JP2019069061A - Game machine - Google Patents

Abstract

To appropriately cope with occurrence and detection of an abnormality (error).SOLUTION: A game machine includes: an external terminal board capable of outputting signals to an external device; an error detection part for detecting errors that may occur in the game machine; and a notification part for reporting errors. The errors include a first error in which an error detection signal is outputted from the external terminal board in detection, and a second error in which an error detection signal is not outputted from the external terminal board. Although the first error is reported in detection of the first error during notification of the second error, one portion or entire portion of notification of the second error is not executed in detection of the second error during notification of the first error.SELECTED DRAWING: Figure 36

Description

  The present invention relates to a gaming machine such as a pachinko gaming machine.

  In one type of gaming machine (pachinko gaming machine), we perform big hit lottery (criking judgment) based on establishment of starting condition, and if we win big hit, we perform big hit game with opening of big winning opening as kind of special game . It is possible to obtain a large number of winning balls by winning a game ball in the big winning opening. The result of the jackpot lottery is shown to the player on the symbol display means by the stop mode of the symbol after the variable display of the symbol.

  In this type of gaming machine, errors (abnormalities) may occur due to various factors such as component failure.

JP 2001-239029 A

  Although there are many errors as errors (abnormality) that can occur in gaming machines, it is important to make appropriate the response when an error occurs or is detected.

  An object of the present invention is to provide a gaming machine capable of appropriately dealing with an error (abnormality).

  A gaming machine according to the present invention is a gaming machine provided for gaming, and an external output unit capable of outputting a signal to the outside of the gaming machine, and a first error and a second error that may occur in the gaming machine. Error detection means for detecting a plurality of types of errors including: and notification means capable of notifying an error when the first error or the second error is detected; When an error is detected, a predetermined error detection signal is output from the external output unit, while the detection of the second error does not affect the output of the external output unit, and the notification unit (2) When the first error is detected during notification of an error, notification of the first error can be performed, and when the second error is detected during notification of the first error, the above-mentioned One of the notification of the second error Or characterized by a non-execute all.

  According to the present invention, it is possible to provide a gaming machine capable of appropriately dealing with an error (abnormality).

It is a front view of the gaming machine concerning a 1st embodiment of the present invention (at the time of gimmick inoperative). It is a front view of the game machine concerning a 1st embodiment of the present invention (during gimmick operation). It is a perspective view of a game machine in the state where an inner frame and a glass frame are opened. It is a schematic enlarged view of the information display part provided in the game machine. FIG. 2 is a rear view of the gaming machine according to the first embodiment of the present invention. FIG. 1 is a block diagram of a gaming machine according to a first embodiment of the present invention. It is a figure showing a plurality of tables provided in main ROM of a game machine. It is a figure which shows the several storage area provided in main RAM of a game machine. It is the figure which listed a part of process performed by the main control part of a game machine. FIG. 17 is an explanatory view of a special drawing hit determination table in the main control unit of the gaming machine. It is the figure which listed a part of process performed by the presentation control part of a gaming machine. It is a figure which shows the kind of jackpot which concerns on 1st Embodiment of this invention. It is a flow chart which shows a flow of operation in connection with setting of a game state, and change of a special symbol. It is explanatory drawing of a decoration pattern. It is a figure showing an example of change production including reach production. It is explanatory drawing of board gimmick production and frame gimmick production. It is an explanatory view of button production. It is a flowchart of processing at the time of power on. It is a related figure of a game condition setting value and a big hit probability (big hit winning probability) according to the first embodiment of the present invention. It is a figure which shows operation | movement of the presentation control part which responded to reception of a power supply recovery command. It is explanatory drawing of the recovery display and recovery sound output which are performed in response to reception of a power supply recovery command. It is explanatory drawing of the execution period of a recovery display. It is an explanatory view of operation of a game machine in connection with power source restoration (case DH1). It is an explanatory view of operation of a game machine in connection with power source restoration (case DH2). It is explanatory drawing of operation | movement of the game machine in connection with power supply recovery (case DH3). It is a figure which shows the example of a display content of the image display part in each state. It is explanatory drawing of a structure and function of volume switch SW. It is explanatory drawing of the adjustable period of volume and light quantity. It is explanatory drawing of the operation content and display content in connection with adjustment of a sound volume and a light quantity. It is a figure which shows the flow of sound volume adjustment in a certain adjustable period. It is a figure which shows the flow of sound volume adjustment in another adjustable period. It is a connection relation figure between a main control board, an external terminal board, and an external device. It is an explanatory view of a plurality of errors which may occur in a game machine. It is a functional block diagram of the gaming machine in connection with an error. It is explanatory drawing of the error alerting | reporting regarding two errors. It is explanatory drawing of the aspect of priority alerting | reporting. It is a description of how to perform error notification when two errors are detected in duplicate. It is a figure which shows the candidate of an outer end error and a non-outer end error. It is explanatory drawing of the error alerting | reporting regarding an external end error, and the error alerting | reporting regarding a non-outside end error. It is explanatory drawing of the execution restriction method of presentation at the time of execution of the error alerting about an outer end error or a non-outer end error. FIG. 16 is a functional block diagram related to an error of the gaming machine according to Example EX1_3 belonging to the first embodiment of the present invention. It is explanatory drawing of the kind of error concerning Example EX1_4 which belongs to 1st Embodiment of this invention. It is a figure which concerns on Example EX1_4 which belongs to 1st Embodiment of this invention, and is a figure which shows the functional block diagram in connection with the error of a game machine, and the classification | category of the error which may generate | occur | produce in a game machine. FIG. 21 is an explanatory diagram of an error notification at the time of restoration of the power supply in Example EX1_8 belonging to the first embodiment of the present invention. FIG. 21 is an explanatory diagram of a method of performing error notification of an outer end error at the time of power restoration according to a working example EX1_8 belonging to the first embodiment of the present invention. It is a figure which concerns on Example EX1_9 which belongs to 1st Embodiment of this invention, and shows the example of a response at the time of receiving the operation in connection with volume adjustment, when the error alerting | reporting of a non-outside end error is performed. FIG. 21 is a diagram related to Example EX1_9 belonging to the first embodiment of the present invention, and showing a response example when receiving an operation related to volume adjustment while error notification of an outer end error is being performed. It is a figure which concerns on 3rd Embodiment of this invention, and shows the relationship between the output of glass frame or inner frame open | release SW, the occurrence condition of a glass frame or inner frame error, and the output of an output terminal part. It is a figure which concerns on 3rd Embodiment of this invention, and shows the relationship between the output of a magnetic or radio wave sensor, the generation | occurrence | production condition of a magnetic or radio wave error, and the output of an output terminal part. It is a figure which concerns on 3rd Embodiment of this invention, and shows the relationship between the generation | occurrence | production condition of an incorrect prize-winning error, and the output of an output terminal part. It is a figure which concerns on 3rd Embodiment of this invention, and is a figure which shows the example of a display content of an image display part when a some error is detected by duplication. It is a top view of 7 segment LED display concerning a 3rd embodiment of the present invention. It concerns on Example EX4_1 which belongs to 4th Embodiment of this invention, and is a related figure of an error and the output of an output terminal part. It concerns on Example EX4_1 which belongs to 4th Embodiment of this invention, and is a related figure of an error and the output of an output terminal part. It concerns on Example EX4_1 which belongs to 4th Embodiment of this invention, and is a related figure of an error and the output of an output terminal part. It concerns on Example EX4_1 which belongs to 4th Embodiment of this invention, and is a related figure of an error and the output of an output terminal part. It concerns on Example EX4_2 which belongs to 4th Embodiment of this invention, and is a related figure of an error and the output of an output terminal part. It concerns on Example EX4_3 which belongs to 4th Embodiment of this invention, and is a related figure of an error and the output of an output terminal part. It concerns on Example EX4_4 which belongs to 4th Embodiment of this invention, and is a related figure of an error and the output of an output terminal part. It is a related figure of the error and the output of an output terminal part according to Example EX4_5 which belongs to 4th Embodiment of this invention. It is a related figure of the error and the output of an output terminal part according to Example EX4_6 which belongs to 4th Embodiment of this invention. It is a related figure of the error and the output of an output terminal part according to Example EX4_6 which belongs to 4th Embodiment of this invention. It is a related figure of the error and the output of an output terminal part according to Example EX4_7 which belongs to 4th Embodiment of this invention. FIG. 20 is a perspective view of an external terminal board according to a fifth embodiment of the present invention. FIG. 21 is a plan view of an external terminal board according to a fifth embodiment of the present invention. They are a perspective view and top view of one output terminal part, and a top view of wiring which should be connected to an output terminal part concerning a 5th embodiment of the present invention. FIG. 21 is a side view of an output terminal portion mounted on an external terminal board according to a fifth embodiment of the present invention. FIG. 21 is a plan view of a seal attached to the external terminal board in association with the fifth embodiment of the present invention. FIG. 21 is a diagram showing the relationship between game condition setting values and various probabilities in the sixth embodiment of the present invention. It is a related figure of a game condition setting value and a big hit probability (big hit winning probability) according to a seventh embodiment of the present invention. It is a figure which concerns on 8th Embodiment of this invention and shows the structure in connection with a setting operation part. It is a flowchart of a power-on process according to the eighth embodiment of the present invention. It is a flow chart of setting change mode processing concerning an 8th embodiment of the present invention. FIG. 44 is an explanatory diagram of an operation of the gaming machine related to power restoration according to the ninth embodiment of the present invention (case DH3a). It is a figure which concerns on 9th Embodiment of this invention and shows the initial appearance display after power supply recovery.

  Hereinafter, embodiments of the present invention will be specifically described with reference to the drawings. In the respective drawings to be referred to, the same parts are denoted by the same reference numerals, and redundant description of the same parts will be omitted in principle. In the present specification, in order to simplify the description, the names of information, signals, physical quantities, members, etc. corresponding to the symbols or marks are described by marking the symbols or marks referring to information, signals, physical quantities, members, etc. It may be abbreviated or abbreviated. In addition, in an arbitrary flowchart described later, a plurality of processes in an arbitrary plurality of steps can be arbitrarily changed in execution order or can be executed in parallel as long as no contradiction occurs in the process contents. Further, in the present specification, a switch may be denoted as "SW".

/ / / / / / / / / / First embodiment / / / / / / / / / /
A first embodiment according to the present invention will be described. In the present embodiment, the gaming machine according to the present invention is applied to a gaming machine (so-called digipachi) belonging to the former first class.

<< Basic configuration of gaming machine >>
The basic configuration of the gaming machine 100 will be described with reference to FIGS. 1 to 3. The gaming machine 100 includes the gaming board 101, and further includes the respective components shown in FIGS. The upper, lower, left, and right directions refer to the upper, lower, left, and right sides as viewed from the player facing the gaming machine 100 and the game board 101, unless otherwise described. Both the vertical and horizontal directions are parallel to the board of the game board 101. The vertical direction is parallel to the vertical direction, and the horizontal direction is parallel to the horizontal direction. In addition, as far as there is no description in particular, the front refers to the one closer to the player facing the gaming machine 100 and the game board 101, and the backward refers to the player facing the gaming machine 100 and the game board 101 as long as there is no description. Point to the far side against

  1 and 2 are front views of the gaming machine 100 according to the present embodiment. However, FIG. 2 is a front view of the gaming machine 100 in a state in which the board gimmick 130 and the frame gimmick 131 are disposed at the respective advanced positions, and FIG. 1 is the origin of each of the board gimmick 130 and the frame gimmick 131 It is a front view of game machine 100 in the state where it is arranged at a position. When the frame gimmick 131 is disposed at the origin position, the frame gimmick 131 is disposed in the storage portion 132. FIG. 3 is a perspective view of the gaming machine 100 in a state in which the inner frame 11 is open with respect to the outer frame 10 and the glass frame 12 is open with respect to the inner frame 11.

  The gaming machine 100 is a pachinko gaming machine, and is provided with respect to an outer frame 10 attached to an island facility disposed in a game arcade, an inner frame 11 attached to the outer frame 10 in an openable / closable manner, and an inner frame 11 And a glass frame 12 attached to be openable and closable. The glass frame 12 is formed with a window portion 12a in which a transparent glass plate is inserted so that a substantially entire area of the game area 103 described later can be viewed from the front (player side). The game board 101 is detachably attached to the inner frame 11. At a lower position of the game board 101, a launch unit 530 (see FIG. 6) for launching a game ball is disposed (the detailed structure of the launch unit is not shown).

  The game ball shot upward by driving the launch unit 530 rises between the rails 102a and 102b and reaches the upper position of the game board 101, and then falls within the game area 103 formed on the game board 101 (flowing down) ) Is supposed to. A plurality of nails (not shown) are provided in the game area 103, and the game balls fall while changing the moving direction in an unspecified direction by the nails. In addition, in the game board 101, in the fall path of the game ball in the game area 103, a windmill (not shown) that changes the fall direction of the game ball, the first start port 105, the second start port 106, the electric tulip 107, A gate 108, a special winning opening 111 and a normal winning opening 112 are provided. An image display unit 104 formed of a liquid crystal display panel or the like, which can display various effect images including a decorative symbol, is disposed substantially in the center of the game board 101.

  The starting openings 105 and 106 are disposed below the image display unit 104, and form starting regions through which game balls can pass (winning possible). The right to receive the special view determination (determination as to whether or not to perform the big hit game) is acquired by the establishment of the predetermined first start condition or the second start condition. The first and second start conditions are satisfied by the game balls winning in the start openings 105 and 106, respectively. Further, when the gaming machine 100 detects gaming balls that have won a prize in the starting opening 105 or 106, the gaming machine 100 pays out a predetermined number (for example, three) of gaming balls. The game balls to be paid out due to the winning of the game balls to the starting openings 105, 106, the big winning opening 111 or the normal winning opening 112 are also referred to as winning balls. In addition, you may replace winning with entering a ball. In addition, the winning of the game ball to the winning device (starting ports 105 and 106, the big winning hole 111 or the normal winning hole 112) may be expressed simply as a winning on the winning device.

  An electric tulip 107 is provided in the vicinity of the second start port 106. The electric tulip 107 is in a closed state (closed state) which makes it difficult to win the game ball to the second start port 106 and an open state (opened state) which makes the game ball easier to win the second start port 106 than the closed state. Take either state of). Essentially, when the electric tulip 107 is in the closed state, it is impossible to win the game ball in the second starting opening 106, and only when the electric tulip 107 is in the open state, the second start of the gaming ball It is possible to win the mouth 106. The fact that the electric tulip 107 is in the open state is also referred to as the opening of the electric tulip 107. The electric tulip 107 is opened based on the result of the common drawing determination performed by the game ball passing through the gate 108 disposed on the right side of the image display unit 104.

  A big winning opening 111 is provided on the right side of the first starting opening 105 and the second starting opening 106. The large winning opening 111 can also be opened and closed like the electric tulip 107, and the gaming ball is larger than the closed state (closed state) which makes it difficult for the gaming ball to win the large winning opening 111. It takes one of the open states (opened states) to make it easy to win the winning opening 111. In fact, when the big winning opening 111 is in the closed state, it is impossible to win the big winning opening 111 of the gaming ball, and only when the big winning opening 111 is in the opening state, the big winning of the gaming ball A prize for the mouth 111 can be made. Opening of the big winning opening 111 is also referred to as opening of the big winning opening 111. The special winning opening 111 is normally closed, and when a jackpot is won, a predetermined number of round games (for example, 30 seconds have elapsed or 10 game balls have been won) are met until a predetermined condition is met (for example, for example) Repeat only 16 times). When the gaming machine 100 detects a gaming ball that has won the special winning opening 111, it pays out a predetermined number (for example, 14) of winning balls.

  At one side or lower side of the image display unit 104, one or more normal winning openings 112 are installed. When detecting a winning on the normal winning opening 112, the gaming machine 100 pays out a predetermined number (for example, five) of winning balls. At the lowermost part of the game area 103, there is provided a collection port 113 for collecting game balls that did not win any of the first start port 105, the second start port 106, the big winning port 111 and the normal winning port 112 There is. An information display unit 114 is provided at a lower right portion of the game board 101 and at a position where the player can visually recognize. In addition, the installation position of each component on the game board 101 can be arbitrarily changed.

  In the glass frame 12, the speaker 115 (including the speakers 115a to 115c) and the frame lamp 116 (including the frame lamps 116a to 116d) used for an optional effect are incorporated in the outer peripheral portion. In the upper central portion of the glass frame 12, a substantially box-like storage portion 132 and a frame gimmick 131 which is a movable part are provided. As shown in FIG. 1, when the frame gimmick 131 is disposed at the origin position, the frame gimmick 131 is stored in the storage section 132, and the whole or a part of the frame gimmick 131 can not be seen by the player. As shown in FIG. 2, when the frame gimmick 131 is driven and disposed at the advanced position in the effect, the frame gimmick 131 protrudes above the storage portion 132, and the whole of the frame gimmick 131 can be visually recognized by the player.

  The movable combination used for the effect is also provided on the game board 101. In the present embodiment, on the game board 101, a board gimmick 130 is provided as a movable role. Further, in the glass frame 12, an operation handle 119 is disposed at the lower right position. The operation handle 119 has a shape that protrudes toward the player, and a launch instructing member 120 is provided on the outer periphery thereof. The firing instruction member 120 is rotatably supported by the operation handle 119. When the player causes the game ball to be fired, the launch instruction member 120 is rotated clockwise. At this time, the player can adjust the firing intensity of the game ball by the angle at which the firing instruction member 120 is rotated. Below the game area 103 in the glass frame 12, in addition to the effect button 121 and the cross key 122, the upper tray 123, upper tray lever 124, lower tray 125, lower tray lever 126, etc. used for storing and sending gaming balls, etc. Is provided. The effect button 121 and the cross key 122 constitute an operation input unit (which may be called an operation reception unit or an operation unit) that receives an input of an operation from the player.

  The upper tray 123 is a ball storage tray for storing gaming balls to be sent to the launch unit 530 in order to cause the gaming area 103 to fire the gaming balls. The upper tray lever 124 causes the game balls stored in the upper tray 123 to flow down to the lower tray 125 according to the operation of the player. The lower tray 125 is disposed below the upper tray 123, and is a ball storage tray for storing gaming balls that can not be stored in the upper tray 123. The lower tray lever 126 is provided for discharging the game balls stored in the lower tray 125 out of the gaming machine 100 in accordance with the operation of the player. By operating the lower plate lever 126, the player drops the game ball, which is full of the lower plate 125 due to a big hit or the like and can not be stored, from the lower plate 125 and discharges it to a ball box etc. It is possible to

  As shown in FIG. 4, the information display unit 114 is a special symbol display unit 201 displaying a special symbol indicating the result of the special drawing determination, a normal symbol display unit 202 displaying the normal symbol indicating the result of the common drawing determination, and a hold display A section 203, a round number display section 204, and a right turn display section 205 are provided. Each display part 201-205 can be formed by a LED (Light Emitting Diode) display. There are first and second special symbols as special symbols. The right of special drawing determination based on the establishment of the first start condition is suspended with a predetermined number (here, 4) as the upper limit, and the number of the suspended rights is referred to as the number of pending information U1. The right of special drawing determination based on the establishment of the second start condition is suspended with a predetermined number (here, 4) as the upper limit, and the number of the suspended rights is referred to as the number of pending information U2. The right of common drawing determination due to the game ball passing through the gate 108 is suspended with a predetermined number (here, 4) as the upper limit, and the number of the suspended rights is called the number of pending information U3.

