitted from the sub control board P12 to the main control board P15 (one-way communication). In addition, the data input by operating the effect selection switch P8W or the effect determination switch P8E is acquired, and the effect lamp is based on the data input by operating the effect selection switch P8W or the effect determination switch P8E. , The data to be output to the speaker and the image display device (image display device P11M, image display device P11S) may be determined.

(Game medium number display board P13)
The game medium number display board P13 is a board that displays the game medium number display unit P9. Specifically, it is a board on which the game medium number display unit P9 is installed.
(Speaker)
There are four speakers, an upper right speaker P14UR at the upper part of the front door, an upper left speaker (not shown), a lower right speaker P14DR at the lower part of the front door, and a lower left speaker P14DL. In addition to the sound, an error sound or warning sound is output to inform that an error has occurred.

<Explanation of the main parts arranged in the cabinet P1 of the gaming machine P>

Subsequently, the internal structure of the cabinet P1 according to the present embodiment will be described with reference to FIG.

(Main control board P15)
The main control board P15 (also referred to as a main control means, a first main control board (means), a main control board (means), or a game control board (means)) is housed in a main control board case. The main control board P15 is protected by a main control board case, and by sealing the main control board case with caulking (also referred to as a sealing member), it is difficult to open the main control board case.

The main control board P15 is equipped with a first main control CPU, a first main control ROM, and a first main control RAM (the first main control CPU, the first main control ROM, and the first main control RAM are one). It is built in the chip and is called the main control chip). The first main control CPU, the first main control ROM, and the first main control RAM enable data communication with each other by a bus. The main control board P15 has internal lottery, reel control such as reel drive and stop, winning judgment control based on a symbol combination in which all reels are stopped and stopped, a bonus game state (simply also referred to as a bonus) and an RT state. It controls the game state transition of various game states such as.

A RAM clear switch is connected to the main control board P15, and the advantageous section information stored in the main control board P15 can be cleared by operating the RAM clear switch. When the RAM clear switch is operated during the advantageous section, the advantageous section ends and the normal section is set. The information cleared by the operation of the RAM clear switch is the information regarding the advantageous section, and the information regarding the set value, the total score, the number of bets, the RT state, and the combination ratio monitor is not cleared. Further, the operation method of the RAM clear switch that clears the advantageous section may be that the switch is pressed once, or that it is detected that the switch has been continuously pressed for a predetermined time (so-called long press), or that the switch is pressed. The power may have been turned on depending on the situation. The RAM clear switch is arranged at a position that cannot be operated by the player (user) (for example, the main control board P15 that is not exposed unless the front door P2 is opened, the inside of the cabinet, the back surface of the front door, etc.). The RAM clear switch may also be used as a reset switch. Although the details will be described later, the advantageous section is a game section having a case where the instruction monitor notifies the advantageous operation mode (including the operation order and the operation position) of the stop switch, and the normal section is more advantageous than the instruction monitor. This is a game section that does not notify the operation mode of the stop switch.

The storage capacity of the built-in ROM of the main control chip mounted on the main control board P15 is "16 KB or less", and the used area (also referred to as the first program) of "7.5 KB or less" and the other used areas. It has an outside (also called a second program). In the used area, only the control area (also referred to as the first control area) of "4.5 KB or less" in which the program executed by the main control board P15 is stored and the information other than the program are stored or stored. It has a data area of "3.0 KB or less" (also referred to as a first data area). The outside of the used area has a control area (also referred to as a second control area) and a data area (also referred to as a second data area) as in the used area. A program related to the progress of the game is stored in the used area, and a program related to fraud countermeasures and a program used for the gaming machine test are stored outside the used area.

(Game medium number control board P16)
Game medium number control board P16 (second main control board (means), payout control board (means), medal number control board (means), medal number display control board (means), or game medium number display control board (means) Also referred to as) is housed in a game medium number control board case. The game medium number control board P16 is protected by the game medium number control board case, and by sealing the game medium number control board case with caulking (also referred to as a sealing member), it is difficult to open the game medium number control board case. It is configured to be.

The game medium number control board P16 is equipped with a second main control CPU, a second main control ROM, and a second main control RAM (the second main control CPU, the second main control ROM, and the second main control RAM are It may be built in one chip). The second main control CPU, the second main control ROM, and the second main control RAM enable data communication with each other by a bus. The game medium number control board P16 can control the display of the game medium number display unit P9, transmit information to the rental unit via the game ball rental device connection terminal board described later, and connect the game ball rental device. Information can be received from the rental unit via the terminal board, information can be transmitted to the main control board P15, and information can be received from the main control board P15.

Further, the game medium number control board P16 is provided with a game medium number storage means for storing the acquired number of game media, in order to add the number of game media to be given as a result of winning and to start the game. By subtracting the input number, which is the number of game media to be used, the number of game media currently owned by the user is stored.

The total score clear switch is connected to the game medium number control board P16, and the power is turned on while the total score clear switch is operated (pressed) when the power is turned off (total score is cleared during the power on process). By detecting the operation of the switch), the total score stored in the game medium number control board P16 can be cleared. The information cleared by operating the total score clear switch is only the total score, and other information (for example, bet number information) is not cleared. Further, the operation method of the total score clear switch for clearing the total score may be that the switch is pressed once or that it is detected that the total score has been continuously pressed for a predetermined time (so-called long press). The total score clear switch is arranged at a position that cannot be operated by the user (for example, on the game medium number control board P16, inside the cabinet, the back surface of the front door, etc.).

If the total score is cleared by turning on the power while the total score clear switch is being operated, the total score clear status is turned ON and the total score is cleared until the one game started after that is completed. The status is kept ON, and the total score clear status is turned OFF after one game is completed. The information on the total score clear status may be transmitted to the lending unit, and when the lending unit receives the information that the total score clear status is ON, the lending unit clears the total score information stored in the lending unit. In addition, if the lending unit gives a lending point while the total score clear status is ON on the gaming machine P, the lending point is newly added as the total score while the total score clear status remains ON, and then 1 Even if the total score clear status is turned off after the game is completed, the total score to which the loan points are newly added will not be cleared.

In addition, even if the power is turned off during the game (during reel rotation, payout processing, etc.) and the power is turned on while the total score clear switch is operated, the total score is not cleared and the total score clear status is also OFF. The power is turned off after the game is over, and the total score is cleared by turning on the power while the total score clear switch is being operated, and the total score clear status is turned on. In this case, the game medium number control board P16 determines whether or not the game is in progress based on the game start information and the game end information transmitted from the main control board P15, and the total score clear switch when the game is in progress. I try not to clear the total score by operation.

In addition, the total score clear switch is operated during the game, the game ends while the total score clear switch is operated, the total score clear switch is operated, and the power is turned off when the game is completed. If the power is turned on while the total score clear switch is being operated, the total score is cleared and the total score clear status is turned ON.

In addition, the total score clear switch is turned off during the game, and even when the power is turned on while the total score clear switch is being operated, the total score is cleared and the total score clear status is turned on. In this case, the total score clear status is changed from ON to OFF based on the end of the next game of the game in which the total score clear switch is operated. In other words, the total score clear status is kept ON at the end of the game in which the total score clear switch is operated, and the total score clear status is turned OFF when the next game is completed. As a result, even if the total score clear status is turned on for a short time (the timing when the total score clear switch is operated immediately before the end of the game), the total score clear status can be kept ON for the next game. It is possible to suppress fraud that clears the total score. The total score clear status may be turned off after the game in which the total score clear switch is operated is completed. In this case, the effect of capacity reduction is expected by sharing the program for updating the total score clear status.

In addition, the total score is not cleared just by pressing the total score clear switch, but since the total score clear switch is detected, it is checked whether or not there is an abnormality in the switch managed by the game medium number control board P16. The monitor lamp for the administrator to see is turned on. On the other hand, it is not a specification that the monitor lamp lights up when the total score clear switch is detected, but the monitor lamp turns off when the total score clear switch is detected, and the total score clear switch is not detected. Occasionally, the monitor lamp may be configured to light up. The monitor lamp is a lamp mounted on the main control board P15 and / or the game medium number control board P16, but may be mounted on another board.

If the power is turned off during or after the game, the setting key switch is ON, and the total score clear switch is ON, the setting key switch is turned on on the main control board P15. It is determined whether or not it is ON, and whether or not the total score clear switch is ON is determined by the game medium number control board P16.

When the power is turned on while the setting key switch is ON and the total score clear switch is ON, the setting change mode is activated and the setting is made after initializing the storage area in the predetermined range of the first main control RAM. The value can be selected. On the other hand, in the game medium number control board P16, after initializing the storage area of a specific range of the second main control RAM based on the fact that the power is turned on, the second main is based on the fact that the total score clear switch is ON. The total score is cleared by initializing the storage area that stores the total score of the control RAM. With such a configuration, the setting can be changed and the total score can be cleared at the same time by turning on the power once, so that it is possible to prevent the operation of the game hall manager from becoming complicated.

Here, when the power is turned on while the setting key switch is ON and the total score clear switch is ON, the setting change mode is activated on the main control board P15, and a predetermined range of the first main control RAM is activated. The storage area of is initialized. Then, when the end condition of the setting change mode is satisfied (the setting value is confirmed by operating the start switch P3 and then the setting key switch is turned off), the setting change mode is ended. After that, when the bet button is operated, the bet process using the total score can be executed (waiting for the game). That is, if the initialization of the storage area that stores the total score is not completed by the end of the setting change mode, betting processing may be performed based on the total score that has not been cleared. In order to solve such a problem, when the power is turned on while the setting key switch is ON and the total score clear switch is ON, the storage area of the predetermined range of the first main control RAM is initialized. It is preferable that the timing at which the initialization of the storage area storing the total score of the second main control RAM starts is earlier than the timing at which the second main control RAM starts. As another method, when the power is turned on while the setting key switch is ON and the total score clear switch is ON, the timing at which the initialization of the storage area in the predetermined range of the first main control RAM is completed. It is preferable that the timing at which the initialization of the storage area for storing the total score of the second main control RAM is completed is earlier than that.

Further, when the power is turned on while the setting key switch is ON and the total score clear switch is ON, the setting change mode may be entered but the total score may not be cleared. According to such a configuration, even if the total score clear switch is accidentally operated during the work of shifting to the setting change mode, the total score can be prevented from being cleared. The total score is important information, and if it is important not to clear it easily, such a control system may be used.

Further, when the power is turned on while the setting key switch is ON and the total score clear switch is ON, the setting change mode may not be entered and the total score may be cleared. According to such a configuration, even if the setting key switch is accidentally operated in the middle of the work of clearing the total score, it is possible to prevent the mode from shifting to the setting change mode. The set value is important information in the profit control of the amusement park, and if it is important to prevent it from being changed illegally, such a control system may be used.

In addition, when the mode is changed to the setting change mode, the LCD displays "Setting change mode", the frame lamp lights up in red, and the BGM dedicated to the setting change mode and the voice "Setting change in progress" are changed from the speaker. It is output until the mode is finished, and when the total score is cleared, the frame lamp lights up in orange, and the speaker "Cleared the total score" is output for a short period or once, respectively. It is configured to be. Therefore, even if the transition to the setting change mode and the clearing of the total score are performed at the same time, in order to make it easier to recognize all the situations, a notification regarding the clearing of the total score output for a short period or once is performed. Is given priority. In order to give priority, for example, if the audio channel of the audio in the setting change mode and the audio related to clearing the total score are the same, the audio related to clearing the total score can be output later to be the audio related to clearing the total score. Even if the audio channel for the setting change mode and the audio for clearing the total score are separated, the audio for clearing the total score is being output while the audio for clearing the total score is being output. It is conceivable to lower the volume of the sound or mute it. With this configuration, it is possible to make it easier to recognize the situation even if the setting change mode is changed and the total score is cleared at the same time.

The storage capacity of the built-in ROM of the game medium number control chip mounted on the game medium number control board P16 is "16 KB or less", and the used area (also referred to as the first program) of "7.5 KB or less" and it. It has a non-use area (also referred to as a second program). In the used area, only the control area (also referred to as the first control area) of "4.5 KB or less" in which the program executed by the game medium number control board P16 is stored, and information other than the program are stored or stored. It has a data area (also referred to as a first data area) of "3.0 KB or less" to be used. The outside of the used area has a control area (also referred to as a second control area) and a data area (also referred to as a second data area) as in the used area. A program related to the progress of the game is stored in the used area, and a program related to fraud countermeasures and a program used for the role ratio monitor are stored outside the used area.

Further, the game medium number control board P16 is equipped with a role ratio monitor (also referred to as a performance display monitor), and is configured to be able to execute arithmetic processing and display processing for displaying the stay ratio of various states.

The role ratio monitor is the cumulative advantageous section ratio or the cumulative designated bonus ratio (selectable according to the specifications of the gaming machine), the continuous bonus ratio between the latest 6000 games, and the bonus between the latest 6000 games. It is a display device that switches and displays the ratio, cumulative continuous bonus ratio, cumulative bonus ratio, cumulative bonus status ratio, etc. every 4800 ms, and is a 4-digit display device by using 4 7-segment LEDs (with DP). It is possible to display the number of. Of the four-digit numbers displayed by the four 7-segment LEDs, the upper two digits are referred to as the identification segment, and the lower two digits are referred to as the ratio segment.

The "feature" in the bonus ratio refers to the first-class special bonus (so-called RB), the second-class special bonus (so-called CB), and the ordinary bonus (so-called SB), and the "feature ratio". "" Is a ratio calculated by payout during operation of the accessory ÷ total payout x 100. It should be noted that the payout in the operation of the type 1 special bonus continuous actuating device (so-called BB) and the type 2 special bonus continuous actuating device (so-called MB) is also included in the "payout during the bonus operation", but in the BB. Payouts in general games and general games in MB are not included in "payouts during operation of the character".

The "continuous bonus" in the continuous bonus ratio refers to the first-class special bonus (so-called RB), and the "continuous bonus ratio" is the payout / total payout during the operation of the first-class special bonus. It is a ratio calculated by × 100. It should be noted that the payout in the operation of the first-class special bonus continuous operation device (so-called BB) is also included in the "payout during the bonus operation", but the payout in the general game during the BB is the "payout during the bonus operation". Not included in.

The "instruction-included accessory ratio" in the instruction-included accessory ratio includes the payout in the game (so-called AT) in which the instruction function is activated in the above-mentioned "accessory", and the "instruction-included accessory ratio" is , (Payout while the instruction function is operating, or payout while the accessory is operating) ÷ Total payout × 100 is the ratio calculated. Here, (payout while the instruction function is operating or payout while the accessory is operating) does not mean the payout of the game in which the instruction function is operating and the accessory is activated, but the payout of the game in which the instruction function is activated. It refers to the sum of the number and the payout of the game in which the character is activated. If the game in which the instruction function is activated is a game in which the accessory is activated, the number of payouts of the game is not the sum of the two payout numbers, but the payout number of the game (payment or combination while the instruction function is activated). It will be paid out while the object is in operation). If the player makes a mistake in the operation mode of the stop switch in the game in which the AT is activated, the maximum payout may not be obtained, but in this case, the payout is calculated based on the actual payout.

Of the information displayed on the role ratio monitor, the information displayed on the identification segment is the cumulative advantageous section ratio, the cumulative indicated bonus ratio, the continuous bonus ratio between the latest 6000 games, and the bonus between the latest 6000 games. Information for identifying which ratio of the ratio, the cumulative continuous bonus ratio, the cumulative bonus ratio, and the cumulative bonus status ratio is displayed, and is "7U." And "7P. , "6Y.", "7Y.", "6A.", "7A.", "5H.". For example, if "7U." Is displayed on the identification seg, it means that it is a cumulative advantageous section ratio, and if "6Y." Is displayed on the identification seg, it means that the latest 6000 games are continuous. It shows that it is a character ratio.

Of the information displayed on the role ratio monitor, the information displayed on the ratio segment is information for visually recognizing the calculation results of various ratios, and is displayed as a two-digit number using two 7-segment LEDs. For example, when the calculation result is 70, "70" is displayed in the ratio segment. Of the calculated results, the numbers after the decimal point are truncated and displayed. If the calculation result is 100, it is displayed as "99". If the cumulative number of games is less than 400, the ratio segment is displayed as "00".

When the cumulative number of games is less than the standard number of games, the identification seg displays the identification seg in a blinking mode. The number of standard games is determined according to various ratios, 175,000 games in the case of the cumulative advantageous section ratio, 175,000 games in the case of the cumulative instruction-included accessory ratio, and the latest 6000 games. In the case of the continuous character ratio of, there are 6,000 games, in the case of the character ratio between the latest 6000 games, there are 6,000 games, and in the case of the cumulative continuous character ratio, there are 17,500 games. In the case of the cumulative bonus ratio, there are 17,500 games, and in the case of the cumulative bonus status ratio, there are 175,000 games.

When the displayed value is equal to or higher than the threshold value, the ratio seg displays the ratio seg in a blinking mode. The threshold is determined according to various ratios, 70 for the cumulative advantageous section ratio, 70 for the cumulative indicated bonus ratio, and 70 for the latest 6000 games continuous bonus ratio. It is 60, 70 in the case of the latest 6000 game-to-game bonus ratio, 60 in the cumulative continuous bonus ratio, 70 in the cumulative bonus ratio, and the cumulative bonus, etc. In the case of the state ratio, it is 50. If the cumulative number of games is less than 400 and the calculation result is equal to or greater than the threshold value, but "00" is displayed in the ratio segment, the ratio segment is displayed in the lighting mode.

In order to confirm whether the role ratio monitor can operate normally, a test pattern is displayed on the identification segment and the ratio segment for 4800 ms after the power is turned on and the interrupt processing is started. As a test pattern, all segments (including DP) of the four 7-segment LEDs constituting the role ratio monitor are displayed in a blinking mode. For example, "8.8.8.8." May be displayed in a blinking mode. In addition to the case where the test pattern is displayed at the timing after the power is turned on, the test pattern may be displayed at any of the timings of setting change, setting confirmation, and RWM abnormality error.

When the cumulative number of games in the identification seg is less than the standard number of games, when the displayed value in the ratio seg is equal to or greater than the threshold value, and when the test pattern is displayed in the identification seg and the ratio seg, the segment is displayed in blinking mode. However, specifically, the blinking mode is displayed by switching between lighting and extinguishing every 300 ms, such as lighting 300 ms → extinguishing 300 ms → lighting 300 ms → extinguishing 300 ms → .... In addition, when various ratio information is switched, it starts from lighting, so that the display time of various ratio information does not become longer or shorter at the timing of lighting and blinking.

As described above, the cumulative advantageous section ratio or the cumulative indicated bonus ratio, the continuous bonus ratio between the latest 6000 games, the bonus ratio between the latest 6000 games, and the cumulative continuous displayed on the role ratio monitor. The bonus ratio, the cumulative bonus ratio, and the cumulative bonus status ratio are configured to switch the display content every 4800 ms, but this 4800 ms is set to a multiple of 600 ms, which is one set of lighting and blinking. Therefore, it is possible to configure the LED of any of the 7-segment LEDs to be always lit even when the display is performed in a blinking mode at the switching timing of various ratios displayed on the role ratio monitor. It becomes.

With this configuration, even at the timing when various ratio information is switched, it starts from lighting, so that it is possible to continuously display the display without a sense of discomfort due to the fact that the blinking cycle does not shift.

Further, since the display period of the test pattern after the power is turned on is also set to 4800 ms, the 7-segment LED is turned off when the test pattern is displayed for 4800 ms, and the cumulative advantageous section ratio or the cumulative instruction is given in the next interrupt processing. It is possible to display information on the inclusion ratio from lighting.

Subsequently, a control method regarding the blinking display in the role ratio monitor will be described.

It has a storage area (_TM_CHG_FLS) for managing the time for switching between lighting and extinguishing in order to blink the display mode of the role ratio monitor. The storage area (_TM_CHG_FLS) for managing the time for switching between lighting and extinguishing is a 2-byte storage area, and a process of adding 1 to each interrupt process is executed. The storage area (_TM_CHG_FLS) for managing the time for switching between lighting and extinguishing is initialized when the power is turned on (0 is stored), and then a value of 0 to 299 is circulated each time the interrupt process is executed. In other words, the next value after 299 is 0.

Example 1) If the update process is performed when the storage area (_TM_CHG_FLS) for managing the time for switching between lighting and extinguishing is "0", the storage area (_TM_CHG_FLS) for managing the time for switching between lighting and extinguishing is ". 1 ”. At this time, the carry flag = 1 (the carry flag = 1 because a carry occurs as a result of calculating "0-299").
Example 2) If the update process is performed when the storage area (_TM_CHG_FLS) for managing the time for switching between lighting and extinguishing is "298", the storage area (_TM_CHG_FLS) for managing the time for switching between lighting and extinguishing is ". 299 ". At this time, the carry flag = 1 (as a result of calculating "298-299", a carry flag = 1 because a carry occurs).
Example 3) If the update process is performed when the storage area (_TM_CHG_FLS) for managing the time for switching between lighting and extinguishing is "299", the storage area (_TM_CHG_FLS) for managing the time for switching between lighting and extinguishing is ". It becomes "0". At this time, the carry flag = 0 (as a result of calculating "299-299", the carry flag = 0 because the carry flag does not occur).

As described above, when the storage area (_TM_CHG_FLS) for managing the time for switching on / off is any value from 0 to 298, the carry flag = 1 and the time for switching on / off is set. When the storage area (_TM_CHG_FLS) for management is 299, the carry flag = 0. In other words, the carry flag = 0 every 300 ms.

When the carry flag = 0, the blinking switching flag (_FL_CHG_FLS) is updated. The blinking switching flag (_FL_CHG_FLS) is initialized when the power is turned on (0 is stored), and when 0 is stored in the blinking switching flag (_FL_CHG_FLS), the role ratio monitor is turned on and the blinking switching flag (_FL_CHG_FLS) is turned on. When 1 is stored in (_FL_CHG_FLS), the combination monitor is turned off. In other words, since the carry flag = 0 every 300 ms, by repeatedly storing 0 and 1 in the blinking switching flag (_FL_CHG_FLS) every 300 ms, the display mode of the role ratio monitor is turned on and off every 300 ms. Can be repeatedly displayed (blinking display).

When displaying the display of the role ratio monitor in a blinking mode, if the cumulative number of games in the identification seg is less than the standard number of games, if the display value in the ratio seg is greater than or equal to the threshold value, the test pattern is displayed in the identification seg and the ratio seg. Since it is any of the cases of display, in cases other than these cases, it is displayed in the lighting mode without referring to the blinking switching flag (_FL_CHG_FLS). However, since the storage area (_TM_CHG_FLS) for managing the time for switching between lighting and extinguishing is updated for each interrupt process regardless of whether or not the blinking switching flag (_FL_CHG_FLS) is referred to, the blinking switching flag (_FL_CHG_FLS) Is also updated from time to time, and even when the blinking switching flag (_FL_CHG_FLS) is switched from the non-referenced state to the referenced state, the timing of lighting and extinguishing and the switching timing of various ratio displays can be displayed without deviation. It will be possible.

(Lending device connection terminal board for game balls, etc.)
The game ball or the like rental device connection terminal board (also referred to as a connection terminal board) has a role as a relay board for bidirectional communication between the game machine P and the rental unit. The game ball rental device connection terminal board is housed in the game ball rental device connection terminal board case. The game ball rental device connection terminal board is protected by a game ball rental device connection terminal board case, and by sealing the game ball rental device connection terminal board case with caulking (also referred to as a sealing member), the game ball, etc. It is configured so that it is difficult to open the rental device connection terminal plate case.

The game ball rental device connection terminal board has a connector (D-sub 9 pin) for bidirectional communication with the rental unit, and a harness connected to the connector from the opening provided on the back side of the housing of the game machine P. Two-way communication is possible via (length of about 1.5 m to 2.0 m). In addition, the terminal board for connecting the rental device such as a game ball is equipped with a capacitor to stabilize communication with the rental unit. The lending unit is provided with a lending switch, and when the lending switch is operated, a lending notification is transmitted from the lending unit, and the lending notification is sent to the game medium number control board P16 via the game ball or the like lending device connection terminal board. Is entered. The connector for connecting the rental device connection terminal board for a game ball or the like and the rental unit has a spring lock so that the harness cannot be easily removed.

The main control board P15, the game medium number control board P16, and the game ball rental device connection terminal board are each housed in a board case, but the present invention is not limited to this, and the main control board P15, the game medium number control board P16, and the game medium number control board P16. May be housed together in one board case, or the main control board P15, the game medium number control board P16, and the game ball rental device connection terminal board may be housed together in one board case. Further, the board case is configured so that the back surface can be easily confirmed even when it is installed in the gaming machine P.

In a conventional game machine using medals, the main control board P15 and the rotating body device board are connected by a harness, and by removing this harness, the main control board mounted on the main control board P15 is rotated. The power supply from the capacitor mounted on the device board is cut off, and the data stored in the RAM of the main control chip can be initialized. As a result, even if invalid data is stored in the RAM, it can be reliably initialized by pulling out the harness. Further, since the board case of the main control board P15 is sealed, if a capacitor is mounted on the main control board, the board case of the main control board is destroyed in order to cut off the power supply from the capacitor as described above. After that, it is necessary to remove the main control chip from the main control board P15. In this way, it is desirable to mount the capacitor on a board that is not the main control board in order to prevent the board case from being destroyed in order to cut off the power supply from the capacitor.

On the other hand, the game ball rental device connection terminal plate described in the present embodiment uses a photocoupler to perform high-speed communication with the rental unit, so that power is liable to be insufficient. Is desirable to supply. Therefore, a capacitor is mounted on the game ball rental device connection terminal board, the game ball rental device connection terminal board is connected to the game medium number control board P16 with a harness, and the game medium number control board P16 and the main control board are further connected. By connecting P15 with a harness, the capacitor mounted on the terminal board for renting a game ball or the like serves as a backup power source for the main control chip mounted on the main control board P15.

The main control board P15, the game medium number control board P16, and the game ball rental device connection terminal board are each sealed with a board case, and the game medium number control board P16, the game ball rental device connection terminal board, and the like. Since the main control board P15 and the game medium number control board P16 are each connected by a harness, it is possible to initialize the data stored in the RAM of the main control chip by removing the harness. In addition, since the game medium number control chip of the game medium number control board is sealed in the board case, it is difficult to insert and remove it, but the total score can be initialized by the initialization operation of the total score clear switch. It is configured.

The main control board P15 and the game medium number control board P16 are connected via a 32-pin connector. Pin 1 is DC12V, pin 2 is DC12V, pin 3 is DC5V, pin 4 is DC5V, pin 5 is the main control data signal, and pin 6 is the control status signal. Pin 1 is the control status signal 2, pin 8 is the control status signal 3, pin 9 is the control status signal 4, pin 10 is the control status signal 5, and pin 11 is. The pin is the game medium number control data signal 1, the 12th pin is the game medium number control data signal 2, the 13th pin is the game medium number control data signal 3, and the 14th pin is the game medium number control data signal. Pin 4 is a game medium number control data signal 5, pin 16 is a game medium number control data signal 6, pin 17 is a game medium number control data signal 7, and pin 18 is a game medium number control data signal 7. The game medium number control data signal 8 is, the 19th pin is the game medium number control data signal 9, the 20th pin is the game medium number control data signal 10, and the 21st pin is the game medium number control data signal 11. Pin 22 is a game medium number control data signal 12, pin 23 is a game medium number control data signal 13, pin 24 is a game medium number control data signal 14, and pin 25 is a game medium. The number control data signal 15, the 26th pin is the game medium number control data signal 16, the 27th pin is the game medium number control data strobe signal, and the 28th pin is the power failure detection signal 1 and the 29th pin. The pin is a backup power supply, the 30th pin is a GND signal, the 31st pin is a GND signal, and the 32nd pin is a GND signal. The main control board P15 and the game medium number control board P16 may be directly connected by a harness or may be indirectly connected via a relay terminal board.

The game medium number control board P16 and the game ball rental device connection terminal board are connected via a 5-pin connector. The 1st pin is DC5V, the 2nd pin is a VL signal, the 3rd pin is a transmission signal, the 4th pin is a reception signal, and the 5th pin is a GND signal. The game medium number control board P16 and the game ball or the like rental device connection terminal board may be directly connected by a harness, or may be indirectly connected via a relay terminal board.

The game medium number control board P16 and the game medium number display board P13 are connected via a 14-pin connector. Pin 1 is the LED digit A signal, pin 2 is the LED digit B signal, pin 3 is the LED digit C signal, pin 4 is the LED digit D signal, and pin 5 is the LED digit. The E signal, the 6th pin is the game medium number display segment A signal, the 7th pin is the game medium number display segment B signal, the 8th pin is the game medium number display segment C signal, and the 9th pin. Is a game medium number display segment D signal, pin 10 is a game medium number display segment E signal, pin 11 is a game medium number display segment F signal, and pin 12 is a game medium number display segment G signal. Pin 13 is a game medium number display segment P signal, and pin 14 is a game medium number display segment P signal. Further, the signals related to the 1st pin to the 14th pin are signals transmitted from the game medium number control board P16 to the game medium number display board P13. The game medium number control board P16 and the game medium number display board P13 may be directly connected by a harness or may be indirectly connected via a relay terminal board.

The game medium number control board P16 and the counting switch P7 are connected via a 2-pin connector. Pin 1 is a counting switch P7 signal, which is used to transmit a signal related to the operation input of the counting switch P7 to the game medium number control board P16 when the counting switch P7 is operated. When the counting switch P7 signal is input, a part or all of the total score information managed by the game medium number control board P16 is transmitted to the rental unit. The second pin is a GND signal and is used as a GND. The game medium number control board P16 and the counting switch P7 may be directly connected by a harness or indirectly connected via a relay terminal plate.

The rental device connection terminal board for a game ball or the like and the rental unit are connected via a 9-pin connector. Pin 1 is an LG signal, pin 2 is a TXD- signal, pin 3 is an RXD- signal, pin 4 is a PSI signal, pin 5 is an LG signal, and pin 6 Is a TXD + signal, pin 7 is an RXD + signal, pin 8 is a VL signal, and pin 9 is a VL signal. The TXD + signal and the TXD- signal are used to transmit information from the gaming machine P (game ball or the like lending device connection terminal board) to the lending unit. The RXD + signal and RXD- signal are used by the gaming machine P (game ball or the like lending device connection terminal board) to receive information from the lending unit. The PSI signal is used as a signal connection confirmation signal for confirming the connection between the gaming machine P and the rental unit. The VL signal is used as an isolated DC5V power supply. Further, the harness connecting the 2nd pin and the 6th pin is twisted. Further, the harness connecting the 3rd pin and the 7th pin is twisted. The rental device connection terminal plate for a game ball or the like and the rental unit may be directly connected by a harness or indirectly connected via a relay terminal plate.

The main control board P15 and the door relay board are connected via a 40-pin connector. Pin 1 is DC5V, pin 2 is DC5V, pin 3 is DC5V, pin 4 is DC5V, pin 5 is a GND signal, and pin 6 is an LED digit 1 signal. Pin 7 is the LED digit 2 signal, pin 8 is the LED digit 3 signal, pin 9 is the LED digit 4 signal, pin 10 is the LED digit 5 signal, and pin 11 is the LED digit 5 signal. The LED segment 1A signal, the 12th pin is the LED segment 1B signal, the 13th pin is the LED segment 1C signal, the 14th pin is the LED segment 1D signal, and the 15th pin is the LED segment 1E signal. , 16th pin is an LED segment 1F signal, 17th pin is an LED segment 1G signal, 18th pin is an LED segment 1P signal, 19th pin is a GND signal, and 20th pin is a GND signal. Pin 21 is a GND signal, pin 22 is a GND signal, pin 23 is a GND signal, pin 24 is a GND signal, pin 25 is a start switch sensor signal, and pin 26. The pin is a GND signal, the 27th pin is a settlement switch signal, the 28th pin is a 1-sheet input switch signal, the 29th pin is a 3-sheet input sensor signal, and the 30th pin is a GND signal. Pin 31 is the left stop switch P4L sensor signal, pin 32 is the GND signal, pin 33 is the medium stop switch P4C sensor signal, pin 34 is the GND signal, and pin 35 is the GND signal. The 36th pin is the right stop switch P4R sensor signal, the 37th pin is the GND signal, the 38th pin is the GND signal, the 39th pin is the GND signal, and the 40th pin is the connector connection monitor. It is a signal. The main control board P15 and the rotating body device board P17 may be directly connected by a harness or may be indirectly connected via a relay terminal plate.

The main control board P15 and the cylinder device board P17 are connected via a 26-pin connector. The 1st pin is DC12V, the 2nd pin is DC12V, the 3rd pin is DC5V, the 4th pin is DC5V, the 5th pin is the backup power supply, and the 6th pin is the left reel P18L motor Φ0. The 7th pin is the left reel P18L motor Φ1 signal, the 8th pin is the left reel P18L motor Φ2 signal, the 9th pin is the left reel P18L motor Φ3 signal, and the 10th pin is the middle reel P18C. The motor Φ0 signal, the 11th pin is the middle reel P18C motor Φ1 signal, the 12th pin is the middle reel P18C motor Φ2 signal, the 13th pin is the middle reel P18C motor Φ3 signal, and the 14th pin is the right. The reel P18R motor Φ0 signal, the 15th pin is the right reel P18R motor Φ1 signal, the 16th pin is the right reel P18R motor Φ2 signal, the 17th pin is the right reel P18R motor Φ3 signal, and the 18th pin. Is the left reel P18L sensor signal, pin 19 is the middle reel P18C sensor signal, pin 20 is the right reel P18R sensor signal, pin 21 is the door switch signal, and pin 22 is the GND signal. Pin 23 is a GND signal, pin 24 is a GND signal, pin 25 is a GND signal, and pin 26 is a GND signal. The main control board P15 and the rotating body device board P17 may be directly connected by a harness or may be indirectly connected via a relay terminal plate.

The main control board P15 and the setting / reset switch are connected via a 5-pin connector. In the present embodiment, the setting change switch that changes the setting value in the setting change mode and the reset switch that cancels the error in the error are the same switch, but they may be provided as different switches.

The main control board P15 and the sub control board are connected via a 30-pin connector.

The rotating body device board P17 and the power supply board are connected via an 8-pin connector.

The spinning device board P17 and the left reel P18L motor are connected via a 4-pin connector. Pin 1 is a motor Φ0 signal, pin 2 is a motor Φ1 signal, pin 3 is a motor Φ2 signal, and pin 4 is a motor Φ3 signal. The cylinder device board P17 and the left reel P18L motor may be directly connected by a harness or may be indirectly connected via a relay terminal plate.

The spinning device board P17 and the left reel P18L sensor are connected via a 3-pin connector. The first pin is DC5V, the second pin is the left reel P18L sensor signal, and the third pin is the GND signal. The cylinder device board P17 and the left reel P18L sensor may be directly connected by a harness or may be indirectly connected via a relay terminal plate.

The spinning device board P17 and the middle reel P18C motor are connected via a 4-pin connector. Pin 1 is a motor Φ0 signal, pin 2 is a motor Φ1 signal, pin 3 is a motor Φ2 signal, and pin 4 is a motor Φ3 signal. The cylinder device board P17 and the middle reel P18C motor may be directly connected by a harness or may be indirectly connected via a relay terminal plate.

The spinning device board P17 and the middle reel P18C sensor are connected via a 3-pin connector. The 1st pin is DC5V, the 2nd pin is a middle reel P18C sensor signal, and the 3rd pin is a GND signal. The cylinder device board P17 and the middle reel P18C sensor may be directly connected by a harness or may be indirectly connected via a relay terminal plate.

The spinning device board P17 and the right reel P18R motor are connected via a 4-pin connector. Pin 1 is a motor Φ0 signal, pin 2 is a motor Φ1 signal, pin 3 is a motor Φ2 signal, and pin 4 is a motor Φ3 signal. The cylinder device board P17 and the right reel P18R motor may be directly connected by a harness or may be indirectly connected via a relay terminal plate.

The spinning device board P17 and the right reel P18R sensor are connected via a 3-pin connector. The 1st pin is DC5V, the 2nd pin is a right reel P18R sensor signal, and the 3rd pin is a GND signal. The cylinder device board P17 and the right reel P18R sensor may be directly connected by a harness or may be indirectly connected via a relay terminal plate.

The rotating body device board P17 and the door switch are connected via a 3-pin connector. Pin 1 is a door switch signal, pin 2 is a GND signal, and pin 3 is a GND signal. The rotating cylinder device board P17 and the door switch may be directly connected by a harness or indirectly connected via a relay terminal plate.

The door relay board and the display board are connected via a 14-pin connector.

The door relay board and the max bed are connected via a 6-pin connector.

The door relay board and the start switch P3 are connected via a 3-pin connector.

The door relay board and the stop switch P4 are connected via a 9-pin connector.

<Setting change mode>
The setting change mode is a mode in which a setting value can be selected. In the present embodiment, any information of "0" to "5" is selected as the setting value information and stored in the setting value information storage means. Can be done. Here, a setting value display (not shown) for displaying the setting value is provided, and in the setting change mode, the hall clerk determines the setting value information based on the information displayed on the setting value display. be able to. The set value displayed on the set value display is any information of "1" to "6".

The setting change mode is started (setting change is started) by turning on the power switch after the power switch is off and the setting key switch is turned on.

After starting the setting change mode (starting the setting change), it is possible to select which of the setting value information should be set by operating the setting change switch. For example, if the setting change switch is operated while "2" is displayed on the setting value display, "3" is displayed on the setting value display. If the setting change switch is operated while "6" is displayed on the setting value display, "1" is displayed on the setting value display. When the setting change mode is activated, the storage area in the predetermined range of the first main control RAM is initialized. By this initialization process, the game state such as the returnable error and the advantageous section is initialized, but the total score is not initialized. To initialize the total score, it is necessary to operate the total score clear switch separately.

After starting the setting change mode (starting the setting change), select the setting value by operating the setting change switch, operate the start switch P3 to confirm the setting value, and then turn off the setting key switch. , You can exit the setting change mode (end the setting change). After the setting change mode is finished (the setting change is finished), the input point can be bet, and if the operation of the start switch P3 is accepted after the input point is bet, the game can be executed.

If the setting change mode is terminated while "1" is displayed on the setting value display, "0" is stored as the setting value information and "2" is displayed on the setting value display. When the setting change mode is terminated, "1" is stored as the setting value information, and when the setting change mode is terminated when "3" is displayed on the setting value display, the setting value information is displayed. If "2" is stored and "4" is displayed on the setting value display and the setting change mode is terminated, "3" is stored as setting value information and "5" is stored on the setting value display. When the setting change mode is terminated when is displayed, "4" is stored as the setting value information, and when "6" is displayed on the setting value display, the setting change mode is terminated. Stores "5" as set value information.

Here, even in the setting change mode, communication between the rental unit and the gaming machine P is performed. In other words, even during the setting change mode, it is possible to receive the lending notification described later and add points to the gaming machine P. Further, even in the setting change mode, it is possible to send a counting notification, which will be described later, to count the points of the gaming machine P.

Further, even in the setting change mode, it can be configured so that the rental unit and the gaming machine P do not communicate with each other. In other words, even in the setting change mode, even if the lending switch of the lending unit is operated, the gaming machine P does not receive the lending notification, so that the points cannot be added to the gaming machine P. Further, in this case, even if the counting switch P7 is operated, the counting notification is not transmitted in the setting change mode, so that the score of the gaming machine P cannot be counted.

<Setting confirmation mode>
The setting confirmation mode is a mode in which the setting value can be confirmed, and the current setting value can be displayed by the setting value display.

The setting confirmation mode can be started (setting confirmation starts) when the setting key switch is turned on while the power switch is on. In the setting confirmation mode, unlike the setting change mode, the setting value cannot be selected. Further, when the power switch is on and the setting key switch is turned on in a situation where the number of bets is one or more, the setting confirmation mode may not be started.

After starting the setting confirmation mode (starting the setting confirmation), you can end the setting confirmation mode (end the setting confirmation) by turning off the setting key switch.

Here, even in the setting confirmation mode, communication between the rental unit and the gaming machine P is performed. In other words, even during the setting confirmation mode, it is possible to receive the lending notification described later and add points to the gaming machine P. Further, even in the setting confirmation mode, it is possible to send a counting notification, which will be described later, to count the points of the gaming machine P.

Further, even in the setting confirmation mode, it is possible to configure the rental unit so that the gaming machine P does not communicate with each other. In other words, even in the setting confirmation mode, even if the lending switch of the lending unit is operated, the gaming machine P does not receive the lending notification, so that the points cannot be added to the gaming machine P. Further, in this case, even in the setting confirmation mode, even if the counting switch P7 is operated, the counting notification is not transmitted, so that the points of the gaming machine P cannot be counted.

<Rental unit>
The gaming machine P in the present embodiment can communicate with the rental unit. For example, the lending unit is provided with a lending switch, and when the lending switch is operated, a lending notification is transmitted to the gaming machine P. The rental unit is equipped with an SC board that receives information from the gaming machine P, and the information transmitted by the gaming medium number control board P16 in the gaming machine P is configured to be received by the SC board.

<Explanation of power-on processing controlled by the main control board P15 applicable to this embodiment>
When the power of the gaming machine is turned on, it is determined whether the power off detection signal is ON or not, and if the power off detection signal is not ON (OFF), the function of the main control chip is set and the power is turned off. When the detection signal is ON, the determination of whether or not the power off detection signal is ON is looped (the following power-on processing is not executed).

In the function setting of the main control chip, the initial setting of the built-in register is executed.

Subsequently, the checksum of the RWM area is calculated and the power-off processing completed flag is checked, and the power-off recovery data is generated.

Subsequently, it is determined whether or not the door switch signal and the setting key switch signal are ON, and the door switch signal is ON (the front door is open) and the setting key switch signal is ON. Executes the setting change device process, and if any of the switches is OFF, determines whether or not the power supply cutoff / recovery data is normal.

Subsequently, if the power supply cutoff / recovery data is not normal, an error is displayed and the error state is looped until the initialization process is performed. If the power-off recovery data is normal, the stack pointer is restored based on the data saved when the power was turned off.

Then, read the input port.

Then, the interrupt activation process is executed. In the interrupt activation process, the settings related to the four channels of the serial communication ports 0 to 3 are executed. Of these, channel 0 can be set for transmission and reception, channel 1 can be set for transmission only, channel 2 can be set for transmission only, and channel 3 can be set for transmission only. Only can be set.

In order to make a setting for permitting reception for channel 0, bit 7 of the setting area (a part of the built-in register) corresponding to channel 0 is set to "1". Further, by setting the bit 6 of the setting area (a part of the built-in register) corresponding to the channel 0 to "1", it is possible to make a setting for permitting the transmission with respect to the channel 0. In the present embodiment, since the setting of the channel 0 sets only the reception, the bit 7 is set to "1" and the bit 6 is left as "0". By permitting only reception of this channel 0, the main control board can receive a command from the game medium number control board. In this embodiment, when a command is transmitted from the main control board to the game medium number control board, the serial communication port is not used because the command is transmitted by parallel communication, but the main control board sends the command to the game medium number control board by serial communication. When transmitting a command, one of channels 1 to 3 of the serial communication port may be used for transmission. Even in this case, by setting the channel 0 to allow only reception, mutual communication can be executed without performing complicated processing such as adjusting the timing of the command related to transmission and the command related to reception.

In the interrupt activation process, the reception setting of channel 0 is set in the used area, and the transmission setting of channel 2 is set outside the used area. Channel 2 executes transmission settings in order to execute a process for outputting a test signal from the main control board to the test IF board.

In the interrupt activation process, after executing the reception permission setting and transmission non-permission setting of channel 0, the serial communication setting program outside the used area is called and the transmission permission setting of channel 2 is executed. By setting the reception setting of the channel 0 before the transmission setting of the channel 2 in this way, it is possible to prepare for the transmission of the command from the game medium number control board as soon as possible.

After executing the interrupt activation process, the interrupt process is restored when the power is turned off.

<Explanation of the game progress main process controlled by the main control board P15 applicable to the present embodiment>
The processing related to the game in the gaming machine P is the interval interrupt processing (hereinafter, may be referred to as "interrupt processing") executed periodically (every 2.235 ms in the present embodiment) and the next after the end of the interval interrupt processing. It is roughly divided into the game progress main process that is executed until the start timing of the interval interrupt process.

In the game progress main, first set the setting changeable state where the setting can be changed.

Then, the game is on standby, and it is confirmed whether or not the setting key switch, MAX bet switch, 1-bet switch, and settlement switch have been operated (confirm whether or not the rising signals of various switches have been detected), and the setting key switch. If it is determined that the switch has been operated, the setting confirmation process is executed, if it is determined that the MAX bet switch has been operated, the 3-point input process is executed, and if it is determined that the 1-bet switch has been operated, the 1-point input process is executed. If it is executed and it is determined that the settlement switch has been operated, the settlement processing of the bet points is executed.

Subsequently, when the playable turning point is turned on, it is confirmed whether or not the start switch has been operated (whether or not the rising signal of the start switch has been detected). If no gameable input point has been input, the game is on standby.

Then, as a result of checking whether or not the start switch has been operated, if it is determined that the start switch has been operated, the setting cannot be changed state is set, and if it is determined that the start switch has not been operated, the game is on standby. Be inside.

Subsequently, after setting the setting non-changeable state, the internal lottery process is executed. In the internal lottery process, small wins, replays (also referred to as replays), BBs, RBs, outliers, etc. are drawn and determined.

Subsequently, it is determined whether or not the minimum game time (time for guaranteeing 4.1 seconds or more from the start of the rotation of the body of one game to the start of the rotation of the body of the next game) has elapsed, and the minimum game time is determined. If it is determined that the minimum game time has elapsed, the rotation start process is executed, and if it is determined that the minimum game time has not elapsed, the process for determining the minimum game time is looped until the minimum game time has elapsed.

Subsequently, in the rotating cylinder rotation start processing, the processing for rotating all the rotating cylinders is executed, and the creation of the shift frame number data is started until the operation of the stop switch becomes acceptable.

Then, it is determined whether or not the operation of the stop switch is acceptable, and if the operation of the stop switch is acceptable, it is confirmed whether or not the stop switch is operated (whether or not the rising signal of the stop switch is detected). Check). If the operation of the stop switch is not acceptable, the process returns to the creation of the shift frame number data.

Subsequently, as a result of confirming whether or not the stop switch has been operated, if it is determined that the stop switch has been operated, the stop position is determined from the stop reception position and the number of frames. If it is determined that the stop switch has not been operated, the process returns to the creation of the shift frame number data.

Subsequently, when the stop position is determined, it is determined whether or not the full rotation cylinder (three rotation cylinders in the present embodiment) has stopped, and when it is determined that the all rotation cylinder has stopped, the display determination process is performed. If it is executed and it is determined that the whole body has not stopped, the process returns to the creation of the shift frame number data.

Subsequently, after the display determination process is executed, the payout process is executed.

Subsequently, the re-game, the accessory, and the operation state management process of the accessory continuous operation device are executed. By executing the operation state management process, one game is completed, and the game returns to the beginning of the main game progress (setting changeable state set process).

If it is determined that the start switch has been operated, the setting cannot be changed by setting the setting non-changeable state, but the setting cannot be changed in the setting non-changeable state. However, it may be configured so that the settings can be changed (even after the start switch is operated).

<Explanation of Interval Interrupt Processing Controlled by Main Control Board P15 Applicable to the Present Embodiment>
In the interval interrupt processing, first, the register save processing is executed. In the register save processing, the register value is stored in the stack area so that it can be returned to the game progress main processing that was executed until immediately before the end of the interrupt processing.

Subsequently, the interrupt flag clearing process is executed. In the interrupt flag clear processing, the interrupt flag is cleared (OFF) to allow interrupt processing.

Then, the power cutoff process is executed. In the power-off processing, if the power-off detection signal is ON, the power-off processing described later is executed, and if the power-off detection signal is OFF, the power-off processing is terminated.

Subsequently, the interrupt counter update process is executed. In the interrupt counter update process, the counter is updated for each interrupt process.

Subsequently, the main control command acquisition process is executed. In the main control command acquisition process, a command from the game medium number control board P16 is received and stored in the main control command buffer.

Then, the input port reading process is executed. In the input port reading process, the input port is read.

Subsequently, the rotating cylinder drive management process is executed. In the rotating cylinder drive management process, the drive process according to the state is executed for all reels.

Subsequently, the game medium number control command output process is executed. In the game medium number control command output process, the command is stored in the game medium number command buffer in order to transmit the command to the game medium number control board P16.

Then, the port output process is executed. In the port output process, data is set in the output port and output.

Subsequently, the timer measurement process is executed. In the timer measurement processing, the condition device output timer, the payout count signal output timer, the overflow test signal timer, the rotation cylinder stop reception waiting timer, the minimum game time management timer, the score giving timer, the setting change device operation start wait timer, and the bonus operation start. Updates the time-waiting timer and the time-waiting timer at the end of bonus operation.

Then, the error management process is executed. In the error management process, the set value error and the built-in random number error are checked. The error management process is a process of calling a program outside the used area, and the error check is executed by the program outside the used area.

Subsequently, the gaming machine information management process is executed. In the game machine information management process, the information of the game machine fraud 1 and the game machine fraud 2 is updated.

Subsequently, the sub-control command transmission process is executed. In the sub-control command transmission process, a command to be transmitted to the sub-control board is set.

Subsequently, the LED display process is executed. In the LED display process, a process of setting a 7-segment LED segment table to be displayed on the assigned number display unit or the like is executed.

Subsequently, the sub-notification data output process is executed. In the sub notification data output process, whether or not the stop switch and the MAX bet switch can be effectively operated is transmitted to the sub control board.

Subsequently, the game medium number control notification process is executed. In the game medium number control notification process, the game medium number control notification information is updated.

Subsequently, the register return process is executed. In the register return processing, the information saved in the stack is restored by the register save processing.

Then, the interrupt permission process is executed.

<Explanation of power supply cutoff processing controlled by the main control board P15 applicable to the present embodiment>
When the power of the gaming machine P is turned off or the power cutoff detection signal is turned on due to an external factor such as a power failure, the power cutoff process is executed. If the power cutoff detection signal is not ON, the power cutoff process is terminated. If the voltage falls below the specified value, the power failure detection signal is input to the specified input port, and if the power failure detection signal is input to the specified input port twice in succession in the interrupt processing, it is determined that the power is turned off. It is configured to turn on the power off detection signal, but it is not limited to this, and if the voltage falls below the predetermined value even once, an external interrupt will occur and the power off detection signal will be turned on. It may be configured.

If it is determined that the power cutoff detection signal is ON, the output port (0 to 6) is turned OFF.

Then, the stack pointer saving process is executed.

Subsequently, the power cutoff processing flag and the RWM checksum data set processing are executed.

Subsequently, the RWM write-protection process is executed.

Then, the state waits for the reset signal, and thereafter, this state is looped.

<Explanation of power-on processing, main loop processing, and power-off processing controlled by the game medium number control board P16 applicable to the present embodiment>
When the power of the gaming machine is turned on, the function of the gaming medium number control chip is set. In the function setting of the game medium number control chip, the initial setting of the built-in register is executed.

Subsequently, the RWM initialization process is executed. In the RWM initialization process, the power status flag is checked and the RWM checksum data is calculated, the RWM initialization start address is set according to whether it is normal or abnormal, and the RWM is initialized. In addition, the program outside the used area also initializes the RWM area outside the used area.

If the power status flag check and RWM check sum data calculation (power status flag check and RWM check sum data calculation may be collectively referred to as RWM abnormality judgment) are executed, and if it is determined to be normal, Counting flag, game machine information notification timer A, game machine information notification timer B, game machine information notification timer C, serial number, counting serial number, counting point, counting cumulative point, lending serial number, lending point receipt result, MY counter for calculation. , Initializes various storage areas that store the output MY counter, main control chip ID, main control chip maker code, main control chip product code, etc. (for example, 0 is stored in various storage areas). It should be noted that various storage areas are initialized regardless of whether the setting key switch is on or not. Further, after the RWM initialization process, it is determined whether or not the total score clear switch is ON, and if it is determined to be ON, the total score is initialized, and if it is not determined to be ON, the total score is initialized. Do not initialize the total score. With such a configuration, whether or not to clear the total score can be executed based on the operation of the total score clear switch, and it is possible to prevent the total score from being inadvertently cleared.

The power status flag is checked and the RWM check sum data is calculated, and if it is determined to be abnormal, the storage area when it is determined to be normal (counting flag, gaming machine information notification timer A, gaming machine information notification timer). B, and game machine information notification timer C, serial number, counting serial number, counting point, counting cumulative point, lending serial number, lending point receipt result, MY counter for calculation, MY counter for output, main control chip ID, main control chip maker code , Main control chip product code, etc.), and also initializes the storage area that stores information related to the total score and the role ratio monitor (for example, 0 is stored in various storage areas). It should be noted that various storage areas are initialized regardless of whether the setting key switch is on or not.

If the result of checking the power status flag and calculating the RWM checksum data is judged to be normal, it is determined whether the total score clear switch is ON, but the power status flag is checked and the RWM checksum data is checked. If the result of executing the calculation of is determined to be abnormal, it is not determined whether or not the total score clear switch is ON. This is because the total score is initialized by the initialization process executed when the result of executing the check of the power supply status flag and the calculation of the RWM checksum data is determined to be abnormal. In other words, even if the total score clear switch is operated, the power status flag is checked and the RWM checksum data is calculated, and if it is determined to be abnormal, initialization is performed based on the operation of the total score clear switch. do not do. With such a configuration, it is possible to prevent the initialization of the storage area for storing the total score from being executed twice, and it is possible to shorten the processing time related to the initialization process.

The RWM abnormality is determined by checking the power supply status flag and calculating the RWM checksum data, but either one may be used. Further, the RWM abnormality may be determined by using another check method.

In addition, the program outside the used area is called, and the test pattern display flag for displaying the test pattern on the role ratio monitor is turned ON.

After that, interrupt processing is started. The interrupt period of the game medium number control board P16 in this actual mode is 1 ms.

Subsequently, a power failure detection process for determining whether or not a power failure has been detected is executed. In the power-off detection process, if a power-off is detected, the power-off process is executed, and if the power-off is not detected, interrupt processing is awaited.

If the power of the game machine P is turned off or the voltage falls below a predetermined value due to an external factor such as a power failure, a power failure detection signal is input to a predetermined input port, and the interrupt processing is performed 7 times in a row. When the power cutoff detection signal is input to the input port of, it is determined that the power supply is cut off and the power cutoff detection signal is turned on. If this happens, an external interrupt may occur and the power cutoff detection signal may be turned on.

Subsequently, in the power-off process when the power-off is detected by the power-off detection process, the power-off status flag is saved as normal when the power-on is normal, and the power-state flag is saved as abnormal when the power-on is abnormal. do.

Subsequently, the RWM write-protection process is executed.

Then, the state waits for the reset signal, and thereafter, this state is looped.

<Explanation of Interval Interrupt Processing Controlled by Game Media Number Control Board P16 Applicable to the Present Embodiment>
In the interval interrupt processing, the interrupt flag clear processing is first executed. In the interrupt flag clear processing, the interrupt flag is cleared (OFF) to allow interrupt processing.

Then, the input port reading process is executed. In the input port reading process, the input port is read. For example, the process of acquiring the data of the input port into which the power supply cutoff detection signal is input and adding 1 to the storage area for storing the number of times the power supply cutoff detection signal is continuously input is executed.

Subsequently, the game medium number control command reception process is executed. In the game medium number control command reception process, the command reception process from the rental unit or the main control board P15 is executed. When a game machine fraud command is received from the lending unit, a program outside the used area is called to accumulate and save the fraudulent information.

Further, when the operation state command of the accessory or the like is received from the main control board P15, the program outside the used area is called to save the operation state of the accessory or the like.

Further, when the ratio display command is received from the main control board P15, the program outside the used area is called and the combination ratio monitor type number is saved.

When the start lever reception command is received from the main control board P15, the input point information used in the hall control / fraud monitoring information is stored in the data area (_WK_MDL_IN) of the used area and used by the program of the used area. Input point information for calling a program outside the area and displaying it on the role ratio monitor is stored in the data area (_SN_MDL_IN) outside the used area. In addition, the input point information used in the hall control / fraud monitoring information is "3" (when the input point of the previous game is 3 points) when the re-game is activated (replay winning in the previous game). The input point of the previous game. (If is 2 points, it becomes "2") is stored, and "0" is stored as the input point information to be displayed on the role ratio monitor when the replay is activated (replay was won in the previous game).

Further, when the full rotation stop command is received from the main control board P15, the assigned point information used in the hall control / fraud monitoring information is stored in the data area (_WK_MDL_OUT) of the used area by the program of the used area. The given point information for calling a program outside the used area and displaying it on the combination monitor is stored in the data area (_SN_MDL_OUT) outside the used area. The point information used in the hall control / fraud monitoring information is "3" (when the points given in the previous game are 3 points) when the re-game is activated (replay won in the previous game). The points given in the previous game. (If is 2 points, it becomes "2") is stored, and "0" is stored in the assigned point information to be displayed on the role ratio monitor at the time of replay operation (replay winning in the previous game).

In addition, the data area (_SN_MDL_OUT) outside the area where the point information given to be displayed on the role ratio monitor is used is the cumulative combination of designated characters, the ratio of continuous characters between the latest 6000 games, and the latest 6000. This is information necessary for calculating the character ratio between games, the cumulative continuous character ratio, and the cumulative character ratio. For example, the score information of the game is given to a storage area that can store the cumulative number of grants, a storage area that can store the cumulative number of grants when the continuous bonus is activated, and a storage area that can store the cumulative number of grants when the bonus is activated. By adding the information stored in (_SN_MDL_OUT), a storage area that can store the cumulative number of grants, a storage area that can store the cumulative number of continuous bonuses granted at the time of operation, and a cumulative number of bonuses granted at the time of operation. It becomes possible to update the storage area that can store the number.

In addition, when Bit3 of the gaming machine fraud 2 is set to "1" when the command to stop all rotations is received from the main control board P15 (the total score clear switch is operated when the power is turned on to clear the total score). When the total score clear status is ON), a program outside the used area is called to set (clear) Bit3 of the gaming machine fraud 2.

Further, when the command to stop all rotations is received from the main control board P15, the calculation for the game performance information and the role ratio monitor is executed.

Then, the loan notification reception process is executed. In the lending notification receiving process, a process of receiving a lending notification from the lending unit is executed.

Subsequently, the timer management process is executed. In the timer management process, a program outside the used area is called to update the lending notification receiving timer 1 and the lending notification receiving timer 2. The lending notification receiving timer 1 and the lending notification receiving timer 2 are used for determining a communication abnormality.

Subsequently, the gaming machine information management process is executed. In the gaming machine information management process, processing such as updating the gaming machine information notification timer A, the gaming machine information notification timer B, and / or the gaming machine information notification timer C is executed. As a result of updating the gaming machine information notification timer A, the gaming machine information notification timer B, and / or the gaming machine information notification timer C, it becomes the notification timing of the hall controller / fraud monitoring information, the gaming machine installation information, or the gaming machine performance information. If so, the gaming machine information at the notification timing is sent to the rental unit. In addition, a program outside the used area is called to check the rental device communication error 7.

Subsequently, the counting control process is executed. In the counting control process, the counting process is executed according to the operation status of the counting switch.

Then, the lending control process is executed. In the lending control process, the lending process is executed according to the operation status of the lending switch of the lending unit. In addition, the program outside the used area is called, and the flags of the lending device communication abnormality 1 to 6 are set according to the communication state.

Subsequently, the state control process is executed. In the state control process, the process of determining whether or not the VL abnormality flag set when the VL signal is OFF is ON, and whether the serial number abnormality flag set when the serial numbers are not continuous is ON. Executes the process of determining whether or not to use it.

Subsequently, the LED display process is executed. In the LED display process, the display control of the game medium number display unit P9 is executed.

Subsequently, the ratio control process is executed. In the ratio control process, various counter update processes for calling a program outside the used area to calculate the display contents of the role ratio monitor and display processing of the role ratio monitor are executed.

Then, the interrupt permission process is executed.

<Explanation of the method of linking each board when the power is turned off and when the power is turned on, which is applicable to this embodiment>
In the game described in the present embodiment, when the power is cut off, the main control board P15 determines whether or not the power is turned off by two interrupts, and the game medium number control board P16 determines whether or not the power is turned off by seven interrupts. To judge. In other words, the main control board P15 determines that the power is cut off 4.47 ms (2.235 ms × 2 times) after the voltage falls below the predetermined value, and the game medium number control board P16 7 ms after the voltage falls below the predetermined value. After (1ms x 7 times), it is judged that the power is turned off.

Therefore, when a power cut occurs, the main control board P15 can execute the power cut process before the game medium number control board P16, so that the game medium number control can be performed even when the power cut occurs. The board P16 can receive a command from the main control board P15.

Further, when the power is turned on, the main control board P15 activates the user mode after activating the security mode for a predetermined period (for example, 2883.54 ms), and the game medium number control board P16 activates the user mode without activating the security mode. to start. The user mode is a mode for executing a program related to the game, and the main control board P15 and the game medium number control board P16 first execute the power-on process.

Therefore, when the power is turned on, the game medium number control board P16 can start up before the main control board P15, so that the game medium number control board P16 can receive the command from the main control board P15.

In addition, when the power cutoff process is configured to be executed by an external interrupt after the power cutoff is detected, the power supply cutoff process is executed even in a situation where the voltage drops to a predetermined value for a moment (so-called momentary power failure). Will be done. In this case, the reset signal is output because the WDT (watchdog timer) set at the time of the power cutoff process is not cleared after the power cutoff process is executed, and the main control board P15 sets the security mode for a predetermined period (for example, 2883. 54ms) The power-on process is executed after the startup, and the power-on process is executed for the game medium number control board P16 without activating the security mode. As a result, even when the power supply cutoff process is executed due to the momentary interruption, the game medium number control board P16 can start up before the main control board P15, so that the game medium number control board P16 is the main control board P15. Can receive commands from.

<Explanation of playability using advantageous sections applicable to this embodiment>
In this embodiment, the specified number of cards related to the start of the game is only three. In other words, the game can only be started with 3 cards, and even when the bonus is activated, the game can be started with only 3 cards.

In the present embodiment, the effective line has one line configuration of the left reel P18L lower stage, the middle reel P18C middle stage, and the right reel P18R lower stage. Hereinafter, the stop of the symbol combination on the effective line is simply referred to as the stop of the symbol combination.

In this embodiment, there are 10 types of symbols. They are called Red Seven, Blue Seven, Bar, Gold Bar, Blank, Cherry, Watermelon, Bell A, Bell B, and Replay, respectively. The name of the symbol and the type of the symbol are just examples, and there is no problem even if they are changed.

In the reel arrangement of this embodiment, it will be described with reference to FIG. As shown in FIG. 4, the number of symbols on one reel is 20, and the first reel (left reel P18L), the second reel (middle reel P18C), and the third reel (right reel P18R) are provided. There is.

The symbol combinations in this embodiment are shown in FIGS. 5 to 9. The item of "winning symbol / operating symbol / pattern symbol name" in the figure indicates the name of the conditional device corresponding to the symbol combination. In addition, the "specified number and game state" indicates the privilege to be given when the symbol combination for each specified number is stopped. When "Type 1 BB" is described in the item of "Specified number and game state", it means that Type 1 BB is given when the symbol combination is stopped, and when it is described as "Re-game". Indicates that the re-game will be granted when the symbol combination is stopped, the number is indicated when the symbol combination is stopped, the number of sheets to be paid out when the symbol combination is stopped, and the case where "-" is described is applicable. It is shown that the symbol combination does not stop in the gaming state.

In the present embodiment, the bonus includes one type BB, and the end condition is the granting of a game medium having more than 11 points. In addition, this type 1 BB is a type in which the RB operates continuously, and the RB ends when either two prizes or two games are satisfied, and when the end condition of the RB is satisfied, the end condition of the type 1 BB The specifications are such that the RB automatically operates until (the grant of a game medium exceeding 11 points) is satisfied.

As shown in FIG. 5, there are eight types of symbol combinations of type 1 BB, and the pull-in rate of symbols related to type 1 BB symbol combinations (probability of stopping symbols related to symbol combinations) in each reel is not 100%. When displaying the symbol combination of type 1 BB, it is necessary to press each reel.

In the present embodiment, the RT transition starts from non-RT (also referred to as type 1 BB non-internal), and when the type 1 BB wins during the non-RT and the type 1 BB symbol combination does not stop, the next game (also referred to as the next game (also referred to as type 1 BB non-internal). When the game shifts from (may be at the end of the game) to RT1 (also referred to as inside the type 1 BB) and the type 1 BB symbol combination stops during RT1, RT1 ends and the type 1 BB operates from the next game (type 1 BB). (Also referred to as "middle"), and when the operation of Type 1 BB is completed, the next game shifts to non-RT. Further, since the setting change starts from the non-RT, if the setting change device is operated during the operation of RT1 or the first type BB, the non-RT is set when the operation of the setting change device is completed. Since the RT state and the type 1 BB operating state are not cleared when the setting change device does not operate (sometimes referred to as a normal power failure), the state before the power failure is started when the power is restored. Specifically, when the power is cut off during the type 1 BB and then the power is restored, the type 1 BB operating state is in the type 1 BB, the power is cut off in the situation of RT1, and then the power is restored. If so, the RT state is configured to be RT1.

Here, RT is an abbreviation for replay time, and is a state in which the winning probability of replay can be different for each of a plurality of RTs. For example, it is conceivable that the replay winning probability of RT1 and the replay winning probability of RT2 are different. Further, different winning probabilities of replays may mean that the winning probabilities of the entire replay are different, or only the winning probabilities of a certain replay may be different so that the winning probabilities of the entire replay are not different. The RT transition opportunity can be set such that the predetermined symbol combination has stopped, the bonus has been won (the bonus condition device has been activated), and the predetermined number of games have been consumed after the bonus ends. It can be combined as appropriate.

The condition device in this embodiment will be described with reference to FIG. In the item of "winning replay" in FIG. 10, a number corresponding to the winning number is described. In addition, the condition device that operates is described in the item of "condition device". In addition, a simple name of the operating condition device is described in the item of "common name". For example, the common name corresponding to the replay-H condition device is "right push: strong-battle eye", and it is shown that the strong battle eye stops when the right reel P18R is stopped first, and the prize-A1 condition device is won. The common name corresponding to is "push order bell A group 123", and the operation mode of the left reel P18L first stop, the middle reel P18C second stop, and the right reel P18R third stop is the correct operation mode (in this case, winning 52 (winning 52 (in this case, winning 52)). It is shown that the operation mode) is such that the symbol combination of the winnings) in which the number of payouts is larger than that of the winnings 01 to 02, 09, and 29 to 31) is stopped. Further, in the item of "component", the symbol combination corresponding to the conditional device is shown. For example, when the re-game-A condition device is activated (winning), it is shown that re-game 01 or re-game 02 can be displayed. In addition, the part described as "0" in the item of "winning replay" corresponds to the omission.

The internal lottery result that can be determined by the internal lottery means in the non-internal type 1 BB in the present embodiment will be described with reference to FIGS. 11 to 13. The internal lottery results that can be determined by the internal lottery means in the non-internal type 1 BB are type 1 BB, regame-A, regame-B, regame-C (+1 type BB), regame-D (+1 type). BB), Re-game-E (+1 type BB), Re-game-F (+1 type BB), Re-game-G (+1 type BB), Re-game-H (+1 type BB), Re-game-I (+1 type BB) BB), replay-J (+1 type BB), prize-A1, prize-A2, prize-A3, prize-A4, prize-A5, prize-A6, prize-B1, prize-B2, prize-B3, prize -B4, Winning-B5, Winning-B6, Winning-C1, Winning-C2, Winning-C3, Winning-C4, Winning-C5, Winning-C6, Winning-D (+1 type BB), Winning-E (+1 type) BB), prize-F (+1 type BB), prize-G (+1 type BB), prize-H (+1 type BB), prize-I (+1 type BB), prize-J (+1 type BB), prize- It is one of K (+1 type BB), and there is no deviation.

The above-mentioned description of "re-game-C (+1 type BB)" indicates that the re-game-C and the type 1 BB win at the same time, and in FIGS. 11, 12, and 13, "bonus conditions". It corresponds to the fact that the name is described in both "device" and "winning replay". Further, the items of "internal lottery" in FIGS. 11, 12, and 13 indicate whether or not the item is an internal lottery target for each game state, "○" is an internal lottery target, and "x" is an internal lottery target. It indicates that it is not a target. Further, the items of "advantageous section transition" in FIGS. 11, 12, and 13 indicate whether or not to execute the advantageous section transition lottery for each gaming state, and "○" executes the advantageous section transition lottery. , "X" indicates that the advantageous section transition lottery is not executed. In addition, in this embodiment, when the advantageous section transition lottery is executed, it is configured to win 100% and shift to the advantageous section. In addition, the items "R1" to "R6" in FIGS. 11, 12, and 13 indicate settings 1 to 6, respectively, and indicate the number of winnings of the internal lottery corresponding to the set value. A number of 65536 is assigned to each state.

In the present embodiment, the internal lottery results that can be determined by the internal lottery means in the type 1 BB are regame-A, regame-B, regame-C, regame-D, regame-E, and regame. -F, re-game-G, re-game-H, re-game-I, re-game-J, prize-A1, prize-A2, prize-A3, prize-A4, prize-A5, prize-A6, prize-B1 , Winning-B2, Winning-B3, Winning-B4, Winning-B5, Winning-B6, Winning-C1, Winning-C2, Winning-C3, Winning-C4, Winning-C5, Winning-C6, Winning-D, Winning -E, prize-F, prize-G, prize-H, prize-I, prize-J, prize-K, and there is no loss.

In the present embodiment, the internal lottery result that can be determined by the internal lottery means in the type 1 BB is either winning-K, winning-L, or losing.

In the present embodiment, as conditions for shifting from the normal section to the advantageous section, re-game-C, re-game-D, re-game-E, re-game-F, re-game-G, re-game-H, re-game-I , Replay-J, Winning-A1, Winning-A2, Winning-A3, Winning-A4, Winning-A5, Winning-A6, Winning-B1, Winning-B2, Winning-B3, Winning-B4, Winning-B5, Winning-B6, Winning-C1, Winning-C2, Winning-C3, Winning-C4, Winning-C5, Winning-C6, Winning-D, Winning-E, Winning-F, Winning-G, Winning-H, Winning- Any one of I, winning-J, and winning-K has won, and the winning of re-game-A and re-game-B does not shift to the advantageous section. That is, in the normal section, re-game-C, re-game-D, re-game-E, re-game-F, re-game-G, re-game-H, re-game-I, re-game-J, prize-A1, Winning-A2, Winning-A3, Winning-A4, Winning-A5, Winning-A6, Winning-B1, Winning-B2, Winning-B3, Winning-B4, Winning-B5, Winning-B6, Winning-C1, Winning- C2, Winning-C3, Winning-C4, Winning-C5, Winning-C6, Winning-D, Winning-E, Winning-F, Winning-G, Winning-H, Winning-I, Winning-J, Winning-K If either one wins, it will be an advantageous section from the next game.