  The special symbol display portion 201 has a first special symbol display portion 201a for displaying a first special symbol and a second special symbol display portion 201b for displaying a second special symbol. The hold display unit 203 includes a display unit 203a that displays the number of held information U1, a display unit 203b that displays the number of held information U2, and a display unit 203c that displays the number of held information U3.

  The rear face configuration of the gaming machine 100 will be described with reference to FIG. FIG. 5 is a rear perspective view of the gaming machine 100 showing the rear configuration of the gaming machine 100. As shown in FIG. On the back surface of the gaming machine 100, a substrate on which electronic components such as a main control substrate 301, a payout control substrate 302, an effect control substrate 303, a power supply substrate 304 and an external terminal substrate 305 are mounted is provided. Each of those boards (especially effect control board 303) may be formed from a plurality of printed boards. In addition, on the back of the gaming machine 100, various structural components including a storage tank 321, a guiding path 322, and a payout unit 323 are provided.

  The storage tank 321 is a container for storing game balls before being paid out in advance. When the number of game balls in the storage tank 321 runs short, a game ball is supplied to the storage tank 321 from a device called a chute of the island facility. The game balls in the storage tank 321 are guided by the guide path 322 and discharged (i.e., paid out) to the upper tray 123 or the lower tray 125 by a payout unit 323 having a payout motor 323M (see FIG. 6) described later. The gaming balls paid out from the payout unit 323 are basically paid out toward the upper tray 123, and are paid out toward the lower tray 125 only when the upper tray 123 is full. The payout unit 323 can eject, for example, the number of gaming balls according to the amount of rotation of the payout motor 323M, and the gaming balls to be paid out toward the upper tray 123 or the lower tray 125 by the payout unit 323 detect a payout ball described later. It is detected by the SW 531 (see FIG. 6). As described above, "SW" means a switch.

  The power supply substrate 304 generates a predetermined DC voltage by performing predetermined power conversion on commercial AC power supplied via the power supply plug 315, and the generated DC voltage is used as a power supply voltage, and the main control substrate 301 is paid out. It is supplied to the constituent substrates of the gaming machine 100 including the control substrate 302 and the effect control substrate 303. The functions of the main control board 301, the payout control board 302 and the effect control board 303 will be apparent from the following description.

<< Basic operation of gaming machine >>
Next, the basic operation of the gaming machine 100 will be described. The gaming machine 100 acquires the special view determination information when the first or second start condition is satisfied, and performs the special view determination based on the special view determination information. The acquisition of the special drawing determination information corresponds to the acquisition of the right of special drawing determination. The special feature determination includes determination of whether or not the jackpot was won (whether the jackpot was won or lost). In addition, the winning of the jackpot may be expressed as the occurrence of the jackpot (the same applies to the small jack described later). In addition, the fact that certain special-image determination information has been won for a big hit may be expressed as, for example, that the special-image determination information is for a big hit (the same applies to a small hit described later). When special drawing determination is performed based on the special drawing determination information acquired by establishment of the first and second start conditions, the gaming machine 100 changes and displays the first and second special symbols for a predetermined time, respectively. , The first and second special symbols are stopped and displayed in a mode showing the result of the special view determination.

  When the special symbol (first or second special symbol) is variably displayed, the gaming machine 100 variably displays the decorative symbol on the image display unit 104 according to it, and stops the decorative symbol according to the stop display of the special symbol. Display. The decorative symbols displayed on the image display unit 104 include first to third decorative symbols, and each decorative symbol is associated with a numerical value, a symbol or the like. For example, when a big hit is generated and the special symbol is stopped and displayed in a mode indicating a big hit, the first to third decorative symbols are displayed in a mode indicating a big hit (for example, so-called "Zoll eyes such as" 7 · 7 · 7 ") Display the stop. Under the present circumstances, according to the kind of jackpot which generate | occur | produced, the combination of the 1st-3rd decorative symbol stopped and displayed may differ. In the case where the result of the special drawing determination is a loss (that is, when the jackpot has not been won), the first to third decorative symbols are stopped, for example, at so-called loose eyes indicating a loss. The loose eye refers to a state in which two or three of the first to third decorative symbols are not common to each other.

  When the special symbol is stopped and displayed in a mode showing the jackpot, the gaming machine 100 is in the jackpot gaming state. In the jackpot gaming state, a jackpot game in which a round game for opening the big winning opening 111 is executed for a round (for example, 16 rounds) according to the type of the jackpot won is performed. When the game ball wins the big winning hole 111 while the big winning hole 111 is open, the gaming machine 100 pays out a predetermined number of winning balls. The jackpot gaming state is ended by the end of the jackpot game. A game with the opening of the big winning opening 111 (including a big hit game and may include a small hitting game described later) is given a chance to get a winning ball by the winning of the gaming ball to the big winning hole 111 It can be said that the player is more advantageous than the game without opening the mouth 111 (for example, the game in the normal game state). Here, the advantage means that the player is more likely to obtain more award balls (the expectation value of the award balls obtained is larger) with the opening of the large winning opening 111.

  The special figure determination is not performed during the jackpot game, and the special symbol is stopped and displayed in a mode showing the jackpot. In the jackpot gaming state, the game is played by hitting the right. The right strike indicates that a game ball is hit in the game area on the right side of the center line that divides the game area 103 left and right in the game area 103. On the other hand, left hitting means that a game ball is hit in the game area on the left side of the center line in the game area 103. In the left strike, the game ball can be won for the first starting port 105, but the game board 101 is formed so that the game ball can not be won for the second starting port 106 and the big winning port 111. It is done. In the right-handed mode, the game ball can be made to win the second start opening 106 and the big winning opening 111, but the game board 101 is formed so that the game ball can not be made winning to the first start opening 105. It is done. In addition, the gate 108 is disposed on the right side area in the game area 103 and above the big winning opening 111. Therefore, in the left strike, the game ball can not pass through the gate 108, and only the game ball by the right strike can pass the gate 108.

  After the end of the jackpot game, the gaming machine 100 returns to the state of performing the special view determination. At this time, the gaming state of the gaming machine 100 may be changed (the details will be described later).

<< The gaming state of the gaming machine >>
The gaming machine 100 is low probability non-power support gaming state (normal gaming state), low probability power support gaming state, high probability non power except the gaming state (including the big hit gaming state) accompanied by the opening of the large winning opening 111 You may be able to obtain any of the game states of the support game state and the high probability electric support game state. The gaming state in the initial state of the gaming machine 100 is the low probability non-power support gaming state. The gaming machine 100 is initialized by initializing the game information of the gaming machine 100 using the RAM clear SW 415 or the setting operation unit 416 (see FIG. 6) provided on the back of the gaming board 101.

  The low probability non-power support gaming state and the low probability power support gaming state belong to the low probability gaming state. The high probability non-power support gaming state and the high probability power support gaming state belong to the high probability gaming state. The probability that it is determined that the jackpot is won in the special view determination is higher in the high probability gaming state than in the low probability gaming state. Therefore, the high probability gaming state is more advantageous to the player than the low probability gaming state with respect to the jackpot's ease of winning (the probability of being played the jackpot game).

  The low probability power support gaming state and the high probability power support gaming state belong to the power support gaming state. In the power support gaming state, the gaming machine 100 imparts a game support function (hereinafter referred to as "power support") with the opening and closing of the electric tulip 107 (that is, activates power support). When power support is given, the variation time of the normal symbol is shortened, the probability of winning per common drawing in common drawing judgment is increased (therefore, the opening frequency of the electric tulip 107 is increased), and The open time of the electrically powered tulip 107 is increased, and as a result, in the power-sap game state, the game ball is more likely to win the second starting opening 106 as compared to the non-power-sap game state in which the power is not applied. In the power support game state, the game is performed by the above-described right hit, and the trigger for the special view determination mainly becomes a winning for the second starting opening 106.

  The low probability non-power support gaming state and the high probability non power support gaming state belong to the non power support gaming state in which no power support is provided. In the non-power-sap game mode, the game is played by the above-described left hitting, and the trigger for the special view determination mainly becomes a winning for the first starting opening 105. As understood from the above description, the power support game state is a game state in which the start condition (second start condition) is more easily established than the non-power support game state. Therefore, the power support gaming state is more advantageous to the player than the non power support gaming state with regard to the ease of establishment of the start condition.

<< Electric configuration of gaming machine >>
FIG. 6 is a block diagram of the gaming machine 100. As shown in FIG. The gaming machine 100 is provided with elements other than the external device 610 and the card unit 620 among the elements shown in FIG. As shown in FIG. 6, the gaming machine 100 includes a main control unit 401 that controls the progress of the game, a payout control unit 402 that controls the payout of the game balls, and an effect control unit 403 that controls the contents of the effect. There is.

  The main control unit 401 is realized by a main CPU (central processing unit) 411 mounted on the main control substrate 301, a main ROM (read only memory) 412, and a main RAM (random access memory) 413. The main ROM 412 stores programs executed by the main CPU 411 and various data. The main RAM 413 is used as a working memory or the like of the main CPU 411.

  The payout control unit 402 is realized by the payout CPU 421, the payout ROM 422, and the payout RAM 423 mounted on the payout control board 302. The payout ROM 422 stores programs executed by the payout CPU 421 and various data. The payout RAM 423 is used as a work memory or the like of the payout CPU 421. On the payout control substrate 302, electronic components constituting the emission control unit 425 are also mounted.

  The effect control unit 403 is realized by the sub CPU 431, the sub ROM 432, and the sub RAM 433 mounted on the effect control substrate 303. The sub ROM 432 stores programs executed by the sub CPU 431 and various data. The sub RAM 433 is used as a working memory or the like of the sub CPU 431.

  The gaming machine 100 is provided with a backup power supply (not shown) including a capacitor etc., and when the power supply to the gaming machine 100 is stopped (that is, the supply of the power supply voltage from the power supply substrate 304 is interrupted). Power is supplied from the backup power supply to the backup target. The backup target includes at least the main RAM 413, and may include at least one of the payout RAM 423 and the sub RAM 433. Even if the power supply to the gaming machine 100 is stopped, the RAM included in the backup target can hold its own memory contents based on the power supplied from the backup power supply for a period corresponding to the storage amount of the backup power supply.

  Further, on the back of the main control board 301, a RAM clear SW 415, a setting operation unit 416 and a setting display LED (light emitting diode) 417 are provided. A sound volume switching SW 435 is provided on the back of the effect control board 301. A power switch 445 is provided on the back of the power supply substrate 304.

  The main control board 301 and the payout control board 302 (in other words, the main control unit 401 and the payout control unit 402) are connected to each other in a form capable of bidirectional communication. The main control board 301 and the effect control board 303 (in other words, the main control unit 401 and the effect control unit 403) only perform one-way communication from the main control board 301 to the effect control board 303 (in other words, the effects from the main control unit 401) They are connected to each other in such a manner that only one-way communication to the control unit 403 is possible. The payout control board 302 and the effect control board 303 (in other words, the payout control unit 402 and the effect control unit 403) are not directly connected to each other.

  The power supply SW 445 is a seesaw type SW and is turned on or off in response to an external force. When the power supply SW 445 is in the on state, the power supply substrate 304 performs predetermined power conversion on commercial AC power supplied through the power plug 315 to generate a predetermined DC voltage, and generates the generated DC voltage as a power supply voltage. As a main control board 301, a payout control board 302, and an effect control board 303, it is supplied to the constituent boards of the gaming machine 100. Thus, the gaming machine 100 realizes a predetermined operation. When the power supply SW 445 is in the off state, the generation of the DC voltage is not performed, and the gaming machine 100 is inoperative. As a matter of course, even if the power switch 445 is in the on state due to the influence of a power failure or the like, the gaming machine 100 may become inoperable without a necessary power supply voltage being generated.

[Electric configuration related to main control board]
To the main control board 301, various SWs for detecting a game ball are connected. In particular,
1st starting opening SW511 for detecting the game ball which entered into 1st starting 105,
2nd starting opening SW512 for detecting the game ball which entered into 2nd starting 106,
Large winning opening SW 513 for detecting the gaming ball that has entered the large winning opening 111,
The normal winning opening SW 514 for detecting the gaming ball that has entered the normal winning opening 112,
A gate SW 515 for detecting a game ball having passed through the gate 108 is connected to the main control board 301, and the detection results of the SWs 511 to 515 are transmitted to the main control unit 401. When there are a plurality of normal winning openings 112, the normal winning opening SW 514 is provided by the number of the normal winning openings 112. The same is true for the big winning prizes and the like. When a certain optional component is connected to the main control board 301, it may be considered that the relevant component is connected to the main control unit 401.

  Further, to the main control board 301, various solenoids for driving the motorized role on the game board 101 are connected. Specifically, as shown in FIG. 6, an electric tulip solenoid 518 for opening and closing the electric tulip 107 and a big winning opening solenoid 519 for opening and closing the big winning opening 111 are connected to the main control board 301. The main control unit 401 realizes the opening and closing operation of the electric tulip 107 using the electric tulip solenoid 518 based on the result of the common drawing determination, and the large winning opening 111 using the big winning opening solenoid 519 based on the result of the special drawing determination. Implement the opening and closing operation. Further, an information display unit 114 is connected to the main control substrate 301. The main control unit 401 performs display control of the information display unit 114 based on the result of the special drawing determination, the result of the common drawing determination, and the number of pending information items U1, U2, and U3.

  Furthermore, the main control board 301 includes a magnetic sensor 521 for detecting magnetism applied to the gaming machine 100, a radio wave sensor 522 for detecting radio waves applied to the gaming machine 100, and shock and vibration applied to the gaming machine 100. An impact sensor 523 for detection is connected, and the detection results of the sensors 521 to 523 are transmitted to the main control unit 401.

  Further, the external terminal board 305 is connected to the main control board 301 in such a form that signals and information can be transmitted only from the main control board 301 to the external terminal board 305. The external terminal board 305 is connected to an external device 610 which is a device provided outside the gaming machine 100 via a wire. The main control unit 401 can transmit information related to the game of the gaming machine 100 and information related to an error generated in the gaming machine 100 from the external terminal board 305 to the external device 610 in the form of an electric signal. The external terminal board 305 may be connected to the payout control board 302. In this case, the information to be transmitted to the external device 610 via the external terminal substrate 305 is sent out from the payout control substrate 302 to the external device 610 through the external terminal substrate 305.

  As shown in FIGS. 7 and 8, the main ROM 412 stores a table group including the tables TAt, TZt, THt and DKt, and the main RAM 413 stores a memory area group including the memory areas 413a, 413b and 413c. It is provided. The game condition setting value storage area 413c stores game condition setting values that affect the jackpot probability, which will be described later together with the functions of the setting operation unit 416 and the setting display LED 417.

[Electric configuration related to the payout control board]
The payout control unit 402 realized by the payout control board 302 pays out the game ball using the payout unit 323 incorporating the payout motor 323M based on the payout instruction (payout command) from the main control unit 401.

  The payout control board 302 has a payout ball detection SW 531 for detecting gaming balls (prize balls or rental balls) to be paid out from the payout unit 323 toward the upper tray 123 or the lower tray 125, and the gaming balls in the storage tank 321. A chute ball out detection SW 532 for detecting that there is no gaming ball in the chute to be supplied, and a rotor rotation SW 533 for detecting presence or absence and rotation amount of rotation of the rotor in the payout motor 323M are connected. When a given part is connected to the payout control board 302, it may be considered that the part is connected to the payout control unit 402.

  The dispensing control board 302 is also connected to a fullness detection SW 534. The full dish detection SW 534 is capable of detecting the storage state of gaming balls in the upper plate 123 and detecting that the upper plate 123 is full, and the upper plate full detection SW 534 a in the lower plate 125 The storage condition of the gaming ball can be detected, and the lower tray 125 is composed of a lower tray full detection SW 534 b for detecting that the lower tray 125 is full. When the lower tray 125 is full, the space for storing the gaming balls in the lower tray 125 is filled with the gaming balls, and the gaming balls can not be dispensed from the payout unit 323 toward the lower tray 125 Point to the state. The same applies to the fullness state of the upper plate 123. Hereinafter, the fact that the lower plate 125 is full may be expressed simply as the lower plate 125 being full (the same applies to the full state of the upper plate 123).

  The gaming balls paid out from the payout unit 323 are basically paid out toward the upper tray 123, and only when the upper tray full detection SW 534a detects that the upper tray 123 is full. It will be paid out towards 125. However, a guiding path connecting the upper plate 123 and the lower plate 125 is provided, and the gaming machine 100 is configured such that the gaming balls paid out when the upper plate 123 is full are directed to the lower plate 125 through the guiding path. You may leave it. In this case, it is possible to omit the upper tray full detection SW 534a.

  A door open switch 535 is also connected to the payout control substrate 302. The door opening SW 535 detects that the glass frame opening SW 535 a for detecting that the glass frame 12 is opened with respect to the inner frame 11 and that the inner frame 11 is opened with respect to the outer frame 10. It consists of inner frame opening SW535b.

  The detection results of SW 531 to 533, 534a, 534b, 535a and 535b are transmitted to the payout control unit 402. The payout control unit 402 may transmit the detection results of the SWs 531 to 533, 534a, 534b, 535a, and 535b to the main control unit 401.

  A launch unit 530 is also connected to the payout control substrate 302. The launch unit 530 is for launching a game ball for playing a game toward the game area 103, and emits a sensor for detecting a game operation of the player on the operation handle 119 and the launch instructing member 120, and the game ball It has a solenoid etc. The launch control unit 425 realized by the payout control board 302 detects a game operation by the sensor of the launch unit 530, and activates the solenoid or the like according to the detected game operation to periodically or intermittently play the game. A ball is thrown into the game area 103.

  Further, a card unit 620 is connected to the payout control substrate 302. The card unit 620 is not a component of the gaming machine 100 and is a device generally referred to as a sand. After confirming the connection with the card unit 620, the payout control unit 402 exchanges information with the card unit 620 when a ball lending signal is input from a ball lending SW (not shown) provided on the glass frame 12. At the same time, using the payout unit 323, the ball lending control is performed to pay out the specified number of gaming balls as the rental balls.

[Electric configuration related to effect control board]
The effect control unit 403 implemented by the effect control board 303 controls the display of the image display unit 104 and the audio output of the speaker 115 (not shown), the frame lamp 116 and the game board 101. And a lamp control unit (not shown) that performs lighting control of the board lamp 135 and drive control of the gimmicks 130 and 131. Each of the frame lamp 116 and the board lamp 135 comprises a plurality of lamps. The plurality of lamps forming the frame lamp 116 or the board lamp 135 may be any light emitting device respectively, and may be, for example, an incandescent lamp, a fluorescent lamp or an LED (light emitting diode) or a combination thereof. A light emitting device incorporated in the effect button 121 to increase the luminance of the effect button 121 is also included in the frame lamp 116. In addition, the effect control board 303 is connected to the effect button 121 and the cross key 122 for receiving the operation from the player, and the effect control portion 403 is a signal indicating the presence / absence of the operation of the effect button 121 and the cross key 122 and the operation content. It is transmitted. The effect control unit 403 can perform effects according to the content of the input operation from the player on the effect button 121 and the cross key 122.

  Further, a vibration motor 551 for vibrating the effect button 121 is connected to the effect control board 303. The lamp control unit in the effect control unit 403 can use the motor 551 to vibrate the effect button 121 at a desired timing.