In the present embodiment, re-game-C, re-game-D, re-game-E, re-game-F, re-game-G, re-game-H, re-game-I, re-game-J, winning a prize during the normal section. -A1, Winning-A2, Winning-A3, Winning-A4, Winning-A5, Winning-A6, Winning-B1, Winning-B2, Winning-B3, Winning-B4, Winning-B5, Winning-B6, Winning-C1 , Winning-C2, Winning-C3, Winning-C4, Winning-C5, Winning-C6, Winning-D, Winning-E, Winning-F, Winning-G, Winning-H, Winning-I, Winning-J, Winning Whenever any of -K hits, it shifts to the advantageous section. That is, in the normal section, re-game-C, re-game-D, re-game-E, re-game-F, re-game-G, re-game-H, re-game-I, re-game-J, prize-A1, Winning-A2, Winning-A3, Winning-A4, Winning-A5, Winning-A6, Winning-B1, Winning-B2, Winning-B3, Winning-B4, Winning-B5, Winning-B6, Winning-C1, Winning- C2, Winning-C3, Winning-C4, Winning-C5, Winning-C6, Winning-D, Winning-E, Winning-F, Winning-G, Winning-H, Winning-I, Winning-J, Winning-K If either one wins, it will be an advantageous section from the next game.

In the present embodiment, since there is no loss in RT1 (inside the type 1 BB) (either the replaying combination or the winning combination always wins), once the player shifts to RT1, the push order bell C group (winning-C1) ~ C6) It is possible to stop the BB symbol combination in some operation modes at the time of winning. The part of the push order bell C group winning is, for example, the pushing position of a part of the middle reel P18C or the right reel P18R first stop at the time of winning-C1 winning. In addition, when the winning-C1 is won in the advantageous section, the correct answer pressing order (in this case, "1, 2, 3") is displayed on the image display device), so that the winning 38 is stopped and the BB symbol combination is performed. Does not stop. With such a configuration, the user can maintain RT1 by notifying the operation mode in which the BB symbol combination does not stop. In addition, the number of deviations during RT1 is set to 4 (because the minimum winning probability in the design is 1/17500 or more), and the BB symbol combination is not stopped in other replaying roles and winning combinations. , The BB symbol combination may be stopped only when it is out of alignment. In addition, "1, 2, 3" displayed on the image display device indicates that "1" corresponds to the left stop switch P4L, and "2" corresponds to the middle stop switch P4C. Shown, "3" indicates that it corresponds to the right stop switch P4R, and "1, 2, 3" displayed on the image display device first stops the left stop switch P4L and the middle stop switch P4C. It shows that the second stop and the third stop of the right stop switch P4R are the correct pressing order.

In the present embodiment, as the gaming state (also referred to as the main gaming state) managed by the main control means in the advantageous section, the advantageous section general state (also referred to as a normal state), the chance zone (also referred to as CZ), and the AT are provided. Therefore, the transition from the advantageous section general state to CZ, from CZ to AT, and from AT to the advantageous section general state, or CZ, respectively. Further, the gaming state managed by the main control means in the normal section is only the normal section general state, and the game state does not change until the transition to the advantageous section. In the advantageous section general state and the normal section general state, the flags related to the game state to be managed by the main control means may be the same state or different states.

The normal state is a state in which an advantageous winning push order is not notified when any of winning-A1 to winning-C6 is won as a result of the internal lottery.

The CZ is a state in which the transition occurs when any of winning-D to winning-H is won as a result of the internal lottery in the normal state, and during the CZ, the AT is determined by the result of the internal lottery in the CZ or the lottery at the start of the CZ. Perform a transition lottery to.

The AT is in a state of shifting when the AT lottery in the CZ is won, and is a state of notifying an advantageous operation mode (winning push order) when any of the winning-A1 to the winning-C6 is won.

In the present embodiment, as a condition for always shifting from the advantageous section to the normal section, it is set when the number of games played in the advantageous section reaches a predetermined number of times (for example, 1500 times) and when the MY in the advantageous section exceeds 2400. When the initialization process based on the change is performed, it is when the RAM clear switch is enabled, and the end condition of AT and the end condition of the advantageous section do not match. However, a part of the end condition of the AT (for example, in the specification that the end condition is that the game has been played 300 times after entering the AT, the number of games is 300 times (in this case, the effect that the AT ends) is produced. (The ending is performed), or when the number of acquired sheets becomes a predetermined number (for example, 2300 sheets) or more) may be the end condition of the advantageous section. Further, when the CZ is hit in the advantageous section, the normal section may be transferred. In this case, it is determined whether or not to end the advantageous section according to the situation of the advantageous section when the CZ is hit in the advantageous section.

The method of calculating MY in the advantageous section will be described. The main control board P15 is provided with an advantageous section MY counter as a storage area. The advantageous section MY counter is set to "0" as an initial value at the timing of transition to the advantageous section, increases or decreases according to the result of the game, and ends the advantageous section when the value of the advantageous section MY counter exceeds 2400. ..

The advantageous section MY counter is an increment counter, and in the gaming machine when the value of the advantageous section MY counter is "0", when the input point is "3" points and the given point is "10" points, the advantageous section MY counter is an advantageous section. The value of the MY counter becomes "10-3" and becomes "7".

Further, since the advantageous section MY counter counts the maximum number of increases in the advantageous section, in the game when the value of the advantageous section MY counter is "0", "3" points are input points and "0" points are given points. When becomes, the value of the advantageous section MY counter becomes "0-3", but when the result of the calculation becomes a negative value, it becomes "0" because it is corrected to "0". This is because the carry flag becomes "1" due to the carry-down occurring as a result of the operation, and when the carry flag is "1", the instruction to set "0" is used.

Further, when the replay is won as a result of the game, the update process of the advantageous section MY counter is not executed, so that the value of the advantageous section MY counter in the game in which the replay is won does not increase or decrease.

The CZ is determined by lottery when winning any of the winning-D to winning-H (hereinafter, also referred to as a rare role). Basically, the more difficult the internal lottery result is, the more the CZ wins. It's getting easier. In the present embodiment, the order in which the CZ is likely to be won is in the order of winning-G> winning-E> winning-H> winning-F> winning-D.

In the present embodiment, the CZ does not occur immediately after the hit, but after hitting the CZ, the CZ is started when the advantageous section shifts to the normal section and then shifts to the advantageous section again (that is, the advantageous section shift in RT1). The specification is to always start CZ (it can be said that shifting from the normal section to the advantageous section is a condition for generating CZ), and if you hit CZ in this advantageous section, you dare to shift to the normal section and the next advantageous section. CZ will be generated by starting.). As a result, it is possible to solve the problem that when the player hits the AT from the CZ, the number of remaining games in the advantageous section is small and the ball cannot be played. In particular, a specification with a smaller net increase (expected number of cards to be acquired per game, also referred to as a slope value) is more effective. For example, in the case of a net increase of 2 cards, the maximum number of cards that can be acquired in the advantageous section is about 2400, so 1200 games are required to acquire 2400 cards. However, AT is not always performed in the advantageous section, and various gaming states such as the above-mentioned normal state and CZ are transitioned, so that the number of remaining games in the advantageous section is small at the start of AT (for example, 500 times). There are many. In this case, even if the game is played 500 times, the net increase is 2 cards, so that the game ends with the acquisition of about 1000 cards, and it is difficult to meet the user's expectation of acquisition. Therefore, by ending the advantageous section once with the CZ winning and starting the CZ when newly shifting to the advantageous section, even if the CZ is played 100 times, the advantageous section can be played 1400 times remaining. , It is possible to create a feeling of expectation that the user will acquire 2400 sheets.

Further, the probability of winning the second and subsequent CZs in the same advantageous section may be changed according to the value of the number of acquired sheets (cumulative number of payouts-cumulative number of input numbers) since the start of the advantageous section. For example, when the CZ is started at the time of transition to the advantageous section and the AT is won, the probability of winning the CZ in the remaining advantageous section after the end of the AT varies depending on whether the AT obtains 50 or 1000 cards. Aspects are conceivable. In this case, the CZ winning probability after acquiring 50 sheets may be higher or lower than the CZ winning probability after acquiring 1000 sheets.

If the CZ winning probability after acquiring 50 cards is higher than the CZ winning probability after acquiring 1000 cards, it will be easier to give the next CZ to the user who could not get much at AT, so expectation is expected. It is possible to play while maintaining it.

If the CZ winning probability after acquiring 50 cards is lower than the CZ winning probability after acquiring 1000 cards, the remaining advantageous section is small after 1000 cards are acquired (1500 times, which is the end condition of the advantageous section). (Because the number of games is close to the acquisition of 2400 cards), even if the CZ has a high probability, the gambling spirit does not rise significantly due to the ball ejection design, and a new sense of expectation can be created for the user.

If you win the CZ, a blessing effect that displays characters such as "success" and "win" when the game that hits the CZ or the game that has been played a predetermined number of times (which can be set arbitrarily according to the specifications of the game machine P) is performed. conduct. As a result, the user can understand that some kind of privilege has been given, so that the progress of the game can be intuitively understood. Then, from the next game onward, it is possible to display the message "CZ is being prepared" in the lighting mode of the image display device or the lamp, and create a feeling of expectation for the CZ from the user. When the CZ winning game is an advantageous section, the term “preparing for CZ” corresponds to a state from the end of the advantageous section to the transition to the advantageous section again in the subsequent normal section. Since "CZ preparing" is internally a normal section, it is in a disadvantageous state for users who do not perform AT lottery or AT addition at all, but the ball ejection rate during CZ preparation is set to AT state. By lowering the comparison, it is possible to allocate balls to the AT and create a wave of balls. In addition, since the expectation for the CZ is created during the preparation for the CZ, it is difficult for the user to feel that the player has lost even if the ball output rate is lowered.

Further, although the advantageous section is ended in the next game that hits the CZ, a predetermined number of games may be executed from the game that hits the CZ to the end of the advantageous section. In this case, it is conceivable that the game that hits the CZ does not notify the hit to the CZ, and whether or not the game hits the CZ is executed over a predetermined number of games by the effect (so-called precursor effect or continuous). Direction). Then, the blessing effect is executed at the timing when the game is executed a predetermined number of times, and the CZ is being prepared from the next game. This is because the advantageous section lamp is lit in the advantageous section, and the advantageous section lamp is not lit when the advantageous section ends. This is so that it is not possible to know whether or not the CZ has been hit in the lighting mode. In addition, it may be possible to shift from the advantageous section to the normal section during CZ preparation, and in this case, since it is notified that CZ preparation is already in progress, the result depends on the lighting mode of the advantageous section lamp during CZ preparation. There is nothing you can tell first.

Further, it is not always necessary that the CZ preparation is in the normal section, and it may be set as an advantageous section. Even in this case, the ratio of executing CZ preparation in the normal section is relatively higher than the ratio of executing CZ preparation in the advantageous section, and the advantageous section is a condition for executing CZ preparation in the advantageous section. It is a condition that the number of remaining games of is more than a predetermined number of times (for example, 1000 times). With this configuration, when there is a margin in the number of remaining games in the advantageous section, CZ preparation is executed. Therefore, it is sufficient to execute CZ after CZ preparation, and as a result, execute AT. It is possible to create a feeling of coming out. In addition, since the normal section is not used during CZ preparation, it is possible to create a surprise that AT is started immediately after CZ preparation (because the information about AT is initialized at the end of the advantageous section, it is normal during CZ preparation. If a section is used, CZ will be executed at the start of the advantageous section, so AT cannot be started).

Further, in the case of executing the CZ preparation in the above-mentioned advantageous section, it may be determined whether or not to grant the AT by lottery when any of the winning-D to the winning-H is won during the CZ preparation. .. In this case, the order of rare roles that are easy to win AT by AT lottery may be the same as the order that is easy to win CZ, and prize-E> prize-G> prize-F> prize-H> prize-D. You may make some differences like the order of. With this configuration, it is possible to expect the user to win a rare role even during CZ preparation.

Further, in order not to diminish the motivation to play for the user who won the rare role but did not win the AT, a privilege different from that of the AT may be given. As the privilege, for example, a two-dimensional code readable by a user terminal may be displayed, or a setting suggestion effect capable of discriminating a set value may be displayed. The privilege may be granted more easily as the number of games in the advantageous section is closer to the predetermined number of games (for example, 1500 times), or is given when the number of CZs is a specific number of times (for example, a multiple of 5). It may be easy to do.

The process related to the setting change in this embodiment will be described.

When the setting change device is started, the RAM initialization process described above is performed at the timing when the setting change device is started and the timing when the setting value is confirmed. If the gaming state immediately before the RAM initialization process is RT1, the information in RT1 is initialized when the RAM initialization process is performed, and the gaming state after the RAM initialization process is non-RT. Further, if the gaming state immediately before the RAM initialization process is in the type 1 BB, the information in the type 1 BB is initialized when the RAM initialization process is performed, and the game state after the RAM initialization process is not. It becomes RT. In addition, the total score is not initialized in the RAM initialization process accompanying the setting change (the input point is initialized).

Further, if the gaming state immediately before the RAM initialization process is performed is an advantageous section, the information of the advantageous section is initialized when the RAM initialization process is performed, and the gaming state after the RAM initialization process becomes a normal section. In other words, the gaming state in the advantageous section is a normal state, CZ, or AT, but if the RAM initialization process is performed in any of the states, the game state shifts to the normal section.

When the RAM initialization process is performed, the game is started from a non-RT and normal section, but in the present embodiment, the specification is such that CZ is started when shifting from the normal section to the advantageous section. After changing the setting, it is in an advantageous state (a state in which the CZ can be started by shifting to the advantageous section without playing a game for hitting the CZ).

With such a configuration, since it is in an advantageous state after the setting is changed, it is possible to motivate the customer to come to the store from the morning and to improve the effect of attracting customers.

In addition, if it is possible to set a state that is too advantageous after changing the setting (a state that shifts to CZ only by playing a few games), there is a risk that the gambling spirit will be significantly agitated (so-called morning). Therefore, it is conceivable to change the contents of CZ according to the situation when shifting to the advantageous section.

In this case, if the RT state of the next game determined to shift to the advantageous section is RT1, CZ is started because it is a basic game flow, and the RT state of the next game determined to shift to the advantageous section is not. If it is RT, CZ is not started because it is after the setting is changed. The games for which the transition to the advantageous section has been decided include the above-mentioned re-game-C, re-game-D, re-game-E, re-game-F, re-game-G, re-game-H, re-game-I, and re-game. Game-J, Winning-A1, Winning-A2, Winning-A3, Winning-A4, Winning-A5, Winning-A6, Winning-B1, Winning-B2, Winning-B3, Winning-B4, Winning-B5, Winning- B6, Winning-C1, Winning-C2, Winning-C3, Winning-C4, Winning-C5, Winning-C6, Winning-D, Winning-E, Winning-F, Winning-G, Winning-H, Winning-I, Either Win-J or Win-K won.

In addition, re-game-C, re-game-D, re-game-E, re-game-F, re-game-G, re-game-H, re-game-I, re-game-J, prize-D, prize-E, Winning-F, Winning-G, Winning-H, Winning-I, Winning-J, Winning-K overlap with Type 1 BB, so the RT state of the next game won will be RT1 and CZ will start. , Winning-A1, Winning-A2, Winning-A3, Winning-A4, Winning-A5, Winning-A6, Winning-B1, Winning-B2, Winning-B3, Winning-B4, Winning-B5, Winning-B6, Winning -C1, Winning-C2, Winning-C3, Winning-C4, Winning-C5, Winning-C6 do not overlap with Type 1 BB, so the next game won is non-RT and CZ is not started.

With such a configuration, since there is a case of shifting to an advantageous section in non-RT, it is possible to suppress specifications related to morning such as shifting to CZ only by playing a few games after changing the setting, and it is possible to suppress gambling.

It is also conceivable to reduce gambling by using a specification for changing the game state managed by the main control means in the advantageous section with reference to the RT state of the next game determined to shift to the advantageous section. In this case, the advantageous section shifted to non-RT (inside the type 1 BB) does not perform AT, and the advantageous section shifted to during RT1 (inside the type 1 BB) has the possibility of performing AT. May be good. With such a configuration, if the player shifts to an advantageous section in a non-RT after changing the setting, the ball cannot be obtained because the AT is not performed, so that the gambling property is suppressed. The end condition of the advantageous section at this time may be until it hits the above-mentioned CZ, or it may be played a predetermined number of games (for example, 1500 times).

Further, the CZ transition is controlled by referring to the RT state of the next game that has won the advantageous section transition lottery, but the present invention is not limited to this, and the condition device in which the game that has won the advantageous section transition lottery is operating is used. You may refer to it to control the transition of CZ. In this case, when the winning-A1 is won in the inside of the 1st class BB in the normal section, the CZ is started at the start of the advantageous section based on the fact that the condition device of the 1st class BB and the winning-A1 is operating. Control. Further, when the winning-A1 is won in the non-internal type 1 BB in the normal section, the CZ is controlled not to start at the start of the advantageous section based on the fact that the condition device of the winning-A1 is operating.

In the present embodiment, only one type BB is a lottery target, but instead, RB or MB may be a lottery target, or two or all of one type BB, RB, and MB may be a lottery target. ..

A telegram used for communication between the gaming machine P and the rental unit will be described with reference to FIG.

The data structure of the telegram used for communication between the gaming machine P and the rental unit can be divided into the following five.
(1) Telegram length (2) Command (3) Serial number (4) Data unit (5) Checksum The data group consisting of the above five is called a telegram and is transmitted by one transmission. (Do not send separately.)
Each data structure is explained below.

(1) Telegram length The length of the data length of the data consisting of the telegram length, the command, the serial number, the data part, and the checksum is shown, and is composed of 1-byte data. For example, if the message length is 1 byte, the command is 1 byte, the serial number is 1 byte, the data part is 14 bytes, and the checksum is 1 byte, the message is 18 bytes (1 byte + 1 byte + 1 byte + 14 bytes + 1 byte). The message length is data (12h) corresponding to 18 bytes.

(2) Command The above telegram is used in any of the game machine information notification, counting notification, lending notification, and lending receipt result response, which will be described later. With this command, it is possible to notify the type of the telegram.
For example, 01h in the case of gaming machine information notification, 02h in the case of counting notification, 13h in the case of lending notification, and 03h in the case of lending receipt result response are set as commands. The data length of the command consists of 1-byte data.

(3) Serial number The number included in the gaming machine information notification, counting notification, loan notification, and loan receipt result response, which will be described later, is referred to as the serial number. The serial number included in the gaming machine information notification is called the counting serial number, the serial number included in the counting notification is called the counting serial number, the serial number included in the lending notification is called the lending serial number, and the serial number included in the loan receipt result response is called the lending serial number. These various serial numbers are numerical values in the range of 0 to 255 and are composed of 1-byte data. The various serial numbers will be described later.

(4) Data unit The data corresponding to the gaming machine information notification, counting notification, loan notification, and loan receipt result response, which will be described later, is referred to as the data unit. The data included in the data unit will be described later, but the data length varies depending on the content of the notification, such as 1 byte to 53 bytes.

(5) Checksum The data consisting of the telegram length, command, serial number, data part, and checksum are added, and the lower 1 byte of the total is used as the checksum. Using this checksum, the receiving side can grasp the damage of data during communication, for example, the gaming machine P or the lending unit counts the number of telegrams whose checksums do not match, and communicates. You can check the status of problems. For example, in the gaming machine P, the number of telegrams whose checksums do not match is displayed in an image display device in a predetermined situation (in a setting confirmation mode in which the setting value can be confirmed or in a setting change mode in which the setting value can be changed). It may be possible to display by such as.

Among the telegrams output from the gaming machine P to the rental unit, the gaming machine information notification will be described with reference to FIG.

(1) Telegram length Indicates the length of the data length of the data consisting of the message length, command, serial number, data unit (including 3 types of gaming machine type, gaming machine information type, and gaming machine information), and checksum. It is composed of 1-byte data. The telegram length changes depending on the type of gaming machine information described later.

(2) Command As described above, the command serves to notify any one of the gaming machine information notification, the counting notification, the lending notification, and the lending receipt result response. 01h (fixed value) corresponds to the command for notifying the gaming machine information.

(3) Serial number The serial number is a numerical value of any of 0 to 255 and serves as a serial number for notification of gaming machine information. A specific example will be described below.
A) When the power is turned on, control is performed so that the serial number "00h (0)" is notified.
B) After the power is turned on, the serial number is updated (+1) each time a notification is made.
C) The next value with the serial number "FFh (255)" is updated to "01h (1)" (+1 is repeated twice).
As described above, the first serial number after the power is restored becomes 0, and thereafter, it increases by 1 as the gaming machine information notification is output. When the serial number of the gaming machine information notification becomes 255, the serial number of the next gaming machine information notification becomes 1 (it does not become 0).

(4) Game machine type The game machine type is information constituting a data unit and is information for identifying the type of the game machine P and the like. This information will be described later with reference to FIG. 6, and is data for notifying the management medium, group classification, and gaming machine type.

(5) Game machine information type The game machine information type is the information that constitutes the data unit, and is the game machine information notification to be notified this time the game machine performance information, the game machine installation information, the hall control / fraud monitoring information? Information for identifying. The game machine information type corresponds to 00h when notifying the game machine performance information, 01h when notifying the game machine installation information, and 02h when notifying the hall computer / fraud monitoring information. The game machine performance information will be described later with reference to FIG. 17, the game machine installation information with reference to FIG. 18, and the hall control / fraud monitoring information with reference to FIG.

(6) Pachinko machine information The pachinko machine information is information that constitutes the data unit, and the pachinko machine information notification to be notified this time is any one of game machine performance information, pachinko machine installation information, and hall control / fraud monitoring information. This is the information to be notified according to the above. Details of the gaming machine information will be described later.

(7) Checksum The game machine information notification to be notified this time consists of five parts: the message length, command, serial number, data part (including three types of game machine type, game machine information type, and game machine information), and checksum. The data is added and the lower 1 byte of the total is used as the checksum.

Among the information included in the gaming machine information notification, the gaming machine type will be described with reference to FIG.

The game machine type is 1-byte data, and Bit0 to Bit3 indicate the type of the gaming machine, Bit4 to Bit6 indicate the group to which the manufacturer belongs, and Bit7 indicates the gaming machine using the conventional gaming ball or the conventional gaming machine. It is information on a gaming medium indicating whether the gaming machine uses medals.

The types of gaming machines listed are the types of gaming machines stipulated by the Act on Regulation of Customs Business, etc. and Optimization of Business.

Next, using the game machine type list of FIG. 16, a specific example will be given to explain what the game machine types will be.

A) Pattern 1
Game machine type: Pachinko game machine P
Group classification: Group A
Management medium: Old game ball In this case, 01h is set as the game machine type.

B) Pattern 2
Game machine type: Revolving gaming machine Group classification: Group A
Management medium: Old game medal In this case, 82h is set as the game machine type.

C) Pattern 3
Game machine type: Arrange ball game machine Group classification: Group A
Management medium: Old game medal In this case, 83h is set as the game machine type.

D) Pattern 4
Game machine type: Jiyan ball game machine Group classification: Group A
Management medium: Old game medal In this case, 84h is set as the game machine type.

E) Pattern 5
Game machine type: Revolving gaming machine Group classification: Group B
Management medium: Old game medal In this case, 92h is set as the game machine type.

Of the game machine information notifications, the game machine information included in the telegram when the game machine performance information is set will be described with reference to FIG.

A) Total number of inputs The total number of inputs is information on the cumulative number of game media inputs since the power was turned on, and is information on the total number of inputs when the power is turned off and then the power is turned on. 0 can be output as. For example, in a cumulative total of 1000 games, if the cumulative number of game media inserted is 2000, the total number of inputs is 2000, and 2000 can be output as information on the total number of inputs. Then, when the power is cut off and then the power is turned on, 0 can be output as information on the total number of turns. If the replay combination (also referred to as the replay combination) is won by internal lottery and the symbol combination corresponding to the replay is stopped and displayed, the number of game media bet on the next game of that game is the total number of inputs. Is not included.

B) Total number of grants The total number of grants is information on the cumulative number of game media granted since the power was turned on, and information on the total number of grants when the power is turned off and then the power is turned on. 0 can be output as. For example, in a cumulative total of 1000 games, if the cumulative number of game media granted is 2000, the total number of grants is 2000, and 2000 can be output as information on the total number of grants. Then, when the power is cut off and then the power is turned on, 0 can be output as information on the total number of grants. If the replay combination is won by internal lottery and the symbol combination corresponding to the replay is stopped and displayed, the number of game media granted in the game is not included in the total number of grants.

C) MY
MY is information on the maximum difference number that can be calculated from the number of game media added and the number of inputs after the power is turned on, and is the information on MY when the power is turned off and then the power is turned on. 0 can be output as. Specifically, it is the maximum number of increases in the number of game media from the standard (the number obtained by subtracting the total number of inputs from the total number of acquisitions) based on the time when the number of game media when the result of the game is obtained is the smallest. The difference is called MY. For example, in a total of 1000 games, the 100th game is the game that the player lost the most, and the number of game media that the player lost at that time is -200, and the advantageous game is from there. When the 800th game is the game that the player has gained the most, and the number of game media acquired by the player at that time is 800, 1000, which is the difference between -200 and 800, becomes MY, and as MY. 1000 can be output. Then, when the power is cut off and then the power is turned on, 0 may be output as MY information.

In order to output this MY, the game medium number control board uses a calculation MY counter and an output MY counter. Since both the calculation MY counter and the output MY counter are initialized (0 is set) when the power is turned on, the MY from the time when the power is turned on to the time when the power is turned off is output. In other words, in a normal amusement park, the power is turned off at the end of one day's business, so one day's worth of MY is output.

The calculation MY counter is configured to be updatable regardless of the game state or the specified number, and is designed to calculate the given points-input points in one game and accumulate and store the calculation results. For example, if the game started when the value of the MY counter for calculation is "0" is "3" points as input points and "10" points as grant points, it is the result of calculating "10-3". "7" is added to the calculation MY counter, and "7" is stored as the value of the calculation MY counter. Also, in the next game, if the input point is "3" and the grant point is "10", "7", which is the result of calculating "10-3", is added and the value of the MY counter for calculation is ". 14 "is memorized.

Further, for example, when the game started when the value of the calculation MY counter is "0" is "3" points as input points and "0" points as grant points, the result of calculating "0-3" is Although it is "-3", "0" is stored in the calculation MY counter. This is because the instruction to set the carry flag to "1" when a carry flag occurs as a result of the operation and to set "0" when the carry flag is "1" is used.

The calculation MY counter treats the input point of the game won by the replay as "3" and the grant point as "0" when the previous game is not a replay (in other words, when 3 points are actually bet). deal. Then, by setting the input point to "0" in the next game (game at the time of re-game operation), the actual MY can be corrected. For example, if the previous game is not a replay and the game started when the value of the calculation MY counter is "10" (the game that the replay won) is "3" points as input points and "0" points as grant points. In the case of "point", "-3" which is the result of calculating "0-3" is added to the calculation MY counter, and "7" is stored as the value of the calculation MY counter. In addition, when a small winning combination in which "10" points are given in the game following the game in which the replay is won is won, the input points are "0" points, the given points are "10" points, and "10-0". "10", which is the result of the calculation, is added to the calculation MY counter, and "17" is stored as the value of the calculation MY counter.

The output MY counter updates the value of the calculation MY counter to the value of the output MY counter when the value stored in the calculation MY counter is larger than the value stored in the output MY counter. For example, when the game started when the value of the MY counter for calculation is "10" and the value of the MY counter for output is "12" is "3" points as input points and "10" points as grant points, " "7" which is the result of calculating "10-3" is added, and "17" is stored as the value of the calculation MY counter. Further, the value of the calculation MY counter "17" and the output MY counter "12" are compared, and since the value of the calculation MY counter is larger, the value of the output MY counter is updated to "17".

The game medium number control board is configured to transmit the value of the output MY counter to the rental unit.

The calculation MY counter and the output MY counter are initialized when the power is turned on, but the advantageous section MY counter is not initialized when the power is turned on. With such a configuration, it is possible to appropriately protect the value of the advantageous section MY counter that may cause a disadvantage to the player.

The calculation MY counter and the output MY counter are configured to be updatable regardless of the game section (normal section, advantageous section), but the advantageous section MY counter can be updated in the advantageous section (not to be updated in the normal section). ).

The upper limit of both the calculation MY counter and the output MY counter is set to "917490". With such a configuration, it is sufficiently larger than the maximum MY normally achieved in one day, so that the possibility of reaching the upper limit value can be significantly reduced. Further, even if the calculation MY counter and the output MY counter are increased due to fraudulent activity, the upper limit value is not reached immediately, so that the counter value is hard to be restarted from "0".

D) Total number of bonuses granted The total number of bonuses given is the game medium given by the operation of the bonuses (single bonus (SB), regular bonus (RB), challenge bonus (CB)) after the power is turned on. It is the information of the cumulative number of grants, and when the power is turned off and then the power is turned on, 0 can be output as the information of the total number of grants. For example, in a cumulative total of 1000 games, if the cumulative number of game media obtained by the operation of the bonus is 100, the total number of bonuses granted is 100, and 100 is used as information on the total number of bonuses granted. Can be output. Then, when the power is cut off and then the power is turned on, 0 can be output as information on the total number of grants.

E) Total number of consecutive bonuses The total number of consecutive bonuses is the cumulative number of game media granted by the operation of the first-class special bonus (regular bonus (RB)) after the power is turned on. When the power is cut off and then the power is turned on, 0 can be output as information on the total number of continuous accessories. For example, in a cumulative total of 1000 games, if the cumulative number of game media obtained by the operation of the first-class special bonus is 100, the total number of continuous bonuses granted is 100, and the total number of consecutive bonuses is granted. 100 can be output as number information. Then, when the power is cut off and then the power is turned on, 0 can be output as information on the total number of continuous accessories. In addition, the number of game media granted by the operation of the first-class special bonus by the first-class special bonus continuous operation device (also referred to as the first-class BB) is also accumulated.

F) Character ratio The bonus ratio is a ratio with the cumulative number of bonuses given as the denominator and the cumulative number of bonuses granted by the operation of the bonuses (RB, CB, SB) as the numerator. For example, if the cumulative number of games played is a predetermined number (for example, 17,500) or more, the cumulative number of grants is 20000, and the cumulative number of bonuses granted at the time of operation is 10,000, the bonus ratio information is 50. Can be output. The cumulative total does not have to be the cumulative total of all games. For example, when the cumulative number of grants reaches a predetermined upper limit (for example, 65535), or (as a result of adding the number of grants of this game to the cumulative number of grants, the upper limit is exceeded). , In the subsequent games, the cumulative number of grants and the cumulative number of grants when the bonus is activated are not updated. In other words, the accessory ratio is configured so that it does not change. When the cumulative number of games played is less than a predetermined number of times (for example, 17,500 times), FFh is output as the accessory ratio information.

G) Continuous bonus ratio The continuous bonus ratio is a ratio with the cumulative number of grants as the denominator and the cumulative number of consecutive bonuses granted by the operation of the continuous bonus (RB) as the numerator. For example, if the cumulative number of games played is a predetermined number (for example, 17,500) or more, the cumulative number of grants is 20000, and the cumulative number of consecutive bonuses granted at the time of operation is 10,000, the information on the bonus ratio is used. 50 can be output. The cumulative total does not have to be the cumulative total of all games. For example, when the cumulative number of grants reaches a predetermined upper limit (for example, 65535), or (as a result of adding the number of grants of this game to the cumulative number of grants, the upper limit is exceeded). , In the subsequent games, the cumulative number of grants and the cumulative number of grants when the continuous bonus is activated are not updated. In other words, the accessory ratio is configured so that it does not change. When the cumulative number of games played is less than a predetermined number of times (for example, 17,500 times), FFh is output as continuous bonus ratio information.

H) Advantageous section ratio The advantageous section ratio is a ratio with the cumulative number of games played as the denominator and the cumulative number of advantageous section games as the numerator. For example, when the cumulative number of games is 20000 and the cumulative number of advantageous section games is 18000, 90 can be output as information on the advantageous section ratio. The cumulative total does not have to be the cumulative total of all games. For example, when the cumulative number of games reaches a predetermined upper limit (for example, 65535), the cumulative number of games and the number of advantageous section games are not updated in the subsequent games. There is. In other words, the advantageous section ratio is configured so as not to change.
The cumulative total does not have to be the cumulative total of all games. For example, when the cumulative number of games reaches a predetermined upper limit (for example, 65535), or (as a result of adding the number of games of this game to the cumulative number of games, the upper limit is exceeded). , In the subsequent games, the cumulative number of games and the cumulative number of advantageous section games are not updated. In other words, the advantageous section ratio is configured so as not to change. When the cumulative number of games played is less than a predetermined number of times (for example, 17,500 times), FFh is output as an advantageous section ratio. Further, even in the gaming machine P which does not have an advantageous section, it is configured to output FFh.

K) Instructed bonus ratio The designated bonus ratio is the cumulative number of bonuses granted by the operation of the bonuses (RB, CB, SB) with the cumulative number of grants as the denominator and the operation of the instruction function. It is a ratio with the sum of the cumulative number of instructions given by (notification of the operation mode of the stop switch P4) as the numerator. It should be noted that the total referred to here may be a value derived by calculation based on the number of grants when the bonus is activated and the number of instructions granted, and is added when the bonus is granted when the bonus is activated or when the instruction function is activated. It may be one storage area. For example, if the number of grants is 175,000 or more, the cumulative number of grants is 200,000, and the total number of grants when the cumulative bonus is activated and the total number of instructions granted is 100,000, 50 can be output as information on the bonus ratio. .. The cumulative total does not have to be the cumulative total of all games. For example, when the cumulative number of grants reaches a predetermined upper limit (for example, 1677215), or (as a result of adding the number of games of this game to the total number of games, the upper limit is exceeded). In the subsequent games, the cumulative number of grants and the total number of cumulative grants when the bonus is activated and the cumulative number of instructions granted are not updated. In other words, the advantageous section ratio is configured so as not to change. When the cumulative number of games played is less than a predetermined number of times (for example, 175,000 times), FFh is output as the accessory ratio information. Further, even the gaming machine P having no accessory or instruction function is configured to output FFh.

E) Character, etc. state ratio The character, etc. state ratio is the number of games in which the character (RB, CB, SB) is operating, or the character continuous operation device (1BB, 1BB,) with the cumulative number of games as the denominator. It is a ratio with the cumulative number of specific games, which is the number of games in which 2BB) is operating, as the numerator. For example, when the cumulative number of games is 20000 and the cumulative number of specific games is 5000, 25 can be output as information on the state ratio of the accessory and the like. The cumulative total does not have to be the cumulative total of all games. For example, when the cumulative number of games reaches a predetermined upper limit (for example, 1677215), the cumulative number of games and the specific number of games are not updated in the subsequent games. There is. In other words, it is configured so that the state ratio of the accessory etc. does not change. When the cumulative number of games played is less than a predetermined number of times (for example, 175,000 times), FFh is output as a state ratio of the accessory or the like. Further, even in the gaming machine P which is not provided with the accessory or the accessory continuous operation device, the FFh is configured to be output.

S) Number of games The number of games is the cumulative number of games since the power of the gaming machine is turned on. Cleared when the power of the gaming machine is turned on.

B) Spare The spare is prepared in advance because it may be used in the future, and when only the information from a) to sa) described above is output, 00h is output. ing.

S) Reservation 1
Reservation 1 is not used only by the gaming machine P itself. For example, after sending from the gaming machine P to the lending unit, the lending unit outputs to the outside (for example, the gaming machine information center) such as the A group and the B group using the 3-byte area reserved as a reservation on the unit side. Used when doing. Examples of use include outputting the maximum MY calculated by the lending unit to the outside (for example, a gaming machine information center) in addition to the above-mentioned a) to sa).

S) Reservation 2
Reservation 2 is not used only by the gaming machine P itself. For example, after sending from the gaming machine P to the lending unit, the lending unit outputs to the outside (for example, the gaming machine information center) such as the A group and the B group using the 2-byte area reserved as a reservation on the unit side. Used when doing. As an example of use, the number of games calculated by the lending unit may be output to the outside (for example, a game machine information center) in addition to the above-mentioned a) to sa).

Of the game machine information notifications, the game machine information included in the telegram when the game machine installation information is set will be described with reference to FIG.

A) Main control chip ID number The main control chip ID number is information provided on the main control board P15 including a chip individual number for identifying the main control chip in which the CPU, RWM, and ROM are integrated. Yes, even if they are the same model, the information will be different. For example, when the chip individual number is 12345678h, which is 4 bytes, and the main control chip is purchased from company A, the main control chip ID number is 0000000001234567821h (the lower 1 byte 21h is the main control chip of model number X purchased from company A). Is possible to output to the lending unit. Further, for example, when the individual chip number is 23456789h, which is 4 bytes, and the main control chip is purchased from company B, the main control chip ID number is 000000000234568941h (the lower 1 byte 41h is the main model number Y purchased from company B). (Indicating that it is a control chip) can be output to the rental unit.

B) Main control chip maker code Information indicating the game machine maker stored in the built-in memory of the main control chip.

C) Main control chip product code Information indicating the model name of the gaming machine P stored in the built-in memory of the main control chip.

The above-mentioned main control chip ID number, main control chip maker code, and main control chip product code are used from the main control board P15 to the game medium number control board in the power-on process when the power of the game machine P is turned on. It is designed to be transmitted to P16. The RWM area provided on the game medium number control board P16 is configured to store the main control chip ID number, the main control chip maker code, and the main control chip product code, respectively.

D) Game medium number control chip ID number The game medium number control chip ID number is for identifying the game medium number control chip provided on the game medium number control board P16 in which the CPU, RWM, and ROM are integrated. The information includes the individual chip numbers, and even if they are the same model, they will be different information.
For example, when the individual chip number is 98765432h, which is 4 bytes, and the main control chip is purchased from company A, the game medium number control chip ID number is 000000958643221h (the lower 1 byte 21h is the game of model number X purchased from company A). (Indicating that it is a medium number control chip) can be output to the rental unit.
For example, when the individual chip number is 87654321h, which is 4 bytes, and the main control chip is purchased from company B, the number of gaming media control chip ID number is 000000008765432141h (the lower 1 byte 41h is the main model number Y purchased from company B). (Indicating that it is a control chip) can be output to the rental unit.

In the case of the gaming machine P not equipped with the gaming medium number control board P16, it is possible to output 0000000000000000000h as the gaming medium number control chip ID number toward the rental unit.

E) Game medium number control chip maker code Information indicating the game machine maker stored in the built-in memory of the game medium number control chip.
In the case of the gaming machine P not equipped with the gaming medium number control board P16, 0000000h can be output to the rental unit as the gaming medium number control chip maker code.

F) Number of gaming media Control chip product code Information indicating the model name of the gaming machine P stored in the built-in memory of the main control chip.
In the case of the gaming machine P not equipped with the gaming medium number control board P16, 0000000000000000000h can be output to the rental unit as the game medium number control chip product code.

Of the game machine information notifications, the game machine information included in the telegram when the hall controller / fraud monitoring information is set will be described with reference to FIG.

A) Total score The total score is the value of the current number of game media stored in the game medium number control board P16, and can be increased or decreased by the input process of the game medium or the winning process. The current total score is displayed on the gaming medium number display unit P9 provided in the gaming machine P. Information on the total score is sent to the lending unit. For example, when 2000 points are stored as the total score, 0007D0h can be output toward the lending unit. The upper limit of the total score that can be stored in the game medium number control board P16 is 16383 points.

B) Input point The input point indicates the number of game media inserted. For example, if 3 points are bet, 03h can be output to the lending unit. Also, before starting the game from the situation where 3 points are bet (before the start switch P3 is operated), FDh is lent out when 3 points are settled on the game medium number control board P16 by operating the settlement switch. It is possible to output toward. In other words, information of -3 points (FDh) to +3 points (03h) can be output to the rental unit.

C) Grant points The grant points (also referred to as prize points) indicate the number of game media awarded according to the mode of the symbol combination stopped (winning) on the effective line after all reels have stopped. For example, when 8 points are given, the information of 08h can be output, and when 15 points are given, 0Fh can be output toward the lending unit.

The gaming machine P can detect an abnormality in the total score in the lending unit by transmitting the above-mentioned "total score", "input point", and "grant point".

D) Main control state 1
The main control state 1 indicates a state related to the gaming state. Specifically, of the 1-byte data, which gaming state is assigned to each bit. For example, when Bit0 is 1, information indicating that it is in the RB state can be output to the lending unit. For example, when Bit1 is 1, information indicating that it is in the BB state can be output to the lending unit. For example, when Bit2 is 1, information indicating the AT state can be output to the lending unit. Bit3 to Bit6 correspond to the gaming machine status signals 1 to 4. The game machine status signals 1 to 4 can be used or not used depending on the type of the game machine P. For example, every time the score obtained in the AT game reaches 100 points, the game machine status signal 1 is output. Bit7 is not used and is configured so that 0 can be output regardless of the type of the gaming machine P. With this configuration, for example, when notifying that the AT state is in effect, 00000100B can be output toward the rental unit.

E) Main control state 2
The main control state 2 indicates a state related to the game state as in the main control state 1. Bit0 to Bit2 correspond to the gaming machine status signals 5 to 7. The game machine status signals 5 to 7 can be used or not used depending on the type of the game machine P. For example, when the state shifts to a specific RT state (re-game probability fluctuation state), the gaming machine state signal 5 may be output. Bit3 to Bit7 are not used and are configured so that 0 can be output regardless of the type of the gaming machine P. With this configuration, for example, when a specific RT state is entered, 000000001B can be output to the rental unit.

F) Game machine error state The game machine error state indicates an error state composed of information including an error code indicating an error occurring in the game machine P.

Specifically, Bit0 to Bit5 indicate an error code. Bit 6 indicates whether the error is the error of the game medium number control board P16 (in this case, Bit 6 is 0) or the error of the main control board P15 (in this case, Bit 6 is 1). Bit7 only notifies the error in the lending unit (in this case, Bit7 is 0), or the lending unit notifies the error and also notifies the hall computer (HC) of the error code through the lending unit. It indicates whether it is a thing (in this case, Bit7 is 1).

For example, it is assumed that the gaming machine P is capable of detecting a random number abnormality and a radio wave abnormality as the types of errors. At this time, as the error code, the random number abnormality is defined as 00001B and the radio wave abnormality is defined as 00010B, and the information including this error code can be output. Specifically, the random number abnormality is an error of the main control board P15, and when only the error is notified by the lending unit, 01000001B can be output toward the lending unit. Further, the radio wave abnormality is an error of the game medium number control board P16, and when the rental unit notifies the error and also notifies the hall computer of the error code, 10000010B can be output to the rental unit. .. If no error has occurred or if the gaming machine P does not have an error code, 00000 B can be output to the rental unit.

G) Pachinko machine fraud 1 (main control)
The gaming machine fraud 1 (main control) indicates information regarding the detection of fraud related to the main control board P15 and the state related to the main control board P15. The signal of the gaming machine fraud 1 (main control) is treated as a signal for a hall computer. In other words, each signal of the gaming machine fraud 1 (main control) output from the gaming machine P is output to the hall computer through the lending unit.

Each signal constituting the gaming machine fraud 1 (main control) is described below.

A signal during setting change is assigned to Bit0. That is, it indicates that the setting is being changed (during the setting change mode) and that the setting has been changed. Bit0 of the setting changing signal is 1 from the setting change to the end of one game after the setting change (for example, when all reels are stopped and the payout process is completed). Bit0 is 0 in situations other than the time when the setting is being changed to the end of one game after the setting is changed. The setting changing signal is output while the setting changing status is ON. The setting changing status is turned ON after the setting change mode is activated, the RAM initialization process is executed, and the set value is displayed. Then, by turning off the setting changing status at the end of one game after the setting change, the output of the setting changing signal is stopped.

A signal during setting confirmation is assigned to Bit1. That is, when the setting is being confirmed (during the setting confirmation mode), Bit1 is 1, and when the setting is not being confirmed, Bit1 is 0.

The setting confirmation signal shows an example in which the Bit becomes 1 only during the setting confirmation, but the present invention is not limited to this, and the Bit becomes 1 for a predetermined period (for example, 5 seconds, etc.) from the start of the setting confirmation mode. It may be configured. In other words, when the setting confirmation mode is started on the main control board P15 (for example, when the setting key switch is turned on in the game standby state), the setting confirmation mode is set on the game medium number control board P16. The bit of the game machine fraud 1 that sends the command shown and is transmitted from the game medium number control board P16 to the rental unit becomes 1, and the setting confirmation timer is set on the main control board P15, and the main control board P15 confirms the setting. When it is determined that the timer value of the machine timer has elapsed for 5 seconds (determined to be the timer value of the setting confirmation timer), a command regarding the elapse of the setting confirmation mode for 5 seconds is transmitted to the gaming medium number control board P16. Moreover, since the command regarding the end of the setting confirmation mode has already been received from the main control board P15, it is conceivable that the Bit of the game machine fraud 1 transmitted from the game medium number control board P16 to the rental unit becomes 0. ..

In this case, if 5 seconds have elapsed during the setting confirmation mode, a command regarding the elapse of 5 seconds in the setting confirmation mode may or may not be transmitted. If 5 seconds have elapsed during the setting confirmation mode, the Bit of the gaming machine fraud 1 is 1 until the setting confirmation mode ends. Even if the setting confirmation mode ends in less than 5 seconds (for example, 2 seconds), the Bit of the gaming machine fraud 1 indicating that the setting confirmation mode is in is set to 1 for the remaining 3 seconds (total 5 seconds). There is. With this configuration, even if the setting confirmation mode ends in a very short time, sufficient time can be secured to send the information in the setting confirmation mode to the rental unit, and unauthorized setting key switch operation is detected. It becomes possible.

Further, when the setting confirmation mode is started on the main control board P15 (for example, when the setting key switch is turned on in the game standby state), the game medium number control board P16 indicates that the setting confirmation mode is set. The Bit of the game machine fraud 1 that sends a command and sends it from the game medium number control board P16 to the rental unit becomes 1, and the setting confirmation timer is set on the main control board P15, and the setting confirmation timer is set. And every time the main control board P15 updates the setting confirmation timer, a command related to updating the setting confirmation timer is transmitted to the game medium number control board P16, and the game medium number control board P16 transmits from the main control board. By determining that the setting confirmation mode has elapsed for 5 seconds (determining that the timer value of the setting confirmation timer is 0) based on the timer value of the setting confirmation timer, the unit rented from the game medium number control board P16. It is conceivable that the Bit of the game machine fraudulent 1 to be transmitted to is set to 0.

In this case, if 5 seconds have elapsed during the setting confirmation mode, the command related to updating the setting confirmation timer will not be transmitted. If 5 seconds have elapsed during the setting confirmation mode, the Bit of the gaming machine fraud 1 is 1 until the setting confirmation mode ends. Even if the setting confirmation mode ends in less than 5 seconds (for example, 2 seconds), the Bit of the gaming machine fraud 1 indicating that the setting confirmation mode is in is set to 1 for the remaining 3 seconds (total 5 seconds). There is. With this configuration, even if the setting confirmation mode ends in a very short time, sufficient time can be secured to send the information in the setting confirmation mode to the rental unit, and unauthorized setting key switch operation is detected. It becomes possible.

Further, when the setting confirmation mode is started on the main control board P15 (for example, when the setting key switch is turned on in the game standby state), the game medium number control board P16 indicates that the setting confirmation mode is set. The Bit of the game machine fraud 1 that sends a command and is transmitted from the game medium number control board P16 to the lending unit becomes 1, and a setting confirmation timer is set on the game medium number control board P16 to set the game medium number control board P16. Determines that the setting confirmation mode has elapsed for 5 seconds based on the timer value of the setting confirmation timer (determines that the timer value of the setting confirmation timer is 0). A configuration is conceivable in which the Bit of the game machine fraudulent 1 to be transmitted is set to 0.

In this case, if 5 seconds have elapsed during the setting confirmation mode, the update of the setting confirmation timer ends. If 5 seconds have elapsed during the setting confirmation mode, the Bit of the gaming machine fraud 1 is 1 until the setting confirmation mode ends. Even if the setting confirmation mode ends in less than 5 seconds (for example, 2 seconds), the Bit of the gaming machine fraud 1 indicating that the setting confirmation mode is in is set to 1 for the remaining 3 seconds (total 5 seconds). There is. With this configuration, even if the setting confirmation mode ends in a very short time, sufficient time can be secured to send the information in the setting confirmation mode to the rental unit, and unauthorized setting key switch operation is detected. It becomes possible.

The timing for setting the setting confirmation timer may be after the setting confirmation mode is started and the set value is displayed. Then, if any of the conditions of "setting confirmation mode" and "setting confirmation timer is not 0" is satisfied, the setting confirmation status is turned ON, and the setting confirmation signal is output. When neither of the conditions of "setting confirmation mode" and "setting confirmation timer is not 0" is satisfied, the setting confirmation status is turned off and the output of the setting confirmation signal is stopped.

A fraud detection signal 1 is assigned to Bit 2, a fraud detection signal 2 is assigned to Bit 3, and a fraud detection signal 3 is assigned to Bit 4. For example, in the gaming machine P in which the random number abnormality is invalid, when the detection of the random number abnormality is assigned to the fraud detection signal 1, Bit2 becomes 1 when the random number abnormality is detected, and the random number abnormality is not detected. In that case, Bit2 becomes 0.

A security signal is assigned to Bit5. Specifically, Bit5 becomes 1 when the fraud detection signal is being output, when the setting changing signal is being output, or when the setting confirmation signal is being output, and other than that. In the situation, Bit5 becomes 0.

Bit6 and Bit7 are unused, Bit6 is 0, and Bit7 is 0.

Here, focusing on the setting changing signal, the setting checking signal, and the security signal, what kind of signal is output will be described as an example. Although the fraud detection signal 1, the fraud detection signal 2, and the fraud detection signal 3 are not mentioned here, "0" or "1" is output for the fraud detection signal 1, the fraud detection signal 2, and the fraud detection signal 3. ing. Further, the first game refers to the first game played after the setting change mode is performed.

(Case 1) For example, after the setting is changed, the first game is completed (the game is completed means that all reels have stopped or the score giving process corresponding to the symbol combination has been completed. , Same.) In this case, "1" (on) is output as a setting changing signal from a predetermined timing when the setting change mode is started, and "0" (off) is output as a setting changing signal after the first game is completed. To. In this case, if the mode has not been changed to the setting confirmation mode, "0" (off) is continuously output as the setting confirmation signal. Further, even in a situation where "0" (off) is output as the fraud detection signal 1, the fraud detection signal 2, and the fraud detection signal 3, "1" is output as the setting changing signal, so that security is provided. As the signal, "1" (on) is output, and at the timing when "0" is output as the setting changing signal, "fraud detection signal 1, fraud detection signal 2, or fraud detection signal 3 is" If "1" is not output, "0" is output as a security signal. If "1" is output as a fraud detection signal among any of the fraud detection signal 1, the fraud detection signal 2, and the fraud detection signal 3 at the timing of outputting "0" as the setting changing signal, security "1" is output as a signal.

(Case 2) For example, it is assumed that the power switch is turned off (power off occurs) and then the power switch is turned on (power is restored) after the setting is changed and before the first game is completed. After that, it is assumed that the first game is executed and the first game is completed. In this case, "1" (on) is output as a setting changing signal from the predetermined timing when the setting change mode is started, and while the power is off, the output processing is not performed and the setting is changed from a specific timing after the power is restored. "1" (on) is output as a medium signal, and "0" (off) is output as a setting changing signal after the first game is completed. In this case, if the mode has not been changed to the setting confirmation mode, "0" (off) is continuously output as the setting confirmation signal. Further, even in a situation where "0" (off) is output as the fraud detection signal 1, the fraud detection signal 2, and the fraud detection signal 3, "1" is output as the setting changing signal, so that security is provided. As the signal, "1" (on) is output, and at the timing when "0" is output as the setting changing signal, "fraud detection signal 1, fraud detection signal 2, or fraud detection signal 3 is" If "1" is not output, "0" is output as a security signal. If "1" is output as a fraud detection signal among any of the fraud detection signal 1, the fraud detection signal 2, and the fraud detection signal 3 at the timing of outputting "0" as the setting changing signal, security "1" is output as a signal.

(Case 3) For example, it is assumed that after the setting is changed, the mode shifts to the setting confirmation mode before the first game starts, and then the setting confirmation mode ends. After that, it is assumed that the first game is executed and the first game is completed. In this case, "1" (on) is output as the setting changing signal from the predetermined timing when the setting change mode is started, and "1" (on) is output as the setting changing signal even in the setting confirmation mode. After the first game is completed, "0" (off) is output as a setting changing signal. In this case, in the setting confirmation mode, "1" (on) continues to be output as the setting confirmation signal. Further, even in a situation where "0" (off) is output as the fraud detection signal 1, the fraud detection signal 2, and the fraud detection signal 3, "1" is output as the setting changing signal, so that security is provided. As the signal, "1" (on) is output, and at the timing when "0" is output as the setting changing signal, "fraud detection signal 1, fraud detection signal 2, or fraud detection signal 3 is" If "1" is not output, "0" is output as a security signal. If "1" is output as a fraud detection signal among any of the fraud detection signal 1, the fraud detection signal 2, and the fraud detection signal 3 at the timing of outputting "0" as the setting changing signal, security "1" is output as a signal.

H) Gaming machine fraud 2 (main control or number of gaming media)
The game machine fraud 2 (main control or game medium number control) is information on the detection of fraud related to the main control board P15 or the game medium number control board P16 and the state related to the main control board P15 or the game medium number control board P16. show. The signal of the gaming machine fraud 2 (main control or the number of gaming media control) is treated as a signal for a hall computer. In other words, each signal of the gaming machine fraud 1 (main control) output from the gaming machine P is output to the hall computer through the lending unit.

Each signal constituting the game machine fraud 2 (main control or game medium number control) is described below.

A setting door open signal is assigned to Bit0. The setting door open signal is a signal indicating whether or not the setting key switch cover member covering the setting key switch for changing the setting is open. Bit0 becomes 1 when the setting key switch cover member is open, and Bit0 becomes 0 when the setting key switch cover member is closed. In the gaming machine P not provided with the setting key switch cover member or the gaming machine P not having the function of detecting the opening of the setting key switch cover member, Bit0 is 0.

A door open signal (also referred to as a door switch signal) is assigned to Bit1. The door open signal is a signal indicating whether or not the door of the gaming machine P (also referred to as the front door P2 or the front door) is open. Bit0 becomes 1 when the door of the gaming machine P is open, and Bit0 becomes 0 when the door of the gaming machine P is closed.

Bit2 is unused, and Bit2 becomes 0.

Bit 3 is assigned to detect the number of game media clear. The game medium number clearing means that the total score stored in the game medium number control board P16 is cleared when the total score clear switch provided on the game medium number control board P16 is operated. For example, when the bet score is "3" and the total score stored in the game medium number control board P16 is "1000", the total score clear switch is operated and the bet score is " 3 ”, the total score stored in the game medium number control board P16 is“ 0 ”. In other words, the score bet is not cleared by operating the total score clear switch. When the operation of the total score clear switch is detected, Bit3 becomes "1", and when the operation of the total score clear switch is not detected, Bit3 becomes "0". In the case of the gaming machine P not provided with the total score clear switch, Bit3 is "0". When the total score is initialized, Bit3 is set to "1" until the end of the game after the total score is initialized.

Bit4 to Bit7 are unused, and Bit4 to Bit7 are 0.

K) Gaming machine fraud 3 (main control or number of gaming media)
The gaming machine fraud 3 indicates information regarding detection of fraud related to the main control board P15 or the game medium number control board P16 provided as a spare and information regarding the state related to the main control board P15 or the game medium number control board P16.
In the gaming machine P of the present embodiment, it is not used because it is not used. In other words, Bit0 to Bit7 become 0.

Since Bit2, Bit4, Bit5 of the gaming machine fraud 2 and Bit0 and Bit1 of the gaming machine fraud 3 are unused, they are basically "0", but any one of these Bits. When the Bit becomes "1" and is transmitted to the lending unit and received by the SC board in the lending unit, the lending operation is prohibited (even if the lending switch is operated, it is invalidated, etc.).

This is because if there is a fraudulent program or fraudulent data in the unused storage area and the unused part is used, the lending operation is prohibited, so the unused part is used carelessly. This is to prevent it from being possible.

Further, it is also assumed that a management gaming machine (also referred to as an enclosed gaming machine) for playing a game using a gaming ball and a medalless gaming machine in the present embodiment use a common rental unit, and the gaming machine in the managed gaming machine. Bit 2 of fraud 2 is used for detecting fraudulent radio waves, Bit 4 of game machine fraud 2 is used for detecting abnormal number of winning balls 1, and Bit 5 of game machine fraud 2 is used for detecting abnormal number of winning balls 2. Bit 0 is used for small ball detection, and Bit 1 of gaming machine fraud 3 is used for iron ball detection. Therefore, when these frauds are detected, each Bit becomes "1" and lending operation is prohibited by the operation of the SC board. It is configured to do. With such a configuration, it is possible to reduce the burden on the hall regarding the introduction of the managed gaming machine and the medalless gaming machine. Once the lending unit is prohibited from lending, the lending is permitted by receiving an error release signal by operating the reset switch mounted on the gaming machine P or the like.

The main control board P15 and / or the game medium number control board P16 may be provided with fraud detecting means for detecting fraud. Hereinafter, the behavior of the gaming machine P when, for example, a radio wave abnormality is detected by the fraud detecting means will be illustrated.

As the first behavior, when the gaming machine P (main control board P15 or gaming medium number control board P16) detects a radio wave abnormality, the gaming in the main control means is stopped (in an error state). .. At this time, the communication (outputting and receiving various messages) between the game medium number control board P16 and the rental unit may be continued, or the communication between the game medium number control board P16 and the rental unit is stopped. You may. Further, the communication between the main control board P15 and the game medium number control board P16 may be continued, or the communication between the main control board P15 and the game medium number control board P16 may be stopped. Furthermore, the communication between the main control board P15 and the effect control board may be continued, or the communication between the main control board P15 and the effect control board may be stopped. It should be noted that the error notification using a lamp, an image display, or an amplifier (sound) may be executed by the control by the effect control board.

As a second behavior, when the gaming machine P (main control board P15 or gaming medium number control board P16) detects a radio wave abnormality, it is possible to play a game in the main control means. At this time, the communication (outputting and receiving various messages) between the game medium number control board P16 and the rental unit may be continued, or the communication between the game medium number control board P16 and the rental unit is stopped. You may. Further, the communication between the main control board P15 and the game medium number control board P16 may be continued, or the communication between the main control board P15 and the game medium number control board P16 may be stopped. Furthermore, the communication between the main control board P15 and the effect control board may be continued, or the communication between the main control board P15 and the effect control board may be stopped. Although the game controlled by the main control board P15 can be executed, error notification using a lamp, an image display, or an amplifier (sound) may be executed by the control by the effect control board.

Although the above-mentioned behavior is not limited to the radio wave abnormality, for example, the random number abnormality and the set value data stored in the RWM of the main control board P15 are within the normal range (0 to 5). Detected by fraud detection means for detecting fraud, such as a setting value error that is determined to be abnormal when it is not, and an RWM error that is determined to be abnormal when the data stored in the RWM of the main control board P15 is not normal when the power is restored. It is also applicable to other possible anomalies.

Furthermore, when a plurality of abnormalities can be detected by the fraud detecting means for detecting fraud, the first abnormality (for example, a random number abnormality) performs the above-mentioned first behavior and the second abnormality. (For example, a radio wave abnormality) may be configured so that the behavior differs depending on the type of abnormality, such as performing the second behavior described above.

Next, a) a number of game information, a) type information 1, a) count information 1, a) type information 2, and a) count information 2 will be described later.

Information composed of type information 1 and count information 1 may be referred to as game information, and information composed of type information 2 and count information 2 may be referred to as game information. This game information is composed of a total of 2 bytes of type information (upper 1 byte) and count information (lower 1 byte). The type information is information indicating whether it is the number of bets used in the game or the number of grants given as a result of the game. Further, the count information is information indicating the number of game media (points) corresponding to the type information. When the number of game information is 0, the above type information and count information are not transmitted. This game information is treated as a signal for a hall computer. In other words, the game information output from the game machine P is output to the hall computer through the rental unit.

E) Number of game information Information indicating the number of game information composed of type information and count information. For example, when the number of game information is 0, the type information 1, the count information 1, the type information 2, and the count information 2 are not output. Further, for example, when the number of game information is 1, the type information 1 and the count information 1 are output. Further, for example, when the number of game information is 2, the type information 1 and the count information 1 are output and the type information 2 and the count information 2 are output.

S) Type information 1 and S) Count information 2
The type information is information constituting the above-mentioned game information. When indicating the number of bets (insertion points) used in the game, the type information is 00010001B. When indicating the number of grants (grant points) given as a result of the game, the type information is 00100001B.

C) Count information 1 and C) Count information 2
The count information is information constituting the above-mentioned game information. When the number of bets used in the game (insertion point) is output as the type information, a value corresponding to the number of bets (insertion point) used in the game is set. When the number of grants (grant points) given as a result of the game is output as the type information, a value corresponding to the number of grants (grant points) given in the game is set. If the replay combination is won as the game result of the game and the symbol combination corresponding to the replay is stopped and displayed, the value corresponding to the number of bets (insertion points) used in the game is given according to the result of the game. It is set as the number of grants (grant points).

For example, when three bets are placed and the start switch is operated, the number of bets (insertion points) used in the game is output as game information based on the operation of the start switch. The game information at this time is 1103h.

In addition, as a result of the internal lottery to determine the winning combination, if the lottery result that can give 10 points is won and the symbol combination that gives 10 points when all reels are stopped is displayed as stopped, at the end of the game. After (after all reels have stopped), the number of grants (grant points) given by the result of the game is output as game information. The game information at this time is 210 Ah.

The input point uses the information stored in the above-mentioned (_WK_MDL_IN), and the imparting point uses the information stored in the above-mentioned (_WK_MDL_OUT).

<Counting notification>
The above-mentioned counting notification (see FIG. 20) is composed of a 7-byte telegram length, and is a signal transmitted from the gaming machine P to the rental unit based on the acceptance of the operation of the counting switch P7 by the gaming machine P. be.

The information that constitutes the counting notification includes the message length (1 byte), command (1 byte), counting serial number (1 byte), counting point (1 byte), counting cumulative point (2 bytes), and checksum (1 byte). ).

The telegram length indicates the length of the telegram of the count notification, and since it is 7 bytes, it is "0x07".

The command is "0x02" indicating a count notification.

The counting serial number is a serial number dedicated to counting, and is a dedicated serial number different from the above-mentioned serial number and the lending serial number described later. The counting serial number is in the range of "0x00" to "0xFF", and the gaming machine P increments each time the gaming machine P transmits a counting notification. Of the counting serial numbers, "0x00" is a counting serial number that is transmitted only when the power is turned on, and the next value of "0xFF" is "0x01".

The counting point is a score related to the counting transmitted in one gaming machine information notification among the gaming machine information notifications transmitted by the gaming machine P every 300 ms. Since the counting points are in the range of "0x00" to "0x32", a maximum of 50 points are transmitted to the lending unit in one game machine information notification. Further, when the total score stored in the game medium number control board P16 is 50 points or more, the data of "0x32" indicating 50 points is transmitted, but the total score stored in the game medium number control board P16 is transmitted. If the score is less than 50 points, data corresponding to the current total score stored in the game medium number control board P16 is transmitted (for example, the total score stored in the game medium number control board P16 is 30). In the case of points, "0x1E" data indicating 30 points is transmitted).

The above-mentioned example of the counting point is an example in which 50 points are counted when the operation of the counting switch P7 is accepted only once (hereinafter, may be referred to as a short press operation), but the counting switch P7 is short. When a push operation is accepted, one point may be counted as a counting point, and when a long press operation of the counting switch P7 is accepted, 50 points may be counted as a counting point.

In this case, the acceptance of the short press operation of the counting switch P7 means that the game medium number control board P16 has a value indicating ON for the level data related to the operation acceptance of the counting switch P7 (the operation of the counting switch P7 in the interrupt process). It can be exemplified that the period (the period in which the reception is set to the value indicating ON) is less than the predetermined period (for example, less than 500 ms). That is, when the operation of the counting switch P7 is accepted in the first period less than the predetermined period, one point of the counting point is counted assuming that the short pressing operation of the counting switch P7 is accepted.

Further, the acceptance of the long press operation of the counting switch P7 means the period during which the level data related to the operation acceptance of the counting switch P7 is set to a value indicating ON by the game medium number control board P16 (the operation acceptance of the counting switch P7 by the interrupt processing). For example, a case where the period (a period in which is a value indicating ON) is a predetermined period or longer (for example, 500 ms or longer) can be exemplified. That is, when the operation of the counting switch P7 is accepted over the second period of a predetermined period or longer, 50 points of the counting points are counted assuming that the long press operation of the counting switch P7 is accepted. If the counting switch P7 is still held down at the timing of transmitting the counting notification after the counting point "50" is transmitted to the lending unit as the counting notification, the counting point "50" is transmitted to the lending unit as the counting notification. do. That is, after the long press determination is made once, the counting point "50" is transmitted to the lending unit as a counting notification until the counting switch P7 is no longer operated (until the level data related to the operation reception of the counting switch P7 becomes a value indicating OFF). Continue (however, if the total score is less than 50, the value is counted). In this case, counting is not performed until it is determined that the counting switch P7 is being pressed for a long time (for example, for 500 ms).

The cumulative counting point is a value obtained by accumulating the counting points from the time when the power of the gaming machine P is turned on. The cumulative counting points are in the range of "0x0000" to "0xFFFF", and the counting points are added each time the counting is performed. If the cumulative counting point exceeds "0xFFFF", the value next to "0xFFFF" is set to "0x0000". Further, when the power of the gaming machine P is turned on, the cumulative counting point is cleared to 0.

The checksum is a value obtained by adding the values of the message length (1 byte), the command (1 byte), the counting serial number (1 byte), the counting point (1 byte), and the counting cumulative point (2 bytes). The checksum is used to determine whether or not the counting notification received by the lending unit is correct for the counting notification transmitted from the gaming machine P.

<Lending notice>
The lending notification is composed of a 5-byte telegram length, and is a signal transmitted from the lending unit to the gaming machine P based on the fact that the lending unit has accepted the operation of the lending switch. When the lending unit receives the counting notification from the gaming machine P, it sends a lending notification to the gaming machine P. However, if the gaming machine information notification has not been received, if the gaming machine information type of the gaming machine information notification is other than "0x02" (if notified by other than hall control / fraud monitoring information), the counting of the counting notifications. When the points are notified in the range of 1 to 50 (values other than 0), the lending point is set to 0 and the gaming machine P is notified.

The information that constitutes the loan notification consists of the telegram length (1 byte), command (1 byte), loan serial number (1 byte), number of loan game media (1 byte), and checksum (1 byte). ..

The telegram length indicates the length of the telegram of the loan notification, and since it is 5 bytes, it is "0x05".

The command is "0x13" indicating a loan notification.

The lending serial number is a dedicated serial number for lending, and is different from the above-mentioned serial number and counting serial number for exclusive use for lending. The lending serial number is in the range of "0x00" to "0xFF", and is incremented each time the lending receipt result response described later is transmitted from the gaming machine P. Of the rental serial numbers, "0x00" is a rental serial number that is transmitted only at the start of communication with the gaming machine P, and the next value of "0xFF" is "0x01".

The lending points are points related to lending to be transmitted to the gaming machine P by operating the lending switch provided in the lending unit. Since the lending points range from "0x00" to "0x32", a maximum of 50 points can be transmitted to the gaming machine P in one gaming machine information notification. Further, when the lending possible points stored in the storage medium (membership card, visitor card, etc.) inserted in the lending unit are 50 points or more, the data of "0x32" indicating 50 points is transmitted to the game machine P. However, if the lending possible points stored in the storage medium are less than 50 points, data corresponding to the current lending possible points stored in the storage medium is transmitted (for example, stored in the storage medium). If the number of lending points is 20 points, "0x14" data indicating 20 points is transmitted).

The checksum is a value obtained by adding the values of the message length (1 byte), the command (1 byte), the lending serial number (1 byte), and the lending point (1 byte). The checksum is used to determine whether or not the lending notice received by the gaming machine P is correct for the lending notice sent to the gaming machine P.

<Lending receipt result response>
The loan receipt result response is composed of a 5-byte telegram length, and is a signal transmitted from the gaming machine P to the lending unit based on the receipt of the lending notification by the gaming machine P. When the gaming machine P receives the lending notification from the lending unit, it sends a lending receipt result response to the lending unit. However, if the rental serial numbers notified by the rental unit are not continuous, or if the game machine P side cannot be rented due to a RAM error of the main control board P15 or the game medium number control board P16, the number of game media is controlled. If the sum of the total score stored in the board P16 and the lending point exceeds the storage upper limit of the total score stored in the game medium number control board P16 (for example, 16383 described above), the lending point is received as a result. Respond with a value indicating an abnormality. The information that constitutes the loan receipt result response consists of a message length (1 byte), a command (1 byte), a loan serial number (1 byte), a loan point receipt result (1 byte), and a checksum (1 byte). ing.

The telegram length indicates the length of the telegram of the loan notification, and since it is 5 bytes, it is "0x05".

The command is "0x03" indicating the loan receipt result response.

As the lending serial number, the lending serial number stored in the lending notification received from the lending unit is used as it is. For example, when the lending serial number of the lending notification is 0x01, the lending serial number of the lending receipt result response to be transmitted to the lending unit is 0x01. However, when the lending point receipt result is not normal (when it is abnormal), the lending serial number received from the lending unit when the lending point receipt result is normal is returned as the lending serial number. In other words, the gaming machine P stores the lending notification (for example, the telegram length, the command, the lending serial number, the number of lending gaming media, all or part of the checksum) sent from the lending unit, and the lending point receipt result. When is abnormal, it is prepared so that the result of receiving the lending point when it is normal can be responded. Further, the lending notice to be memorized may be only the one immediately before, and when the lending point receipt result is abnormal, the latest lending notice at the normal time can be sent to the lending unit by not newly memorizing the lending notice. It should be noted that the loan notification to be stored may be stored not only immediately before but also in plurality. The rental serial number is cleared to 0 when the power of the gaming machine P is turned on.