  Furthermore, a board gimmick sensor 552 and a frame gimmick sensor 553 are connected to the effect control board 303. The board gimmick sensor 552 is a sensor for detecting the position of the board gimmick 130, and detects whether the board gimmick 130 is disposed at a predetermined origin position and whether the board gimmick 130 is disposed at a predetermined exit position. be able to. The frame gimmick sensor 553 is a sensor for detecting the position of the frame gimmick 131, and detects whether the frame gimmick 131 is disposed at a predetermined origin position and whether the frame gimmick 131 is disposed at a predetermined exit position. be able to. The detection results of the sensors 552 and 553 are transmitted to the effect control unit 403.

[1. Basic processing by main control unit]
The basic process performed by the main control unit 401 will be described with reference to FIG.

[1-1. Main processing]
When power is supplied to the gaming machine 100, the main control unit 401 executes main processing. When power is supplied to the gaming machine 100, power-on processing is performed in the main processing, and when power is supplied to the gaming machine 100, power-off processing is performed in the main processing.

  In the power-off process, after the checksum of the data in the main RAM 413 is calculated and the checksum is stored in the checksum storage area of the main RAM 413, access to the main RAM 413 is inhibited and the process waits. In the power-on process, it is checked whether the checksum stored in the power-off process is normal or not, and the initial setting process of various devices in the main control unit 401 (setting of execution cycle of timer interrupt process) ) Is done. In the power-on process, some important processes related to RAM clearing and the like may be performed, the details of which will be described later (see FIG. 18).

  The power supply voltage for causing the gaming machine 100 to operate normally is supplied from the power supply substrate 304 to the entire gaming machine 100 including the main control substrate 301, the payout control substrate 302, and the effect control substrate 303. A state in which a predetermined operation can be performed is referred to as a power on state. The power supply voltage for causing the gaming machine 100 to operate normally is not supplied from the power supply substrate 304 to the entire gaming machine 100 including the main control substrate 301, the payout control substrate 302, and the effect control substrate 303, and the gaming machine 100 is not The operating state is referred to as a power off state. Therefore, as a matter of course, each operation of the gaming machine 100 described in the present embodiment is premised to be in the power on state unless there is a particular description. Power-on refers to switching from a power-off state to power-on state, and power-off, power-off or power-off refers to switching from a power-on state to a power-off state. In addition, turning on the power may be expressed as turning on the power, and turning on the power may be expressed as turning off the power. The power-on in this embodiment includes not only the intentional power-on by the operator by the operation of the power switch 445, but also the restoration of power from a power failure or the like that occurred while the power switch 445 was kept on. Hereinafter, switching from the power-off state of the gaming machine 100 to the power-on state is referred to as power-on or power restoration unless distinction is made between the two.

[1-2. Timer interrupt processing]
The main control unit 401 interrupts and executes timer interrupt processing for the main processing in a cycle (for example, a cycle of several milliseconds or less) set in the main processing (see FIG. 9). In the timer interrupt process, the main control unit 401 sequentially executes a random number update process, a switch process, a special symbol process, a normal symbol process, an electric role control process, an award ball process, and an output process.

[1-2-1. Random number update process]
The main control unit 401 includes a special pattern random number counter C1 for counting random numbers per special figure, a special symbol pattern random number counter C2 for counting special pattern random numbers, and a special pattern variation pattern random number counter C3 for counting special pattern variation pattern random numbers. A random number counter C4 for counting a random number per common drawing and a common symbol random number counter C5 for counting a common random number are provided. In the random number update process, the count value of each random number counter is "1". The count value of each random number counter is updated by adding. In each of the random number counters C1 to C5, when the count value of the counter exceeds the predetermined upper limit value, the count value of the counter is returned to "0", and thereafter, the same count up is performed. Note that any random number in the present embodiment takes only integer values unless otherwise noted.

1-2-2. Switch processing]
The switch process will be described (see FIG. 9). In the switch processing, the main control unit 401 sequentially executes a starting opening switch processing, a gate switch processing, a special winning opening switch processing, and a normal winning opening switch processing.

  In the starting opening switch processing, the main control unit 401 uses the starting openings SW 511 and SW 512 to detect the winning of the gaming ball in the starting opening 105 or 106 (that is, the timing when the first or second starting condition is established). The count values of the counters C1 to C3 are acquired in the special pattern judgment information that includes the acquired count values of the counters C1 to C3 as random numbers, special pattern symbol random numbers and special figure fluctuation pattern random numbers for special figure judgment It is stored in the information storage area 413a. The storage area 413a can store each of the special view determination information based on the establishment of the first start condition and the special view determination information based on the establishment of the second start condition, with a predetermined number as an upper limit. Here, it is assumed that the predetermined number is four. Therefore, the storage area 413a can store up to eight pieces of information for special drawing determination. The number of pieces of special view determination information triggered by the establishment of the first and second start conditions in the storage area 413a corresponds to the number of reserved information items U1 and U2, respectively. In addition, for each of the special-image determination information stored in storage area 413a, a priority for receiving the special-image determination is set. Basically, a higher priority is set to the information for special view determination acquired earlier in time. However, it is assumed that a higher priority is set to the special view determination information acquired by the establishment of the second start condition than the special view determination information acquired by the establishment of the first start condition. The prior determination process performed in the starting opening switch process will be described later.

  In the gate switch process, the main control unit 401 acquires the count values of the counters C4 and C5 at the timing when passage of the gaming ball to the gate 108 is detected using the gate SW 515, and the acquired count values of the counters C4 and C5 The common drawing determination information storage area 413b stores the common drawing determination information including the random number per common drawing and the common pattern random number in the common drawing determination information storage area 413b. The storage area 413 b can store the common drawing determination information with the predetermined number as the upper limit. Here, it is assumed that the predetermined number is four. The number of pieces of common drawing determination information in the storage area 413b corresponds to the above-described pending information count U3. A priority order for receiving the common drawing determination is set for each of the common drawing determination information stored in the storage area 413b. A higher priority is set to the information for common drawing determination acquired earlier in time.

  In the special winning opening switch processing, the main control unit 401 detects the gaming ball that has won the special winning opening 111 by means of the special winning opening SW 513. In the normal winning opening switch processing, the main control unit 401 detects the gaming ball having won the normal winning opening 112 by the normal winning opening SW 514.

1-2-3. Special symbol processing]
In the special symbol processing, the main control unit 401 sets the special figure determination information having the highest priority among the special figure determination information stored in the special figure determination information storage area 413a as the determination target TT. It acquires and performs special figure determination on the determination target TT. At this time, the special-pattern determination information that has become the determination target TT is deleted from the storage area 413a. The special view determination includes a special view hit determination, a special view symbol determination, and a special view variation pattern determination. And, in the special symbol processing, after performing the variation display of the special symbol for the variation time indicated by the special figure variation pattern selected by the special figure variation pattern determination, the aspect showing the determination result of the special figure hitting determination and the special figure symbol determination Stop the special symbol. The result of the special view determination can be stored in the main RAM 413. In addition, in the special symbol process, when the information for special figure determination is not stored in the storage area 413a, the special symbol process is finished without performing the special figure determination. Further, the special drawing determination is not performed even when the variation display of the special symbol is performed and the game with the opening of the big winning opening 111 is performed.

  When the variable display of the special symbol is started, the main control unit 401 instructs the effect control unit 403 to start the execution of the change effect by setting the change start command including the result of the special view determination in the main RAM 413, When stopping the fluctuation of the symbol, the effect control unit 403 is instructed to finish the execution of the fluctuation effect by setting the fluctuation stop command in the main RAM 413. These commands set in the RAM 413 are output to the effect control unit 403 in an output process (see FIG. 9) described later.

  Referring to FIG. 10, the determination of the special figure is made using the determination figure table TAt including the low probability special figure determination table TAt1 and the high probability special figure determination table TAt2. Each of the tables TAt1 and TAt2 is configured to have a predetermined determination value associated with the jackpot. When the high probability game flag is set to OFF at the time of the special figure hitting determination, the main control unit 401 performs the special figure hitting determination using the table TAt1, and the high probability game flag is set to ON. In the table, the determination is made based on the special figure using the table TAt2. Then, the main control unit 401 determines that the jackpot is won if the random number per special figure of the judgment target TT matches the judgment value associated with the jackpot, otherwise it is a loss (that is, the jackpot) Not won). The gaming state of the gaming machine 100 is the high probability gaming state when the high probability gaming flag is ON, and the low probability gaming state when the high probability gaming flag is OFF. Here, it is determined that the winning probability of the jackpot (that is, the probability that it is determined to play the jackpot game) will be 1/300, 1/30, respectively, in the low probability gaming state, high probability gaming state, special feature per It is assumed that the table TAt is formed. However, the tables TAt1 and TAt2 shown in FIG. 10 are special-character-per-character determination tables used when the game condition setting value is set to "1". Although the details will be described later, when the game condition setting value is set to a value other than “1”, a special-character-per-judgement determination table is used which has a jackpot probability different from that shown in FIG.

  In addition, the gaming machine 100 may be formed so that a small hit may occur, and in this case, the main control unit 401 also determines a hit of the small hit in the special image hit determination. A small hit is not a big hit, but is a specific loss represented by a special symbol in a mode different from a normal loss (a loss other than a small hit). The main control unit 401 determines that the small winning is won when the random number per special figure of the determination target TT matches the determination value associated with the small hit. For example, the winning probability of the small winning can be set to 1/300 regardless of ON / OFF of the high probability game flag.

  In the special symbol symbol determination, the main control unit 401 compares the special symbol symbol determination table TZt (see FIG. 7) with the special symbol symbol random number of the determination target TT, and based on the comparison result, what symbol is the special symbol Decide whether to stop at. There are multiple types of jackpots, and when a jackpot is won, the type of jackpot is determined based on the comparison result.

  In the special figure fluctuation pattern determination, the special figure fluctuation pattern for the judgment target TT based on the special figure fluctuation pattern table THt (refer to FIG. 7) and the random number per special drawing of the judgment target TT, the special figure symbol random number and the special figure fluctuation pattern random number. Determine The determination of the special figure fluctuation pattern is synonymous with the selection or setting of the special figure fluctuation pattern. A plurality of special figure fluctuation patterns are included in the special figure fluctuation pattern table THt, and one special figure fluctuation pattern for the determination target TT is selected in the special figure fluctuation pattern determination. Each special figure variation pattern defines a variation pattern of the special symbol, and for example, defines a variation time of the special symbol (a length of time during which the variation symbol of the special symbol is displayed).

[Pre-judging process in start port switch process]
Further, in the starting opening switch process, the main control unit 401 executes the prior determination process (see FIG. 9). In the prior determination process, the main control unit 401 sets the special map determination information to be stored and reserved in the special view determination information storage area 413a as the prior determination target, and the special view target prior determination target The hit determination, the special symbol symbol determination and the special figure variation pattern determination are sequentially executed. The method of the special figure hitting determination, the special symbol pattern determination, and the special figure fluctuation pattern determination (these determinations are also collectively referred to as a prior determination) for the prior determination target is the same as those methods for the determination target TT. The result of the prior determination is stored in the main RAM 413. The result of the prior determination is included in the pending increase command (also referred to as a prior determination command), and the pending increase command is set in the main RAM 413 and transmitted to the effect control unit 403 in an output process described later. The hold increase command includes, in addition to the result of the prior determination, information indicating which of the hold information numbers U1 and U2 has increased. The predetermination process for certain special-image determination information is executed in the starting opening switch process before it is stored in the storage area 413a when the special-image determination information is acquired. Therefore, prior determination on any special drawing determination information is performed before the special drawing determination is performed on the special drawing determination information.

1-2-4. Normal symbol processing]
Normal symbol processing (see FIG. 9) will be described. In the normal symbol processing, the main control unit 401 acquires the common drawing determination information set to the highest priority in the common drawing determination information storage area 413 b as the common drawing determination target FF, and the common control judgment in the main ROM 412. Based on the figure judgment table and the common drawing judgment target FF, the common drawing judgment consisting of the common drawing judgment, the common drawing symbol judgment and the common drawing fluctuation pattern judgment is executed, and the fluctuation of the normal symbol based on the result of the common drawing judgment Display and stop display. The common drawing determination information that has become the common drawing determination target FF is erased from the storage area 413b. In the normal symbol processing, when the common drawing determination information is not stored in the storage area 413b, the normal symbol processing is finished without performing the common drawing determination. Further, the common drawing determination is not performed even when the variation display of the normal symbol is performed and the game (auxiliary game) for opening the electric tulip 107 is performed. In the common map hit determination, it is determined whether or not the common map hit has been won. When a win-win is selected, the type of hit-general is determined by the hit-pattern determination. There are per long open and per short open per popular map. The time for which the electric tulip 107 is in the open state is longer at the long open than at the short open. The main control unit 401 displays the variation of the normal symbol only for the variation time based on the result of the common pattern variation pattern determination, and then displays the normal symbol in a stop manner in a manner showing the result of the common pattern determination and the common symbol determination.

[1-2-5. Electric role control processing]
In the motorized prize control process (see FIG. 9), the special winning opening process and the electric chow process are sequentially executed. In the special winning opening process, when the result of the special view determination indicates the winning of the big hit, the big winning opening 111 is opened and closed using the big winning opening opening pattern according to the type of big hit. In the large winning opening pattern table DKt (see FIG. 7), a large winning opening opening pattern defining the opening mode of the large winning opening 111 is stored for each type of big hit. When the gaming machine 100 is formed such that a small hit may occur, the large winning opening opening pattern for small hit is also stored in the large winning opening pattern table DKt, and the result of the special view determination indicates the winning of the small hit. When the game is being played, the big winning opening 111 is opened and closed using the large winning opening opening pattern for small hitting. The main control unit 401 implements the special winning opening process with reference to the table DKt.

  The big hit game with the opening of the big winning opening 111 is started after the special symbol is stopped and displayed in the manner of showing the big hit. In the jackpot game, until the opening time of the large winning opening 111 reaches a specified maximum opening time (predetermined time; for example 30 seconds) or the number of winning game balls to the large winning opening 111 reaches a specified count value (for example 10) A round game in which the big winning opening 111 is opened is executed Rmax times with a predetermined interval period (in other words, interval time) separated. Therefore, it can be considered that the jackpot game is configured to include a round game for Rmax. Rmax represents the number of rounds according to the type of jackpot. Then, when a predetermined ending period (in other words, an ending time; for example, 5 seconds) elapses after the last round game ends, the game state in which the special view determination can be executed is restored.

  Further, during the execution of the big hit game or after the big hit game, the game state setting process (see FIG. 9) is executed in the big winning opening process. In the gaming state setting process, the main control unit 401 sets the states of various gaming flags stored in the main RAM 413, including the high probability gaming flag and the power support gaming flag. As described above, the gaming state of the gaming machine 100 is the high probability gaming state when the high probability gaming flag is ON, and the low probability gaming state when the high probability gaming flag is OFF. The game state of the gaming machine 100 is the power support game state when the power support game flag is ON, and the non-power support game state when the power support game flag is OFF. In the game state setting process during the big winning opening process executed in response to the occurrence of the jackpot, according to the gaming state at the time of jackpot occurrence, the type of jackpot generated, etc., ON of the high probability game flag and the power support game flag The high probability game remaining number X which shows the remaining fluctuation number of the special symbol where the high probability game state is maintained other than / OFF is set, the electricity which shows the remaining fluctuation number of the special symbol where the electric support game state is maintained The support game remaining number J is set in the main RAM 413.

  The high probability game remaining number X set in the game state setting process is decremented by 1 each time the special figure determination is executed when “X ≧ 1”, and becomes “X = 0”. When the high probability game flag is set to OFF, the gaming state of the gaming machine 100 becomes the low probability gaming state. When the number J of power support gaming remaining set in the gaming state setting processing is “J ≧ 1,” it is decremented by “1” each time the special drawing determination is executed, and becomes “J = 0”. When the power support gaming flag is set to OFF, the gaming state of the gaming machine 100 becomes the non-power support gaming state. However, after J = 1 to J = 0 by the execution of the special view determination, the power support game state is maintained until the special symbol is stopped and displayed in a mode indicating the result of the special view determination, and the stop indication It can be in a non-power support gaming state later. In the initial state of the gaming machine 100, the high probability gaming flag and the power support gaming flag are OFF, and the numbers X and J are set to "0".

  Even when the player wins a small hit, a game with the opening of the big winning opening 111 (this is called a small hit game) is executed, but the main control unit 401 is triggered by the win of the small hit. It does not change the gaming state (the jackpot winning probability and the presence or absence of charge support). That is, the gaming state of the gaming machine 100 (the jackpot winning probability and the presence or absence of the electric support provision) does not change between before and after the small winning. In the small hit game, for example, opening by the short opening time (for example, 1.8 seconds or 0.2 seconds) of the big winning opening 111 is repeated one or more times. The short opening time is shorter than the opening time (long opening time) of the big winning opening 111 in each round game of the jackpot game.

  In the electric chow process, the main control unit 401 opens and closes the electric tulip 107 based on the result of the common drawing determination. If the player wins the game, the electric tulip 107 is opened for a predetermined time.

[1-2-6. Prize ball processing]
In the winning ball processing, the main control unit 401 pays out a predetermined number of winning balls for winning on each winning opening of the first starting opening 105, the second starting opening 106, the special winning opening 111, and the normal winning opening 112. The payout instruction for causing the command is set in the main RAM 413 as a payout command.

[1-2-7. Output processing]
In the output process, the main control unit 401 controls each unit (the payout control unit 402 and the effect control unit) connected to the main control unit 401 such as information (including the above-mentioned commands) stored or set in the main RAM 413. (Including 403). The command related to the winning balls is output to the payout control unit 402, and the command related to the effect is output to the effect control unit 403. In the output process, the main control unit 401 transmits to the payout control unit 402 and the effect control unit 403 any information (for example, information indicating the status of the power support game flag and the high probability game flag) that the main control unit 401 recognizes or holds. You can do it. When the output process ends, the timer interrupt process ends, and when the timer interrupt process ends, the process executed by the main control unit 401 returns to the main process (see FIG. 9).

[2. Payout control section]
As described above, the payout control unit 402 pays out the game balls using the payout unit 323 based on the payout instruction (i.e., payout command) from the main control unit 401, and also of each SW connected to the payout control board 302. Perform necessary processing based on the detection result.

[3. Effect control unit]
The effect control unit 403 realizes an arbitrary effect including a fluctuation effect using an effect realizing element (rendering means). That is, the effect control unit 403 causes the effect realizing element to perform a desired effect by controlling the effect realizing element (The subject of the effect in this expression is the effect realizing element, but in the description of the present embodiment, mainly, The effect control unit 403 is considered to be the subject of the effect). The effect implementation element includes all or part of the image display unit 104, the speaker 115, the frame lamp 116, the board lamp 135, the board gimmick 130, the frame gimmick 131, the effect button 121, the cross key 122, and the vibration motor 551. The fluctuation effect refers to the effect performed by the effect control unit 403 during the fluctuation display of the special symbol, and includes the effect that suggests the determination result of the special view determination. It is also possible to understand that the effect executed by the effect control unit 403 at the start of the change of the special symbol or the end of the change of the special symbol is also included in the change effect. It should be noted that suggestions, notices, notices, notices, etc. by the effect may be considered as for the player, unless there is a particular description. In addition, unless there is a description in particular, the display of an arbitrary image and symbols (decorative symbols etc.) under the control of the effect control unit 403 refers to those displays in the image display unit 104, and the output of sound and sound is from the speaker 115. Point to the output of sound, voice.