The lending point receipt result is "0x00" when it is normal, and "0x01" when it is abnormal. If the value is abnormal, the number of gaming media is not continuous, the number of gaming media is not continuous, or the gaming machine P is unable to be rented due to a RAM error of the gaming medium number control board P16. The value obtained by adding the total score stored in the control board P16 and the lending point may exceed the storage upper limit value of the total score stored in the game medium number control board P16. Further, when the value is other than "0x00" and "0x01" due to other factors, the lending unit is judged to be abnormal.

The checksum is a value obtained by adding the values of the telegram length (1 byte), the command (1 byte), the lending serial number (1 byte), and the lending point receipt result (1 byte). The checksum is used to determine whether the loan receipt result response received by the lending unit is correct in response to the loan receipt result response sent to the lending unit.

The basic communication sequence between the gaming machine P and the rental unit will be described with reference to FIG.

<Basic communication sequence>
The gaming machine P transmits the gaming machine installation information, the gaming machine performance information, and the hall computer / fraud monitoring information as the above-mentioned gaming machine information notification to the rental unit.

The gaming machine installation information is transmitted to the rental unit every 60s (60,000ms) from the time when the starting of the gaming machine P is completed. The gaming machine performance information is transmitted to the rental unit every 180s (180,000ms) from the time when the starting of the gaming machine P is completed. The hall control / fraud monitoring information is transmitted to the rental unit every 300 ms from the time when the start-up of the gaming machine P is completed.

The gaming machine installation information, gaming machine performance information, and hall control / fraud monitoring information may be sent to the rental unit at the same timing. For example, 60s after the start of the gaming machine P is completed, the gaming machine installation information and the hall computer / fraud monitoring information may be at the same timing. In this case, the gaming machine installation information is preferentially transmitted, and then the hall computer / fraud monitoring information is transmitted after 300 ms has elapsed.

Further, for example, 180 seconds after the start of the gaming machine P is completed, the gaming machine installation information, the gaming machine performance information, and the hall computer / fraud monitoring information may be at the same timing. In this case, the gaming machine installation information is preferentially transmitted, then the gaming machine performance information is transmitted after 300 ms has elapsed, and then the hall computer / fraud monitoring information is transmitted after 300 ms has elapsed.

As described above, as the priority for transmitting the information, the pachinko / pachislot machine installation information has the highest priority, then the pachinko / pachislot machine performance information, and finally the hall computer / fraud monitoring information. Therefore, the transmission timing of the hall control / fraud monitoring information is delayed by 600 ms at the maximum.

The gaming machine P transmits a gaming machine information notification to the lending unit at a cycle of 300 ms, and then transmits a counting notification 100 ms later. Then, the lending unit transmits the lending notice to the gaming machine P within 170 ms after receiving the counting notification. Then, the gaming machine P transmits a loan receipt result response within 10 ms after receiving the loan notification. After that, since the next gaming machine information notification is transmitted 300 ms after the gaming machine information notification is transmitted, the period from the transmission of the loan receipt result response to the transmission of the next gaming machine information notification is 20 ms or more.

The activation sequence of the gaming machine P and the rental unit will be described with reference to FIG.

<Startup sequence>
The case where the gaming machine P is activated before the rental unit will be described.

When the power of the gaming machine P and the rental unit is OFF, the VL signal and the PSI signal of the gaming machine P and the rental unit are OFF. Since the VL signal is an I / F signal shared power supply and is a power supply supplied from the rental unit, it is turned off until the rental unit is activated. Further, since the PSI signal is a connection signal between the gaming machine P and the rental unit, it is turned off until the rental unit is activated.

Subsequently, in a situation where the activation of the gaming machine P is completed and the activation of the rental unit is not completed yet, the gaming machine information notification is transmitted to the rental unit when the activation of the gaming machine P is completed. After that, a count notification is sent. However, since the lending unit has not been activated yet, the transmitted gaming machine information notification and counting notification cannot be received. Further, since the lending unit does not receive the counting notification even if the gaming machine P sends the counting notification, the lending unit does not send the lending notification, and the gaming machine P sends the lending receipt result response. Nor.

It should be noted that "0x00" is transmitted as the serial number of the gaming machine information notification and the counting serial number of the counting notification to be transmitted first after the activation of the gaming machine P is completed. In addition, since the serial number and the counting serial number are updated regardless of whether or not the gaming machine P and the rental unit are connected, the next transmission timing (300 ms of the gaming machine information notification first transmitted after the activation of the gaming machine P is completed). At the timing of transmission later), "0x01" is transmitted for the serial number and the counting serial number.

That is, the gaming machine P transmits a telegram and updates the serial number regardless of whether or not it is connected to the rental unit.

Subsequently, when the activation of the rental unit is completed, the VL signal and the PSI signal are turned on, and the gaming machine P is effective in operating the bet switch P5 and the counting switch P7. Further, the lending unit can receive the information transmitted from the gaming machine P.

As described above, since the gaming machine P transmits the gaming machine information notification and the counting notification regardless of whether or not the lending unit is activated, the lending unit has the gaming machine P after the activation of the lending unit is completed. It is managed from the serial number of the gaming machine information notification sent from and the counting serial number of the counting notification. With this configuration, the gaming machine P can transmit information without determining the status of the rental unit, so that the program capacity for determining the status of the rental unit can be reduced.

The activation sequence of the gaming machine P and the rental unit will be described with reference to FIG. 22.

The case where the rental unit is activated before the gaming machine P will be described.

If the lending unit is activated before the gaming machine P, it waits until the gaming machine P is activated. Here, the VL signal and the PSI signal of the gaming machine P are OFF until the gaming machine P is activated, but when the activation of the rental unit is completed, the VL signal and the PSI signal of the rental unit are turned ON. Become. In this state, the rental unit waits until the activation of the gaming machine P is completed.

Subsequently, when the activation of the gaming machine P is completed, the VL signal and the PSI signal of the gaming machine P and the rental unit are turned on, and the gaming machine P has the gaming machine information notification serial number "0x00" and the counting notification counting serial number "0x00". "Send each. Here, since the lending unit has already been activated, the gaming machine information notification of the serial number "0x00" and the counting notification of the counting serial number "0x00" are received, and the management is started. With this configuration, the gaming machine P can transmit information without determining the status of the rental unit, so that the program capacity for determining the status of the rental unit can be reduced.

The counting notification sequence between the gaming machine P and the rental unit will be described with reference to FIG. 23.

<Counting notification sequence>
A case where the gaming machine P sends a counting notification to the lending unit will be described. In this description, as a situation before accepting the operation of the counting switch P7, the total score managed by the game medium number control board P16 is "200", and the lending possible point managed by the lending unit is "20". do.

The gaming machine immediately after receiving the operation of the counting switch P7 provided in the gaming machine P under the condition that the activation of the gaming machine P and the rental unit is completed and the communication between the gaming machine P and the rental unit is possible. At the timing of sending the information notification to the lending unit, the serial number "n (n is a numerical value)" and the total score "200" are transmitted as the gaming machine information notification, and the counting serial number "m (m is a numerical value)" as the counting notification. Since the score is 200 and the total score stored in the game medium number control board P16 is 50 points or more, the counting point "50" is transmitted as described above. If the processing related to the counting is the processing related to the counting for the first time after the start of the gaming machine P is completed, the counting accumulation point "50" is transmitted as a counting notification. The gaming machine P subtracts the counting points from the total scores stored in the total score storage area before executing the process of transmitting the counting notification.

Subsequently, when the lending unit receives the counting notification, the lending possible point is updated to "70", and the lending serial number "k (k is a numerical value)" and the lending point "0" are transmitted to the gaming machine P as the lending notification. (Because the lending button is not operated). Further, when the gaming machine P receives the lending notice from the lending unit, the gaming machine P checks the consistency between the information indicated by the lending notice and the information indicated by the previous lending notice.

Subsequently, after the gaming machine P receives the lending notice, the lending serial number "k" and the lending point receipt result "normal" are transmitted to the lending unit as a lending receipt result response (the information indicated by the lending notice and the previous lending notice are sent. If the result of checking the consistency with the indicated information is normal).

Subsequently, when the operation of the counting switch P7 has not already been accepted at the timing when the gaming machine P sends the gaming machine information notification to the rental unit (when the counting switch P7 is released), the gaming machine information notification is used. The serial number "n + 1" and the total score "150" are transmitted. Further, as a counting notification, a counting serial number "m + 1", a counting point "0", and a counting cumulative point "50" are transmitted. Further, the lending unit transmits the lending serial number "k + 1" and the lending point "0" to the gaming machine P as a lending notification to the gaming machine P. Further, the gaming machine P transmits the lending serial number “k + 1” and the lending point receipt result “normal” as a lending receipt result response to the lending unit.

Further, when the operation of the counting switch P7 is accepted at the timing of transmitting the second gaming machine information notification after the operation of the counting switch P7 is received (when the counting switch P7 is held down), the gaming machine information notification is received. The serial number "n + 1" and the total score "150" are transmitted. Further, as a counting notification, a counting serial number "m + 1", a counting point "50", and a counting cumulative point "100" are transmitted. Further, the lending unit transmits the lending serial number "k + 1" and the lending point "0" to the gaming machine P as a lending notification to the gaming machine P. Further, the gaming machine P transmits the lending serial number “k + 1” and the lending point receipt result “normal” as a lending receipt result response to the lending unit.

In this way, from the time when the operation of the counting switch P7 is accepted until the operation of the counting switch P7 is not accepted (while the counting switch P7 is held down), the gaming machine P counts against the rental unit every 300 ms. Continue to send notifications. With this configuration, a fixed amount of counting points (50) can be sent to the lending unit every 300ms without complicated operations (just press and hold), reducing the burden on the user's counting operations. can do.

Since the counting switch P7 is connected to the game medium number control board P16, the input port is checked for each interrupt process of the game medium number control board P16, and the input indicating ON is input to the input port indicating the counting switch P7. If so, it is assumed that the operation of the counting switch P7 is accepted, and then, if the information indicating OFF is input to the input port indicating the counting switch P7, the operation of the counting switch P7 is not accepted.

The lending notification sequence between the gaming machine P and the lending unit will be described with reference to FIG. 24.

<Lending notification sequence>
A case where the lending unit sends a lending notice to the gaming machine P will be described. In this description, as a situation before accepting the operation of the lending button, it is assumed that the total score managed by the game medium number control board P16 is "10" and the lending possible score managed by the lending unit is "100". .. Since the total score stored in the game medium number control board P16 is less than "50", it can be said that "10" is counted when the counting switch is operated.

When the activation of the gaming machine P and the lending unit is completed and the operation of the lending button provided in the lending unit is accepted in the situation where the gaming machine P and the lending unit can communicate with each other, the gaming machine P is accepted. The serial number "n (n is a numerical value)" and the total score "10" are transmitted as the gaming machine information notification, and the counting serial number "m (m is a numerical value)" and the counting point "0" are transmitted as the counting notification. Then, at the timing of transmitting the lending notification to the gaming machine P when the counting point included in the counting notification is "0", the lending serial number "k" and the lending point "50" are transmitted as the lending notification.

Subsequently, the lending unit updates the lending possible point to "50" when the lending notification is transmitted. The timing at which the lending unit updates the lending possible points may be the timing at which the lending receipt result response is received.

Subsequently, after the gaming machine P receives the lending notice, the lending serial number "k" and the lending point receipt result "normal" are transmitted to the lending unit as a lending receipt result response (the information indicated by the lending notice and the previous lending notice are sent. If the result of checking the consistency with the indicated information is normal).

Subsequently, the gaming machine P updates the total score to "60" between the time when the loan notification is received and the time when the loan receipt result response is transmitted.

Subsequently, when the operation of the lending button provided in the lending unit is continuously accepted, the serial number " "n + 1" and the total score "60" are transmitted.

Subsequently, the counting serial number "m + 1", the counting point "0", and the counting cumulative point "0" are transmitted from the gaming machine P as a counting notification, and then the lending unit gives a lending serial number "k + 1" to the gaming machine P. , The lending point "50" is transmitted to the gaming machine P, and the lending possible point is updated to "0". Further, the gaming machine P transmits the lending serial number “k + 1” and the lending point receipt result “normal” as a lending receipt result response to the lending unit.

In addition, although the lending unit shows an example of accepting the operation of the lending button by judging the operation level when the lending button is continuously operated, the lending button is accepted by judging the rise of the lending button. You may. In this case, even when the lending button is continuously operated, the lending operation is accepted only at the timing of the first operation, so even if the lending button is continuously operated, the second and subsequent times. At the timing of sending the lending notice, the lending point is set to "0".

If the counting point is 1 or more as the counting notification transmitted from the gaming machine P when the lending button is accepted, the lending point of the lending notification to be transmitted to the gaming machine P next is transmitted as "0". The lending button received at this time may be invalidated, or the lending unit stores the operation acceptance flag of the lending button, and the lending point is sent after the counting point of the counting notification becomes "0". May be transmitted as "50". Further, when the lending button is operated again while the lending button operation acceptance flag is memorized when the lending unit stores the lending button operation acceptance flag, the flag may be rewritten to the flag operated twice. However, the second and subsequent operations may be invalidated.

Further, when the lending unit sends a lending notification to the gaming machine P and the gaming machine P receives the lending notification, all the lending notification information is stored in the lending notification information storage area provided in the gaming machine P. Thereby, when the gaming machine P transmits the loan receipt result response, it can be determined whether the information of the loan point receipt result is "normal" or "abnormal".

Specifically, "k" is stored as the rental serial number information in the rental notification information storage area of the gaming machine P, and when the rental serial number of the rental notification sent from the rental unit is "k + 1", it is stored. Compared with the loan serial number "k + 1" received after incrementing to the "k" and generating "k + 1", the generated loan serial number and the received loan serial number match, so the received loan serial number "k + 1" Is stored in the rental notification information storage area provided in the gaming machine P.

Further, "k" is stored as the lending serial number information in the lending notification information storage area of the gaming machine P, and when the lending serial number of the lending notification transmitted from the lending unit is "k + 2", the stored "k" is stored. Compared with the lending serial number "k + 2" received after incrementing to "k" to generate "k + 1", since the generated lending serial number and the received lending serial number do not match, the received lending serial number "k + 2" is stored. No (the rental serial number of the rental notification information storage area provided in the gaming machine P is "k").

Further, since the upper limit of the lending serial number is 255, the lending serial number becomes 0 when incrementing in the situation where the lending serial number is 255. However, since the lending serial number 0 is a lending serial number that can be transmitted to the gaming machine only immediately after the lending unit is activated, it is incremented again to be the lending serial number 1. In other words, when the gaming machine updates the rental serial number under the situation where the rental serial number is 255, the next rental serial number is set to 1 by performing the increment twice.

In the above example, as a method of comparison, it is determined whether or not the lending serial number stored in the gaming machine P is incremented and then matches the lending serial number received from the lending unit, but the present invention is not limited to this. , A method of decrementing the lending serial number received from the lending unit and then comparing whether or not it matches the lending serial number stored in the gaming machine P, or the lending serial number received from the lending unit is stored by the gaming machine P. You may use a method of subtracting the existing lending serial number and determining whether or not the result is "1".

The lending notification information storage area included in the gaming machine P is composed of a lending notification receiving buffer 1, a lending notification receiving buffer 2, a lending notification receiving buffer 3, a lending notification receiving buffer 4, and a lending notification receiving buffer 5.

The lending notification receiving buffer 1 stores the message length, the lending notification receiving buffer 2 stores commands, the lending notification receiving buffer 3 stores the lending serial number, and the lending notification receiving buffer 4 stores the lending point and receives the lending notification. The check sum is stored in the buffer 5.

For example, if the lending notification received by the gaming machine P is the telegram length "0x05", the command "0x13", the lending serial number "0x01", the lending point "0x32", and the checksum "0x4B", the corresponding lending notification receiving buffer. Remember in. The game machine P subtracts the lending point "0x32" stored in the lending notification receiving buffer 4 from the check sum "0x4B" stored in the lending notification receiving buffer 5, calculates "0x19", and calculates the lending notification receiving buffer from "0x19". The lending serial number "0x01" stored in 3 is subtracted to calculate "0x18", and the command "0x13" stored in the lending notification receiving buffer 2 is subtracted from "0x18" to calculate "0x05" and "0x05". The message length "0x05" stored in the lending notification reception buffer 1 is subtracted from, and "0x00" is calculated.

Subsequently, it is determined whether or not the calculation result is "0x00", and if it is "0x00" as described above, it is determined that the checksum is normal. If the calculation result is not "0x00", the checksum is judged to be abnormal, all the storage areas of the lending notification receiving buffers 1 to 5 are cleared (for example, rewritten to "0x00"), and the lending receipt result. As a response, the telegram length "0x05", the command "0x03", the lending serial number "0x00", the lending point receipt result is transmitted as "0x01 (abnormal)", and the checksum "0x09". The communication abnormality during lending will be described later.

Subsequently, when it is determined that the checksum is normal, it is determined whether or not the command information stored in the loan notification reception buffer 2 is "0x13". When the command information stored in the loan notification reception buffer 2 is "0x13", it is determined to be normal. If the command information stored in the lending notification receiving buffer 2 is not "0x13", it is judged to be abnormal, and all the storage areas of the lending notification receiving buffers 1 to 5 are cleared (for example, rewritten to "0x00"). Etc.), as a response to the loan receipt result, the message length "0x05", the command "0x03", the loan serial number "0x00", the loan point receipt result is transmitted as "0x01 (abnormal)", and the checksum "0x09".

Subsequently, when it is determined that the command is normal, it is determined whether or not the telegram length information stored in the loan notification reception buffer 1 is "0x05". When the telegram length information stored in the loan notification reception buffer 1 is "0x05", it is determined to be normal. If the message length information stored in the loan notification reception buffer 1 is not "0x05", it is determined to be abnormal, and all the storage areas of the loan notification reception buffers 1 to 5 are cleared (for example, to "0x00"). (Rewriting, etc.), the message length "0x05", the command "0x03", the lending serial number "0x00", the lending point receipt result "0x01 (abnormal)", and the checksum "0x09" are transmitted as the lending receipt result response.

Since the telegram length information stored in the lending notification receiving buffer 1 and the command information stored in the lending notification receiving buffer 2 are fixed values, they do not change if they are normal. In addition, since the checksum may match the normal value even if it is an abnormal value due to its nature, the abnormal value can be changed to the normal value by comparing the telegram length information, which is a fixed value, with the command information. It is possible to make the probability of determining that the value is as close to 0 as possible.

In order to judge whether the information of the loan notification is normal or not, the checksum, the command, and the telegram length are judged in this order, but the judgment order is not limited to this and may be any combination. If an abnormality is determined at any timing in the process of determining whether the checksum, command, or message length is normal, all the storage areas of the lending notification reception buffers 1 to 5 are cleared, and the subsequent determination processing is performed. However, it is not limited to this, and even if it is determined to be abnormal in any of the determination processes of checksum, command, and message length, all the storage areas of the lending notification reception buffers 1 to 5 are not cleared. It may be configured to clear all the storage areas of the lending notification receiving buffers 1 to 5 when any of the determination results is determined to be abnormal after all the determinations are completed.

When error detection is performed using only the checksum, the checksum is 1-byte data, so the reliability is (1- (1/256)) × 100 = 99.609375,000%, but a fixed value ( The reliability when one (1 byte data) is included is (1-((1/256) × (1/256))) × 100 = 99.9984741121%, and the fixed value (1 byte data) is 2. The reliability when one is included is (1-((1/256) × (1/256) × (1/256))) × 100 = 99.99999997%. Therefore, if it is a fixed value of 1-byte data, if two fixed values other than the checksum are determined, the reliability becomes almost 100%, and it becomes easy to detect an error or an abnormality.

The recovery sequence from the time of disconnection of the dedicated interface between the gaming machine P and the rental unit will be described with reference to FIG. 25.

<Recovery sequence from when the dedicated interface is disconnected>
The flow of various notification information when the communication is restored after the communication between the gaming machine P and the rental unit becomes impossible due to the disconnection will be described. In this description, it is assumed that the total score managed by the game medium number control board P16 is "100".

In a situation where the activation of the gaming machine P and the rental unit is completed and communication between the gaming machine P and the rental unit is possible, at the timing of transmitting the gaming machine information notification to the rental unit, the serial number " n (n is a numerical value) ”and the total score“ 100 ”are transmitted, and the counting serial number“ m (m is a numerical value) ”and the counting point“ 0 ”are transmitted as a counting notification. If the processing related to the counting is the processing related to the counting for the first time after the start of the gaming machine P is completed, the counting accumulation point "0" is transmitted as a counting notification. The gaming machine P subtracts the counting points from the total scores stored in the total score storage area before executing the process of transmitting the counting notification.

Subsequently, when the lending unit receives the counting notification, it transmits the lending serial number “k (k is a numerical value)” and the lending point “0” to the gaming machine P as the lending notification. Further, when the gaming machine P receives the lending notice from the lending unit, the gaming machine P checks the consistency between the information indicated by the lending notice and the information indicated by the previous lending notice.

Subsequently, after the gaming machine P receives the lending notification, the lending serial number “k” and the lending point receipt result “normal” are transmitted to the lending unit as a lending receipt result response.

Next, as a notification of gaming machine information, the line is disconnected immediately after the gaming machine P transmits the serial number "n + 1" and the total score "100" (the VL signal on the gaming machine P side is OFF, and the VL signal on the rental unit side is used. When both the PSI signals are OFF and the power of the gaming machine P and the rental unit is ON), the counting serial number "m + 1", the counting point "0", and the counting accumulation are sent by the gaming machine P as the counting notification. The point "0" is transmitted. Even if the operation of the counting switch P7 is accepted before the wire is disconnected, the counting process is performed by disabling the reception of the counting switch P7 when the VL signal on the gaming machine P side is turned off. Is transmitted with the counting point set to "0" in the counting notification after the disconnection. Further, when the VL signal on the gaming machine P side is turned off, the acceptance of the betting operation is also invalidated.

After that, since the lending unit side has not received the counting notification, the lending notification is not transmitted, and the gaming machine P side also does not send the lending receipt result response. Then, the next gaming machine information notification is transmitted 300 ms after the previous gaming machine information notification is transmitted, but when the communication between the gaming machine P and the rental unit is not restored, the gaming machine P is a game. The serial number "n + 2" and the total score "100" are transmitted as the machine information notification, and the counting serial number "m + 2", the counting point "0", and the counting cumulative point "0" are transmitted as the counting notification.

That is, in the situation where the communication between the gaming machine P and the rental unit is disconnected, the gaming machine P side continues to transmit only the gaming machine information notification and the counting notification. At this time, the serial number and the counting serial number will be updated and transmitted.

Subsequently, when the communication between the gaming machine P and the rental unit is restored immediately before the gaming machine P next transmits the gaming machine information notification, the serial number "n + 3" and the total score "100" are transmitted as the gaming machine information notification. Then, as a counting notification, the counting serial number "m + 3", the counting point "0", and the counting cumulative point "0" are transmitted.

Subsequently, the lending unit that has received the counting notification transmits the lending serial number "0" and the lending point "0" to the gaming machine P as the lending notification. As a result, when returning from the disconnection, the lending serial number "0" is transmitted, so that the gaming machine P can determine whether or not it is the first lending notification after returning from the disconnection.

Subsequently, after the gaming machine P receives the lending notification, the lending serial number “k” and the lending point receipt result response “abnormal” are transmitted to the lending unit as a lending receipt result response. Here, the lending serial number sends the lending serial number "k" when it was normally received last time, and the lending point receipt result response is the lending serial number "0" sent from the lending unit and the lending serial number "0" which was normally received last time. Since it is different from "k + 1" in which "k" is incremented, it is judged to be "abnormal". Further, when the lending unit receives the lending serial number "k", the lending unit stores "k" in the lending serial number storage area of the lending unit. It is permissible to use the other methods described above for determining the abnormality of the loan serial number.

Subsequently, when 300 ms have passed since the previous notification of the gaming machine information, the serial number "n + 4" and the total score "100" are transmitted as the gaming machine information notification, and the counting serial number "m + 4" and the counting point "0" are transmitted as the counting notification. The counting accumulation point "0" is transmitted.

Subsequently, the lending unit that has received the counting notification transmits the lending serial number “k + 1” and the lending point “0” to the gaming machine P as the lending notification. As a result, when the gaming machine P receives the lending notification, the lending point receipt result becomes "normal".

Subsequently, after the gaming machine P receives the lending notification, the lending serial number “k + 1” and the lending point receipt result response “normal” are transmitted to the lending unit as a lending receipt result response. At this timing, the recovery from the disconnection is completed, and the subsequent communication proceeds according to the normal sequence.

In the above example, when the lending unit transmits the lending serial number "0", the lending point as the lending notification sends "0" even if the operation of the lending button is accepted. That is, even if the operation of the lending button is accepted between the time when both the VL signal and the PSI signal of the lending unit are turned on and the time when the first lending notification is transmitted, the lending point whose lending serial number is "0" is It is configured to send "0", but it is not limited to this, and if the operation of the lending button is accepted when the lending serial number is "0", the lending point "50" even if the lending serial number is "0". May be sent.

Further, in the above example, if the dedicated interface is restored from the disconnection immediately after the gaming machine P sends the gaming machine information notification after the dedicated interface is disconnected and the lending unit does not receive the gaming machine information notification. The lending unit may transmit the lending notification due to the reception of the counting notification transmitted from the gaming machine P, or the lending unit may transmit from the gaming machine P because the lending unit has not received the gaming machine information notification. It is also possible to send the lending notice after receiving the counting notification after receiving the next gaming machine information notification without sending the lending notification after the counting notification.

A communication abnormality during counting between the gaming machine P and the rental unit will be described with reference to FIG. 26.

<Communication error during counting>
The case where the lending unit does not receive the counting notification transmitted when the gaming machine P transmits the counting notification to the lending unit will be described. In this description, as a situation before accepting the operation of the counting switch P7, the total score managed by the game medium number control board P16 is "200", and the lending possible point managed by the lending unit is "20". do.

The gaming machine immediately after receiving the operation of the counting switch P7 provided in the gaming machine P under the condition that the activation of the gaming machine P and the rental unit is completed and the communication between the gaming machine P and the rental unit is possible. At the timing of transmitting the information notification to the lending unit, the serial number "n" and the total score "200" are transmitted as the gaming machine information notification, and the counting serial number "m" and the counting point "50" are transmitted as the counting notification. If the processing related to the counting is the processing related to the counting for the first time after the start of the gaming machine P is completed, the counting accumulation point "50" is transmitted as a counting notification. The gaming machine P subtracts the counting points from the total scores stored in the total score storage area before executing the process of transmitting the counting notification.

Subsequently, when the lending unit receives the counting notification, the lending possible point is updated to "70", and the lending serial number "k" and the lending point "0" are transmitted to the gaming machine P as the lending notification (the lending button is operated). Because it has not been done). Further, when the gaming machine P receives the lending notice from the lending unit, the gaming machine P checks the consistency between the information indicated by the lending notice and the information indicated by the previous lending notice.

Subsequently, after the gaming machine P receives the lending notice, the lending serial number "k" and the lending point receipt result "normal" are transmitted to the lending unit as a lending receipt result response (the information indicated by the lending notice and the previous lending notice are sent. If the result of checking the consistency with the indicated information is normal).

Subsequently, the gaming machine P transmits a serial number "n + 1" and a total score "150" as a gaming machine information notification, and then the gaming machine P transmits a counting serial number "m + 1", a counting point "50", and a counting cumulative point "as a counting notification". If the lending unit cannot receive the counting notification even though "100" is transmitted, the lending unit does not send the lending notification. Then, when the lending unit does not receive the counting notification even after 300 ms has elapsed from receiving the gaming machine information notification, the VL signal and the PSI signal are turned off. In this case, the lending unit determines that an error has occurred in communication with the gaming machine P, and the same operation as the recovery sequence described above is performed. When recovering from the disconnection state, it is conceivable that the hall clerk operates the error release switch of the rental unit or the initialization switch of the rental unit.

Further, even after the lending unit determines that an error has occurred in communication with the gaming machine P and the lending unit turns off the VL signal and the PSI signal, the gaming machine P repeatedly transmits the gaming machine information notification and the counting notification. .. In this case, the serial number as the gaming machine information notification and the counting serial number as the counting notification are updated and then sent to the lending unit (the lending unit cannot receive). If the counting switch P7 is continuously pressed even after the lending unit turns off the VL signal and the PSI signal, the gaming machine P also turns off the VL signal and the PSI signal. Since the operation of the counting switch P7 is invalidated because the VL signal is turned off, 0 is transmitted as the counting point as the counting notification.

A communication abnormality between the gaming machine P and the lending unit during lending will be described with reference to FIG. 27.

<Communication error during lending>
A case where the lending unit sends a lending notice to the gaming machine P will be described. In this description, as a situation before accepting the operation of the lending button, it is assumed that the total score managed by the game medium number control board P16 is "10" and the lending possible score managed by the lending unit is "100". ..

When the activation of the gaming machine P and the lending unit is completed and the operation of the lending button provided in the lending unit is accepted in the situation where the gaming machine P and the lending unit can communicate with each other, the gaming machine P can be used. The serial number "n" and the total score "10" are transmitted as the game machine information notification, and the counting serial number "m" and the counting point "0" are transmitted as the counting notification. Then, at the timing of transmitting the lending notification to the gaming machine P when the counting point included in the counting notification is "0", the lending serial number "k" and the lending point "50" are transmitted as the lending notification.

Subsequently, the lending unit updates the lending possible point to "50" when the lending notification is transmitted. The timing at which the lending unit updates the lending possible points may be the timing at which the lending receipt result response is received.

Subsequently, after the gaming machine P receives the lending notice, the lending serial number "k" and the lending point receipt result "normal" are transmitted to the lending unit as a lending receipt result response (the information indicated by the lending notice and the previous lending notice are sent. If the result of checking the consistency with the indicated information is normal).

Subsequently, the gaming machine P updates the total score to "60" between the time when the loan notification is received and the time when the loan receipt result response is transmitted.

Subsequently, when the gaming machine P sends a loan receipt result response but the lending unit cannot receive the loan receipt result response, the lending unit does not receive the loan receipt result response more than 10 ms after the lending notification transmission. If this is the case, it is determined that the loan has not been completed, and a value indicating that the loan has not been completed is stored in the loan information storage area provided in the loan unit.

Subsequently, the gaming machine P transmits the serial number "n + 1" and the total score "60" as the gaming machine information notification, and the counting serial number "m + 1" and the counting point "0" as the counting notification. Then, when the lending unit determines that the lending has not been completed in response to the previous lending notice, the lending serial number "k" and the lending point "50" are used as the lending notice at the timing of transmitting the lending notice to the gaming machine P. To send. This lending notice has the same information as the lending notice sent last time.

Subsequently, if the gaming machine P received the lending notification, it should have received the information of "k + 1" as the lending serial number, but since the lending serial number received this time was "k", the gaming machine As the lending receipt result response sent by P, the lending serial number "k" and the lending point receipt result response "abnormal" are transmitted to the lending unit.

Subsequently, since the lending serial number "k" of the lending notification sent when the lending unit receives the lending receipt result response and the lending serial number "k" of the received lending receipt result response match, the lending unit lends. It is determined that the notification has arrived normally at the gaming machine P, and a value indicating the completion of lending is stored in the lending information storage area provided in the lending unit.

<Type of error>
As the error that can be determined with respect to the gaming machine P and the state of the gaming machine P in the present embodiment, input abnormality, settlement abnormality, payout abnormality, communication abnormality, total score upper limit abnormality, total score threshold achievement state, lending device connection abnormality, lending serial number There are abnormalities, lending device communication abnormalities 1, lending device communication abnormalities 2, lending device communication abnormalities 3, lending device communication abnormalities 4, lending device communication abnormalities 5, lending device communication abnormalities 6, and lending device communication abnormalities 7.

The input abnormality is an abnormality detected by the main control board P15, and the input request command transmitted by the main control board P15 to the game medium number control board P16 and the reply waiting command received by the main control board P15 from the game medium number control board P16. If (command for accepting input request or command for not accepting input request) does not match, an E1 error is set and the display corresponding to "E1" is displayed on the assigned number display unit. When an E1 error occurs, it can be canceled when the operation of the setting / reset switch is accepted. Even if the E1 error is cleared, the input request command is not retransmitted. Then, when an E1 error occurs, as a process for stopping the progress of the game, a part or all of bet invalidation, invalidation of the operation of the start switch P3, invalidation of the operation of the stop switch P4, and invalidation of settlement are performed.

Further, when an E1 error occurs, the main control board P15 transmits an E1 error command to the sub control board P12 to notify the error by an image display device or a lamp. Then, when the E1 error is cleared, the main control board P15 sends an error cancel command to the sub control board P12, and when the sub control board P12 receives the error clear command, the E1 error notification ends. When the sub-control board P12 receives the error release command, the sub-control board P12 may not immediately end the E1 error notification but may end after notifying the E1 error notification for a predetermined time.

The settlement abnormality is an abnormality detected by the main control board P15, and is a settlement request command transmitted by the main control board P15 to the game medium number control board P16 and a reply waiting command received by the main control board P15 from the game medium number control board P16. If (Settlement request acceptance command or settlement request non-acceptance command) does not match, an E2 error is set and the display corresponding to "E2" is displayed on the granted number display unit. When an E2 error occurs, it can be canceled when the operation of the setting / reset switch is accepted. Even if the E2 error is cleared, the settlement request command is not retransmitted. Then, when an E2 error occurs, as a process for stopping the progress of the game, a part or all of bet invalidation, invalidation of the operation of the start switch P3, invalidation of the operation of the stop switch P4, and invalidation of settlement are performed.

Further, when an E2 error occurs, the main control board P15 transmits an E2 error command to the sub control board P12 to notify the error by an image display device or a lamp. Then, when the E2 error is cleared, the main control board P15 sends an error cancel command to the sub control board P12, and when the sub control board P12 receives the error clear command, the E2 error notification ends. When the sub-control board P12 receives the error release command, the sub-control board P12 may not immediately end the E2 error notification but may end after notifying the E2 error notification for a predetermined time.

The payout abnormality is an abnormality detected by the main control board P15, and is a payout request command transmitted by the main control board P15 to the game medium number control board P16 and a reply waiting command received by the main control board P15 from the game medium number control board P16. If (the payout request acceptance command or the withdrawal request non-acceptance command) does not match, an E3 error is set and the display corresponding to "E3" is displayed on the grant number display unit. When an E3 error occurs, it can be canceled when the operation of the setting / reset switch is accepted. The payout request command is not retransmitted even if the E3 error is cleared. Then, when an E3 error occurs, as a process for stopping the progress of the game, a part or all of bet invalidation, invalidation of the operation of the start switch P3, invalidation of the operation of the stop switch P4, and invalidation of settlement are performed.

Further, when an E3 error occurs, the main control board P15 transmits an E3 error command to the sub control board P12 to notify the error by an image display device or a lamp. Then, when the E3 error is cleared, the main control board P15 sends an error cancel command to the sub control board P12, and when the sub control board P12 receives the error clear command, the E3 error notification ends. When the sub-control board P12 receives the error release command, the sub-control board P12 may not immediately end the E3 error notification but may end after notifying the E3 error notification for a predetermined time.

The communication abnormality is an abnormality detected by the main control board P15, and when the game medium number control board P16 sends a communication abnormality command to the main control board P15 and the main control board P15 receives the communication abnormality command, it is regarded as a communication abnormality. .. If there is a communication error, no error is displayed on the assigned number display. There is no need for an operation to cancel the communication error, and it can be canceled automatically. Then, when a communication abnormality occurs, the progress of the game is not stopped.

Further, when a communication abnormality occurs, the main control board P15 transmits an error notification by an image display device or a lamp by transmitting a game medium number control notification command to the sub control board P12. Then, even after the communication abnormality is automatically canceled, the notification of the communication abnormality is not immediately terminated, but is terminated after the notification for a predetermined time. The game medium number control notification command is a command transmitted by the main control board P15 to the sub control board P12 for each interrupt, and various abnormalities such as counting, total score upper limit abnormality, and communication abnormality may occur depending on the bit position. This is a command for notifying the sub-control board P12 of the state of the gaming machine.

The total score upper limit abnormality is an abnormality detected by the game medium number control board P16, and when the total score managed by the game medium number control board P16 reaches the upper limit value (16383), it is regarded as a total score upper limit abnormality. No error is displayed on the number of grants display section for abnormal total score upper limit. In order to cancel the total score upper limit abnormality, the counting switch P7 provided in the gaming machine P is operated to perform counting processing, and the total score can be canceled when the total score falls below the upper limit of 16383. .. Then, when the total score upper limit becomes abnormal, as a process for stopping the progress of the game, a part or all of the bet invalidation, the operation of the start switch P3 is invalidated, the operation of the stop switch P4 is invalidated, and the settlement is invalidated. conduct. When the upper limit of the total score is reached, the score exceeding the upper limit is not stored, so that the score exceeding 16383 is not stored.

Next, a method for preventing the game medium number control board P16 from exceeding the upper limit of the total score and storing the score will be described using a score assigning process (FIG. 29) on the main control board P15.

The score giving process is a process executed after determining the symbol combination stopped on the valid line and determining the score to be given based on the result of the determination. For example, it is a process executed after it is determined that a predetermined symbol combination capable of assigning 8 points on the valid line has been stopped and displayed, and then 8 is stored in the assigned point storage area described later.

In "Score grant?", It is determined whether or not there is a score given by the main control board P15 (whether or not the symbol combination that can give a score is stopped and displayed), and when it is determined that there is no score to be given. Is NO. Specifically, it is determined whether or not the value of the given point storage area, which is a storage area that can store the given points provided in the RWM area of the main control board P15, is “0”. If it is determined that the value of the score-giving point storage area is "0", "Score-giving?" Becomes NO, and the score-giving process ends. On the other hand, when it is determined that the value of the given point storage area is not "0", "Score given?" Is YES.

In "Elapsed score giving time?", It is determined whether or not the value stored in the score giving timer area, which will be described later, is "0". If the value stored in the score-giving timer area is "0", the result is YES, and if the value stored in the score-giving timer area is not "0", the result is NO. That is, the determination process is performed. It is a process of looping until the value stored in the score grant timer area becomes "0" (in other words, delaying the "grant request command set" described later). In the score-giving timer area, an initial value (“27” in this embodiment) is stored by “storing the score-giving time” described later.

In the "score giving time storage", "27" is stored in the score giving timer area provided in the RWM area of the main control board P15. Here, the value stored in the score assigning timer area is configured so that it can be updated according to the execution of the timer interrupt on the main control board P15 side (for example, one timer interrupt process is executed). It is configured to subtract 1 when it is done). The timer interrupt on the main control board P15 side is configured to be able to be executed in a cycle of about 2.235 ms. Therefore, storing "27" in the score giving timer area is synonymous with storing the time corresponding to about 60 ms. Further, even if the timer interrupt process is executed when "0" is stored in the score giving timer area, the value of the score giving timer area is maintained at "0".

In this way, by setting the processing order of "score granting time elapsed?" → "score granting time storage", when a plurality of points are granted, the "granting request command set" processing described later is executed at predetermined intervals. The Rukoto. For example, when the number of points to be given is "8", the (first) "giving request command set" corresponding to the first point is before storing "27" in the score giving timer area, so that the points are given. This is performed in a situation where "0" is stored in the timer area. Therefore, the standby process based on the score giving timer is not executed. Therefore, the main control board P15 can quickly execute the process for adding the first point to the total score on the game medium number control board P16.

On the other hand, in the "grant request command set" corresponding to the 2nd to 8th points, "27" is stored in the score grant timer area by "save score grant time", and "0" in "score grant time elapsed?" It becomes feasible after becoming. In other words, the "grant request command set" corresponding to the second to eighth points can be executed once every about 60 ms. That is, the update of the total score on the game medium number control board P16 based on the "grant request command set" can be executed about every 60 ms, and the display update of the game medium number display unit P9 capable of displaying the total score is also about. It can be updated every 60 ms. With this configuration, the player can visually recognize how the total score displayed on the game medium number display unit P9 is updated by "1".

In addition, unlike the above-described embodiment, the order may be “storing the score granting time” → “elapsed score granting time?”. In this case, also for the first point in the case of giving a plurality of points, the game medium number control board P16 becomes the total score after the main control board P15 executes the standby process for the time corresponding to the score giving time (score giving timer). One point will be added. Further, in the present embodiment, "27" is stored in the score giving timer area as "storing the score giving time", but the total score displayed on the game medium number display unit P9 is updated by "1". Arbitrary numerical values (for example, numerical values in the range of "10" to "200") that can be visually recognized by the player may be stored.

In the "grant request command set", a command for transmitting a grant request command indicating that one point is assigned from the main control board P15 to the game medium number control board P16 is stored in the command buffer of the main control board P15. do. The command stored in the command buffer of the main control board P15 is configured to be transmitted to the game medium number control board P16 by the timer interrupt process on the main control board P15 side. Therefore, the "grant request command set" is synonymous with transmitting a grant request command indicating that one point is to be granted from the main control board P15 to the game medium number control board P16.

For example, when the symbol combination that can give 8 points is stopped and displayed, the total score is obtained by transmitting the grant request command indicating that 1 point is given to the game medium number control board P16 eight times. It is configured to perform updates. By configuring to update the total score one by one in this way, even if the upper limit of the total score (16383) is exceeded when all the points given are added to the total score, the total score is obtained. It is possible to give points up to the upper limit of points.

“Command reception” refers to receiving a response command from the game medium number control board P16 after transmitting a grant request command indicating that one game medium is to be given from the main control board P15.

In this embodiment, at least the following two commands are provided as response commands from the game medium number control board P16.
A) Grant permission command Refers to a command indicating that one point is to be added.
Specifically, when 1 point is added to the total score after receiving the grant request command indicating that the game medium number control board P16 grants 1 point, the total score before the addition exceeds the upper limit value. If the game medium number control board P16 determines that the score is not present, a grant permission command indicating that one point is added to the total score is transmitted to the main control board P15.
B) Grant refusal command Refers to a command indicating that one point is not added.
Specifically, when 1 point is added to the total score after receiving the grant request command indicating that the game medium number control board P16 grants 1 point, the total score before the addition is the upper limit value. When the game medium number control board P16 determines, a grant refusal command indicating that one point cannot be added to the total score is transmitted to the main control board P15.

In "Cannot grant?", It is determined whether or not the command received from the game medium number control board P16 is a grant refusal command, and if it is a grant refusal command, YES is set. It is determined whether or not the command received from the game medium number control board P16 is a grant permission command, and if it is not a grant permission command, NO may be set.

With this configuration, even if the game medium number control board P16 receives a grant request command indicating that one point is given when the total score has reached the upper limit value, the game medium number control board P16 Can prevent the total score from being updated. Further, when the main control board P15 determines "cannot be given (YES)" in "cannot be given?", Until the counting process by the game medium number control board P16 is executed (a part of the total score or (Until all are counted), "Elapsed score grant time?", "Score grant time save", "Grant request command set", "Command reception", "Cannot grant?" Will be looped, and the next game will be played. It is not possible to make bets to start. Even when such a loop situation occurs, the counting process is executed by the game medium number control board P16 (the counting switch is operated to execute the counting process), and the total score is no longer the upper limit value. In that case, even in the loop situation, it becomes "NO" in the determination of "cannot be given?", And it becomes possible to proceed to the processing of "score giving data -1". In other words, even under the situation where the total score reaches the upper limit "16383" in the middle of the score giving process (a situation where a part of the score to be given still remains), the score giving process is not completed and the loop situation. Will occur. Further, even in this loop situation, the total score can be lowered below the upper limit value "16383" by executing the counting process by the operation of the counting switch by the player. That is, when the total score is less than the upper limit value "16383", the loop situation of the score giving process can be exited (NO in "Cannot give?"), And the score giving process is restarted. With this configuration, even if the total score reaches the upper limit value "16383" in the middle of the score granting process, the score to be granted will not be discarded, which is disadvantageous to the player. Can be prevented.

The loop situation described above is not limited to this, and for example, when the main control board P15 determines that "grant not possible (YES)", "grant request command set", "command reception", and "grant not possible?" You may loop.

In "score giving data -1", the value of the given point storage area is subtracted by 1. For example, when "8" is stored as the value of the given point storage area, the value of the given point storage area becomes "7" by the processing. Further, when the value of the given point storage area is "1", the value of the given point storage area becomes "0" by the processing.

In "End of score grant?", It is determined whether or not the value of the score granting area is "0". If the value of the given point storage area is not "0", the process returns to "Elapsed score giving time?" And the same processing as described above is repeated. Then, when the value of the given point storage area is "0", the process ends.

By executing such a score giving process, it is possible to control the game medium number control board P16 so as not to exceed the upper limit of the total score and store it.

Further, if the process of giving points one by one is performed at high speed, the player cannot recognize that the points are given one by one. Therefore, after giving 1 point, the score giving timer is set for 60.35 ms (27 interrupt processes), the timer value is updated every time 1 point is given, and 1 point is given again after 60.35 ms has elapsed. ing. With such a configuration, it is possible to recognize that the players have been paid out one by one, and it is possible to improve the interest of the game.

In the above-described embodiment, points are given one by one from the main control board P15 to the game medium number control board P16, but the score is not limited to this, and may be given collectively.

For example, when the main control board P15 gives 8 points as points, the game medium number control board P16 is requested as a grant request command whether or not 8 points can be added to the total score. The game medium number control board P16 determines whether or not the upper limit value is exceeded when 8 points are added to the total score (determines whether or not "total score + given points> 16383" is YES), and determines the upper limit value. If it exceeds (if it is determined as YES), a command (corresponding to a grant refusal command) indicating that 8 points cannot be added to the total score is transmitted to the main control board P15, and the main control board P15 has 8 points in the total score. When a command indicating that points cannot be added is received, the game medium number control board P16 is again requested as a grant request command whether or not 8 points can be added to the total score, and the counting process is not performed. Since there is no change in the total score, a command indicating that 8 points cannot be added to the total score will be transmitted again, so that the score assigning process between the main control board P15 and the game medium number control board P16 is looped. Will be done. That is, it is configured to loop until 8 points are added. With such a configuration, since the score to be given is not discarded, it is possible to prevent the player from being disadvantaged.

Further, for example, when the main control board P15 gives 8 points as points, the game medium number control board P16 is requested as a grant request command whether or not 8 points can be added to the total score. The game medium number control board P16 determines whether or not the upper limit value is exceeded when 8 points are added to the total score (determines whether or not "total score + given points> 16383" is YES), and determines the upper limit value. If it does not exceed (when it is determined as NO), a command (corresponding to the grant permission command) indicating that 8 points can be added to the total score is transmitted to the main control board P15, and the game medium number control board P16 gives the total score. 8 points are added to and the score giving process is completed.

Further, when the total score upper limit error occurs, the game medium number control board P16 transmits information that the total score upper limit error occurs to the main control board P15, and the main control board P15 transmits a game medium number control notification command to the sub control board P12. By doing so, the error notification is performed by the image display device or the lamp. Then, when the total score upper limit abnormality is canceled by the counting operation, the main control board P15 changes the bit corresponding to the total score upper limit abnormality of the game medium number control notification command to a normal value (for example, "0"). Then, by transmitting to the sub-control board P12, the sub-control board P12 ends the notification. If the bit corresponding to the total score upper limit abnormality is changed to a normal value when the sub-control board P12 receives the game medium number control notification command, the notification is not stopped immediately but is notified for a predetermined time. The notification may be stopped.

The total score threshold reached state is a state detected by the game medium number control board P16, and when the total score managed by the game medium number control board P16 reaches a threshold value before the upper limit value (16383), the total score threshold is reached. Make it a state. As the threshold value, for example, 16000 is mentioned, and any value can be set as long as it is a value (less than 16333) smaller than the upper limit value (16383) of the total score-1 count value (50). When the total score threshold is reached, the status is not displayed on the assigned number display unit. In order to cancel the total score threshold achievement state, the counting switch P7 provided in the gaming machine P is operated to perform counting processing, and the total score can be canceled when the total score falls below the threshold value of 16000. ..

When the total score exceeds the threshold value of 16000, the game medium number control board P16 turns on the overflow signal (the overflow signal rises). The overflow signal is kept ON until the total score is less than 16000, and when the total score is less than 16000, the game medium number control board P16 turns off the overflow signal (the overflow signal goes down). The game medium number control board P16 transmits an overflow signal to the main control board P15, and when the main control board P15 determines that the overflow signal is ON, it outputs an overflow test signal to the test IF board. Perform the processing for.

When the overflow test signal is turned ON and output to the test IF board, the counting switch P7 connected to the test IF board is in the operating state, so the overflow test signal is output turned ON. At the same time, the counting switch signal is turned on and output (the counting switch is operated), and the counting process is executed.

As a process for outputting the overflow test signal, the main control board P15 turns on the overflow test signal to be output to the test IF board, and stores the overflow test signal timer value in a predetermined storage area. The overflow test signal timer value is for managing the time for turning on the overflow test signal, and the overflow test signal is kept ON until it is determined that the overflow test signal timer value is 0. Further, the main control board P15 stores the overflow test signal timer value when the overflow test signal is turned on. Then, when the overflow signal is turned off by the game medium number control board P16 executing the counting process, and the main control board P15 determines that the overflow signal is turned off (when the falling edge of the overflow signal is detected), the overflow signal is turned off. The main control board P15 starts subtracting the stored overflow test signal timer value. That is, the overflow test signal keeps the overflow test signal ON until the overflow test signal timer value becomes 0 even after the overflow signal is turned OFF, and when the overflow test signal timer value becomes 0, the overflow test signal Is turned off. Since the main control board P15 stores the overflow test signal timer value when the overflow signal is ON, it is determined that the overflow test signal timer value is not 0 even when the overflow signal is ON. Therefore, the overflow test signal is turned on. In other words, the overflow test signal will not be turned off while the overflow signal is on.

Further, the main control board P15 determines whether or not the overflow test signal timer value before subtraction is 0, and when it is determined that the overflow test signal timer value before subtraction is not 0, the overflow test signal is turned ON. When it is determined that the overflow test signal timer value before subtraction is 0, the overflow test signal is turned off. The main control board P15 sets the overflow test signal timer value when the overflow test signal is turned ON (may be when it is determined that the overflow signal is turned ON), and the timer value is set while the overflow signal is being output. Is not subtracted, so that the counting switch signal is not turned off while the overflow signal is being output during the game machine test.

In the above example, the main control board P15 determines whether or not the overflow test signal timer value before subtraction is 0, and when it is determined that the overflow test signal timer value before subtraction is not 0, the overflow test signal is output. The embodiment in which the value is set to ON has been described, but the present invention is not limited to this, and when it is determined whether or not the overflow test signal timer value after subtraction is 0, and when it is determined that the overflow test signal timer value after subtraction is not 0, The overflow test signal may be turned ON.

The overflow test signal timer value stored in the main control board P15 when the overflow test signal is turned ON is, for example, 1209 (2702.115 ms). This is because the interrupt processing interval of the main control board P15 is 2.235 ms, so that 7022.115 ms elapses when the interrupt processing is executed 1209 times. Further, 2702.115 ms is a time for transmitting the game machine information notification nine times because the transmission interval of the game machine information notification transmitted by the game medium number control board P16 toward the rental unit is 300 ms. That is, when the game medium number control board P16 turns on the overflow signal and the main control board P15 turns on the overflow test signal, the counting switch signal turns on and 50 is counted as a counting point, and then the game medium number control board P16. The total score is below the threshold value of 16000, and the overflow test signal is turned on for 1209 times of interrupt processing of the main control board P15 even after the game medium number control board P16 turns off the overflow signal. Since the counting switch can be kept ON for 2702.115 ms in order to maintain the above, 450 points will be counted with the game machine information notification as the counting point for 9 times. Therefore, when the test IF board and the main control board P15 are connected (when the gaming machine test is carried out), when the gaming medium number control board P16 once turns on the overflow signal, the counting switch signal also appears. By turning it on, in addition to one counting process (50 counting points) that is executed when the overflow signal is turned on, the counting process can be executed nine times even after the overflow signal is turned off. 500 points will be counted as points. As a result, 500 counting points can be subtracted from the total score after the total score exceeds 16000 during the gaming machine test, so that it is possible to prevent the overflow signal from turning ON immediately after the overflow signal is turned OFF. Even if the gaming machine under test is in an advantageous state such as AT, the frequency of performing the counting process due to the total score exceeding 16000 points is reduced, so that the gaming machine P malfunctions or the gaming machine test is performed. The output frequency of the error sound inside can be reduced.

The overflow test signal timer value is not limited to the above-mentioned value, and may be longer than the time (300 ms or more) for transmitting the gaming machine information notification once. That is, when updating (subtracting) the overflow test signal timer value for each interrupt, an arbitrary value of 135 or more may be stored as the overflow test signal timer value.

Further, in the above-mentioned example, the embodiment in which the main control board P15 updates the timer value of the overflow test signal timer for each interrupt has been described, but the present invention is not limited to this, and the overflow test signal is frequently used once every two interrupts or once every three interrupts. The timer value may be updated. In the case of this embodiment, the overflow test signal timer value can be reduced. For example, when the main control board P15 updates the overflow test signal timer value once every five interrupts, an example of storing 242 as the overflow test signal timer value can be mentioned. In this case, the time for turning on the overflow test signal can be set to 2704.35 ms while keeping the overflow test signal timer value within 1 byte.

Further, since the gaming machine P is capable of proceeding with the game (bet processing, internal lottery processing based on the operation of the start switch P3, stop control processing by the operation of the stop switch P4, etc.) even during the counting process, the gaming machine P is capable of progressing the game. The gaming machine test is not interrupted even if the total score threshold is reached during the test and the counting process is executed. Therefore, the gaming machine test can be smoothly executed.

Further, when the total score threshold reached state occurs, the game medium number control board P16 transmits information that the total score threshold reached state is transmitted to the main control board P15, and the main control board P15 sends the game medium number control notification command to the sub control board P12. Is transmitted to notify the status by an image display device or a lamp. Then, when the total score threshold arrival state is released by the counting operation, the main control board P15 sets the bit corresponding to the total score threshold arrival state of the game medium number control notification command to a normal value (for example, "0"). By changing to and transmitting to the sub-control board P12, the status notification of the sub-control board P12 is terminated. When the sub-control board P12 receives the game medium number control notification command and the bit corresponding to the total score threshold reached state is changed to a normal value, the notification is not stopped immediately but is notified for a predetermined time. The notification may be stopped later.

In the above-described embodiment, the bit positions of the total score upper limit abnormality and the total score threshold arrival state of the game medium number control notification command transmitted by the main control board P15 to the sub control board P12 are different, but the same bit position. You may manage it with. In this case, the sub-control board P12 cannot change the effect based on the received game medium number control notification command regardless of whether the total score upper limit is abnormal or the total score threshold is reached (the same mode of effect is executed). Will be). However, regarding the effect of prompting the operation of the counting switch P7 regardless of whether the total score upper limit is abnormal or the total score threshold is reached, the sub-control board P12 distinguishes between the total score upper limit abnormality and the total score threshold reached state. It can be executed without doing it. Further, since the number of information transmitted by the main control board P15 is reduced, the program capacity can be reduced.

The notification mode by the sub-control board P12 in the above-mentioned total score upper limit abnormality and the total score threshold arrival state is the same mode (specifically, the bit position of the total score upper limit abnormality and the total score threshold arrival state in the game medium number control notification command is In the same case, or even if the bit positions are different, the same mode may be notified by the judgment of the sub-control board P12, etc.), or different modes (specifically, the total score upper limit abnormality in the game medium number control notification command). If the bit position of the total score threshold reached state is a different bit position and the sub-control board P12 determines that a different mode is notified, or if the total score upper limit is abnormal, the game medium number control notification command 1 is transmitted and the total score is totaled. In the case of reaching the score threshold, the game medium number control notification command 2 may be transmitted, etc.). If the notification modes are the same, for example, "Please operate the counting switch" may be displayed on the image display device. If the notification modes are different, for example, if the total score upper limit is abnormal, "upper limit". "The value has been reached. Please operate the counting switch" is displayed on the image display device, and when the total score threshold has been reached, "The upper limit is reached at XX points. Operate the counting switch." It is conceivable to display it on the image display device. When displaying the score up to the total score upper limit in the state where the total score threshold is reached, the total score upper limit value-the current total score is calculated by the main control board P15 or the game medium number control board P16 and transmitted to the sub control board P12. Alternatively, it is conceivable to calculate the total score upper limit value-the current total score using the current total score information received by the sub-control board P12.

Further, when the notification mode by the sub-control board P12 is the same in the total score upper limit abnormality and the total score threshold value arrival state, the total score has the same notification mode from the threshold value arrival (16000) to the upper limit value arrival (16383). Since the total score is notified in advance from the arrival of the threshold value to the arrival of the upper limit value, the notification mode is not suddenly changed or the notification is not made when the upper limit value is reached. As a result, the player is notified in advance and the notification mode does not change even after the upper limit is reached. Therefore, even if a score exceeding the upper limit is given as a result of winning, it is not made to think that the excess is exhausted. Can (can appear to be non-urgent).

It should be noted that the game can be progressed when the total score threshold is reached, but the game cannot be progressed when the total score upper limit is abnormal (because the score giving process is looped).

The rental device connection abnormality is an abnormality detected by the game medium number control board P16, and when the VL signal between the game medium number control board P16 and the rental unit is turned off, it is regarded as a rental device connection abnormality. If there is an error in the connection of the rental device, no error is displayed on the number of grants display. In order to cancel the lending device connection abnormality, it is possible to cancel when the communication with the lending unit becomes normal and the VL signal is turned ON. Then, if the rental device connection becomes abnormal, the progress of the game is not stopped. However, since communication with the lending unit is not possible, the gaming machine P may invalidate the counting process based on the acceptance of the counting operation, the acceptance of the counting operation itself may be invalidated, or the counting may not be invalidated. You may.

Further, when a rental device connection error occurs, the game medium number control board P16 transmits information that the rental device connection error occurs to the main control board P15, and the main control board P15 transmits a game medium number control notification command to the sub control board P12. By doing so, the error notification is performed by the image display device or the lamp. Then, when the lending device connection abnormality is canceled due to the VL signal being turned ON, the main control board P15 sets the bit corresponding to the communication abnormality of the game medium number control notification command to a normal value (for example, "0"). By changing to ") and transmitting to the sub-control board P12, the sub-control board P12 ends the notification. If the bit corresponding to the communication abnormality is changed to a value that becomes normal when the sub-control board P12 receives the game medium number control notification command, the notification is not immediately stopped but is notified for a predetermined time and then notified. You may stop.

The lending serial number abnormality is an abnormality detected by the game medium number control board P16, and if the lending serial number received from the lending unit is not a value +1 to the previously received lending serial number, it is regarded as a lending serial number abnormality. If the loan serial number is abnormal, no error is displayed on the number of grants display. In order to cancel the lending serial number abnormality, it can be canceled by receiving a normal lending notification from the lending unit. Then, if the lending serial number abnormality occurs, the progress of the game is not stopped, but if the lending serial number abnormality is detected more than a predetermined number of times, the progress of the game may be stopped. When stopping the progress of the game, a part or all of bet invalidation, operation of the start switch P3 is invalidated, operation of the stop switch P4 is invalidated, and settlement is invalidated.

Further, when a rental serial number abnormality occurs, the game medium number control board P16 transmits information that the rental serial number is abnormal to the main control board P15, and the main control board P15 transmits a game medium number control notification command to the sub control board P12. The error is notified by the image display device and the lamp. Then, when the lending serial number abnormality is canceled by the normal lending notification being transmitted from the lending unit, the main control board P15 sets the bit corresponding to the communication abnormality of the game medium number control notification command to a normal value (for example). , "0") and transmit to the sub-control board P12, so that the sub-control board P12 ends the notification. If the bit corresponding to the communication abnormality is changed to a value that becomes normal when the sub-control board P12 receives the game medium number control notification command, the notification is not immediately stopped but is notified for a predetermined time and then notified. You may stop.

The lending device communication abnormality 1 is an abnormality detected by the game medium number control board P16, and if a lending serial number other than "0" is received before receiving "0" as the lending serial number received from the lending unit, the lending device communication abnormality 1 is detected. Communication error 1 is set. The lending device communication error 1 does not display an error on the assigned number display unit. In order to cancel the lending device communication abnormality 1, it can be canceled by receiving the lending serial number "0" from the lending unit. Then, the progress of the game is not stopped when the lending device communication abnormality 1 occurs, but the progress of the game may be stopped when the lending device communication abnormality 1 is detected more than a predetermined number of times. When stopping the progress of the game, a part or all of bet invalidation, operation of the start switch P3 is invalidated, operation of the stop switch P4 is invalidated, and settlement is invalidated.

Further, when the rental device communication error 1 occurs, the game medium number control board P16 transmits the information of the rental device communication error 1 to the main control board P15, and the main control board P15 sends the game medium number control notification command to the sub control board P12. Is transmitted to notify the error by the image display device or the lamp. Then, when the lending device communication abnormality 1 is canceled due to the transmission of the lending serial number "0" from the lending unit, the main control board P15 normalizes the bit corresponding to the communication abnormality of the game medium number control notification command. By changing to a value (for example, "0") and transmitting to the sub-control board P12, the sub-control board P12 ends the notification. If the bit corresponding to the communication abnormality is changed to a value that becomes normal when the sub-control board P12 receives the game medium number control notification command, the notification is not immediately stopped but is notified for a predetermined time and then notified. You may stop.

The lending device communication abnormality 2 is an abnormality detected by the game medium number control board P16, and if the time when the lending notification is received is less than 100 ms from the previous lending notification reception, it is regarded as the lending device communication abnormality 2. The lending device communication error 2 does not display an error on the assigned number display unit. In order to cancel the lending device communication error 2, it can be canceled by receiving the lending serial number "0" from the lending unit, or by receiving the lending notification within 100 ms or more and less than 500 ms from the previous lending notification reception. It has become. Then, the progress of the game is not stopped when the lending device communication abnormality 2 occurs, but the progress of the game may be stopped when the lending device communication abnormality 2 is detected more than a predetermined number of times. When stopping the progress of the game, a part or all of bet invalidation, operation of the start switch P3 is invalidated, operation of the stop switch P4 is invalidated, and settlement is invalidated.

Further, when the rental device communication error 2 occurs, the game medium number control board P16 transmits the information of the rental device communication error 2 to the main control board P15, and the main control board P15 sends the game medium number control notification command to the sub control board P12. Is transmitted to notify the error by the image display device or the lamp. If the lending device communication error 2 is canceled because the lending serial number "0" is received from the lending unit, or the lending notification is received within 100 ms or more and less than 500 ms from the previous lending notification reception. When the main control board P15 changes the bit corresponding to the communication abnormality of the game medium number control notification command to a normal value (for example, "0") and transmits it to the sub control board P12, the sub control board P12 notifies. To end. If the bit corresponding to the communication abnormality is changed to a value that becomes normal when the sub-control board P12 receives the game medium number control notification command, the notification is not immediately stopped but is notified for a predetermined time and then notified. You may stop.

The lending device communication abnormality 3 is an abnormality detected by the game medium number control board P16, and if the time when the lending notification is received exceeds 500 ms from the previous lending notification reception, it is regarded as the lending device communication abnormality 3. The lending device communication error 3 does not display an error on the assigned number display unit. In order to cancel the lending device communication error 3, it can be canceled by receiving the lending serial number "0" from the lending unit, or by receiving the lending notification within 100 ms or more and less than 500 ms from the previous lending notification reception. It has become. Then, the progress of the game is not stopped when the lending device communication abnormality 3 occurs, but the progress of the game may be stopped when the lending device communication abnormality 3 is detected more than a predetermined number of times. When stopping the progress of the game, a part or all of bet invalidation, operation of the start switch P3 is invalidated, operation of the stop switch P4 is invalidated, and settlement is invalidated.

Further, when the rental device communication error 3 occurs, the game medium number control board P16 transmits the information of the rental device communication error 3 to the main control board P15, and the main control board P15 sends the game medium number control notification command to the sub control board P12. Is transmitted to notify the error by the image display device or the lamp. If the lending device communication error 3 is canceled because the lending serial number "0" is received from the lending unit, or the lending notification is received within 100 ms or more and less than 500 ms from the previous lending notification reception. When the main control board P15 changes the bit corresponding to the communication abnormality of the game medium number control notification command to a normal value (for example, "0") and transmits it to the sub control board P12, the sub control board P12 notifies. To end. If the bit corresponding to the communication abnormality is changed to a value that becomes normal when the sub-control board P12 receives the game medium number control notification command, the notification is not immediately stopped but is notified for a predetermined time and then notified. You may stop.

The lending device communication abnormality 4 is an abnormality detected by the gaming medium number control board P16, and if the lending notification is received within 100 ms from the transmission of the gaming machine information notification, it is regarded as the lending device communication abnormality 4. The lending device communication error 4 does not display an error on the assigned number display unit. In order to cancel the lending device communication error 4, it can be canceled by receiving the lending serial number "0" from the lending unit, or by receiving the lending notification within 100 ms or more and less than 300 ms from the gaming machine information notification transmission. It has become. Then, the progress of the game is not stopped when the lending device communication abnormality 4 occurs, but the progress of the game may be stopped when the lending device communication abnormality 4 is detected more than a predetermined number of times. When stopping the progress of the game, a part or all of bet invalidation, operation of the start switch P3 is invalidated, operation of the stop switch P4 is invalidated, and settlement is invalidated.

Further, when the rental device communication error 4 occurs, the game medium number control board P16 transmits the information of the rental device communication error 4 to the main control board P15, and the main control board P15 sends the game medium number control notification command to the sub control board P12. Is transmitted to notify the error by the image display device or the lamp. If the lending device communication error 4 is canceled because the lending serial number "0" is received from the lending unit, or the lending notification is received within 100 ms or more and less than 300 ms from the gaming machine information notification transmission. When the main control board P15 changes the bit corresponding to the communication abnormality of the game medium number control notification command to a normal value (for example, "0") and transmits it to the sub control board P12, the sub control board P12 notifies. To end. If the bit corresponding to the communication abnormality is changed to a value that becomes normal when the sub-control board P12 receives the game medium number control notification command, the notification is not immediately stopped but is notified for a predetermined time and then notified. You may stop.

The lending device communication abnormality 5 is an abnormality detected by the gaming medium number control board P16, and if the lending notification is received for more than 300 ms from the transmission of the gaming machine information notification, the lending device communication abnormality 5 is regarded as the lending device communication abnormality 5. The lending device communication error 5 does not display an error on the assigned number display unit. In order to cancel the lending device communication error 5, it can be canceled by receiving the lending serial number "0" from the lending unit, or by receiving the lending notification within 100 ms or more and less than 300 ms from the gaming machine information notification transmission. It has become. Then, the progress of the game is not stopped when the lending device communication abnormality 5 occurs, but the progress of the game may be stopped when the lending device communication abnormality 5 is detected more than a predetermined number of times. When stopping the progress of the game, a part or all of bet invalidation, operation of the start switch P3 is invalidated, operation of the stop switch P4 is invalidated, and settlement is invalidated.

Further, when the rental device communication error 5 occurs, the game medium number control board P16 transmits the information of the rental device communication error 5 to the main control board P15, and the main control board P15 sends the game medium number control notification command to the sub control board P12. Is transmitted to notify the error by the image display device or the lamp. If the lending device communication error 5 is canceled because the lending serial number "0" is received from the lending unit, or the lending notification is received within 100 ms or more and less than 300 ms from the gaming machine information notification transmission. When the main control board P15 changes the bit corresponding to the communication abnormality of the game medium number control notification command to a normal value (for example, "0") and transmits it to the sub control board P12, the sub control board P12 notifies. To end. If the bit corresponding to the communication abnormality is changed to a value that becomes normal when the sub-control board P12 receives the game medium number control notification command, the notification is not immediately stopped but is notified for a predetermined time and then notified. You may stop.

The lending device communication abnormality 6 is an abnormality detected by the game medium number control board P16, and if the lending point when the lending notification is received exceeds 50, it is regarded as the lending device communication abnormality 6. The lending device communication error 6 does not display an error on the assigned number display unit. In order to cancel the lending device communication abnormality 6, the lending serial number "0" is received from the lending unit, or the lending point when the lending notification is received receives a value of 50 or less. .. Then, the progress of the game is not stopped when the lending device communication abnormality 6 occurs, but the progress of the game may be stopped when the lending device communication abnormality 6 is detected more than a predetermined number of times. When stopping the progress of the game, a part or all of bet invalidation, operation of the start switch P3 is invalidated, operation of the stop switch P4 is invalidated, and settlement is invalidated.

Further, when the rental device communication error 6 occurs, the game medium number control board P16 transmits information that the rental device communication error 6 is to the main control board P15, and the main control board P15 sends the game medium number control notification command to the sub control board P12. Is transmitted to notify the error by the image display device or the lamp. Then, when the lending device communication error 6 is canceled by receiving the lending serial number "0" from the lending unit or receiving the lending point value of 50 or less when the lending notification is received, the main control board P15 Changes the bit corresponding to the communication abnormality of the game medium number control notification command to a normal value (for example, "0") and transmits the transmission to the sub-control board P12, whereby the sub-control board P12 ends the notification. If the bit corresponding to the communication abnormality is changed to a value that becomes normal when the sub-control board P12 receives the game medium number control notification command, the notification is not immediately stopped but is notified for a predetermined time and then notified. You may stop.

The lending device communication abnormality 7 is an abnormality detected by the gaming medium number control board P16, and if the number of lending notifications received from the transmission of the gaming machine information notification to the transmission of the market price gaming machine information notification is not "1", the lending device communication abnormality 7. Communication error 7 is set. The lending device communication error 7 does not display an error on the assigned number display unit. In order to cancel the lending device communication abnormality 7, the lending device communication abnormality 7 can be canceled by receiving the lending serial number "0" from the lending unit or by transmitting the gaming machine information notification. Then, if the lending device communication abnormality 7 occurs, the progress of the game is not stopped, but if the lending device communication abnormality 7 is detected more than a predetermined number of times, the progress of the game may be stopped. When stopping the progress of the game, a part or all of bet invalidation, operation of the start switch P3 is invalidated, operation of the stop switch P4 is invalidated, and settlement is invalidated.

Further, when the rental device communication error 7 occurs, the game medium number control board P16 transmits information that the rental device communication error 7 is to the main control board P15, and the main control board P15 sends the game medium number control notification command to the sub control board P12. Is transmitted to notify the error by the image display device or the lamp. Then, when the rental device communication abnormality 7 is canceled by receiving the rental serial number "0" from the rental unit or transmitting the game machine information notification, the main control board P15 communicates with the game medium number control notification command. By changing the bit corresponding to the abnormality to a normal value (for example, “0”) and transmitting the bit to the sub-control board P12, the sub-control board P12 ends the notification. If the bit corresponding to the communication abnormality is changed to a value that becomes normal when the sub-control board P12 receives the game medium number control notification command, the notification is not immediately stopped but is notified for a predetermined time and then notified. You may stop.