  The basic processes performed by the effect control unit 403 are listed in FIG. When power is supplied to the effect control unit 403, the effect control unit 403 executes effect main processing. In the effect main process, initial settings of various devices in the effect control unit 403 are performed, and the setting result is stored in the sub RAM 433. The effect control unit 403 interrupts and executes the effect timer interrupt process on the effect main process at a cycle set in the effect main process. In the effect timer interrupt process, the effect control unit 403 sequentially executes an effect random number update process, a command reception process, and an operation reception process.

  The effect control unit 403 is provided with a effect random number counter for counting effect random numbers, and in the effect random number updating process, “1” is added to the count value of effect random number counters for effect random number for effect Update the count value of the counter. In the effect random number counter, when the count value exceeds a predetermined upper limit value, the count value is returned to “0”, and thereafter, the same count up is performed. The count value of the effect random number counter can be referred to as the value of effect random number used in various effects.

  In the command reception process, the effect control unit 403 executes a special figure effect process, a popular figure effect process, and a hit effect process.

  The special view effect process includes an effect start process and an effect end process. The presentation control unit 403 responds to the reception of the fluctuation stop command from the main control unit 401 after starting the fluctuation presentation by executing the presentation start process in response to the reception of the fluctuation start command from the main control unit 401. The fluctuation effect is ended by executing the effect end process. The effect start process includes the variable effect content determination process. In the fluctuation effect content determination process, the effect control unit 403 determines the content of the fluctuation effect based on the effect random number, the command received from the main control unit 401, and the like. Specifically, for example, a variation production pattern table (special figure variation presentation pattern table) including a plurality of variation presentation patterns (special figure variation presentation patterns) defining the contents of the variation presentation for each is stored in advance in the sub ROM 432 In the change effect content determination process, the content of the change effect is determined by selecting and determining one change effect pattern from the change effect pattern table based on the change start command or the like.

  Further, when receiving the increase command from the main control unit 401, the effect control unit 403 stores the information based on the increase command in the hold in the sub RAM 433 and performs the increase process on hold in the command reception process. In the hold increase process, the hold image corresponding to the pre-determination target is additionally displayed on the image display unit 104. The reserved image corresponding to the preliminary determination target is later erased from the image display unit 104 or shifted to a specific display position when the preliminary determination target becomes the determination target TT and the change start command is received later. . Based on the hold increase command, the effect control unit 403 can also perform preview advance notice effects for the pre-determination target.

  The regular drawing effect process (see FIG. 11) is executed by the effect control unit 403 when a command regarding a normal symbol is received from the main control unit 401. At the start and end of variation of the normal symbol, the main control section 401 transmits a command concerning the normal symbol to the effect control section 403. In the ordinary drawing effect processing, the ordinary drawing effect at the time of fluctuation of the normal symbol is executed.

  The hit presentation process (see FIG. 11) is executed by the presentation control unit 403 when a command related to the hit presentation is received from the main control unit 401. That is, for example, when the stop target of the special symbol and the decorative symbol is displayed in a mode in which the determination target TT is elected as a big hit or a small hit and shows a big hit or a small hit, Based on the reception result of the command, the effect control unit 403 transmits a winning effect to be performed during the big hit game or the small hit game.

  In the operation reception process (see FIG. 11), the effect control unit 403 causes the player to operate the effect button 121 or the cross key 122 based on the signal from the effect button 121 or the cross key 122 (input presence / absence of operation and operation Recognize the contents of The effect control unit 403 can perform effects according to the recognized operation state.

<< Types of jackpots >>
FIG. 12 is a diagram showing types of jackpots assumed in the present embodiment. In the present embodiment, there are three types of jackpots: A, B, and A to D. The number of rounds of the through A, through B, the special A and the special C is four, and the number of rounds of the special B and special D is 16. "R" in the jackpot indicates a round. The larger the number of rounds, the more the number of winning balls that can be obtained by winning the large winning opening 111 in the jackpot game, which is more advantageous to the player. Therefore, the jackpot game of the special B and the special D is more advantageous to the player than the jackpot game of the through A, the through B, the special A and the special C. In the special drawing per judgment about the first special symbol (in the special drawing per judgment based on the establishment of the first start condition), when the jackpot is won, the ratio of the jackpot will be through A, special A, special B, They are 35%, 60%, and 5%, respectively, and can not be any of B, C, and D. In the special drawing per judgment about the second special symbol (in the special drawing per judgment based on the establishment of the second start condition), when the jackpot is won, the ratio of the jackpot will be through B, special C, special D, They are 35%, 30%, and 35%, respectively, and do not become any of A, A, and B. The special symbol design determination table TZt is formed such that the type of jackpot for the first and second special symbols is determined by the ratio described above.

  In all round games included in the big hit game, the big winning opening 111 is opened for a predetermined long open time (for example, 30 seconds) in any of the big hit games of through A, through B, and special A to special D. . However, in each round game, when the number of winning game balls to the big winning hole 111 reaches a predetermined value (prescribed count value; for example, 10), the big winning hole 111 is closed and the round game is ended. .

  The jackpot of the special A to the special D belongs to the definite variation jackpot. The “certain variation” means that the gaming state of the gaming machine 100 is a high probability gaming state or a high probability gaming state. After the end of the jackpot game of any one of the special A to the special D, the main control unit 401 sets the gaming state of the gaming machine 100 to the high probability gaming state and the power support gaming state. After setting to the high probability gaming state, the number of times the special symbol changes (that is, the special symbol changes through the fluctuation display) without the occurrence of the next big hit (that is, the next big hit seen from the big hit that occurred immediately before) If the number of times the game is played) becomes equal to or more than the high probability assigned number, the gaming state of the gaming machine 100 is set to the low probability gaming state. After setting to the power support gaming state, the gaming state of the gaming machine 100 is set to the non-power support gaming state when the number of times of fluctuation of the special symbol becomes equal to or more than the number of times of power support provision without generating the next jackpot.

The high probability number of times indicates the number of times of variation of the special symbol in which the high probability gaming state is maintained. That relates to certain jackpot, after completion of the bonus game, while the special symbol is varied by i _k times, low probability gaming state after the gaming state and special symbols are the high probability gaming state fluctuates by i _k times And the number of times of high probability assignment corresponding to the jackpot is i _k (i _k is an integer). Since a jackpot is more likely to occur in the high probability gaming state than in the low probability gaming state, it is more advantageous for the player as the number of times of high probability giving is greater.
The number of times of power support provision refers to the number of times of fluctuation of the special symbol in which the power support game state is maintained. That relates to certain jackpot, after completion of the jackpot gaming, non conductive support game after while, the and special symbol is gaming state and conductive support gaming state fluctuates by i _d times the special symbol is varied by i _d times when it is a state, support grant number electrostatic corresponding to the jackpot is i _d times (i _d is an integer). The start condition is more easily established in the power support game state than in the non-power support game state, so the more the number of power support applications, the more advantageous it is for the player.

  The number of times of high probability provision and the number of times of power support provision for each of the jackpots of the special A to special D are 10000 and 10000, respectively (see FIG. 12). Therefore, when the number of times of variation of the special symbol reaches 10000 times (in other words, the special figure judgment is performed 10000 times), after the end of any of the big hit games of special A to special D, the other big hit does not occur The gaming state of the gaming machine 100 is shifted from the high probability power support gaming state to the low probability non power support gaming state. However, since the winning probability of the jackpot in the high probability gaming state is "1/30" (here, the game condition setting value is "1"), the jackpot game end of any of the special A to special D After that, it can be said that the high probability electric support gaming state is substantially maintained until the next jackpot win.

  The jackpots of Toru A and Toru B usually belong to the jackpot. After the end of the jackpot game of either through A or through B, the main control unit 401 changes the gaming state of the gaming machine 100 to the low probability electric support state until the special symbol changes by the predetermined number of times of electric support provision. After setting and changing the special symbol by the predetermined number of times of charge assistance, the gaming state of the gaming machine 100 is set to the low probability non-power supple gaming state (that is, the normal gaming state). The number of times of charge support for jackpots of A and B is 50 times. In addition, after the jackpot game of Tsuru A or Tsu B, it is not the high probability gaming state but the low probability electric support gaming state, so the number of times of high probability for jackpots of Tsuru A and Tsu B is 0 times. .

  In the gaming state setting process associated with any of the jackpots of Special A to Special D, both the high probability gaming flag and the electric support gaming flag are turned ON, and the high probability gaming remaining count X and the electric support gaming remaining count J “10000” and “10000” are respectively set. In the gaming state setting process associated with the jackpot of either A or B, the high probability game flag is turned OFF while the power support game flag is turned ON and the high probability game remaining number X is set to "0". On the other hand, "50" is set to the number J of power supo gaming remaining. That is, the high probability game remaining number of times X and the power support game remaining number of times J set in the game state setting process to be executed along with a certain jackpot, respectively, the high probability giving number corresponding to the jackpot and the power support given It corresponds to the number of times (see FIG. 12).

  As can be seen from FIG. 12, the special symbol determination based on the establishment of the second start condition is more advantageous for the player than the special symbol determination based on the establishment of the first start condition (ie, more Easy to get many prize balls). The relative advantage here means that the expected value of the number of winning balls obtained by winning in the large winning opening 111 in the jackpot game executed based on the establishment of the second starting condition is executed based on the establishment of the first starting condition It means that it is larger than the expected value of the number of winning balls obtained by the winning of the large winning opening 111 in the jackpot game to be played. "Expected value of the number of winning balls obtained by winning to the large winning opening 111 in the big hit game", expected value of the number of rounds in the big hitting game, or expected maximum value of the total opening time of the large winning hole 111 in big hitting game You may read it as a value.

  With reference to FIG. 13, the flow of the operation relating to the setting of the gaming state and the variation of the special symbol by the main control unit 401 will be described. Among the operations shown in FIG. 13, the operation consisting of steps S112 to S129 is realized in repetition of the timer interrupt process (see FIG. 9).

  First, in step S111, the gaming machine 100 is in the initial state, and in the initial state, the high probability gaming flag and the power support gaming flag are set to OFF and zero in the high probability gaming remaining count X and the power support gaming remaining count J Is set. However, FIG. 13 assumes that a RAM clear process described later is performed in the power-on process when the gaming machine 100 is activated. When the RAM clear process is not performed in the power-on process when the gaming machine 100 is activated, the high probability game flag, the power support game flag, and the remaining times X and J are the states at the previous power-off. Will be returned to

  After step S111, in step S112, it is confirmed whether or not information for special view determination is stored in storage area 413a. The process of step S112 is repeated when the information for special view determination is not stored in storage area 413a, but when one or more information for special view determination is stored in storage area 413a, the highest priority is given. One piece of information for special view determination in which the order is set is acquired as the determination target TT, and the special view determination is performed on the determination target TT in step S113.

  After the special drawing determination in step S113, if the high probability game remaining number X is 1 or more, the number X is subtracted from the number X (Y in step S114, S115), and "X = 0" by subtraction. If so, the high probability game flag is set to OFF (Y in step S116, S117), the process proceeds to step S118, and if "X で あ れ ば 1" after subtraction (N in step S116) the high probability game flag is changed Without proceeding to step S118. After the special drawing determination in step S113, if the number of times X is not 1 or more (N in step S114), the process proceeds to step S118 without changing the number of times X and the high probability game flag.

  In step S118, if the number of remaining power play games J is 1 or more, a process of subtracting 1 from the number J is performed (Y in step S118, S119), and if the result is “J = 0” by subtraction, the power support game flag is set. After setting OFF (Y in step S120, S121), the process proceeds to step S122, and if “J 減 算 1” after subtraction (N in step S120), the process proceeds to step S122 without changing the power support game flag. In step S118, if the number J is not 1 or more (N in step S118), the process proceeds to step S122 without changing the number J and the power support gaming flag.

  When the process proceeds to step S122, the variable display of the special symbol is started, and after the start of the variable display of the special symbol, when the change time according to the result of the special figure change pattern determination included in the special view determination elapses (Y in step S123) The special symbol is stop-displayed in a mode according to the result of the special figure hit determination and the special figure symbol determination included in the special figure determination) (step S124). Then, if the current determination target TT is a big hit (Y in step S125), the process proceeds to step S126, and a big hit game corresponding to the type of big hit is executed, and the current determination target TT is a loss (N in step S125), the process returns to step S112.

  After the jackpot game in step S126, it is checked whether the jackpot generated this time is a probability variation jackpot. If it is a probability variation big hit (Y in step S127), after performing the gaming state setting process of step S128, while returning to step S112, if it is a normal big hit (N in step S127) gaming state setting process of step S129 And return to step S112.

  In the game state setting process of step S128, ON is set to the high probability game flag and the power support game flag, and “10000” and “10000” are set to the high probability game remaining number X and the power support game remaining number J, respectively. Be done. In the gaming state setting process of step S129, the high probability game flag is set to OFF while the power support game flag is set to ON, and the high probability game remaining count X and the power support game remaining count J are respectively. “0” and “50” are set.

<< Description of contents and flow of various effects >>
Next, some effects that can be performed by the effect control unit 403 will be described. After the variation control of the first to n-th decorative symbols is started in synchronization with the start of the variation display of the special symbol in the variation presentation, the effect control unit 403 determines the target TT to be determined in synchronization with the stop of the variation display of the special symbol. The variation display of the first to n-th decorative symbols is stopped in a mode according to the result of the special drawing determination of. Here, n is usually any integer of 2 or more, but may be “n = 1”. In the following, it is assumed that n = 3 unless otherwise noted.

  In FIG. 14A, SZL, SZR, and SZC represent a first decorative symbol, a second decorative symbol, and a third decorative symbol, respectively. The first to third decorative symbols are also referred to as a left symbol, a right symbol, and a middle symbol, respectively. In the image display unit 104, a left symbol display area in which the left symbol is displayed, a right symbol display area in which the right symbol is displayed, and a middle symbol display area in which the middle symbol is displayed are set. Among the left, right and middle symbol display areas, the left symbol display area is located at the leftmost position and the right symbol display area is located at the rightmost position when viewed from the player facing the image display unit 104.

  Referring to FIG. 14 (b), the effect control unit 403 sets each of the first to third decorative symbols to the numbers "1", "2", "3", "," according to the result of the special view determination, etc. The stop display can be made on any of seven types of number symbols with 4 "," 5 "," 6 "and" 7 "and a special symbol different from the number symbol. In addition, you may use the character pattern etc. which the alphabet etc. were provided instead of a number pattern. As the special symbol, there are a symbol which suggests the execution of so-called pseudo rendition, a symbol which suggests the transition to a certain rendering mode, and the like. In the following, 1 symbol, 2 symbol, 3 symbol, respectively, the number symbols with the numbers “1”, “2”, “3”, “4”, “5”, “6”, “7” It may be called 4 symbols, 5 symbols, 6 symbols, 7 symbols.

  In the present embodiment, stopping the i-th decorative symbol in a certain manner means stopping the i-th decorative symbol at a predetermined symbol corresponding to the manner. In addition, stopping and displaying the i-th decorative symbol and the j-th decorative symbol in a common manner means that the i-th decorative symbol and the j-th decorative symbol are stopped and displayed with a common numeric symbol or a common special symbol. (I and j are mutually different integers).

  The effect control unit 403 can stop and display the first to third decorative symbols in the form of zoro eyes or non-zoro eyes according to the result of the special figure determination and the like. "Zoro" refers to a state in which the first to third decorative symbols are aligned with a common numeric symbol on a predetermined effective line. The stop display of the first to third decorative symbols by the Zorro eyes corresponds to an announcement of any jackpot or specific jackpot (a definite indication that a jackpot game will be made). The non-zloated eye refers to a state in which the first to third decorative symbols are not aligned with a common number symbol on a predetermined effective line. The stop display of the first to third decorative symbols by the non-Zoro eyes basically corresponds to the notification of a loss (a definite indication that a jackpot game is not performed).

[Reach production]
The effect control unit 403, in the change effect, based on the result of the special drawing determination for the determination target TT, among the first to third decorative symbols, the variation display of the first and the second decorative symbol common symbol (common aspect It is possible to perform reach effect after performing effect (temporary success effect effect) to temporarily stop at). Here, it is considered that the first and second decorative symbols are a left symbol and a right symbol for the purpose of the description. Then, the effect control unit 403 can perform reach effect after temporarily stopping the fluctuation display of the left symbol and the right symbol with a common symbol (common aspect).

  The temporary stop of the decorative symbol does not strictly stop the decorative symbol, but the player can recognize the decorative symbol as the image display unit 104 in such a manner that the decorative symbol can be recognized as being stopped. It is a variation display mode of the decorative symbol slightly varied above. Specifically, for example, the player recognizes that the i-th decorative symbol is a symbol on which the number "2" is written to temporarily stop the i-th decorative symbol on the symbol on which the number "2" is written. As can be done, it means that the symbol with the numeral “2” is displayed as the i-th decorative symbol and is continuously displayed for a predetermined time or longer while vibrating in a predetermined display area in the image display unit 104 (i is an integer). In addition, in order to avoid confusion with temporary stop, stop display (complete stop display without a slight change) of the decorative symbol in response to the reception of the change stop command may be referred to as main stop. It is understood that the stop display of the decorative symbol during the change display of the special symbol (therefore, during the execution of the change effect) indicates a temporary stop.

The reach effect is an effect based on the result of the special drawing determination on the determination target TT, and indicates that the expectation of execution of the jackpot game on the determination target TT is higher than the predetermined expectation KT _REF . The degree of expectation of execution of the jackpot game (hereinafter also referred to as the degree of expectation of the jackpot) is the probability (statistical probability) that one information for special figure judgment (here, the judgment target TT) focused on has won the jackpot Represents If a specific effect is performed on one focused information for special drawing determination, the jackpot expectation for the special image determination information is the jackpot for the specific effect (the specific effect is It can also be said that the allocated special image determination information is the probability of winning a jackpot). The predetermined expected degree KT _REF may be an expected degree greater than or equal to 0 and less than 1. For example, it indicates a probability OTK predetermined as a jackpot probability, or a predetermined value larger than the probability OTK. (Eg, five times the probability OTK). The probability OTK is "1/300" if the special figure determination is performed in the low probability gaming state, and is "1/30" if the special figure determination is performed in the high probability gaming state (however, It is assumed that the gaming condition setting value is "1" (see FIG. 10). In the fluctuation production, the execution of the reach production is higher than the non-execution of the reach production (in other words, the fluctuation production including the reach production is more than the fluctuation production without the reach production), the expectation of the jackpot of the judgment target TT is high. You may think that it suggests.

Effect Q ₂ to which is performed for a certain one of JP diagram determination information Q ₁ is, it may suggest the expectations jackpot. For any one of JP diagram determination information Q _1, the probability effect Q ₂ is performed on the special symbol determination information Q ₁ and result is a "loss" of the hit determination special symbol in "r" represents the result of the hit determination special symbol is represented by a probability effect Q ₂ is performed a "big hit" against and special symbol determination information Q ₁ "v". Then, the expectation of the jackpot of the special view determination information Q ₁ and the expectation of the jackpot indicated by the effect Q ₂ are represented by an expectation calculation formula “(100 × v / (r + v)) [%]”. .