In the present embodiment, the above-mentioned lending device connection abnormality, lending serial number abnormality, lending device communication abnormality 1, lending device communication abnormality 2, lending device communication abnormality 3, lending device communication abnormality 4, lending device communication abnormality 5, lending device communication abnormality Regarding the abnormality 6 and the rental device communication abnormality 7, information indicating that an abnormality has occurred in the sub-control board P12 is transmitted, but information that can identify the type of abnormality is not transmitted.

With such a configuration, due to fraud, a lending device connection abnormality, a lending serial number abnormality, a lending device communication abnormality 1, a lending device communication abnormality 2, a lending device communication abnormality 3, a lending device communication abnormality 4, a lending device communication abnormality 5, lending It is possible to make it difficult to confirm under what conditions the device communication abnormality 6 and the rental device communication abnormality 7 occur.

In addition, lending device connection abnormality, lending serial number abnormality, lending device communication abnormality 1, lending device communication abnormality 2, lending device communication abnormality 3, lending device communication abnormality 4, lending device communication abnormality 5, lending device communication abnormality 6, lending device communication abnormality With respect to the abnormality 7, information that can identify the type of abnormality may be transmitted to the sub-control board P12. With such a configuration, it is possible to manage the error history on the sub-control board P12.

Regarding the abnormality detected by the gaming machine P, in addition to the above-mentioned abnormality, a radio wave abnormality (for example, an abnormality when the radio wave received by the gaming machine P is determined to be abnormal) and a random number abnormality (for example, the gaming machine) Others such as an abnormality when P determines that the random number used in the internal lottery or AT lottery is abnormal) or an abnormality in the set value (for example, an abnormality when the set value used in the internal lottery or AT lottery is determined to be abnormal). There is no problem even if there is an abnormality.

In addition, among the errors that can be detected by the main control board P15, there is an unrecoverable error that cannot be recovered by operating the reset switch (can be recovered by initialization processing such as setting change). Unrecoverable errors are "when the power is not restored normally", "when the symbol combination display is abnormal when all rotations are stopped", "when the set value is out of range", and "RCK for random number update". It occurs in each of "when the frequency abnormality of the clock input to the terminal is detected" and "when the update status abnormality of the built-in random number is detected".

Further, an example of transmitting a command to the sub control board P12 via the main control board P15 when an abnormality is detected on the game medium number control board P16 has been described, but the present invention is not limited to this, and the game medium number control board P16 is not limited to this. And the sub-control board P12 may be directly connected by a communication cable (harness or the like), and a command may be transmitted from the game medium number control board P16 to the sub-control board P12 without going through the main control board P15.

Further, although the mode in which the notification of the error is performed by the granting number display unit is described, the notification of the error may be performed by the game medium number display unit P9.

Further, when the sub-control board P12 receives an error command transmitted from the main control board P15 due to an error occurring in the main control board P15 or the game medium number control board P16, the received time and the error content are displayed. It may be configured to store the game state in a predetermined storage area in relation to the game state.

When the time is stored, the RTC (real-time clock) is mounted on the sub-control board P12, so that the time is stored in a predetermined storage area based on the information from the RTC. The predetermined storage area is backed up by a backup power supply and is configured so as not to be initialized when the power is turned off or turned on. In addition, it is configured so that it will not be initialized even if the settings are changed.

When the game state is memorized, the content based on the command related to the main game state (CZ, AT, etc.) from the main control board P15 and the content that the game is being played based on the start start command and the game end command are stored in a predetermined state. Store in the area. The predetermined storage area is backed up by a backup power supply and is configured so as not to be initialized when the power is turned off or turned on. In addition, it is configured so that it will not be initialized even if the settings are changed.

The "received time", "error content", and "game state" stored in this way are configured to be viewable by the operation of the game hall administrator. For example, by pressing the reset button (reset switch) once while changing settings or checking settings, the administrator menu screen is displayed, and the "error history" item among multiple items in the administrator menu screen is displayed. A mode of browsing can be considered by selecting it. The error history item can be displayed by accumulating a plurality of error contents. In addition, when there are many error histories, the administrator can select the date range, error type, etc. so that the administrator can easily check the desired error history, so that the viewing range can be narrowed down and checked. It is configured to be possible. Furthermore, if there are many error histories, even if it is configured to display one latest error history based on the current time, or multiple error histories from the latest error history based on the current time. good.

The method of displaying the administrator menu screen is not limited to pressing the reset button once while changing the setting or confirming the setting. For example, the predetermined switch inside the gaming machine P is operated while waiting for the game. It is possible to do something like that. In other words, the player may be configured to be unable to display the administrator menu screen (so that it is difficult), and the administrator may be configured to be able to display the administrator menu screen.

With such a configuration, it becomes possible to store information such as "a throwing error occurs during the game standby at XX year XX month XX day XX hour XX minute XX second" on the sub-control board P12 for management. By selecting the error history item, the person can confirm the desired error history. In addition, you may display up to "milliseconds" as a display mode.

Further, the sub-control board P12 may store information about the total score stored in the game medium number control board P16 in association with the storage of the above-mentioned error content. For example, the error content is an error related to the lending notification, such as a lending device connection error, a lending serial number error, a lending device communication error 1, a lending device communication error 2, a lending device communication error 3, a lending device communication error 4, or a lending device communication error 5. When a lending device communication error 6 or a lending device communication error 7 occurs, a command regarding the total score is transmitted to the main control board P15, and further transmitted from the main control board P15 to the sub control board P12 to relate to the lending notification. It is conceivable to store the error and the total score information in association with each other.

With such a configuration, the increase / decrease in the total score at the time of the loan notification is stored, so that the history can be stored in the sub-control board P12 even when the loan notification due to fraud occurs. It will be possible. The error in which the total score is associated and stored is not limited to the above error, and information on the total score may be associated with all the errors.

Further, the sub-control board P12 may be configured to store the history information not only when an error occurs but also when the counting process is performed. In this case as well, the counting information and the total score information are associated with each other. It is possible to remember. For example, when the counting switch is pressed and the counting process is executed, the counting points and the total score are stored in association with each other. Further, when the counting switch is pressed and held for continuous counting every 300 ms, all the counting information for every 300 ms is stored.

With this configuration, the entire history of the counting process can be stored, so it is possible to show the material for determining whether or not an abnormal value is counted when an abnormal value is counted.

Further, the sub-control board P12 may be configured to store history information not only when an error occurs but also when a loan notification is received. In this case as well, the loan information and the total score information are stored in association with each other. It is conceivable to do. For example, when a loan notification is received, the loan points and the total score may be associated and stored. In other words, even if the loan notification is continuously received every 300 ms, all the loan notification information may be stored every 300 ms.

Further, the sub-control board P12 may be configured to store history information not only when an error occurs but also periodically. In this case as well, it is conceivable to store the loan information and the total score information in association with each other. Be done. For example, the game medium number control board P16 periodically (for example, every 60 seconds, every 180 seconds, etc.) transmits total score information to the main control board P15, and the main control board P15 sub-controls the received total score information. It is transmitted to the board P12, and the sub-control board P12 stores the received total score information and the time information in association with each other.

With this configuration, even if there is no event that triggers the storage of historical information such as when an error occurs, the sub-control board P12 can periodically associate and store the total score information, time information, and the like. , It is possible to store history information for fraud without using a counting switch or a lending switch, and it is possible to determine the presence or absence of fraud based on this history information.

Further, the sub-control board P12 may independently determine the error even when the error command is not received. For example, it may be determined that an error occurs when a command related to a loan notification or a command related to a counting notification is received twice within 300 ms. This is because, in the communication between the game medium number control board P16 and the lending unit, the lending notification and the counting notification are received once or once every 300 ms, and are transmitted twice within 300 ms. This is because it can be said that the communication is not normal when it is received or transmitted twice.

In this case, when the sub-control board P12 receives a command related to lending notification or a command related to counting notification from the main control board P15, the sub-control board P12 sets a 300ms timer, and then a command related to lending notification or a command related to counting notification. If it is determined that the timing of receiving the command is within 300 ms, a notification suggesting an error (for example, "Please check the total score" etc. "is displayed on the LCD or the lamp is lit with a lighting pattern corresponding to the abnormality. Or, output a voice saying "Abnormality has been detected"). As this abnormality determination method, a timer for 300 ms is set for each command reception, the timer value is periodically subtracted, and it is determined whether or not the timer value is 0 when the command is received, and the value is 0. When it is determined, it is determined to be normal, and when it is determined to be non-zero, it is determined to be abnormal. However, the present invention is not limited to this mode, and a method of adding the timer value with the initial value of the timer set to 0 may be used.

With this configuration, for example, information such as "At XX year, XX month, XX day, XX hour, XX minute, XX second, a counting notification error occurs while waiting for the game, the counting point at that time is 50, and the total score is 2000". Can be stored in the sub-control board P12, and even if the game medium number control board P16 cannot send an error command due to fraud, the sub-control board P12 can determine the error, so that fraud can be prevented. It will be possible to provide an opportunity.

Further, it is considered that the sub-control board P12 is determined to be abnormal even when the loan notification is continuously received a plurality of times (for example, 10 times) every 300 ms. If it is determined to be abnormal, a notification suggesting an abnormality (for example, "Please check the total score" etc. "is displayed on the LCD, the lamp is lit with a lighting pattern corresponding to the abnormality, or" Abnormality is detected. "I did it" and output the voice, etc.). With this configuration, even if the main control board P15 or the game medium number control board P16 is not determined to be abnormal, there is a possibility that the loan notification is transmitted to the game machine P by an illegal method. Since the sub-control board P12 can determine the abnormality, it is possible to prevent fraud and provide a safer gaming machine.

Next, the counting process will be described in detail with reference to FIG. 28.

When the counting switch P7 is operated, the counting switch signal is turned ON and input to the input port provided on the game medium number control board P16. Then, when the counting switch signal is turned ON and input to the input port, information indicating that the counting switch signal is turned ON and input (count switch P7 is operated) (when operated). Stores "1", or "0" when not operated) in a predetermined storage area of the RWM provided on the game medium number control board P16. The signal input to the input port is stored in the RWM by timer interrupt processing every 1 ms.

When the counting notification timing is reached, the game medium number control board P16 first clears (0) the counting flag (_FL_CAL_EXE) indicating whether or not counting is in progress, which is the RWM region of the game medium number control board P16. ..

Subsequently, it is determined whether or not the counting switch P7 has been operated based on the information stored in the predetermined storage area of the RWM of the game medium number control board P16. When it is not the counting notification timing, the counting process is terminated without determining whether or not the counting switch P7 has been operated based on the information stored in the predetermined storage area of the RWM. As described above, the counting notification timing refers to the timing approximately 100 ms after the gaming machine information notification is transmitted (any 90 ms to 100 ms later).

Next, it is determined whether or not the counting switch P7 has been operated, and when it is determined that the counting switch P7 has been operated, the total score storage area (_NB_MEDAL) that can store the total score, which is the RWM area of the game medium number control board P16, is stored. ) To determine whether or not the total score (total score) is 0. If the total score is 0 by this determination, it is determined as YES. If the total score is not 0 by this determination, it is determined as NO. If it is determined that the counting switch P7 is not operated, the counting notification is output without determining the total score.

If the total score is not 0, 50 is set as the counting point, and an arithmetic process (calculation process for subtracting) for comparing the total score with 50 is executed. As a result of this arithmetic processing, when it is determined that the total score is larger than 50, the counting point storage area (_CT_CAL_VAL) that can store the counting points to be counted, which is the RWM area of the game medium number control board P16. ), 50 is stored as a counting point. On the other hand, when it is determined that 50 is larger than the total score as a result of this arithmetic processing, the total score is stored as the counting point in the counting point storage area (_CT_CAL_VAL) in which the counting point can be stored.

In other words, when the total score is 50 or more, the counting point is 50, and when the total score is less than 50, the counting point is the total score. That is, at the maximum, the number of counting points that can be counted once (with one counting notification) is 50.

Further, in the counting process, it is first determined whether or not the counting switch P7 has been operated, and if the counting switch P7 is operated, it is determined whether or not the total score is 0, and the counting switch P7 is operated. If not, it is not determined whether or not the total score is 0.

With such a configuration, it is more likely that the situation where the total score is 0 occurs (the generation time is longer) than the situation where the counting switch P7 is operated, so that the counting switch P7 is first used. By determining whether or not the operation is being performed, the processing time is shorter than initially determining whether or not the total score is 0.

Then, the counting points are added to the counting accumulation point storage area (_CT_CAL_ALL) that can store the counting accumulation points, which is the RWM area of the game medium number control board P16, and the counting accumulation points storage area (_CT_CAL_ALL) that can store the counting accumulation points. To update.

After that, since it is decided to perform counting, the counting flag (_FL_CAL_EXE) is set (“FF” is stored).

Then, the count notification is output. Specifically, 0x07 is output as the message length, 0x02 is output as a command, and the counting serial number is stored in the counting serial number storage area (_NB_CAL_NUM) for storing the counting serial number, which is the RWM area of the game medium number control board P16. The counting serial number is output, the counting point stored in the counting point storage area (_CT_CAL_VAL) where the counting point can be stored is output as the counting point, and the counting accumulation point is memorable as the counting accumulation point. The cumulative count points stored in the point storage area (_CT_CAL_ALL) are output, and the check sum values (1 byte) of the various output data are output.

After that, the data stored in the counting point storage area (_CT_CAL_VAL) in which the counting point can be stored is cleared. The data stored in the counting cumulative point storage area (_CT_CAL_ALL) in which the counting cumulative points can be stored is not cleared at the timing when the counting notification is output.

In addition, a process of updating the counting serial number (a process of adding +1) is executed. Since the result of +1 when the counting serial number is 255 is 0, if it becomes 0 (when it is determined to be 0), the counting serial number is updated again (+1 processing). To execute. In other words, when the counting serial number is 255, the counting serial number is updated to 1 by executing the process of updating the counting serial number twice. Further, when the count serial number is a value less than 255 (for example, 10), the result of executing the process of updating the count serial number (process of +1) is not 0, so the process of updating the count serial number is executed only once. By doing so, the counting serial number can be updated (for example, 11).

Although each storage area is described as being provided in the RWM of the game medium number control board P16, in the case of the game machine P or the like not provided with the game medium number control board P16, the main control board is provided. It may be configured as provided for the RWM of P15.

In addition, information based on the counting flag (_FL_CAL_EXE) is transmitted to the main control board P15. This makes it possible to know that the main control board P15 is counting. Further, for example, by transmitting information indicating that counting is in progress from the main control board P15 to the effect control board, the effect control board can perform the effect corresponding to the counting.

Next, the production during counting will be described.

As described above, when the counting switch P7 is operated and counting (when counting), information based on the counting flag (_FL_CAL_EXE) is transmitted to the main control board P15 to count by the effect control board. It enables the production corresponding to the inside. Examples of the effect corresponding to the counting period include an effect using sound and / or an image.

Further, as an effect corresponding to the counting, the length of the effect output according to the counting point (referred to as one counting point) counted by one operation (including a long press operation) of the counting switch P7. It can be different. In such a configuration, since the length of the effect varies depending on the amount of counting points based on the operation of the counting switch P7, it is possible to give joy to the act of accumulating and counting the total points.

As described above, the maximum score that can be counted by one counting notification (one cycle) is "50", and the cycle for outputting the counting notification is about 0.3 seconds.

The following is an example of the length of the effect due to the difference in one counting point counted by one operation (including a long press operation) of the counting switch P7.

Example 1) When the counting point at one time is "25" Since the counting point is larger than "0" and less than "50", the effect of about 0.3 seconds, which is 0.3 seconds x 1, is uniformly executed. To. The coefficient (here, × 1) indicates the number of counting notifications for counting all the counting points. The same applies to the following.

Example 2) When one counting point is "50" Since the counting point is "50", an effect of about 0.3 seconds, which is 0.3 seconds x 1, is executed.

Example 3) When the counting point at one time is "130" Since the counting point is larger than "100" and less than "150", the effect of about 0.9 seconds, which is 0.3 seconds x 3, is executed. The coefficient (here, × 3) indicates the number of counting notifications for counting all the counting points.

Example 4) When the counting point at one time is "1480" Since the counting point is larger than "1450" and is "1500" or less, the effect of about 9 seconds, which is 0.3 seconds x 30, is executed. The coefficient (here, × 30) indicates the number of counting notifications for counting all the counting points.

Further, as an effect corresponding to the counting, the type of the effect to be output can be different according to the score (total score) that can be counted by one operation of the counting switch P7. In this configuration, the type and / or length of the effect differs depending on the amount of counting points based on the operation of the counting switch P7, so that the act of accumulating and counting the total points is delighted. Is possible. In the case of such a configuration, for example, the information of the total score storage area (_NB_MEDAL) that can store the total score is transmitted to the main control means, and the score that can be counted by one operation of the counting switch P7. It is conceivable that the main control board P15 and / or the effect control board can grasp (total score).

For example, when the counting switch P7 is operated and counted when the total score is less than "500", the effect A is configured to be executable as an effect corresponding to the counting, and the total score is "500" or more. When the counting switch P7 is operated and counted when the number is less than "1000", the effect B is configured to be executable as an effect corresponding to the counting, and when the total score is "1000" or more, the counting switch is executed. When P7 is operated and counted, the effect C may be configured to be executable as an effect corresponding to the counting.

Hereinafter, the difference in the counting points counted by one operation of the counting switch P7 (including the long press operation and the like) and the effect due to the difference in the total score will be illustrated.

Example 1) When the total score is "25" and the counting point at one time is "25" Since the total score is less than "500" and the counting point is larger than "0" and less than "50", it is uniformly 0. The effect A of about 0.3 seconds, which is 3 seconds × 1, is executed. The coefficient (here, × 1) indicates the number of counting notifications for counting all the counting points.

Example 2) When the total score is "300" and the counting point at one time is "50" Since the total score is less than "500" and the counting point is "50", it is about 0.3 seconds x 1. Production A for 0.3 seconds is executed. The coefficient (here, × 1) indicates the number of counting notifications for counting all the counting points.

Example 3) When the total score is "300" and the counting point at one time is "150" The total score is less than "500" and the counting point is larger than "100" and less than "150", so 0.3. The effect A of about 0.9 seconds, which is 3 seconds × 3, is executed. The coefficient (here, × 3) indicates the number of counting notifications for counting all the counting points.

Example 4) When the total score is "700" and the counting point at one time is "150", the total score is "500" or more and less than "1000", and the counting point is larger than "100" and "150" or less. , The effect B of about 0.9 seconds, which is 0.3 seconds × 3, is executed. The coefficient (here, × 3) indicates the number of counting notifications for counting all the counting points.

Example 5) When the total score is "700" and the counting point at one time is "700", the total score is "500" or more and less than "1000", and the counting point is larger than "650" and "700" or less. , The effect B of about 4.2 seconds, which is 0.3 seconds × 14, is executed. The coefficient (here, × 14) indicates the number of counting notifications for counting all the counting points.

Example 6) When the total score is "2000" and the counting point at one time is "700" Since the total score is "1000" or more and the counting point is larger than "650" and less than "700", it is 0.3. The effect C of about 4.2 seconds, which is seconds × 14, is executed. The coefficient (here, × 14) indicates the number of counting notifications for counting all the counting points.

Example 7) When the total score is "2000" and the counting point at one time is "2000" Since the total score is "1000" or more and the counting point is larger than "1950" and less than "2000", it is 0.3. The effect C of about 12.0 seconds, which is seconds × 40, is executed. The coefficient (here, × 40) indicates the number of counting notifications for counting all the counting points.

As described above, even if the counting points are the same, the total score is different as in Example 5) and Example 6), so that the output effect can be controlled to be different. Further, even if the total score is the same, if the counting points at one time are different, the length of the output effect is controlled to be different even if the effect is the same as in Examples 6) and 7). can do.

Here, if the player stops operating the counting switch P7 while counting the total score (on the way), the total score is not counted as in Example 6). One counting may be completed. In other words, after enjoying the effect during counting halfway, the player once stops the operation of the counting switch P7, and then operates the counting switch P7 again, so that the effect during counting can be enjoyed again.

In this embodiment, one switch is provided as the counting switch P7, and the maximum counting point by the counting notification is set to "50", but another counting switch P7 for collectively counting the total score is provided. You may.

Further, in the present embodiment, the specification is to count when the counting switch P7 is operated, but for example, on the condition that the counting switch P7 is operated for a predetermined period (for example, 10 seconds), all at once. You may count the total score with.

Furthermore, in the present embodiment, the specification is such that counting is performed when the counting switch P7 is operated, but for example, the counting switch P7 is operated for a predetermined period (for example, 10 seconds), and the counting switch P7 is continuously operated thereafter. If it has been operated, it may be configured to be counted in predetermined units (for example, "50"). The predetermined unit is 50, which is an example. For example, if the counting switch P7 is operated when the remaining total score is 38 points, "38" may be counted.

Here, in the present embodiment, counting based on the operation of the counting switch P7 is possible even in the setting change mode or the setting confirmation mode. However, when the counting switch P7 is operated in a situation where the points can be bet, the effect based on the operation of the counting switch P7 is executed, and during the setting change mode and / or the setting confirmation mode. When the counting switch P7 is operated, the effect based on the operation of the counting switch P7 may not be executed. The reason for such a configuration is that if the counting switch P7 is operated during the setting change mode and / or the setting confirmation mode, there is a high possibility that the hall clerk is counting (game). (Because it is highly possible that he is not a person).

In other words, even if the counting switch P7 is operated during the setting change mode and / or the setting confirmation mode, the image display device displays a dedicated screen during the setting change mode and / or the setting confirmation mode. It is possible to provide necessary information to the hall clerk by continuing to display with and continuously outputting audio. It should be noted that the notification indicating that counting is in progress (for example, displaying "counting in progress" on the screen) may be performed while displaying the dedicated screen in the setting change mode and / or the setting confirmation mode. This notification is configured to be different from the above-mentioned effect during counting.

Further, in the present embodiment, counting based on the operation of the counting switch P7 is possible even during an error (a predetermined (predetermined) error may be used or all errors may be used). .. However, when the counting switch P7 is operated in a situation where points can be bet, an effect based on the operation of the counting switch P7 is executed, and when the counting switch P7 is operated during an error, the counting switch P7 is operated. The effect based on the operation of the counting switch P7 may not be executed. The reason for such a configuration is that if the counting switch P7 is operated during an error, there is a high possibility that fraudulent activity has been performed.

In other words, even if the counting switch P7 is operated during the error, the hall clerk can be informed by continuing to display the dedicated screen during the error on the image display device and continuously outputting the sound. It can provide the necessary information. It should be noted that while displaying a dedicated screen during an error, notification indicating that counting is in progress (for example, displaying "counting in progress" on the screen) may be performed. This notification is configured to be different from the above-mentioned effect during counting. At this time, the number of bets may not be settled by the settlement switch.

The types of errors are recoverable errors that can be recovered by operating the reset switch (such as the above-mentioned "input error", "payment error", and "payout error"), and cannot be recovered by operating the reset switch (initial setting change, etc.). It is configured to be able to perform counting processing by operating the counting switch P7 during the recoverable error, and the counting switch P7 during the recovering error. It may be configured so that the counting process becomes impossible by the operation of. According to such a configuration, counting processing is possible for recoverable errors that can occur in normal operation, and counting processing is not possible for recoverable errors that are more suspected of being fraudulent than recoverable errors. A fair game can be realized.

Further, in the present embodiment, counting based on the operation of the counting switch P7 is possible even during the game (for example, in a situation where the reel is rotating). However, when the counting switch P7 is operated in a situation where the points can be bet, the effect based on the operation of the counting switch P7 is executed, and when the counting switch P7 is operated during the game, the counting switch P7 is executed. The effect based on the operation of the counting switch P7 may not be executed. The reason for such a configuration is that if the counting switch P7 is operated during the game, there is a high possibility that a fraudulent act has been performed.

In other words, even if the counting switch P7 is operated during the error, the hall clerk can be informed by continuing to display the dedicated screen during the error on the image display device and continuously outputting the sound. It can provide the necessary information. It should be noted that while displaying a dedicated screen during an error, notification indicating that counting is in progress (for example, displaying "counting in progress" on the screen) may be performed. This notification is configured to be different from the above-mentioned effect during counting.

Even if the player is configured to be able to select the volume of the effect sound during the game from multiple levels by operating a switch (for example, a sub switch) while the game is on standby (in a situation where the game is not being executed). good. For example, it is configured to be selectable from 5 stages from volume 1 to volume 5, and the effect sound is output at the lowest volume 1 and the effect sound is output at the loudest volume 5. ing. When configured in this way, the specific production sound (for example, the voice of the dialogue production, the BGM during normal game, the BGM during AT, the BGM during BB, the tempai sound, etc.) has a volume corresponding to the selected production sound. However, it is preferable that the effect sound output during counting is output at the same volume regardless of which of volume 1 to volume 5 is selected. Specifically, even a player who counts by an illegal method after selecting the volume 1 is illegal by preventing the production sound output during counting at a low volume from being output. It is possible to restrain the player who is trying to count by the method. Also, even for a normal player, since it is a blissful time during counting, even when the volume is set to 1, the volume is the same as when the volume is set to another volume. By being output, the player who is different from the player who is counting is also attracting attention, and the player's interest in counting can be enhanced.

In the present embodiment, the gaming machine P transmits the gaming machine information notification to the rental unit every 300 ms, but the transmission is not limited to this, and if it is within the range of 300 ms to 310 ms, it is transmitted at any timing. May be good. However, it does not take a random value each time it is transmitted, and it is transmitted with a predetermined value.

In the present embodiment, the gaming machine P transmits the counting notification to the lending unit 100 ms after the gaming machine information notification is transmitted, but the counting notification is not limited to this, and any of the following is within the range of 90 ms to 100 ms. It may be transmitted at the timing. However, it does not take a random value each time it is transmitted, and it is transmitted with a predetermined value.

Next, the game machine information management will be described with reference to FIG.
The gaming machine information management is a control for transmitting the gaming machine information notification from the gaming machine P to the lending unit, and FIG. 30 is a subroutine in the timer interrupt process controlled by the gaming medium number control board P16. be. In other words, the gaming machine information management is executed every time the timer interrupt processing is executed (at a cycle of 1 ms).

First, various terms in FIG. 30 will be described.

The gaming machine information notification timer A is a timer for measuring 300 ms. As a storage area (_TM_INF_CTL_A) for measuring the game machine information notification timer A, 2 bytes of the RWM area of the game medium number control board P16 are used. The storage area for measuring the gaming machine information notification timer A stores an initial value (“0”) by the initialization process when the power is turned on (turned on).

The gaming machine information notification timer B is a timer for measuring 60s. As a storage area (_TM_INF_CTL_B) for measuring the game machine information notification timer B, one byte of the RWM area of the game medium number control board P16 is used. The storage area for measuring the gaming machine information notification timer B stores an initial value (“0”) by the initialization process when the power is turned on (turned on).

The gaming machine information notification timer C is a timer for measuring 180s. As a storage area (_TM_INF_CTL_C) for measuring the game machine information notification timer C, 1 byte of the RWM area of the game medium number control board P16 is used. The storage area for measuring the gaming machine information notification timer C stores an initial value (“0”) by the initialization process when the power is turned on (turned on).

The gaming machine performance information notification request flag is a flag that changes from "0" to "1" when the cycle for transmitting the gaming machine performance information has arrived in the gaming machine information notification. As the storage area for storing the game machine performance information notification request flag, the D0th bit of the game machine information notification request flag (_FL_INF_CTL), which is a storage area of 1 byte in the RWM area of the game medium number control board P16, is used. ..

The gaming machine installation information notification request flag is a flag that changes from "0" to "1" when the cycle for transmitting the gaming machine installation information has arrived in the gaming machine information notification. As the storage area for storing the game machine installation information notification request flag, the D1 bit of the game machine information notification request flag (_FL_INF_CTL), which is a storage area of 1 byte in the RWM area of the game medium number control board P16, is used. ..

The initial value (“0”) of the gaming machine information notification request flag (_FL_INF_CTL) is stored (each bit becomes “0”) by the initialization process when the power is turned on.

Next, the control process in each step will be described with reference to FIG.

The “game machine information notification timer A -1” is an arithmetic process of subtracting 1 from the storage area for measuring the game machine information notification timer A. In addition, when the carry is carried down by the arithmetic processing (when the arithmetic processing of subtraction is executed while the gaming machine information notification timer A is "0" (also referred to as the case where it becomes less than "0")). By storing "300" in the gaming machine information notification timer A, the count value can be stored in the gaming machine information notification timer A.

As described above, since the timer interrupt cycle of the game medium number control board P16 in the present embodiment is 1 ms, by storing "300" as the count value in the game machine information notification timer A, the count of 300 ms can be obtained. However, the present invention is not limited to this, and when the timer interrupt cycle of the game medium number control board P16 is set to 2 ms, "150" may be stored as a count value in the game machine information notification timer A. When the timer interrupt cycle of the game medium number control board P16 is set to 2.235 ms, any value of "135" to "138" may be stored as a count value in the game machine information notification timer A. In this way, if it is not divisible, an arbitrary value can be set in which the transmission timing of the gaming machine information notification is between 300 ms and 310 ms.

Here, there is a case where the zero flag and the carry flag of the flag register (also referred to as the F register) provided in the CPU are set to "1" by the "game machine information notification timer A-1". The zero flag is a flag that becomes "1" when the result of the arithmetic processing becomes "0". On the other hand, the carry flag is a flag that becomes "1" when the result of the arithmetic processing is less than "0".

The zero flag and the carry flag will be described below by taking specific numerical values as an example.

Example 1) In the game machine information management executed when "10" is stored in the storage area for measuring the game machine information notification timer A, it becomes "9" by subtracting 1. At this time, the zero flag and the carry flag do not change (become "0").
Example 2) In the game machine information management executed when "1" is stored in the storage area for measuring the game machine information notification timer A, it becomes "0" by subtracting 1. At this time, the zero flag becomes "1". On the other hand, the carry flag does not change (it becomes "0").
Example 3) When "0" is stored in the storage area for measuring the gaming machine information notification timer A, it becomes "300" by subtracting 1. At this time, the zero flag does not change (it becomes "0"). On the other hand, the carry flag is "1".

As the calculation instruction of the above-mentioned "game machine information notification timer A-1", a DCPWLD instruction can be mentioned. The DCPWLD instruction is an instruction to store a predetermined value when the carry flag becomes "1" as a result of subtracting one. The predetermined value in the above-described embodiment is "300".

Subsequently, "timer value before update = 0?" Means that the value of the storage area for measuring the game machine information notification timer A before executing the "game machine information notification timer A -1" is "0". Judge whether it was. For example, when the carry flag is "1" after executing "game machine information notification timer A -1", the game machine information notification timer A before executing "game machine information notification timer A -1" is measured. It can be determined that the value of the storage area for this is "0" (YES as a result of the determination of "timer value before update = 0?"). On the other hand, when the carry flag is "0" after executing the "game machine information notification timer A -1", the game machine information notification timer A before executing the "game machine information notification timer A -1" is measured. It can be determined that the value of the storage area for this is not "0" (the result of the determination of "timer value before update = 0?" Is NO).

When the value of the storage area for measuring the game machine information notification timer A before executing the "game machine information notification timer A -1" is "0" ("timer value before update = 0?" If the result of the judgment is YES), "Hall-con / fraud monitoring information transmission" is executed. The case where YES is obtained in the step is the case where the gaming machine information management is executed in the first interrupt processing after the power is turned on in the situation where the power is turned off. This is because, as described above, the initialization process when the power is turned on initializes the storage area for measuring the gaming machine information notification timer A, and "0" is stored. If the value before the update is "0", the carry flag is "1". Therefore, by using the DCPWLD instruction which is the subtraction instruction described above, the gaming machine information notification timer A is simultaneously counted as a count value. 300 "can be memorized.

Further, since the process of updating the gaming machine information notification timer B and the gaming machine information notification timer C can be executed immediately after the power is restored, "hole control / fraud monitoring information transmission" can be executed. It has the effect of shortening the time and reducing the program capacity. The reason why the gaming machine information notification timer B and the gaming machine information notification timer C are not updated when the power is turned on will be described later.

Subsequently, if the result of the determination of "timer value before update = 0?" Is NO, the determination of "timer value before update = 1?" Is executed.

"Timer value before update = 1?" Means whether or not the value of the storage area for measuring the game machine information notification timer A before executing "game machine information notification timer A-1" was "1". Judge.

For example, when the zero flag after executing "game machine information notification timer A -1" is "1", the game machine information notification timer A before executing "game machine information notification timer A -1" is measured. It can be determined that the value of the storage area of is "1" (YES as a result of the determination of "timer value before update = 1?"). If the result of the determination of "timer value before update = 1?" Is YES, "save game machine information notification timer A count value" is executed.

On the other hand, when the zero flag after executing the "game machine information notification timer A -1" is "0", the game machine information notification timer A before executing the "game machine information notification timer A -1" is measured. It can be determined that the value of the storage area of is not "1" (the result of the determination of "timer value before update = 1?" Is NO).

When the value of the storage area for measuring the game machine information notification timer A before executing the "game machine information notification timer A -1" is not "1" ("timer value before update = 1?" If the result of the judgment is NO), the game machine information management is terminated. The situation where the value of the storage area for measuring the game machine information notification timer A before executing the "game machine information notification timer A -1" is "1" is the measurement of the game machine information notification timer A. This corresponds to the situation where interrupt processing is executed 300 times (300 ms have elapsed).

Further, the situation in which the value of the storage area for measuring the game machine information notification timer A before executing the "game machine information notification timer A -1" is not "1" is the situation of the game machine information notification timer A. The value is "2" to "300", and the situation in which the gaming machine information notification timer A is being measured corresponds to the situation. The situation in which the value of the storage area for measuring the game machine information notification timer A before executing the "game machine information notification timer A -1" is not "1" includes "0". In the case of "0", since the determination is made in the immediately preceding process, the process does not proceed to this determination process.

Subsequently, the "save game machine information notification timer A count value" is a process of storing "300" in the storage area for measuring the game machine information notification timer A. By this process, "0" stored in the gaming machine information notification timer A can be updated to "300". As described above, in the present embodiment, the "game machine information notification timer A-1" is executed by using the DCPWLD command. Therefore, when the carry flag becomes "1", the game machine information notification timer A is set. Although "300" is stored, the "game machine information notification timer A count value is saved" before the game machine information notification timer A becomes "0" (when it becomes "1") except immediately after the power is turned on. Since "300" is stored, the gaming machine information notification timer A does not become "0" except immediately after the power is turned on (excluding abnormalities), so the count value is stored in this process. I am doing it.

Subsequently, the "game machine information notification timer B + 1" is an arithmetic process using a special addition instruction for adding 1 to the value of the storage area for measuring the game machine information notification timer B. In the calculation process, when a value less than "199" is stored in the storage area for measuring the game machine information notification timer B, 1 is set as the value in the storage area for measuring the game machine information notification timer B. When the value less than "199" is not stored in the storage area for measuring the game machine information notification timer B by adding (that is, when the value of "199" is stored under normal operating conditions). This is an arithmetic process for storing "0" as the value of the storage area for measuring the game machine information notification timer B. Specific examples will be described below.