  Referring to FIG. 15, in the change effect including the reach effect, after the start of the change display of the first to third decorative symbols (corresponding to SZL, SZR, SZC in FIG. 15), after the arbitrary effect, the first and the second (2) A temporary stop is performed in a state where the decorative symbols are aligned with a common symbol (the symbol "2" in FIG. 15), and then a predetermined reach effect is performed. In the reach effect, for example, a task in the game (such as a task in which the main character defeats the enemy character in the game) occurs, and a show is executed to indicate whether or not the task is achieved. Before the reach effect is performed, when temporarily stopping the first and second decorative symbols with a common symbol, the first and second decorative symbols are displayed so that the player can easily see the first and second decorative symbols. It is temporarily stopped at a predetermined large size. While the reach effect is being executed, for example, the small-sized first and second decorative symbols aligned with a common symbol for viewing the reach effect are, for example, the corners of the image display unit 104 (FIG. 15). Temporarily stopped at the upper left corner) (small size is smaller than the above-mentioned large size). During execution of the reach effect, the third decorative symbol may be variably displayed in a small size (variation display faster than the first and second decorative symbols) in any display area in the image display unit 104. In addition, the small sized first to third decorative symbols may be continuously displayed regardless of whether the reach effect is being performed.

  When the determination target TT wins a jackpot of any type, an effect (for example, a display of a moving image showing a state in which the main character wins the enemy character) indicating that the task in the game is achieved is performed. Along with the large-sized first to third decorative symbols are temporarily displayed in the vicinity of the center of the image display unit 104 in the form of the scorpion, and when the change stop command is received, the large-sized first to third decorative symbols have sloppy eyes It is stopped and displayed in the mode of. On the other hand, when the judgment target TT is a loss, an effect (for example, a display of a moving image showing a state in which the main character loses the enemy character) showing a state that the task in the game is not achieved is performed. The first to third decorative symbols are temporarily displayed in the vicinity of the center of the image display unit 104 in a non-Zoro manner, and when the change stop command is received, the large-sized first to third decorative symbols are in a non-Zoro manner Stop display. The reach effect shown in FIG. 15 is only an example of the reach effect. The gaming machine 100 can execute a plurality of reach effects different in content from one another.

[Gimmic production]
FIGS. 16A and 16B show a board gimmick effect and a frame gimmick effect which the effect control unit 403 can perform during the fluctuation effect or during the big hit game. Each of the board gimmick effect and the frame gimmick effect is a type of movable effect, and in the movable effect, at least one of the position and the form of the movable member is changed by driving the movable member (the board gimmick 130 and the frame gimmick 131).

  With regard to the board gimmick 130, a state in which the board gimmick 130 is disposed at a predetermined origin position (that is, a state in which the position of the board gimmick 130 coincides with the origin position) is referred to as a reference placement state, and the board gimmick 130 is at the origin position. A state where the game is arranged at a predetermined advance position different from the above (i.e., a state where the position of the board gimmick 130 coincides with the advance position) is referred to as an advanced state. Similarly, with regard to the frame gimmick 131, a state in which the frame gimmick 131 is disposed at a predetermined origin position (that is, a state in which the position of the frame gimmick 131 coincides with the origin position) is referred to as a reference disposition state. A state in which the position is arranged at a predetermined advancing position different from the origin position (that is, a state in which the position of the frame gimmick 131 coincides with the advancing position) is referred to as an advancing state.

  The state of the board gimmick 130 is basically set as the reference placement state, and the board gimmick 130 is placed at the advanced position only at the necessary timing. Similarly, the state of the frame gimmick 131 is basically set as the reference placement state, and the frame gimmick 131 is placed at the advanced position only at the necessary timing. The origin position for the board gimmick 130 and the origin position for the frame gimmick 131 are different from each other, and the advancing position for the board gimmick 130 and the advancing position for the frame gimmick 131 are also different from each other. The position of the board gimmick 130 refers to the position of a predetermined part of the board gimmick 130, and in this case, is the center or center of gravity of the board gimmick 130. The position of the frame gimmick 131 refers to the position of a predetermined part of the frame gimmick 131, and here, is assumed to be the center or the center of gravity of the frame gimmick 131.

In the board gimmick effect, the state of the board gimmick 130 is shifted from the reference arrangement state to the fork state by moving the board gimmick 130 forward, and the state of the board gimmick 130 is maintained after maintaining the advance state of the board gimmick 130 for a predetermined time. Return to the standard placement state.
In the frame gimmick effect, the state of the frame gimmick 131 is shifted from the reference arrangement state to the advanced state by moving the frame gimmick 131 forward, and the state of the frame gimmick 131 is maintained after maintaining the advanced state of the frame gimmick 131 for a predetermined time. Return to the standard placement state.

[Button effect]
The effect control unit 403 can execute button effect at any timing based on the result of the special view determination or the prior determination. The button effect is an effect performed using the effect button 121.

  With reference to FIG. 17 (a) and (b), the button presentation performed during the fluctuation display of a special symbol and a decoration symbol is demonstrated. In the button effect, the effect control unit 403 sets an operation effective period having a predetermined time length during the execution period of the fluctuation effect (in other words, the execution period of the fluctuation display of the special symbol and the decorative symbol). The operation valid period indicates a period in which the operation by pressing the effect button 121 is valid. When the effect button 121 is not pressed during the operation effective period, the effect control unit 403 displays an image for prompting the player to input an operation on the effect button 121 on the image display unit 104.

  For example, as shown in FIG. 17B, the image for prompting the player to input an operation to the effect button 121 has a button image 1120 imitating the effect button 121 and an effective period indicating the operation effective period of the effect button 121 The image 1121 is included. Then, the effect control unit 403 monitors whether or not the effect button 121 is pressed during the operation valid period, and when the effect button 121 is pressed during the operation valid period (more specifically, pressing of the effect button 121 is In the case where it is detected), in response to the pressing, a predetermined operation corresponding presentation is performed. Usually, the operation corresponding presentation is performed immediately after the presentation button 121 is pressed. The button effect includes at least a button prompting effect by the display of the button image 1120 and the valid period image 1121 and an operation corresponding effect according to the pressing of the effect button 121. In addition, in the button effect, when the effect button 121 is not pressed within the operation effective period, the effect control unit 403 may perform the operation corresponding effect after the expiration of the operation effective period.

  The operation corresponding presentation may be presentation based on the result of the special drawing determination. That is, for example, the operation corresponding presentation may be a notice presentation that indicates the expectation of the jackpot about the result of the special view determination. The advance notice may take various forms such as display of a cut-in image, conversation notice effect, and the like. The operation-responsive effect may be a winning effect of finally notifying (specifying) whether or not the result of the special view determination is a jackpot. However, the operation-responsive effect may be an effect based on the result of the prior determination. In the example of FIG. 17B, the first to the small size in the period in which the button effect is performed (including the period in which the button prompt effect is performed and the period in which the operation corresponding effect is performed). The variable display of the third decorative symbol (corresponding to KZ in FIG. 17B) is performed.

<< Power-on processing >>
The power-on process executed by the main control unit 401 at power-on will be described in detail with reference to FIG. FIG. 18 is a flowchart of power-on processing. The process of each step shown in FIG. 18 forming the process at the time of power on is executed by the main control unit 401.

  In the power-on process, first, in step S151, it is checked whether the current power-on is the power-on accompanied by the setting change mode start operation. The operation mode of the gaming machine 100 is one of an initial mode, a setting change mode, and a gaming mode. Immediately after the power is turned on, the operation mode of the gaming machine 100 is the initial mode, and then the setting change mode is passed from the initial mode to the transition to the game mode (that is, when passing through step S152). There are times when the game mode is entered without passing through the mode (that is, when not passing through step S152). Only in the setting change mode, the game condition setting value can be changed.

As described above (see FIG. 6), the setting operation unit 416 and the setting display LED 417 are provided on the back of the main control board 301, and the setting change mode is activated using the setting operation unit 416 and the setting display LED 417 The setting operation of the condition set value is performed.
The setting operation unit 416 is an operation means that can not be operated by the player, and is an operation means that can be operated only by a manager of the gaming machine 100 (such as a store clerk at a game arcade). The setting operation unit 416 can receive a plurality of types of operations from the administrator of the gaming machine 100 (including the setting change mode activation operation described above, and the setting OK operation described later, the setting value change instructing operation and the determination operation). It is optional if it is an operation means, and it comprises, for example, one or more push button switches.
The setting display LED 417 is arranged at a position invisible to a player who plays a game in the gaming machine 100. In a state where the inner frame 11 is open with respect to the outer frame 10, the setting display LED 417 is disposed at a position where the administrator of the gaming machine 100 can visually recognize.

  When the power switch 445 is switched from the off state to the on state while performing the setting change mode activation operation on the setting operation unit 416 (for example, while pressing the setting change mode activation button provided on the setting operation unit 416), step S151 The process proceeds from step S152 to step S152. On the other hand, when the power switch 445 is switched from the off state to the on state without accompanying the setting change mode start operation to the setting operation unit 416, or the setting change mode start to the setting operation unit 416 due to recovery from an unexpected power failure or the like. If the gaming machine 100 is switched from the power off state to the power on state without any operation, the process proceeds from step S151 to step S171.

  If it transfers to step S152, the process of step S152-S155 will be performed one by one. In step S152, the operation mode of the gaming machine 100 is set to the setting change mode, and access to the main RAM 413 is permitted. In step S153, the main CPU 411 performs a RAM clear process of discarding and initializing the stored content of the main RAM 413 except for the stored content of the game condition setting value storage area 413c (see FIG. 8). By the RAM clear processing, the game information of the gaming machine 100 is initialized except for the storage contents of the storage area 413c, and the gaming machine 100 is in an initial state. In step S154, the main CPU 411 reads the game condition setting value stored in the game condition setting value storage area 413c. When the gaming machine 100 is shipped from the factory, a predetermined value (for example, 1) is substituted for the gaming condition setting value of the storage area 413c.

  In step S155, the main CPU 411 confirms whether the read gaming condition setting value is an integer within a predetermined normal range. The game condition setting value is designed to be an integer of 1 or more and 6 or less. Therefore, the normal range is one or more and six or less. If the gaming condition setting value read out is not an integer within the normal range (N in step S155), the initial value "1" is substituted for the gaming condition setting value in step S156, and then the process proceeds to step S157. If the game condition setting value is an integer within the normal range (Y in step S155), the process proceeds directly from step S155 to step S157.

  In step S157, the main CPU 411 displays setting value information indicating the current game condition setting value on the setting display LED 417. For example, the setting display LED 417 may be configured of a 7-segment LED display. In this case, setting value information indicating the current game condition setting value is displayed as a numerical value on the 7-segment LED display. However, the setting display LED 417 may be any display device as long as the setting value information can be indicated visually.

  In step S158 following step S157, the main CPU 411 confirms whether a predetermined setting OK operation has been input to the setting operation unit 416. In step S158, when a predetermined setting OK operation is input to the setting operation unit 416 (for example, when the determination button provided on the setting operation unit 416 is pressed), the process proceeds to step S163. When that is not right, it transfers to step S159.

  In step S159, the main CPU 411 confirms whether a predetermined setting value change instruction operation is input to the setting operation unit 416, and when the setting value change instruction operation is input to the setting operation unit 416 (for example, If the change button provided on the setting operation unit 416 is pressed), the process proceeds to step S160, and if not, the process returns to step S157.

  In step S160, the main CPU 411 confirms whether the current game condition setting value is an integer within a predetermined range. The predetermined range here is a range of 1 or more and 5 or less. If the current game condition setting value is not an integer within the predetermined range (N in step S160), the game condition setting value is substituted with “0” in step S161 and then the process proceeds to step S162. If the game condition setting value is an integer within the predetermined range (Y in step S160), the process proceeds directly from step S160 to step S162. In step S162, the main CPU 411 adds "1" to the current game condition setting value, and then returns to step S157.

  In step S163, in which transition is made when there is a confirmation OK operation in step S158, the main CPU 411 confirms whether a predetermined confirmation operation has been input to the setting operation unit 416, and if there is an input of the confirmation operation, the process proceeds to step S164. move on. For example, in the setting change mode, when the determination button provided on the setting operation unit 416 is pressed twice consecutively, it is determined that the setting OK operation and the setting operation are input, and the process proceeds to step S164. However, different setting buttons and setting buttons may be provided in the setting operation unit 416, and the setting OK operation and the setting operation may be received by the setting button and the setting button, respectively.

  In step S164, the main CPU 411 writes (that is, saves) the gaming condition setting value at the timing when the finalizing operation is received in the gaming condition setting value storage area 413c, and then sequentially executes the processing of steps S165 to S168. In step S165, the main CPU 411 transmits a third power supply recovery command to the effect control unit 403, and performs initialization processing in step S166. The initialization process of step S166 includes a RAM clear process for discarding and initializing the stored contents of the main RAM 413 except for the stored contents of the game condition setting value storage area 413c, and also includes various necessary processes.

  In the initial mode and the setting change mode, interrupt execution of timer interrupt processing (see FIG. 9) is prohibited. In step S167, the main CPU 411 permits interrupt execution of the timer interrupt process (see FIG. 9) and switches the operation mode of the gaming machine 100 from the setting change mode to the game mode, and thereafter the power-off determination processing in step S168. And interrupt execution of the timer interrupt process periodically.

  The main control board 301 or the power supply board 304 is provided with a voltage detection unit (not shown) for detecting the voltage value of the power supply voltage supplied from the power supply board 304 to the main control board 301. The voltage detection unit outputs a low level voltage detection signal to the main control unit 401 when the detected voltage value is less than or equal to a predetermined power-off threshold, otherwise the main control unit 401 has a potential higher than the low level. Output a high level voltage detection signal. During the stable operation of the gaming machine 100, the voltage value of the power supply voltage supplied from the power supply substrate 304 to the main control substrate 301 is larger than the power-off threshold. In the power-off determination process, the level of the voltage detection signal from the voltage detection unit is constantly monitored, and when the level of the voltage detection signal becomes low, the above-described power-off process (see FIG. 9) is performed.

  Next, the flow of the operation at the time of shifting from step S151 to step S171 will be described. In step S171, it is checked whether the power-on at this time is the power-on accompanied by the RAM clear operation. The RAM clear operation is an operation of pressing the RAM clear SW 415 configured by a push button switch or the like. The RAM clear SW 415 is an operation means which can not be operated by the player provided on the back of the main control board 301, and is an operation means which can be operated only by the administrator of the gaming machine 100 (salesman etc. of the game arcade). .

  If the power switch 445 is switched from the off state to the on state without performing the setting change mode activation operation and performing the RAM clear operation, the process proceeds to step S172 through steps S151 and S171. On the other hand, when the power switch 445 is switched from the off state to the on state without the setting change mode start operation and the RAM clear operation, or the setting change mode start operation and the RAM clear operation are accompanied by recovery from an unexpected power failure or the like. If the gaming machine 100 is switched from the power off state to the power on state, the process proceeds to step S174 through steps S151 and S171.

  If the process proceeds to step S172, the processes of steps S172 and S173 are performed, and then the process proceeds to step S176. If the process proceeds to step S174, the processes of steps S174 and S175 are performed and then the process proceeds to step S176.

  In step S172, the main CPU 411 transmits a second power supply recovery command to the effect control unit 403, and in step S173, permits access to the main RAM 413 and performs the same initialization processing as in step S166. That is, the initialization processing in step S173 includes RAM clear processing for discarding and initializing the storage content of the main RAM 413 except for the storage content of the game condition setting value storage area 413c, and also includes various necessary processing.

  In step S174, the main CPU 411 transmits a first power recovery command to the effect control unit 403, and performs power recovery processing in step S175. In the power recovery process of step S175, the access to the main RAM 413 is permitted, and the data check of the checksum storage area of the main RAM 413 (for example, the data check using the checksum stored in the power-off process) is performed. Do. When the process of step S175 is completed, the state of the gaming machine 100, including the storage content of the main RAM 413, returns to the state at the time of unexpected power failure.

  After the processing of step S173 or S175, in step S176, the main CPU 411 permits interrupt execution of the timer interrupt processing (see FIG. 9) and switches the operation mode of the gaming machine 100 from the initial mode to the gaming mode. The timer interrupt process is periodically interrupted and executed while the power-off determination process in step S177 is continuously executed. The power failure determination process of step S177 is the same as that of step S168.

  The transmission timing of the third power supply recovery command in the case where the process proceeds from step S151 to step S152 is not limited to the one described above. That is, in the case where the process proceeds from step S151 to step S152, the transmission timing of the third power supply recovery command from the main control unit 401 to the rendering control unit 403 is arbitrary timing from the transition to step S152 to step S167. Good.

  Further, the main RAM 413 may be considered to be configured by a first main RAM having a storage area other than the game condition setting value storage area 413c and a second main RAM having a game condition setting value storage area 413c. At this time, the first main RAM and the second main RAM may be two physically separated RAMs.

  The special symbol process shown in FIG. 9 is executed only after the interrupt execution of the timer interrupt process is permitted in step S167 or S176, so that the player can play the game in the initial mode, the setting change mode, and the game. Of the modes, it is possible to execute only in the game mode (in other words, the initial mode and the setting change mode are modes in which the game can not be played), for example, firing of the game ball toward the game area 103 is also only in the game mode It may be a viable one.

  In the game mode, the main control unit 401 may hide the setting value information in the setting display LED 417. This is in order to eliminate the possibility that the setting value information is visually recognized by the player when the inner frame 11 is opened for the elimination of the ball breakage and the like. In order to realize this, in the game mode, the setting display LED 417 may be turned off, or a setting display LED 417 does not display setting value information (for example, "-" display on a 7-segment LED display). You may do so. However, depending on the installation position or the like of the setting display LED 417, setting value information may be displayed on the setting display LED 417 even in the game mode.

<< The jackpot probability based on the game condition setting value >>
In the gaming mode, the winning probability of the jackpot in the low probability gaming state and the high probability gaming state changes depending on the gaming condition setting value stored in the gaming condition setting value storage area 413c. It is only the jackpot winning probability that changes depending on the game condition setting value, and otherwise the operation of the gaming machine 100 does not depend on the game condition setting value including the effect to be executed. Here, in the low probability gaming state and the high probability gaming state, the larger the game condition setting value, the higher the winning probability of the big hit. However, the ratio RT of the jackpot probability in the high probability gaming state to the jackpot probability in the low probability gaming state is constant regardless of the game condition setting value.

  FIG. 19 shows the relationship between the game condition setting value and the jackpot winning probability assumed in the present embodiment. That is, the winning probability of the jackpot in the low probability gaming state, when the gaming condition setting value is 1, 2, 3, 4, 5, 6, respectively, 1/300, 1/290, 1/280, 1 / The winning probability of the jackpot in the high probability gaming state is set to 275, 1/260, 1/250, and 1/30, respectively, when the game condition setting value is 1, 2, 3, 4, 5, 6. The values are 1/29, 1/28, 1 / 27.5, 1/26, and 1/25. In this case, the ratio RT is constant "10" regardless of the game condition setting value.

  In the present embodiment, the game condition setting value is variably set in six levels, but the number of stages of variable setting of the game condition setting value may be any number as long as it is two or more.

  In addition, the gaming machine 100 may be configured such that there is no concept of the game condition setting value, and the jackpot probability in the low probability gaming state and the high probability gaming state can not be changed. In this case, the description relating to the setting change mode start operation described above or described later is ignored, and the setting operation unit 416 and the setting display LED 417 can be omitted from the main control board 301. Therefore, the process always proceeds to step S172 or S174 through step S171.

  Each operation of the gaming machine 100 shown below may be understood to be in the gaming mode unless there is a particular description (however, the operation mode of the gaming machine 100 is the above when the power-on process is performed) Initial mode or setting change mode as in

<< Operation of production control unit with power restoration >>
Referring to FIG. 20, after receiving power supply and starting up, when receiving a power recovery command from main control unit 401, effect control unit 403 executes a power recovery effect process. In the present embodiment, when the power supply recovery command is simply referred to, it refers to any one of the first, second and third power supply recovery commands. The power recovery effect processing includes recovery display processing for causing the image display unit 104 to perform predetermined recovery display, and effect means initial operation processing for causing the plurality of effect elements to operate with a predetermined operation pattern. The recovery indication may include a display of information related to power recovery or power on.

  An example of the recovery display is shown in FIG. In the restoration display of FIG. 21A, a predetermined image 1151 including the characters “power restoration in progress” is displayed on the image display unit 104. In the present embodiment, when simply referred to as recovery display and recovery display processing, they are recovery display and recovery display processing based on any one of the first, second and third power recovery commands. Point to When the recovery indications based on the reception of the first, second and third power supply recovery commands are distinguished from each other, the recovery indications based on the reception of the first, second and third power supply recovery commands are respectively the first, second and third In the case where the recovery display processing based on the reception of the first, second, and third power supply recovery commands is referred to as "second, third recovery display," similarly to the first, second, and third power supply recovery commands. Recovery display processing based on reception is referred to as first, second and third recovery display processing, respectively.

  The display contents of the image display unit 104 in the restoration display may be common to the first, second and third restoration displays, and in this case, for example, in any of the first, second and third restoration displays. An image 1151 as shown in FIG. 21 (a) may be displayed.

  The display contents of the image display unit 104 in the restoration display may be mutually different between the first and second restoration displays, and may be common to each other between the second and third restoration displays. In this case, for example, the image 1151 shown in FIG. 21 (a) is displayed on the image display unit 104 in the first restoration display, and the characters “RAM clear + power restoration” as shown in FIG. 21 (b) in the second and third restoration displays. A predetermined image 1152 including “middle” is displayed on the image display unit 104.

  The display contents of the image display unit 104 in the restoration display may be common to each other between the first and second restoration displays, and may be different from each other between the second and third restoration displays. In this case, for example, the image 1151 shown in FIG. 21A is displayed on the image display unit 104 in the first and second restoration displays, and the character “setting change + power restoration” is displayed in the third restoration display as shown in FIG. A predetermined image 1153 including “middle” is displayed on the image display unit 104.

  The display content of the image display unit 104 in the restoration display may be different between the first, second and third restoration displays. In this case, for example, in the first, second and third restoration displays, the image 1151 of FIG. 21 (a), the image 1152 of FIG. 21 (b), and the image 1153 of FIG. indicate.

The images 1151 to 1153 are different from each other.
The image 1151 includes first information related to power recovery or power on. The first information indicates that the gaming machine 100 has been activated by the supply of drive power to the gaming machine 100, and that predetermined processing (including presentation means initial operation processing) to be performed upon the activation is being executed. Show.
The image 1152 includes the first information described above and the second information indicating that the RAM clear processing has been performed, but may include the second information and may not include the first information.
The image 1153 includes the first information described above and third information indicating that setting (which may include a change) of the game condition setting value has been performed, but includes the third information and includes the first information. It may not be included or may further include the second information.

  In the first to third restoration displays, a predetermined color test pattern image may be displayed for a certain period of time before displaying the image 1151, 1152 or 1153. Further, the display contents of the image display unit 104 in the restoration display may be common to each other between the first and third restoration displays, and may be different from each other between the first and second restoration displays.

  Referring to FIG. 21D, in the power recovery effect processing based on the reception of the second power recovery command, a recovery sound output (for example, the second recovery output for causing the speaker 115 to output a predetermined sound along with the recovery display (second recovery display). Output of voice representing information is performed. In the power recovery effect processing based on the reception of the third power recovery command, a recovery sound output (for example, an audio output representing the third information) for causing the speaker 115 to output a predetermined sound is performed along with the recovery display (the third recovery display). It will be. In the power recovery effect processing based on the reception of the first power recovery command, a recovery sound output that causes the speaker 115 to output a predetermined sound is not performed. However, in the power recovery effect processing based on the reception of the first power recovery command, a recovery sound output (for example, an audio output representing the first information) that causes the speaker 115 to output a predetermined sound together with the recovery display (first recovery display). May do. The contents of the recovery sound output that can be performed may be different from each other or may be common to each other between the power recovery effect processing based on the reception of the first, second and third power recovery commands. They may be partially different and partially common. Any one or more of the power recovery effect processing based on the reception of the first power recovery command, the power recovery effect processing based on the reception of the second power recovery command, and the power recovery effect processing based on the reception of the third power recovery command In the power recovery effect processing of the above, recovery sound output may not be performed.

  In the rendering means initial operation process, a plurality of rendering means including the frame lamp 116, the board lamp 135, the board gimmick 130 and the frame gimmick 131 are operated in a predetermined pattern. That is, for example, in the rendering means initial operation processing, the frame lamp 116 and the board lamp 135 are emitted along a predetermined pattern, and the board gimmick 130 is driven in the same manner as the board gimmick effect (FIG. 16A) and the frame The gimmick 131 is driven in the same manner as the frame gimmick effect (FIG. 16 (b)), and various operations that can be used in the effect (for example, protrusion drive of the effect button 121 and ejection of air) are performed on a test basis. .

  It is preferable that the rendering means initial operation process is performed for a predetermined time, and that recovery display is performed while the rendering means initial operation process is being performed. The contents of the effect means initial operation process are common to each other between the power supply recovery effect processes based on the reception of the first, second or third power supply recovery command. However, the contents of the effect means initial operation process may be different from each other between the power recovery effect processing based on the reception of the first, second and third power recovery commands, or may be partially different from each other. May be common.

The execution period of the recovery display will be described with reference to FIG. The timing at which the effect control unit 403 receives the power recovery command is represented by Ta. The effect control unit 403 starts the recovery display from the timing Ta, and in principle ends the recovery display at a timing Tb when a predetermined time t _{HK has} elapsed from the timing Ta, and the timing Tb causes the image display unit 104 to Display customer waiting display. That is, in principle, the recovery display is continuously executed between the timing Ta and Tb. Here, the time t _HK is assumed to be 20 seconds for the sake of concrete description, but the specific numerical value may be changed variously. The decorative symbol is not displayed on the image display unit 104 while the restoration display is being performed.

  Due to the occurrence of unforeseen power failure etc., transitioning from the power off state to the power on state with the variation display of special symbol or with the number of pending information U1 or U2 being 1 or more during transition display of the special symbol There is a case back. The behavior of the gaming machine 100 in the power recovery case DH1 to DH3 including such a case will be described.

  FIG. 23 shows the behavior of the gaming machine 100 in the power recovery case DH1. In the power supply restoration case DH1, special drawing determination is performed on a single special drawing determination information 1210 (the special drawing determination result during the special drawing determination is assumed to be lost), and the special drawing determination is performed. The special figure fluctuation pattern that specifies that the fluctuation time of the special symbol is 50 seconds is selected by the special figure fluctuation pattern determination in the middle, the fluctuation display of the special symbol by the special figure fluctuation pattern is started at timing 1212 and the timing At the timing 1213 after the lapse of 12 seconds from 1212, the state of the gaming machine 100 changes from the power-on state to the power-off state due to the occurrence of a power failure. At the same time, the main power control unit 401 transmits a first power recovery command to the effect control unit 403 by executing the power-on process. Further, it is assumed that “U1 = U2 = 0” at timing 1213, and there is no entry of gaming balls into the starting openings 105 and 106 after the tying 1214. Between the timings 1212 and 1213, a fluctuation effect (including a fluctuation display of a decorative symbol) based on the result of the special drawing determination on the special drawing determination information 1210 is performed.

  By the power-off process executed at timing 1213 (strictly, immediately before timing 1213), “U1 = U2 = 0” in addition to the result of the special view determination for the special view determination information 1210. And, the variation time of the special symbol for the special view determination information 1210 is 50 seconds, of which only the variation display for 40 seconds is performed (ie, the variation display of the special symbol for 10 seconds Is not executed) and the like are stored and protected in the main RAM 413.

  In the power recovery process (S175 in FIG. 18) during power-on processing at timing 1214, the stored contents of the main RAM 413 are read from the main CPU 411, and the gaming machine 100 returns to the state at the time of the power failure. For this reason, the main control unit 401 resumes the remaining variable display for 10 seconds in the variable display of the special symbol with respect to the special view determination information 1210. The restart timing of the variable display may be a timing (for example, one second later) slightly after the timing 1214, but it is assumed that the time taken for the power-on process is negligible, and the explanation will be simplified here. , And is the same as the timing 1214. Then, at timing 1215 which is 10 seconds after timing 1214, the variation display of the special symbol with respect to the special drawing determination information 1210 ends, and the special symbol is stopped and displayed in a mode representing the result of the special drawing determination.

On the other hand, the effect control unit 403 that has received the first power recovery command from the main control unit 401 through the power-on process at timing 1214 performs the power recovery effect process including the recovery display process and the rendering means initial operation process as described above. Run. The execution start timing of the recovery display may be a timing slightly later than the timing 1214 (for example, after one second), but here, for simplification of the description, it is assumed to be the same as the timing 1214. Then, recovery display is performed only from time 1214 to time t _HK (here, 20 seconds). That is, between the timings 1214 and 1215, the recovery display is performed without performing the fluctuation presentation (including the fluctuation display of the decoration symbol) based on the result of the special drawing judgment on the special drawing judgment information 1210. Then, after the timing 1216 when the time t _HK has elapsed from the timing 1214, a customer waiting display is performed.

In the power supply recovery case DH1, the following modifications are possible (note that the numerical values shown in the description of the modifications are specific to the description and can be arbitrarily changed).
Regarding the first modification to the power supply recovery case DH1, the effect control unit 403 receives the fluctuation stop command from the main control unit 401 at timing 1215, but ends the recovery display when the fluctuation stop command is received. You may. In this case, when receiving the change stop command, the effect control unit 403 may perform stop display of the decorative symbol in a mode indicating the result of the special view determination on the special view determination information 1210 without delay.
With regard to the second modification to the power supply restoration case DH1, the main control part 401 is the remaining one of the variation display of the special symbol for the special view determination information 1210 from the timing when 3 seconds corresponding to the preparation time has elapsed from the timing 1214. The variable display for 10 seconds may be resumed. When the restart is performed, the main control unit 401 may transmit a change restart command indicating change restart of the special symbol to the effect control unit 403. In this case, the effect control unit 403 performs the power recovery command at timing 1214. Recovery display is performed during the period from the reception of the change restart command to the reception of the change restart command, and when the change restart command is received, the recovery display is ended, and the special view judgment information 1210 is thereafter received until the change stop command is received. Variation presentation (including variation indication of a decorative symbol) may be performed based on the result of the special figure determination of.

  FIG. 24 shows the behavior of the gaming machine 100 in the power recovery case DH2. In the power supply restoration case DH2, special drawing determination is performed on a single special drawing determination information 1220 (assuming that the result of the special drawing determination during the special drawing determination is lost), the special drawing determination is performed. The special figure fluctuation pattern which prescribes that the fluctuation time of the special symbol is 50 seconds is selected by the special figure fluctuation pattern judgment inside, the fluctuation indication of the special symbol with the particular figure fluctuation pattern is started with timing 1222, timing The state of the gaming machine 100 changes from the power-on state to the power-off state by the occurrence of a power failure at timing 1223 after the lapse of 122 seconds from 1222, and at the subsequent timing 1224, the power is restored and the gaming machine 100 returns to the power-on state. At the same time, the main power control unit 401 transmits a first power recovery command to the effect control unit 403 by executing the power-on process. Further, it is assumed that "U1 = 1" and "U2 = 0" at timing 1223, and that there is no entry of the game ball into the starting openings 105 and 106 after the tying 1224. Between the timing 1222 and 1223, a fluctuation effect (including a fluctuation display of a decorative symbol) based on the result of the special drawing judgment on the special drawing judgment information 1220 is performed.

  The power-off process executed at timing 1223 (strictly, immediately before timing 1223) causes “U1 = 1” and “U2 = 0” in addition to the result of the special view determination for the special view determination information 1220. And that the variation time of the special symbol with respect to the special-image determination information 1220 is 50 seconds, and only the variation display for 40 seconds is performed among them (ie, 10 seconds That the variable display of the symbol is not executed) is stored and protected in the main RAM 413.

  In the power recovery process (S175 in FIG. 18) during power-on processing at timing 1224, the stored contents of the main RAM 413 are read from the main CPU 411, and the gaming machine 100 returns to the state at the time of the power failure. For this reason, the main control unit 401 resumes the remaining variable display for 10 seconds in the variable display of the special symbol with respect to the special view determination information 1220. The restart timing of the variable display may be a timing (for example, one second later) slightly after the timing 1224, but it is assumed that the time taken for the power-on process is negligibly small, and the explanation will be simplified here. , And is the same as timing 1224. Then, at timing 1225 which is 10 seconds after timing 1224, the variation display of the special symbol with respect to the special drawing determination information 1220 ends, and the special symbol is stopped and displayed in a mode representing the result of the special drawing determination. Thereafter, at a timing 1226 when a predetermined determined display period (here, 0.5 seconds) has elapsed, the special view determination to the special view determination information 1230 stored in the special view determination information storage area 413a is made. The next variation display of the special symbol based on the result of is started. Here, it is assumed that a special figure fluctuation pattern that specifies that the fluctuation time of the special symbol is 40 seconds is selected with respect to the special figure determination information 1230. Then, at timing when 40 seconds have elapsed from timing 1226, the special symbol is stopped and displayed in a mode indicating the result of the special view determination for the special view determination information 1230.

  On the other hand, the presentation control unit 403 that has received the first power restoration command from the main control unit 401 through the power-on process at timing 1224, performs the power restoration presentation process including the restoration display process and the presentation means initial operation process as described above. Run. The execution start timing of the recovery display may be a timing slightly later than the timing 1224 (for example, one second later), but here, for simplification of the description, it is assumed to be the same as the timing 1224. Then, recovery display is performed from timing 1224. More specifically, between timings 1224 and 1225, restoration display is performed without performing fluctuation presentation (including fluctuation display of a decorative symbol) based on the result of the special drawing judgment on the special drawing judgment information 1220.

However, at timing 1226, when the variation start command for the special view determination information 1230 is received from the main control unit 401, the effect control unit 403 ends the recovery display, and the special view determination for the special view determination information 1230 is made. Start the fluctuation effect (including the fluctuation display of the decoration pattern) based on the result of. That is, the recovery display is ended without waiting for the predetermined time t _HK (here, 20 seconds) to elapse from the timing 1224.

In the power supply recovery case DH2, the following modifications are possible (note that the numerical values shown in the description of the modifications are specific to the description and can be arbitrarily changed).
Regarding the first modification to the power supply restoration case DH2, the effect control unit 403 receives the fluctuation stop command from the main control unit 401 at timing 1225, but ends the recovery display when the fluctuation stop command is received. You may. In this case, when receiving the change stop command, the effect control unit 403 may perform stop display of the decorative symbol in a mode indicating the result of the special view determination on the special view determination information 1220 without delay.
With regard to the second modification to the power supply restoration case DH2, the main control portion 401 is the remaining of the variation display of the special symbol for the special view determination information 1220 from the timing when 3 seconds corresponding to the preparation time has elapsed from the timing 1224 The variable display for 10 seconds may be resumed. When the restart is performed, the main control unit 401 may transmit a change restart command indicating change restart of the special symbol to the effect control unit 403. In this case, the effect control unit 403 performs the power recovery command at timing 1224. Recovery display is performed during the period from the reception of the command to the reception of the fluctuation restart command, and when the fluctuation restart command is received, the restoration display is ended, and the special drawing judgment information 1220 is subsequently received until the fluctuation stop command is received. Variation presentation (including variation indication of a decorative symbol) may be performed based on the result of the special figure determination of.

  FIG. 25 shows the behavior of the gaming machine 100 in the power recovery case DH3. In the power recovery case DH3, “U1 = 0” and “U2 = 0”, the special symbol is stopped and displayed, and the state of the gaming machine 100 is turned on by the occurrence of a power failure at the timing 1241 which is not in the big hit game. At time 1242 after that, the power is restored and the gaming machine 100 returns to the power-on state and the power-on process is executed to execute the first power recovery command from the main control unit 401 to the effect control unit 403. Sent to

  Due to the power-off process executed at timing 1241 (strictly speaking, immediately before timing 1241), each piece of information at the time of a power failure, including “U1 = 0” and “U2 = 0”, etc. It is stored and protected in the RAM 413.

In the power recovery processing (S175 in FIG. 18) during power-on processing at timing 1242, the stored contents of the main RAM 413 are read from the main CPU 411, and the gaming machine 100 returns to the state at the time of the power failure. In the power recovery case DH3, the game ball enters the starting opening 105 or 106 before the predetermined time t _HK (20 seconds) elapses from the timing 1242 and the special view determination information 1240 is acquired, and the predetermined time from the timing 1242 At the timing 1243 before t _HK (20 seconds) elapses, the variation display of the special symbol to the information for special view determination 1240 is started, and the variation start command for the information for special view determination 1240 is the effect control unit 403 Is received. Here, it is assumed that a special figure fluctuation pattern defining that the special symbol fluctuation time is 40 seconds is selected with respect to the special figure determination information 1240. Then, at a timing when only 40 seconds have elapsed from the start of variation of the special symbol, the special symbol is stopped and displayed in a mode showing the result of the special drawing determination on the special drawing determination information 1240.

  As described above, the effect control unit 403 that has received the first power recovery command from the main control unit 401 through the power-on process at timing 1242 executes the power recovery effect process including the recovery display process and the rendering means initial operation process. . The execution start timing of the recovery display may be a timing (for example, one second later) slightly after the timing 1242, but here it is assumed to be the same as the timing 1242 for simplification of the explanation (in power-on processing) It is assumed that this time is also negligibly small). Then, recovery display is performed from timing 1242.

At timing 1243, when the variation start command for the special figure determination information 1240 is received from the main control unit 401, the effect control unit 403 ends the recovery display, and the special figure determination result for the special figure determination information 1240 is Start the change effect based on (including the change display of the decoration pattern). That is, the recovery display is ended without waiting for a predetermined time t _HK (here, 20 seconds) to elapse from the timing 1242.

However, regardless of the reception of the change start command at the timing 1243, the recovery display may be continuously executed for a predetermined time t _HK from the timing 1242. In this case, if the variation display of the special symbol is continuing at the timing when the predetermined time t _HK has elapsed from the timing 1242, the variation display of the decoration symbol may be performed from that timing, or the next variation start It is possible not to perform the change display of the decorative symbol until the command is received.

  After the gaming machine 100 is turned off by the operation of the power switch 445 at timing 1241 instead of the power interruption due to the power failure, the gaming machine 100 is returned to the power on state by the operation of the power switch 445 at timing 1242 and the first Even when the second or third power supply recovery command is received by the effect control unit 403, the operations after the timing 1242 including the timing 1242 may be the same as those described above.