Example 1) When "0" is stored in the storage area for measuring the gaming machine information notification timer B, if arithmetic processing using a special addition instruction for adding 1 is performed, the gaming machine information notification timer B is set. The value of the storage area for measurement is "1".
Example 2) When "100" is stored in the storage area for measuring the gaming machine information notification timer B, if arithmetic processing using a special addition instruction for adding 1 is performed, the gaming machine information notification timer B is set. The value of the storage area for measurement is "101".
Example 3) When "199" is stored in the storage area for measuring the gaming machine information notification timer B, if arithmetic processing using a special addition instruction for adding 1 is performed, the gaming machine information notification timer B is set. The value of the storage area for measurement is not "200" but "0".

As described above, in the "game machine information notification timer B +1", when "199" is stored in the value of the storage area for measuring the game machine information notification timer B, a special addition command for adding 1 is used. When the arithmetic processing is performed, "0" to "199" can be circulated as the value of the storage area for measuring the game machine information notification timer B by executing the addition processing for storing "0". Further, the situation in which "1" is added when "199" is stored in the value of the storage area for measuring the gaming machine information notification timer B is the storage for measuring the gaming machine information notification timer A. This corresponds to the situation where the opportunity for the area to become "0" has arrived 200 times. In other words, since the gaming machine information notification timer B is incremented by 1 every time the interrupt processing is executed 300 times, the interrupt processing is executed 300 times × 200 times (= 60,000 times) (300 ms × 200 times (300 ms × 200 times). = 60,000 ms (60 s)) has passed). Originally, a 3-byte storage area must be provided in order to measure whether or not 60,000 interrupt processes have been executed. However, by using the game machine information notification timer A, the game machine information notification timer B can be used. The storage area can be set to 1 byte, and the storage capacity of the RWM can be reduced.

An ICPLD instruction can be mentioned as an operation instruction of the above-mentioned special addition instruction "game machine information notification timer B + 1".

In this embodiment, the addition command is used as in the "game machine information notification timer B + 1", but a subtraction command may be used. In the case of a subtraction command, "200" may be stored as a count value in the storage area for measuring the game machine information notification timer B when the power is turned on, and then "0" may be stored, or when the power is turned on. It may be the case that "199" is stored as a count value in the storage area for measuring the game machine information notification timer B, and then the carry flag becomes "1".

Further, in the present embodiment, since the addition command is used as in the "game machine information notification timer B + 1", the process of setting the initial value can be omitted as compared with the case of the subtraction command (initialization process at power-on). Therefore, the initial value becomes "0"), which has the effect of improving the processing speed and reducing the program capacity.

Subsequently, the "game machine information notification timer B time elapsed?" Is determined to be YES when the count number in the game machine information notification timer B reaches 200 by the "game machine information notification timer B +1". For example, when the value of the storage area of the gaming machine information notification timer B becomes "0" by "game machine information notification timer B +1" (when the addition command is executed 200 times from the initial value "0"). ) Can be determined to be YES. On the other hand, when the value of the storage area of the gaming machine information notification timer B does not become "0" by the "gaming machine information notification timer B +1" (the addition instruction is not executed 200 times from the initial value "0"). In the case), it can be determined as NO.

If the determination result of "game machine information notification timer B time has elapsed?" Is NO, "game machine installation information notification request?" Is executed.

If the determination result of "game machine information notification timer B time has elapsed?" Is YES, "game machine information notification timer C +1" is executed.

Subsequently, the "game machine information notification timer C + 1" is an arithmetic process using a special addition instruction for adding 1 to the value of the storage area for measuring the game machine information notification timer C. In the calculation process, when a value less than "2" is stored in the storage area for measuring the game machine information notification timer C, 1 is added to the storage area for measuring the game machine information notification timer C. , When a value less than "2" is not stored in the storage area for measuring the game machine information notification timer B (that is, when a value of "3" is stored under normal operating conditions), the game machine This is an arithmetic process for storing "0" in the storage area for measuring the information notification timer C. Specific examples will be described below.

Example 1) When "0" is stored in the storage area for measuring the gaming machine information notification timer C, if arithmetic processing using a special addition instruction for adding 1 is performed, the gaming machine information notification timer C is set. The value of the storage area for measurement is "1".
Example 2) When "1" is stored in the storage area for measuring the gaming machine information notification timer C, if arithmetic processing using a special addition instruction for adding 1 is performed, the gaming machine information notification timer C is set. The value of the storage area for measurement is "2".
Example 3) When "2" is stored in the storage area for measuring the gaming machine information notification timer C, if arithmetic processing using a special addition instruction for adding 1 is performed, the gaming machine information notification timer B is set. The value of the storage area for measurement is not "3" but "0".

As described above, in the "game machine information notification timer C +1", when "2" is stored in the value of the storage area for measuring the game machine information notification timer C, the addition process of storing "0" is performed. By executing this, "0" to "2" can be circulated as the value of the storage area for measuring the gaming machine information notification timer C. Further, the situation in which "1" is added when "2" is stored in the value of the storage area for measuring the gaming machine information notification timer C is the storage for measuring the gaming machine information notification timer B. This corresponds to the situation where the opportunity for the area to become "0" has arrived three times. In other words, every time the interrupt process is executed 300 times, the game machine information notification timer B is added by 1, and the process of adding 1 to the game machine information notification timer B has arrived 3 times, so 300 times x 200. This is a situation in which interrupt processing of 3 times (= 180,000 times) has been executed (300 ms × 200 times × 3 times (= 180,000 ms (180 s)) has elapsed). Originally, a 3-byte storage area must be provided in order to measure whether or not the interrupt processing has been executed 180,000 times. However, by using the game machine information notification timer A and the game machine information notification timer B, The storage area of the game machine information notification timer C can be set to 1 byte, and the storage capacity of the RWM can be reduced.

As the calculation command of the above-mentioned special addition command "game machine information notification timer C +1", the same ICPLD command as the calculation command of "game machine information notification timer B +1" can be mentioned.

In the present embodiment, the addition command is used as in the "game machine information notification timer C + 1", but a subtraction command may be used. In the case of a subtraction command, "3" may be stored as a count value in the storage area for measuring the game machine information notification timer C when the power is turned on, and then "0" may be stored, or when the power is turned on. It may be the case that "2" is stored as a count value in the storage area for measuring the game machine information notification timer B, and then the carry flag becomes "1".

Further, in the present embodiment, since the addition command is used as in the "game machine information notification timer C + 1", the process of setting the initial value can be omitted as compared with the case of the subtraction command (initialization process at power-on). Therefore, the initial value becomes "0"), which has the effect of improving the processing speed and reducing the program capacity.

Subsequently, the "game machine information notification timer C time elapsed?" Is determined to be YES when the count number in the game machine information notification timer C becomes 3 by the "game machine information notification timer C +1". For example, when the value of the storage area of the gaming machine information notification timer C becomes "0" by "game machine information notification timer C +1" (when the addition command is executed three times from the initial value "0"). ) Can be determined to be YES. On the other hand, when the value of the storage area of the gaming machine information notification timer C does not become "0" by the "gaming machine information notification timer C +1" (the addition instruction is not executed three times from the initial value "0"). In the case), it can be determined as NO.

If the judgment result of "game machine information notification timer C time has elapsed?" Is NO, the "game machine installation information notification request flag set" is executed.

If the determination result of "game machine information notification timer C time has elapsed?" Is YES, "game machine performance information notification request flag set" is executed.

Subsequently, the "game machine performance information notification request flag set" is a control for storing "1" in the D0 bit of the game machine information notification request flag (_FL_INF_CTL). It should be noted that the "game machine performance information notification request flag set" is executed when "YES in the game machine information notification timer C time elapsed?" As described in the flowchart of FIG. In other words, when the cycle of 180s arrives, the "game machine performance information notification request flag set" is executed.

Subsequently, the "game machine installation information notification request flag set" is a control for storing "1" in the D1 bit of the game machine information notification request flag (_FL_INF_CTL). As described in the flowchart of FIG. 30, the "game machine installation information notification request flag set" is executed when NO is set in "game machine information notification timer C time elapsed?" And " This is when the "game machine performance information notification request flag set" is executed (when YES is set in the "game machine information notification timer C time elapsed?"). In other words, when the cycle of 60s arrives, the "game machine installation information notification request flag set" is executed. Therefore, during the 180s cycle, which is three times the 60s cycle, both the "game machine performance information notification request flag set" and the "game machine installation information notification request flag set" are controlled. Become.

In this way, in order to manage the timing of transmitting the gaming machine installation information to the rental unit and the timing of transmitting the gaming machine performance information to the rental unit with a flag, hall control / fraud monitoring information, gaming machine installation information, and gaming machine The process of transmitting performance information to the lending unit can be simplified (by interlocking timers corresponding to various types of information, it is possible to transmit to the lending unit without individual management). Further, by not updating the gaming machine information notification timer B and the gaming machine information notification timer C when the power is turned on, the hall controller / fraud monitoring information, the gaming machine installation information, and the gaming machine performance information are transmitted. Since the measurement start timing of the timer for this is not deviated, it is possible to transmit accurately. In other words, by updating only the gaming machine information notification timer A when the power is turned on, the timing of transmitting the interlocking gaming machine information notification timer B and the gaming machine information notification timer C to the lending unit without performing complicated processing is set. It is possible to prevent it from shifting.

Subsequently, the "game machine installation information notification request?" Is a control for determining whether or not the game machine installation information notification request flag is set. For example, if the D1 bit of the gaming machine information notification request flag (_FL_INF_CTL) is "1", it is determined as YES, and if the D1 bit of the gaming machine information notification request flag (_FL_INF_CTL) is "0", it is determined as NO. do.

If the judgment result of "game machine installation information notification request?" Is NO, "game machine performance information notification request?" Is executed.

If the judgment result of "Request for notification of gaming machine installation information?" Is YES, "Transmission of gaming machine installation information" is executed.

Subsequently, "game machine performance information notification request?" Is a control for determining whether or not the game machine performance information notification request flag is set. For example, if the D0th bit of the gaming machine information notification request flag (_FL_INF_CTL) is "1", it is determined as YES, and if the D0th bit of the gaming machine information notification request flag (_FL_INF_CTL) is "0", it is determined as NO. do.

If the judgment result of "Game machine performance information notification request?" Is NO, "Hallcon / fraud monitoring information transmission" is executed.

If the judgment result of "game machine performance information notification request?" Is YES, "game machine performance information transmission" is executed.

As shown in the flowchart of FIG. 30, the processing order is such that after determining "game machine installation information notification request?", "Game machine performance information notification request?" Is determined. By setting such a processing order, in the situation where both the gaming machine installation information notification request flag and the gaming machine performance information notification request flag are set (for example, the situation where the 180s cycle has arrived), " By determining "Request for notification of gaming machine installation information?", It is configured so that the transmission control of the gaming machine installation information can be executed before the transmission control of the gaming machine performance information. Further, it is possible to perform communication according to the priority without using complicated processing only by determining the gaming machine installation information notification request before determining the gaming machine performance information notification request.

Subsequently, the "hole control / fraud monitoring information transmission" corresponds to the control process for transmitting the above-mentioned "hole control / fraud monitoring information" to the lending unit. The content to be transmitted to the lending unit at this time is the information stored in the storage area of the RWM acquired at the timing of transmission. For example, the total score included in the "hole control / fraud monitoring information" transmits the information stored in the total score storage area (_NB_MEDAL) at the time of transmission. In other words, if the transmission timing of the original hall control / fraud monitoring information, which is the transmission timing of every 300 ms, matches the transmission timing of the gaming machine installation information, the gaming machine installation information has a higher priority, so that the 300 ms. At the timing, the pachinko / fraud monitoring information is not transmitted, and the pachinko / fraud monitoring information is transmitted 300 ms later. Regarding this "hole-con / fraud monitoring information to be transmitted after the next 300 ms", instead of transmitting the hall-con / fraud monitoring information at the time when the transmission timing of the gaming machine installation information is matched, the "hole-con / fraud monitoring information to be transmitted after the next 300 ms" is not transmitted. -By transmitting the pachinko / fraud monitoring information acquired in "Timing of transmission of fraud monitoring information", it is possible to transmit the latest information even if the transmission timing is off.

In addition, the serial number is updated (+1) after the process for transmitting the "hole control / fraud monitoring information" to the lending unit is completed. Similar to the counting serial number, the serial number also transmits "0" as the serial number at the time of transmission immediately after the power is restored, and after that, any one of "1" to "255" can be transmitted ("1" to "". It has been updated to circulate 255 ". This serial number is a serial number that is updated when any one of the three information of hall control / fraud monitoring information, gaming machine installation information, and gaming machine performance information is transmitted. In other words, since the same serial number is used for hall control / fraud monitoring information, gaming machine installation information, and gaming machine performance information, the serial number is updated every 300 ms when the power is turned on. It is configured.

When the "hole control / fraud monitoring information transmission" is completed, the gaming machine information management is terminated.

Subsequently, the "game machine installation information transmission" corresponds to the control process of transmitting the above-mentioned "game machine installation information" to the rental unit. The content to be transmitted at this time is the information stored in the storage area of the RWM acquired at the timing of transmission.

Further, after the process for transmitting the "game machine installation information" to the rental unit is completed, the game machine installation information notification request flag is cleared. Specifically, the D1 bit of the gaming machine information notification request flag (_FL_INF_CTL) is set to "0". Further, after the process for transmitting the "game machine installation information" to the rental unit is completed, the serial number is updated (+1).

When the "sending of game machine installation information" is completed, the game machine information management is finished.

Subsequently, the "game machine performance information transmission" corresponds to the control process for transmitting the above-mentioned "game machine performance information" to the rental unit. The content to be transmitted at this time is the information stored in the storage area of the RWM acquired at the timing of transmission. In other words, if the transmission timing of the original gaming machine performance information every 180s matches the transmission timing of the gaming machine installation information, the gaming machine installation information has a higher priority, so that the timing of the 180s The gaming machine performance information is not transmitted, and the gaming machine performance information is transmitted after the next 300 ms. Regarding this "game machine performance information to be transmitted after the next 300 ms", instead of transmitting the game machine performance information at the time when it matches the transmission timing of the game machine installation information, "the game machine performance information is transmitted after the next 300 ms". By transmitting the gaming machine performance information acquired in "Timing to play", it is possible to transmit the latest information even if the transmission timing is off.

Further, after the process for transmitting the "game machine performance information" to the rental unit is completed, the game machine performance information notification request flag is cleared. Specifically, the D0th bit of the gaming machine information notification request flag (_FL_INF_CTL) is set to "0". Further, after the process for transmitting the "game machine performance information" to the rental unit is completed, the serial number is updated (+1).

When the "sending of gaming machine performance information" is completed, the management of gaming machine information is terminated.

As described above, the gaming machine information notification is configured to be able to be transmitted to the lending unit every 300 ms. In addition, the blinking switching timing of the role ratio monitor is also switched every 300 ms. However, while the timer update process that measures 300 ms for transmitting the game machine information notification is transmitted to the rental unit using the carry flag and the zero flag, it is for switching the combination monitor on and off. The timer update process for measuring 300 ms is switched using only the carry flag.

This is because the damage caused when the gaming machine information notification is fraudulent is greater, and therefore, two types of flags are used for management in order to improve the accuracy of the transmitted information.

Subsequently, with reference to FIG. 31, regarding the transmission timing of the gaming machine information notification (information of any of the hall control / fraud monitoring information, the gaming machine installation information, and the gaming machine performance information) after the power of the gaming machine P is turned on. To explain to.

FIG. 31 shows the transmission timing of the game machine information notification from the game medium number control board P16 to the rental unit after the power of the game machine P is turned on, and the “timer A” in the figure is “game”. "Timer B" indicates "machine information notification timer A", "timer B" indicates "game machine information notification timer B", and "timer C" indicates "game machine information notification timer C". "After startup" indicates "first interrupt processing in the gaming medium number control board P16", and "after 1 ms" indicates "next interrupt processing". Further, "timer A = 0" indicates that the value (timer value) of the gaming machine information notification timer A is 0. Further, the timer value indicates the timer value at the time of starting the interrupt processing, and is a value for which the update processing has not been performed. In other words, it is the value updated in the previous interrupt processing.

As described above, at the first activation, the gaming machine information notification timer A, the gaming machine information notification timer B, and the gaming machine information notification timer C are initialized, so that the respective timer values are "0". Since the timer value of the gaming machine information notification timer A is "0" (the timer value before subtraction is 0), the hall computer / fraud monitoring information is transmitted as the first gaming machine information notification. The timer value of the gaming machine installation information and the gaming machine performance information is also "0", but since the zero flag is "0" here, the gaming machine installation information and the gaming machine performance information are not transmitted.

Subsequently, the transmission timing of the second hall control / fraud monitoring information will be described with reference to FIG. 32. Since the wording appearing in FIG. 32 is the same as that in FIG. 31, the description thereof will be omitted.

The second hall control / fraud monitoring information transmission timing is when the timer value of the gaming machine information notification timer A is “1”. As a result of the subtraction process when the timer value of the game machine information notification timer A is "1" (the timer value before subtraction is 1), the zero flag becomes "1", and the hall controller / fraud monitoring information Is transmitted, and "300" is stored in the timer value of the game machine information notification timer A. Further, the timer value of the gaming machine information notification timer A changes from "1" to "0", so that the timer value of the gaming machine information notification timer B changes to "1".

Subsequently, the transmission timing of the gaming machine information notification when the transmission timings of the hall control / fraud monitoring information and the gaming machine installation information match will be described with reference to FIG. 33. Since the wording appearing in FIG. 33 is the same as that in FIGS. 31 and 32, the description thereof will be omitted.

The hall control / fraud monitoring information transmission timing is when the timer value of the gaming machine information notification timer A changes from "1" to "0" and "300" is stored, but at the same time, the gaming machine information notification timer B of the gaming machine information notification timer B. When the timer value changes from "199" to "0", the gaming machine installation information notification request flag becomes "1". For this reason, in the interrupt processing when the transmission timing of the hall control / fraud monitoring information and the gaming machine installation information occurs at the same time, the gaming machine is installed based on the fact that the gaming machine installation information notification request flag is "1". Information is transmitted, and hall control / fraud monitoring information is not transmitted. Then, in the next interrupt process, the gaming machine installation information notification request flag is "0", but the timer value of the gaming machine information notification timer A is "300", so that the zero flag is "0". The hall computer / fraud monitoring information is not transmitted.

In other words, when the transmission timing of the hall control / fraud monitoring information and the game machine installation information match, the hall control / fraud monitoring information is not transmitted because the transmission of the game machine installation information has a high priority, and then the gaming machine. Until the timer value of the information notification timer A changes from "1" to "0" and "300" is stored (until the next 300 ms elapses), the pachinko / fraud monitoring information is not transmitted. Further, when the timer value of the gaming machine information notification timer A changes from "1" to "0", the timer value of the gaming machine information notification timer B changes from "199" to "0", and the gaming machine information notification timer C changes. The timer value changes from "0" to "1".

In addition, because the transmission timing of the hall controller / fraud monitoring information and the gaming machine installation information match, even if the transmission of the hall control / fraud monitoring information is 300 ms later, the timer of the gaming machine information notification timer A Since the value is continuously updated, even if the hall control / fraud monitoring information is not transmitted once, the transmission timing of the hall control / fraud monitoring information, the gaming machine installation information, and the gaming machine performance information will not shift. ..

In addition, if the transmission timing of the hall control / fraud monitoring information and the gaming machine installation information match, and the hall control / fraud monitoring information is transmitted 300 ms later, the hall control / fraud monitoring information to be transmitted after the next 300 ms Is acquired at the timing of transmission, so that information 300 ms before is not transmitted. As a result, old information is not transmitted even if the transmission timing of the hall control / fraud monitoring information is delayed.

Subsequently, the transmission timing of the gaming machine information notification when the transmission timings of the hall control / fraud monitoring information, the gaming machine installation information, and the gaming machine performance information match will be described with reference to FIG. 34. Since the wording appearing in FIG. 34 is the same as that in FIGS. 31 to 33, the description thereof will be omitted.

The hall control / fraud monitoring information transmission timing is when the timer value of the gaming machine information notification timer A changes from "1" to "0" and "300" is stored, but at the same time, the gaming machine information notification timer B of the gaming machine information notification timer B. When the timer value changes from "199" to "0" and the timer value of the gaming machine information notification timer C changes from "2" to "0", the gaming machine installation information notification request flag changes to "1" and the game The machine performance information notification request flag is set to "1". Therefore, in the interrupt processing when the transmission timings of the hall control / fraud monitoring information, the gaming machine installation information, and the gaming machine performance information occur at the same time, the gaming machine installation information notification request flag is set to "1". Therefore, the pachinko / pachislot machine installation information is transmitted, and the hall control / fraud monitoring information and the pachinko / pachislot machine performance information are not transmitted. Then, in the next interrupt process, the gaming machine installation information notification request flag is "0" and the gaming machine performance information notification request flag is "1", but the timer value of the gaming machine information notification timer A Is "300", the zero flag is "0", and the hall control / fraud monitoring information is not transmitted. In this case, the gaming machine information management is completed, so the gaming machine performance information is also Not sent. However, the gaming machine performance information notification request flag is stored as "1".

In other words, when the transmission timings of the hall control / fraud monitoring information, the gaming machine installation information, and the gaming machine performance information match, the transmission of the gaming machine installation information has a high priority, so the hall control / fraud monitoring information and the gaming machine performance No information is transmitted, and when the timer value of the gaming machine information notification timer A changes from "1" to "0" and "300" is stored, the gaming machine performance information notification request flag is "1". Based on this, the pachinko / pachislot machine performance information is prioritized over the hall computer / fraud monitoring information. After the gaming machine performance information is transmitted, the gaming machine performance information notification request flag becomes "0", so that the timer value of the gaming machine information notification timer A changes from "1" to "0" and becomes "300". When it is stored (the next time 300 ms has passed), the pachinko / fraud monitoring information will be transmitted.

In addition, because the transmission timings of the hall control / fraud monitoring information, the game machine installation information, and the game machine performance information match, the game machine performance information is transmitted after 300 ms, and the hall control / fraud monitoring information is transmitted after 600 ms. Even if this happens, the timer value of the gaming machine information notification timer A is still being updated, so even if the hall control / fraud monitoring information is not transmitted twice, the hall control / fraud monitoring information and the game The transmission timing of machine installation information and gaming machine performance information does not shift.

In addition, since the transmission timings of the hall control / fraud monitoring information, the gaming machine installation information, and the gaming machine performance information match, the gaming machine installation information is transmitted at that timing, and then the gaming machine performance information is transmitted 300 ms later. , When the transmission of the hall control / fraud monitoring information is after 600 ms, the gaming machine performance information to be transmitted 300 ms after the transmission of the gaming machine installation information is acquired at the timing of transmission, so that the gaming machine installation information is transmitted 300 ms before (transmission of the gaming machine installation information). Information on the timing when this is done) is not transmitted. In addition, since the hall control / fraud monitoring information to be transmitted 300 ms after the game machine performance information is transmitted is acquired at the transmission timing, the information 600 ms before (the timing when the game machine installation information is transmitted) is not transmitted. .. As a result, old information is not transmitted even if the transmission timings of the hall control / fraud monitoring information and the gaming machine performance information are different.

Further, in the above-described embodiment, the pachinko / pachislot machine performance information transmitted every 180s always has the request flag set to 1 at the same timing as the pachinko / pachislot machine installation information transmitted every 60s. In other words, at the timing when the gaming machine performance information notification request flag becomes 1, the gaming machine installation information notification request flag always becomes 1. Therefore, the gaming machine performance information cannot be transmitted at the timing when the gaming machine performance information notification request flag becomes 1, and is transmitted after the next 300 ms. However, even in this case, the timing when the gaming machine performance information notification request flag becomes 1 is 180 seconds after the gaming machine performance information notification request flag becomes 1, so that the gaming machine performance information is periodically obtained. It is possible to send.

Further, the storage area for storing the game machine information notification timer A, the game machine information notification timer B, and the game machine information notification timer C managed by the game medium number control board P16 is initialized by power-off (initialization by power-on processing). However, the timer that measures the weight time (4.1 seconds, also called the minimum game time) managed by the main control board P15 is saved when the power is turned off and is not initialized when the power is turned on. After the input, the measurement is started from the continuation. With such a configuration, various gaming machine information notification timers for transmitting gaming machine information notification to the rental unit can be reset after the power is turned on, and periodic communication becomes possible.

Further, the storage area for storing the game machine information notification timer A, the game machine information notification timer B, and the game machine information notification timer C managed by the game medium number control board P16 is initialized by power-off (initialization by power-on processing). However, the timer that measures the freeze time (also called the reel effect time) managed by the main control board P15 is saved even when the power is turned off and is not initialized when the power is turned on, so it freezes after the power is turned on. It is configured to measure the time continuously. With such a configuration, various gaming machine information notification timers for transmitting gaming machine information notification to the rental unit can be reset after the power is turned on, and periodic communication becomes possible.

<Explanation of operation check mode applicable in this embodiment>
Since the gaming machine in the present embodiment is prohibited from operating unless it communicates with the rental unit, it is necessary to install a dummy unit instead of the rental unit when it is desired to check the operation of the gaming machine alone. Since the dummy unit can communicate with the gaming machine in the same way as the rental unit, if the dummy unit is illegally distributed, the communication between the gaming machine and the rental unit may be analyzed, so management of the dummy unit Needs to be very strict. Therefore, in order for the second-hand trader to check the operation of the used gaming machine, it is necessary to borrow a dummy unit from the gaming machine maker, and it takes time to check the operation.

Therefore, in order to confirm the operation of the gaming machine by the gaming machine alone, the gaming machine is equipped with an operation confirmation mode that can be operated without connecting to a rental unit or a dummy unit. Since this operation confirmation mode is a mode for confirming whether or not the gaming machine operates normally, it is configured not to load or pay out the gaming medium.

It is desirable that the operation check mode is configured so that the player cannot easily execute the operation check mode. Therefore, the input port is read to the predetermined switch during the power-on process, and the operation check mode is activated when it is determined that the operation of the predetermined switch is detected during the power-on process. As a predetermined switch, any one or two or more of 1 bet switch, MAX bet switch, start switch, left stop switch, middle stop switch, right stop switch, settlement switch, reset switch, counting switch, setting key switch It is conceivable to use a combination of. As a combination of two or more, for example, it is conceivable to turn on the power while turning on the setting key switch and pressing the counting switch while the power is off. Alternatively, a dedicated switch that cannot be operated unless the front door is opened may be provided so that the operation check mode is activated by turning on the power while operating the dedicated switch.

The operation check mode is a mode that allows a single gaming machine to play a game, but it is possible to activate the operation check mode even if it is connected to a rental unit. Therefore, during the operation check mode, it is assumed that the rental unit and the gaming machine P are connected or not connected. Therefore, during the operation check mode, communication with the rental unit is executed in the same manner as in normal operation. do. For example, reception of a loan notification, transmission of a loan receipt result response, and the like are executed.

When the operation check mode is activated, the display of the five segment display units of the game medium number display unit P9 is displayed as "---". Further, in the operation confirmation mode, three points are automatically input for each game, and the operation of the start switch becomes effective. In addition, "in operation check mode" may be displayed on a part of the image in order to make it easier to recognize that the mode is in the operation check mode. The display "in operation check mode" is always displayed in the same size even if the production is switched due to the production lottery or the transition to the demo screen.

When the start switch is operated in the operation check mode, the game progress program such as the same lottery process as the normal game operation (for example, the main control board P15 for internal lottery process, reel control process, effect lottery process, command transmission process, etc.). By operating the gaming machine using the program executed on the gaming medium number control board P16 and the sub-control board P12, it is possible to confirm whether or not the gaming machine is normal. However, the payout process is not executed, only the number of grants is displayed on the number of grants display section, and the display of the number of game media display section P9 is not updated. In the case of a gaming machine that is not equipped with a number of grants display unit, the number of grants is displayed on the liquid crystal display in the operation confirmation mode because the number of grants is displayed on the liquid crystal display. Further, since the minimum game time is measured even during the operation confirmation mode, if the start switch is operated before the minimum game time elapses, the reels are made to wait until the minimum game time elapses.

Further, in the operation check mode, the communication process performed between the gaming machine and the rental unit may not be executed. With this configuration, the abnormality determination process based on the communication process performed by the gaming machine and the rental unit is prevented from being executed.

Further, in the operation check mode, a preset value (for example, "1" at which the payout rate is the lowest or "6" at which the payout rate is the highest) is set as a set value related to the player's advantage. The gaming machine may be configured to operate, or may be configured to operate the gaming machine after setting an arbitrary set value. Furthermore, in the operation check mode, the setting value may be configured to be able to be displayed on the setting value display by operating the setting key switch, or the setting value may be displayed on the setting value display regardless of the operation of the setting key switch. It may be configured to be displayable, or it may be configured not to display the set value on the set value display even when the setting key switch is operated.

Further, in the operation confirmation mode, the effect by the display device such as the liquid crystal display, the lighting mode of the frame lamp, the sound output from the speaker, and the like are executed as usual. For this reason, if you play for a long time in the operation check mode, you can easily check the effect with a low appearance rate (so-called premier effect) in the operation check mode, and the confirmed premier effect is uploaded on the web by video or image. As a result, the interest of the game may be reduced, so when the game is executed a predetermined number of times in the operation check mode, the operation check mode is automatically terminated (in other words, the operation check mode). Is set as the upper limit of the number of games that can be executed, and it is configured so that the game cannot be played in the operation confirmation mode after the predetermined number of games is reached). The predetermined number of times may be, for example, once, ten times, twenty times, or the like. When a predetermined number of games have been executed during the operation confirmation mode, the operation confirmation mode may be terminated and the subsequent normal games may be prohibited. In order to change from the prohibited state of the normal game to the state in which the normal game can be executed, the operation of turning on the power again or shifting to the setting change mode (the power switch is turned on when the setting key switch is turned on) and the like can be mentioned. .. If the start condition of the operation check mode is satisfied from the prohibited state of the normal game, the operation check mode is started again.

If you want to terminate the operation check mode arbitrarily, turn off the power during the operation check mode (execute the operation check mode end process during the power cut process) or turn off the power during the operation check mode. It is desirable to end with normal operation, such as turning on the power (execution of the operation confirmation mode end processing during the power on processing). This is because the scene that requires the operation check mode is a limited scene such as used movement, so even if the operation check mode is accidentally started due to work during setting change in the amusement park, the power is turned off. This is to reduce the possibility of entering the operation confirmation mode during business hours by immediately terminating the normal operation such as. The method of arbitrarily ending the operation check mode is not limited to turning off the power during the operation check mode, but by operating the transition to the setting change mode (the power switch is turned on when the setting key switch is turned on). The operation check mode may be terminated by the initialization process accompanying the setting change process to be executed.

Also, if the power is cut off while the reel is rotating during the operation check mode, the reel is not re-rotated when the power is turned on, and the operation check mode is terminated, or the reel is re-turned when the power is turned on. It is conceivable that the game is rotated to end the operation confirmation mode after the game is completed. Although the description during reel rotation has been described, the same operation is performed when the power is cut off between the operation of the start switch and the end of the game.

Further, when the operation mode is terminated, a process of initializing the RWM used in the operation mode is performed. As a result, it is possible to prevent the game in the operation mode from being taken over by the normal game. However, the RWM required for signal output to the rental unit is not initialized. In addition, when ending the operation mode and starting the normal game, it is necessary to operate the transition to the setting change mode (the power switch is turned on when the setting key switch is ON), and the operation mode is started by starting the setting change mode. When the specification is such that the process of initializing the used RWM is performed, it is not necessary to perform the process of initializing the RWM used in the operation mode when the operation mode is terminated.

Further, the above-mentioned example is described in which the effect by the display device such as the liquid crystal display, the lighting mode of the frame lamp, the sound output from the speaker, etc. are executed as usual in the operation confirmation mode, but the display is not limited to this, and the liquid crystal display or the like is displayed. The effect by the device is not executed (the display "in operation check mode" is continuously displayed on the black background), the lighting mode of the frame lamp is not lit or the dedicated lighting mode is set, and no sound is output from the speaker. , Or a mode in which a dedicated BGM or a voice is output may be used. The operation check only needs to be able to determine whether or not the operation of the main control board P15 and the game medium number control board P16 is normal. It is possible to prevent situations such as accidentally playing in the operation check mode or a premier effect appearing in the operation check mode.

Further, the game result performed during the operation confirmation mode is configured so as not to affect the normal game mode after the operation confirmation mode is finished. For example, even if the AT lottery is won in the game performed during the operation confirmation mode and the operation confirmation mode is terminated in the situation where the AT right is obtained, the normal game mode after the operation confirmation mode is terminated. Then, it is configured to start the game without the right of AT.

Further, in the operation check mode, the test pattern is displayed on the combination monitor. With this configuration, it is possible to determine whether or not the operation confirmation mode is in progress by the display of the role ratio monitor. In the operation check mode, the test pattern may be displayed for 5 seconds after the power is turned on, and after 5 seconds, various ratios may be displayed on the role ratio monitor in the same manner as in the normal operation, or the power supply may be displayed in the operation check mode. Various ratios may be displayed on the combination ratio monitor without displaying the test pattern at the time of input.

In addition, the game results performed during the operation check mode are configured so as not to affect the ratio of various items displayed on the role ratio monitor. For example, do not update each storage area (cumulative number of games, total number of grants, etc.) for calculating the ratio of various items displayed on the role ratio monitor based on the games played during the operation check mode. It is composed. With this configuration, various ratios showing the behavior in the actual market can be displayed on the role ratio monitor.

In the present embodiment, the game machine and the rental unit communicate with each other via the game medium number control board P16 and the game ball rental device connection terminal board, but the present invention is not limited to this, and the main control board P15 and the game ball rental device are rented. The gaming machine and the rental unit may communicate with each other via the device connection terminal plate. In this case, the production cost is reduced by not mounting the game medium number control board P16. Further, all the processes controlled by the game medium number control board P16 are performed by the main control board P15. When the function of the main control board P15 and the function of the game medium number control board P16 are realized on the same board, the main control chip and the game medium number control chip are provided on the same board, and the main control chip and the game are provided. This can be achieved by performing transmission / reception processing similar to that of the above-described embodiment between the media number control chips.

As described above, the configuration of a slot machine (rotary drum type gaming machine) has been illustrated as a gaming machine, but the above configuration can be applied to various gaming models such as casino machines.

P: Game machine P1: Cabinet P2: Front door P3: Start switch P4: Stop switch P4C: Middle stop switch P4L: Left stop switch P4R: Right stop switch P5: Bet switch P5M: MAX bet switch P5O: 1 Bet switch P6: Settlement switch P7: Counting switch P8E: Effect determination switch P8W: Effect selection switch P9: Game medium number display unit P10: Display window P11M: Image display device P11S: Image display device P12: Sub-control board P13: Game medium number display board P14DL : Lower left speaker P14DR: Lower right speaker P14UR: Upper right speaker P15: Main control board P16: Game medium number control board P17: Rotating device board P18C: Middle reel P18L: Left reel P18R: Right reel

Claims (1)

The first work area and
With a second work area
When the start switch is operated in a situation where the number of inputs is "3" and the start switch of the next game in which the re-game combination is determined is operated as a result of executing the internal lottery process, the number of inputs is related to the number of inputs. As information, "3" can be stored in the first storage area of the first work area.
When the start switch is operated in a situation where the number of inputs is "3" and the start switch of the next game in which the re-game combination is determined is operated as a result of executing the internal lottery process, the number of inputs is related to the number of inputs. A gaming machine characterized in that "0" can be stored in a second storage area of a second work area as information.

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