<< About display of each state in game mode >>
An example of display content of the image display unit 104 will be described with reference to (a) to (d) of FIG. 26 (a) to 26 (d) show the state in which the variation display of the special symbol and the decoration symbol is performed and the state in which the stop display of the special symbol and the decoration symbol is performed respectively It shows an example of display contents of the image display unit 104 in the jackpot gaming state and the customer waiting state) except the waiting state). When the special figure determination information is stored in the storage area 413a, the effect control unit 403 indicates that the special figure determination information is stored in the storage area 413a for each of the stored special figure determination information. The holding image shown can be displayed in a predetermined holding image display area of the image display unit 104. In FIGS. 26A and 26B, it is assumed that two pieces of information for special view determination are stored in the storage area 413a, and two reserved images 1311 and 1312 are displayed.

  As shown in FIG. 26 (c), in the jackpot gaming state, the decorative symbol is stopped and displayed in a mode according to the type of the jackpot, and the round number (the number of the round game currently being executed) and the right A right-handed display indicating that a hit should be performed is displayed, and a predetermined hit effect image forming a hit effect is displayed on the image display unit 104.

  As shown in FIG. 26D, in the customer waiting state, a predetermined customer waiting effect image constituting the customer waiting effect is displayed on the image display unit 104. The above-mentioned customer waiting display (see FIG. 22 etc.) refers to the display on the image display unit 104 in the customer waiting state (in other words, the state in which the customer waiting display is being performed is the customer waiting state), Including display of customer waiting effect image.

  The customer waiting state will be described. First, in the case related to power supply restoration as shown in FIGS. 22 and 23, the state in which the customer waiting display is performed after the restoration display is the customer waiting state. Besides, at any timing after activation of the gaming machine 100, the jackpot game and the small hit game are not performed, and the special symbol is in the stop display state and the state of "U1 = U2 = 0" is predetermined. When the time (for example, 5 seconds) or more continues, the effect waiting unit 403 is set to ON by the effect control unit 403. After the customer waiting flag is turned on, when the change start command is received, the effect control unit 403 turns off the customer waiting flag. When the customer waiting flag is on, it is in the customer waiting state, and when the customer waiting flag is off, it is not in the customer waiting state.

<< volume / light quantity setting function >>
The gaming machine 100 has a function of adjusting the volume of the speaker 115 of the gaming machine 100 and the amount of light of the light emitting device. The volume adjustment means includes hardware volume adjustment means and software volume adjustment means, and the light amount adjustment means also includes hardware light amount adjustment means and software light amount adjustment means.

  The sound volume is, for example, loudness (soundness), sound pressure level or sound intensity (sound power) in a predetermined frequency band included in the human audible band. The light amount represents the brightness of light represented by luminance or illuminance.

  The hardware volume adjustment means and the hardware light amount adjustment means are realized by the volume switching SW 435 (FIG. 6). The volume switch SW 435 is a switch provided on the back of the effect control board 301, which can not be operated by the player and can be operated only by a manager of the gaming machine 100 (salesman of the game arcade, etc.). On the other hand, the software volume adjusting means and the software light amount adjusting means are constituted by the operating means having the operation contents by the player, and realized here by using the cross key 122 (additionally using the effect button 121 as necessary) Be done.

  That is, the volume and light amount of the gaming machine 100 are adjusted and set based on the setting content of the volume switching SW 435 (in other words, the operation content for the volume switching SW 435) and the operation content on the cross key 122 by the player. .

  FIG. 27A shows the volume switch SW 435. The volume switch SW 435 is a slide switch and has a knob 435 a. In the sound volume switching SW 435, the operator can slide the position of the knob 435a, and by sliding operation, the knob 435a can be arranged at any position of positions 1331 to 1334. The position 1334 is at the left end when viewed from the operator facing the volume switching SW 435, and the positions 1334, 1331, 1332, and 1333 are arranged in order from the left end to the right end. The effect control unit 403 sets the H / W volume value (hardware volume value) according to the position of the knob 435a. Specifically, as shown in FIG. 27B, when the knob 435a is disposed at the positions 1334, 1331, 1332, 1333, the H / W volume value is set to 10, 1, 5, 10, respectively. Set

  In the gaming machine 100, the power consumption mode can be set to the eco mode or the non-eco mode. The power consumption mode is set to the non-eco mode when the knob 435a is disposed at any of the positions 1331 to 1333 and the power consumption mode is set to the eco mode only when the knob 435a is disposed at the position 1334 Be done.

When the power consumption mode is set to the eco mode, the light amount (luminance or illuminance) due to the light emission of the light emitting device to be adjusted is lower than that in the non-eco mode. The light emitting devices capable of emitting light, which are included in the gaming machine 100, are classified into either the adjustment target light emitting device or the non-adjustment target light emitting device. The light quantity due to the light emission of the adjustment target light emitting device changes depending on whether the power consumption mode is set to the eco mode or the non-eco mode, whereas the light quantity due to the light emission of the non adjustment target light emitting device is the power consumption It does not depend on whether the mode is set to the eco mode or the non-eco mode. Alternatively, when the power consumption mode is set to the eco mode, the light amount due to the light emission of the non-adjustment target light emitting device is V if the light amount due to the light emission of the adjustment target light emitting device is lower by V _ECO1 % compared to the non-eco mode. _{Lower by 2} % _ECO . V _ECO1 and V _ECO2 are numerical values in units of% that are greater than 0 and smaller than 100, and “V _ECO1 > V _ECO2 ” holds.

  The light emitting device to be adjusted includes at least a frame lamp 116 and a board lamp 135. The backlight of the liquid crystal display device constituting the image display unit 104 may belong to either the adjustment target light emitting device or the non-adjustment target light emitting device. The special symbol display unit 201, the normal symbol display unit 202, the hold display unit 203, the round number display unit 204, and the right turn display unit 205 (FIG. 4) provided in the information display unit 114 belong to the non-adjustment target light emitting device. The setting display LED 417 (see FIG. 6) and an error notification LED described later also belong to the non-adjustment target light emitting device. However, a modification is possible in which the setting display LED 417 and an error notification LED described later belong to the adjustment target light emitting device.

  The player can adjust and set the S / W volume value (software volume value) and the S / W light intensity value (software light intensity value) by operating the cross key 122 in the adjustable period of the volume and light intensity. .

  The volume of the output sound of the speaker 115 corresponds to the S / W volume value, and the volume is larger as the S / W volume value is larger. Here, the S / W volume value takes an integer of 1 or more and 10 or less. That is, although the volume can be adjusted in 10 steps, the number of adjustment steps of the volume is not limited to this. The initial value of the S / W volume value is the H / W volume value. In the power recovery effect processing (see FIG. 20), or when the player's operation (pressing operation on the effect button 121 or the cross key 122) is not performed for a predetermined time (for example, 120 seconds) while waiting for customers, etc. The S / W volume value is reset to the H / W volume value.

  The light quantity of the light emitting device to be adjusted is determined according to the S / W light quantity value, and the light quantity is larger as the S / W light quantity value is larger. Here, the S / W light quantity value is an integer of 1 or more and 3 or less. That is, although the light amount can be adjusted in three steps, the number of adjustment steps of the light amount is not limited to this. The initial value of the S / W light quantity value is a predetermined default light quantity value (for example, 3). In the power recovery effect processing (see FIG. 20), or when the player's operation (pressing operation on the effect button 121 or the cross key 122) is not performed for a predetermined time (for example, 120 seconds) while waiting for customers, etc. The S / W light quantity value is reset to a predetermined default light quantity value. The light amount of the non-adjustment target light emitting device such as the special symbol display unit 201 is constant regardless of the S / W light amount value.

  Assuming that the light amount of the adjustment target light emitting device when the S / W light amount value is “3” in the non-eco mode is 100%, the adjustment object when the S / W light amount value is “3” in the eco mode The light amount of the light emitting device is, for example, 85%, and the light amount of the light emitting device to be adjusted when the S / W light amount value is “2” or “1” is either non-eco mode or eco mode. Regardless, for example, 50% and 15%, respectively.

  Note that the effect control unit 403 constantly monitors the presence or absence of the operation to the volume switching SW 435 (ie, the presence or absence of the position change of the knob 435), and immediately detects H when the position change of the knob 435a is detected. The / W volume value is set to the S / W volume value, and the predetermined default light amount value is set to the S / W light amount value.

  The adjustable period of the sound volume and the light amount (hereinafter simply referred to as adjustable period) will be described with reference to FIG. The adjustable period is a period in which the volume and the light amount can be adjusted through the change of the S / W volume value and the S / W light amount value by the operation of the cross key 122. A period different from the adjustable period is called a non-adjustable period. In the unadjustable period, even if the cross key 122 is operated, the S / W volume value and the S / W light value are not changed by the operation, and as a result, the volume and the light amount are not adjusted.

The period in the customer waiting state basically belongs to the adjustable period 1351. However, in the customer waiting state, the period during which the predetermined image _IPL is displayed is considered as the unadjustable period. The predetermined image I _PL is, for example, an image constituting a so-called blip log screen or an image constituting a menu screen, and in a period in which the predetermined image I _PL is displayed, the cross key 122 receives another operation. The period is a non-adjustable period.

  A period during which the variation display of the special symbol and the decoration symbol is performed (hereinafter, referred to as a variation display period) basically belongs to the adjustable period 1352. However, a part of the variable display period may be considered as an unadjustable period. For example, when the variation control command is received by the effect control unit 403 in synchronization with the variation start of the special symbol, the effect control unit 403 starts the variation display of the decoration symbol, but the reception timing of the variation start command (decoration symbol Until the predetermined fluctuation start operation recognition time (for example, 0.5 seconds) elapses from the start timing of the fluctuation display of (1), it is considered as an unadjustable period. Also, for example, the effect control unit 403 may perform an operation effect using the cross key 122 according to the result of the special view determination or the prior determination in the variable display period, and the operation effect period in which such an operation effect is performed It is considered as a non-adjustable period.

  In addition, when the production control section 403 receives the fluctuation stop command in synchronization with the fluctuation stop of the special symbol, the production control section 403 displays the decoration pattern that was being fluctuated displayed in the form according to the result of the special view judgment. However, it is considered as an unadjustable period until a predetermined final display time (for example, 0.5 seconds) has elapsed from the reception timing of the fluctuation stop command (the timing when the decorative symbol is stopped and displayed). A period from the reception of the fluctuation stop command corresponding to the loss to the reception of a new fluctuation start command after the definite display time has elapsed, and a period not in the customer waiting state, belongs to the adjustable period 1353. Further, although not shown in FIG. 28, it is a period until a new change start command is received after the end of the jackpot game and a period not in the customer waiting state also belongs to the adjustable period 1353.

  During the jackpot game basically belongs to the adjustable period 1354. More specifically, for example, it is preferable that the round period from the start timing of the first round game constituting the jackpot game to the end timing of the final round game belongs to the adjustable period 1354. After the transmission and reception of the change stop command corresponding to the jackpot, a predetermined opening period is provided before the start of the first round game, and a predetermined ending period is provided after the final round game, but the opening period and ending It may be understood that at least one of the periods also belongs to the adjustable period 1354. However, in the opening period, the round period, and the ending period, a partial non-adjustment period may exist. For example, when the cross key 122 receives an operation for selecting a music piece to be reproduced and output during a round period, the execution period of the first round game is considered as an unadjustable period.

  With reference to FIGS. 29A to 29D, display contents when the volume or the light amount is adjusted will be described using the cross key 122 including the up key, the down key, the left key, and the right key. Here, the display contents and operations described with reference to FIGS. 29A to 29D and FIGS. 30 and 31 are the display contents under the condition where no error notification described later is performed. And the action etc. When a predetermined adjustment image display operation is input in the adjustable period, the effect control unit 403 displays the adjustment image 1420 in the adjustment display area 1410 of the image display unit 104. The adjustment image display operation is, for example, an operation of pressing any one of the up key, the down key, the left key and the right key, but may be any operation on the operation means operable by the player. In particular, for example, in the customer waiting state, the adjustment image 1420 may be displayed in the adjustment display area 1410 even if the adjustment image display operation is not input.

  In the customer waiting state, the adjustment display area 1410 may overlap the display area of the image forming the customer waiting effect as shown in FIG. 29C. In this case, the adjustment display area 1410 is adjusted above the image forming the customer waiting effect The display image 1420 is superimposed and displayed. During the display of change and stop of the decorative symbol, the display area for adjustment 1410 may overlap with the display area of the decorative symbol which has been changed or stopped as shown in FIG. 29 (d). The adjustment image 1420 is superimposed and displayed above the decorative symbol that has been variably stopped. It is preferable that all or part of the adjustment image 1420 be transparent.

  As shown in FIG. 29D, the adjustment image 1420 includes a cursor 1421, a volume gauge 1422 and a volume value numerical image 1423, and a light quantity gauge 1424 and a light quantity value image 1425. The cursor 1421 indicates which of the items "volume" and "light quantity" is selected, and the cursor 1421 moves up and down in response to the operation to the upper key or the lower key of the cross key 122. By doing this, the item "volume" or the item "light quantity" is selected. The volume gauge 1422 and volume value numerical value image 1423 are images that display the current S / W volume value as a figure and a number, respectively. The light intensity gauge 1424 and the light intensity value numerical image 1425 are images that display the current S / W light intensity value as a figure and a numerical value, respectively.

  Referring to FIG. 30, the adjustable period 1351 in the customer waiting state or the jackpot 122 is not in the jackpot game and in the adjustable stop period 1353 (see FIG. 28) of the special symbol and the decorative symbol while stopped. Describes the operation in which is adjusted. The adjustable periods 1351 and 1353 are common in that they are periods in which the variation display of the special symbol and the decorative symbol is not performed. In FIG. 30, although it is as if only the adjustment image 1420 is displayed on the image display unit 104 due to the complexity of the drawing, other images (for example, images constituting the customer waiting effect) are also adjusted. It may be displayed together with the for-image 1420.

  When the adjustment image 1420 is displayed, operating the up key or the down key of the cross key 122 as necessary to align the cursor 1421 with the item "volume" causes the item "volume" to be selected, In this state, the S / W volume value decreases by 1 each time the left key of the cross key 122 is pressed once, while the S / W volume value increases by 1 each time the right key of the cross key 122 is pressed once Do. However, as the S / W volume value does not fall below the lower limit value “1” of the S / W volume value and the S / W volume value does not exceed the upper limit value “10” of the S / W volume value Limits on changes in In the following, the operation for decreasing or increasing the S / W volume value (here, the pressing operation of the left key or the right key), which can be input with the cursor 1421 adjusted to the item “volume”, changes the volume value It is called an instruction operation. Since the volume gauge 1422 and the volume value numerical image 1423 are images that display the current S / W volume value as a figure and a number, respectively, the volume gauge 1422 and the volume value are responsive to the input of the volume value change instruction operation. The contents of the numerical image 1423 change (except in the case where the above restriction is imposed).

  The effect control unit 403 sets a predetermined standard with the volume according to the changed S / W volume value every time the S / W volume value is changed by the volume value change instruction operation in the adjustable periods 1351 and 1353. A sound (for example, a sound that sounds like a pilon) is output from the speaker 115. The volume of the reference sound is larger as the S / W volume value after the change is larger.

  When the adjustment image 1420 is displayed, operating the up key or the down key of the cross key 122 as necessary to align the cursor 1421 with the item “light amount” causes the item “light amount” to be selected, In this state, the S / W light amount decreases by 1 each time the left key of the cross key 122 is pressed once, while the S / W light amount increases by 1 each time the right key of the cross key 122 is pressed once Do. However, the S / W light intensity value does not fall below the lower limit value "1" of the S / W light intensity value and does not exceed the upper limit value "3" of the S / W light intensity value. Limits on changes in In the following, the operation for decreasing or increasing the S / W light amount value (here, the pressing operation of the left key or the right key) which can be input with the cursor 1421 adjusted to the item "light amount" It is called an instruction operation. Since the light amount gauge 1424 and the light amount value numerical value image 1425 are images that display the current S / W light amount value as a figure and a numerical value, respectively, the light amount gauge 1424 and the light amount value The contents of the numerical image 1425 change (except in the case where the above restriction is imposed).

  When the S / W light amount value is changed by the light amount value change instruction operation in the adjustable periods 1351 and 1353 in the adjustable periods 1351 and 1353, the effect control unit 403 immediately changes the light amount (brightness or illuminance) of the light emitting device to be adjusted. It is assumed that it corresponds to the / W light quantity value.

  In the adjustable period 1351 or 1353, the adjustment image 1420 is not always displayed. For example, in the adjustable period 1351 or 1353, in principle, the adjustment image 1420 is not displayed, and the adjustment image 1420 is displayed when the adjustment image display operation described above is input (FIG. 29). See (a)). Then, when the adjustment image 1420 is displayed, it is preferable to hide the adjustment image 1420 when no operation is input to the cross key 122 continuously for a predetermined time (for example, 3 seconds) or more. However, the adjustment image 1420 may be always displayed in the adjustable period 1351 or 1353.

  Referring to FIG. 31, the operation in which the volume or the light amount is adjusted by the cross key 122 in the adjustable period 1352 during the variable display of the special symbol and the decorative symbol or the adjustable period 1354 during the big hit game (see FIG. 28) Do. In FIG. 31, although it is as if only the adjustment image 1420 is displayed on the image display unit 104 due to the complexity of the drawing, another image (for example, an image of a decorative symbol displayed in a variable manner) Can also be displayed with the adjustment image 1420.

  In the adjustable period 1352 and 1354, the change operation of the S / W volume value based on the pressing operation of the right key or the left key (that is, the volume value change instruction operation) in the state where the item "volume" is selected is the above adjustment. It is similar to that in the possible periods 1351 and 1353. However, in the adjustable periods 1352 and 1354, the above-mentioned reference sound is changed even if the S / W volume value is changed through the input of the volume value change instruction operation in order to give priority to the output of the sound constituting the fluctuation effect or the hit effect. Not output (but may output).

  In the adjustable period 1352 and 1354, the change operation of the S / W light quantity value based on the pressing operation of the right key or the left key (that is, the light quantity value change instruction operation) in the state where the item "light quantity" is selected is the above adjustment. It is similar to that in the possible periods 1351 and 1353. When the S / W light amount value is changed by pressing the left key or the right key in the adjustable periods 1352 and 1354, the effect control unit 403 immediately changes the light amount (brightness or illuminance) of the light emitting device to be adjusted. It corresponds to the later S / W light quantity value.

  In the adjustable period 1352 or 1354, the adjustment image 1420 is not always displayed. For example, in the adjustable period 1352 or 1354, the adjustment image 1420 is not displayed in principle, and the adjustment image 1420 is displayed when the adjustment image display operation described above is input (FIG. 29). See (a)). Then, when the adjustment image 1420 is displayed, the adjustment image 1420 is not displayed when no operation is input to the cross key 122 continuously for a predetermined time (for example, 1.5 seconds) or more. good. During display of the adjustment image 1420, when the adjustment start period is entered, such as when a new change start command is received, the adjustment image 1420 is immediately hidden. However, the adjustment image 1420 may be always displayed in the adjustable period 1352 or 1354.

  In order to clearly inform the player that the change display of the decorative symbol has been started, as described above (see FIG. 28), the predetermined timing is from the reception timing of the change start command (the start timing of the change display of the decorative symbol). It is considered as a non-adjustable period until the fluctuation start movement recognition time (for example, 0.5 seconds) has elapsed. Similar to this, in order to clearly inform the player of the stop display mode of the decorative symbol, as described above (refer to FIG. 28), the predetermined timing from the reception timing of the fluctuation stop command (the timing when the decorative symbol is stopped and displayed) Until the fixed display time (for example, 0.5 seconds) elapses, it is considered as an unadjustable period. However, for example, if the display of the adjustment image 1420 does not interfere with the visibility of the decorative symbol displayed in a variable or stopped manner, a period corresponding to the change start operation recognition time may be included in the adjustable period 1352. A period corresponding to the fixed display time may be included in the adjustable period 1353.

  In addition, the player can use the dedicated switch for volume adjustment used only to adjust and change the S / W volume value and the dedicated switch for light amount adjustment used only to adjust and change the S / W light value. It may be provided in the vicinity of the effect button 121 of the glass frame 12 as an operable switch. In this case, the operation to the volume adjustment dedicated switch functions as a volume value change instruction operation, and the operation to the light quantity adjustment dedicated switch functions as a light amount value modification instruction operation. And in this case, it becomes possible in the above-mentioned explanation to include an arbitrary period set as an adjustment impossible period in an adjustable period.

<< External terminal board >>
FIG. 32 is a diagram showing the electrical connection between the main control board 301, the external terminal board 305, and the external device 610. The external device 610 may include a hall computer provided in the game arcade, and may further include a data display or the like associated with the gaming machine 100.

The external terminal board 305 includes an output circuit OC [1] ~OC [m] , an output terminal unit TM [1] ~TM [m] , and the connector CN _O, are mounted. Here, m is an arbitrary integer of 2 or more, for example, m = 10. One output terminal portion TM [i] is associated with one output circuit OC [i] (i is an integer). That is, a total of m sets of circuit blocks including the output circuit OC [i] and the output terminal portion TM [i] are mounted on the external terminal substrate 305. The configurations of the m sets of circuit blocks are the same as one another.

  Each output terminal portion TM [i] comprises a pair of terminals. For each output terminal unit TM [i], a pair of terminals is connected to the external device 610 via a pair of wires (electric wires). A part or all of the output terminals TM [1] to TM [m] may be connected to the hall computer via the data display, or may be connected to the hall computer not via the data display There is also.

On the main control board 301, in addition to the parts constituting the main control section 401 etc., a connector for connection CN _M is mounted, and the connector for connection CN _M and the connector for connection CN _O are connected via a harness There is. The main control unit 401 outputs an external output signal to be output to the external device 610, a connector CN _M, the external terminal board 305 via a harness and the connector CN _O. The drive voltages of the output circuits OC [1] to OC [m] may also be supplied from the main control board 301 to the external terminal board 305 via the above-mentioned harness.

There are m types of external output signals as external output signals output from the main control unit 401 to the external terminal board 305, and the m types of external output signals are represented by symbols A _OUT [1] to A _OUT [m]. For each integer i of 1 or more and m or less, the external output signal A _OUT [i] is transmitted to the output circuit OC [i] through the wiring pattern provided on the external terminal substrate 305 and is output to the output circuit OC [i]. It is outputted from the output terminal portion TM [i] in the form of being electrically insulated. In order to achieve the electrical insulation between the connector CN _O and the output terminal unit TM [1] ~TM [m] , the output circuit OC [1] ~ respectively photocoupler and a resistor element [m] It comprises.

For each integer i of 1 or more and m or less, the external output signal A _OUT [i] is a voltage signal having either a first level or a second level different in potential, and is an external output signal A _OUT [i]. When the signal level is at the first level, the pair of terminals of the output terminal portion TM [i] is nonconductive due to the output circuit OC [i], and when the signal level of the external output signal A _OUT [i] is at the second level The circuit OC [i] conducts between a pair of terminals of the output terminal portion TM [i]. That is, the external output signal A _OUT [i] is converted into a signal in a state in which conduction between the pair of terminals is made conductive or non-conductive, and the converted signal is output as the external output signal B _OUT [i] at the output terminal portion TM [i Can be said to be output from More specifically, for example, the output side of the photocoupler of the output circuit OC [i] is a phototransistor in an open collector state, and the collector and emitter of the phototransistor are a pair of terminals in the output terminal portion TM [i]. It is connected to one terminal and the other terminal. Then, by applying a DC voltage between the collector and the emitter of the phototransistor via the resistor element, a signal due to conduction or non-conduction between the pair of terminals can be extracted as the external output signal B _OUT [i]. it can.

  Hereinafter, for any output terminal portion TM [i], a state in which the pair of terminals in the output terminal portion TM [i] is electrically connected or the pair of terminals in the output terminal portion TM [i] is electrically connected is Expressed as ON of output terminal portion TM [i], non-conduction between a pair of terminals in output terminal portion TM [i] or non-conduction between a pair of terminals in output terminal portion TM [i] This state is expressed as "off" of the output terminal portion TM [i]. The main control unit 401 controls on / off of each output terminal unit. The output terminal portions TM [1] to TM [m] are kept off in principle, and are turned on only at necessary timings.

The external output signal A _OUT [i] and the external output signal B _OUT [i] represent the same external output information I _OUT [i] except that the main output of the signal is different. The output of the external output signal A _OUT [i] from the main control board 301 (main control unit 401), the output of the external output signal B _OUT [i] from the external terminal board 305, and the main control board 301 (main control unit 401) the output of the external output information _{I OUT} [i] from, the external output information _{I OUT} output of [i] from the external terminal board 305, may be considered to refer to the same one another.

As described above, may be employed configured to connect the external terminal board 305 to the payout control board 302, in this case, the connector CN _M and mounted on the dispensing control board 302, a payout controller The external output signal A _OUT [1] to A _OUT [m] 402 (in other words, the external output information I _OUT [1] to I _OUT [m] to the external terminal board 305 via the connector CN _M , the harness and the connector CN _O ] Should be output. In this case, the payout control unit 402 controls on / off of each output terminal.

The external output signals B _OUT [1] to B _OUT [m] (in other words, the external output information I _OUT [1] to I _OUT [m]) output from the external terminal board 305 are, for example, variably displayed. The start signal (in other words, start information) indicating that the special symbol has been stopped is displayed, the jackpot signal (in other words, jackpot information) indicating that the jackpot game is being executed, the gaming state of the gaming machine 100 has a high probability A positive variation signal (in other words, positive variation information) indicating that it is in the power support gaming state, a prize ball signal indicating that a predetermined number (for example, 10) of prize balls have been paid out (in other words, prize ball information And various signals (in other words, information) such as an error detection signal (in other words, error detection information) indicating that an error is detected in the gaming machine 100).

<< About error types >>
FIG. 33 lists a plurality of types of errors that can occur in the gaming machine 100 (in other words, abnormalities). The errors shown in FIG. 33 are only a part of possible errors and detectable errors, and various other errors exist. Different error codes are assigned to different types of errors in order to distinguish multiple types of errors from each other. The error detection unit 710 (see FIG. 34 and the like described later) provided in the gaming machine 100 detects the presence or absence of each error that may occur in the gaming machine 100 including the errors of the error codes EC01 to EC33 shown in FIG. can do. Note that, in the present specification, detection of an error may be understood strictly to mean detection of the occurrence of an error.

  The transition from a state in which the error has occurred to a state in which the error has not occurred regarding any error is referred to as elimination of the error. After detecting an error, the error detection unit 710 may be able to determine and detect whether the error has been eliminated. For example, if the error detection unit 710 periodically determines whether a certain error has occurred, the error is eliminated when the error is not detected after the error is detected. It can be judged. The contents of each error listed in FIG. 33 and the detection method will be described below.

The error of error code EC01 is a main / payout connection error. When the connection between the main control board 301 and the payout control board 302 is defective (including complete disconnection), the occurrence of a main / payout connection error is detected.
Although the main control board 301 and the payout control board 302 are connected by a predetermined main / payout connection harness, the circuit for detecting whether the main / payout connection harness has a break or a short circuit is an error When the error detection unit 710 is connected to the detection unit 710 or connected to the error detection unit 710 and receives a detection result from the circuit that there is a break or short circuit in the main / payout connection harness, the error detection unit 710 Judge and detect that a payout connection error has occurred. A situation in which the main control board 301 and the payout control board 302 are not connected by the main and payout connection harness is considered to belong to the disconnection of the main and payout connection harness.

The error of error code EC02 is a main / sub connection error. When the connection between the main control board 301 and the effect control board 303 is defective (including complete disconnection), the occurrence of a main / sub connection error is detected.
Although the main control board 301 and the effect control board 303 are connected by a predetermined main / sub connection harness, the circuit for detecting whether the main / sub connection harness has a break or a short circuit is an error When the error detection unit 710 is connected to the detection unit 710 or connected to the error detection unit 710 and receives a detection result that the main / sub connection harness is disconnected or shorted from the circuit, Determine and detect that a sub connection error has occurred. A situation in which the main control board 301 and the effect control board 303 are not connected by the main / sub connection harness is considered to belong to the disconnection of the main / sub connection harness.

The error of the error code EC03 is a main / delivery communication error. When the communication between the main control board 301 and the payout control board 302 is not good, the occurrence of a main / payout communication error is detected.
Although the main control board 301 and the payout control board 302 perform bi-directional communication via a predetermined main / payout connection harness, when the bi-directional communication can not be performed properly, the error detection unit 710 is configured to Judge and detect that a payout communication error has occurred. For example, in the case where a communication protocol is formed in which the payout control unit 402 sends a predetermined response signal back to the main control unit 401 when a predetermined payout command is transmitted from the main control unit 401 to the payout control unit 402. If the response signal is not returned even after a predetermined time has elapsed since the sending of the payout command, it is determined and detected that a main / payout communication error has occurred.

The error of error code EC04 is a main / sub communication error. When the communication between the main control board 301 and the effect control board 303 is defective, the occurrence of a main / sub communication error is detected.
Although the main control board 301 and the effect control board 303 perform one-way communication from the main control board 301 to the effect control board 303 via a predetermined main / sub connection harness, the situation where the one-way communication is properly performed If it is determined that the error is not present, the error detection unit 710 detects that a main / sub communication error has occurred. For example, the error detection unit 710 is provided with a circuit that outputs voltage signals of different levels when the main control board 301 and the effect control board 303 are normally connected by the main / sub connection harness and when they are not. Or when the voltage signal indicating that the main control board 301 and the effect control board 303 are normally connected by the main / sub connection harness is not output from the circuit. It is determined and detected that a sub-communication error has occurred. Note that the main / sub connection errors and the main / sub communication errors may be combined into one error without distinction.

The error of error code EC05 is a main control board error. When there is an abnormality in the operation of the component mounted on the main control board 301, the occurrence of a main control board error is detected.
For example, when an abnormality is found in the operation of the main CPU 411, the error detection unit 710 detects that a main control board error has occurred. More specifically, for example, when the main CPU 411 executes a predetermined program, it continuously monitors whether the program falls into an incorrect state using a watchdog timer configured with hardware or software. When it is determined that the program is in an incorrect state (a so-called hang-up), the error detection unit 710 detects that a main control board error has occurred.

The error of error code EC06 is a SW connection error. When the actual connection of the SW to be connected to the main control board 301 is defective (including completely disconnected), the occurrence of the SW connection error is detected.
There are SW 511 to SW 515 as SW to be connected to the main control board 301 (see FIG. 6). The SWs 511 to 515 are connected to the main control board 301 via an input interface IC (not shown). The input interface IC is provided with a connection abnormality detection circuit for detecting the presence or absence of an abnormality such as a break or short circuit in the wiring between the main control substrate 301 and the SWs 511 to 515. If an abnormality is detected, connection is made. A switch abnormality detection signal is output from the abnormality detection circuit to the main control unit 401 and the like. The error detection unit 710 detects that the SW connection error has occurred when the switch abnormality detection signal is output from the connection abnormality detection circuit.

The error of the error code EC07 is a sub connection error. Although not shown, the effect control substrate 303 is composed of a plurality of substrates to be connected to each other, and when the connection between the plurality of substrates is defective (including completely disconnected), Occurrence is detected.
Specifically, the effect control board 303 includes an image / voice control board on which a component forming the image / voice control unit is mounted, a lamp control board on which a component forming the lamp control unit is mounted, and an image / An integrated effect control board on which components forming the integrated effect control unit for performing integrated control of the voice control unit and the lamp control unit are mounted, and the substrates are mutually connected via a sub / sub connection harness Is configured. A circuit for detecting whether a break or short exists in the sub / sub connection harness is provided in the error detection unit 710 or connected to the error detection unit 710, and the circuit is disconnected or shorted from the circuit to the sub / sub connection harness When the error detection unit 710 receives the detection result that there is a sub-connection error, the error detection unit 710 determines and detects that a sub connection error has occurred. A situation in which the plurality of boards constituting the effect control board 303 are not connected by the sub-sub connection harness is considered to belong to the disconnection of the sub-sub connection harness.

The error of error code EC08 is a subinterface error. The plurality of boards constituting the effect control board 303 include the effect interface board on which the sub ROM 432 is mounted, and when there is a failure in the operation of the effect interface board, the occurrence of the sub interface error is detected.
For example, although the sub CPU 431 reads data in the sub ROM 432 from the sub ROM 432 via the memory controller, but the memory controller determines that the data in the sub ROM 432 can not be read correctly from the sub ROM 432, an error occurs. The detection unit 710 determines and detects that a sub-interface error has occurred.

The error of error code EC09 is a card unit connection error. When the connection between the payout control board 302 and the card unit 620 is defective (including complete disconnection), the occurrence of a card unit connection error is detected.
After activation of the gaming machine 100, the payout control unit 402 first executes processing for establishing communication in order to realize two-way communication with the card unit 620. In the processing, the payout control unit 402 and the card unit 620 are processed. If communication can not be established, the error detection unit 710 determines and detects that a card unit connection error has occurred.

The error of error code EC10 is an AT incorrect prize error. When there is an incorrect prize in the special winning opening 111, the occurrence of an AT incorrect prize error is detected.
Specifically, for example, in the special winning opening closing period in which the special winning opening 111 is in the closing state (however, a predetermined time (for example, 3 seconds) has elapsed since the opening of the special winning opening 111 was switched from the opening state to the closing state). When a winning of the game ball in the big winning opening 111 of the game ball is detected at a predetermined number or more (for example, 3 or more; 1 or more may be detected) in the big winning opening SW 513, except the exclusion period until Therefore, the error detection unit 710 determines and detects that an AT incorrect winning error has occurred. The main control unit 401 or the error detection unit 710 does not necessarily observe the state of the special winning opening 111 directly, but a signal for making the special winning opening 111 open or close is a special winning opening solenoid. When 519 is given, it is determined that the special winning opening 111 is open and closed, respectively.
Also, for example, in the winning game (big hit game or small hit game), the large winning opening 111 repeats an AT unit operation (corresponding to a round game in a big hit game) that returns from the closed state to the closed state through the open state. When the winning of the large winning opening 111 of the game ball exceeding a predetermined upper limit number (for example, 14) is detected in the large winning opening SW 513 in one AT unit operation, the winning is illegal by the main control unit 401 While being determined to be a winning, the error detection unit 710 determines and detects that an AT incorrect winning error has occurred. The upper limit number in this case is larger than a specified count value indicating the upper limit number of winning to the special winning opening 111 in each round game. In each round game in the big hit game, the number of winning game balls to the large winning opening 111 reaches a predetermined count value (for example, 10) until the opening time of the large winning opening 111 reaches a specified maximum opening time (predetermined time; eg 30 seconds) When it is detected that the special winning opening 111 is open until it reaches) and it is detected that the number of winning game balls to the special winning opening 111 has reached a prescribed count value using the special winning opening SW 513, the main control unit 401 The special winning opening solenoid 519 is controlled so that the special winning opening 111 is closed.

  It is to be noted that the winning of the special winning opening 111 determined to be an incorrect winning is invalidated. That is, it is treated as if there were no winnings due to the incorrect winnings, and therefore, the game balls are not paid out based on the incorrect winnings. However, since it is not possible to return the gaming balls already paid out to the payout unit 323, after the determination and detection that there is an AT illegal prize error is made, the number of illegal prizes for which payout of the gaming balls has not yet been made The payout of the game ball is made non-execution as invalid only for the winning of the.

The error of error code EC11 is a DT incorrect winning error. When there is an incorrect winning at the starting opening 106, the occurrence of a DT incorrect winning error is detected.
Specifically, for example, in a power-ch closing period in which the electric tulip 107 is in a closed state (however, until a predetermined time (for example, 3 seconds) elapses after the electric tulip 107 switches from an open state to a closed state). When the winning of the second starting opening 106 of the game ball is detected by the second starting opening SW 512 at a predetermined number or more (for example, 3 or more; may be 1 or more), the main control unit 401 While being determined as an incorrect prize, the error detection unit 710 determines and detects that a DT incorrect prize error has occurred. The main control unit 401 or the error detection unit 710 does not necessarily observe the state of the electric tulip 107 directly, but gives a signal to the electric tulip solenoid 518 to open and close the electric tulip 107. It is determined that the electric tulip 107 is in the open state and the closed state, respectively.
Further, for example, the electric tulip 107 repeats the DT unit operation returning from the closed state to the closed state through the open state in the game, but in one DT unit operation, the game exceeds a predetermined upper limit number (for example, 15 pieces) When a winning on the second starting opening 106 of the ball is detected at the second starting opening SW 512, the winning is determined to be an incorrect winning by the main control unit 401, and the error detection unit 710 Judge and detect that it has occurred.

  It is to be noted that the winning on the second starting port 106 determined to be an incorrect winning is invalidated. That is, it is treated as if there were no winnings due to the incorrect winnings, and therefore, the game balls are not paid out based on the incorrect winnings. However, since the gaming balls already paid out can not be returned to the payout unit 323, the illegal winnings for which the gaming balls have not yet been paid out are determined after determination and detection that there is a DT incorrect winning error The payout of the game ball is made non-execution as invalid only for the winning of the.

The error of error code EC12 is an FN incorrect winning error. When there is an incorrect prize at the regular winning opening 112, the occurrence of an FN incorrect prize error is detected.
Although a plurality of normal winning openings 112 are provided in the game area 103, a method of detecting an FN incorrect winning error will be described focusing on one normal winning opening 112. After activation of the gaming machine 100, the main control unit 401 or the error detection unit 710 counts the number of game balls paid to the normal winning opening 112 per predetermined unit time (for example, 10 minutes) as the FN pay count value. Run continuously. Then, when the FN pay count value is equal to or more than a predetermined FN pay abnormal threshold (for example, 200), the error detection unit 710 determines and detects that an FN incorrect win error has occurred.
After it is determined and detected that there is an FN illegal prize error, the new winning to the normal winning opening 112 is invalidated as an illegal prize (that is, no payout for the game ball is made for the prize) . The above-mentioned FN winning count value may be a total value of the number of winnings of the game balls to the plurality of normal winning openings 112 per predetermined unit time (for example, 10 minutes).

The error of error code EC13 is a vibration error. When abnormal vibration or shock is applied to the gaming machine 100, the occurrence of a vibration error is detected.
The impact sensor 523 is disposed at a predetermined position of the gaming machine 100, and the magnitude of the impact applied to the gaming machine 100 (strictly, for example, the magnitude of the impact applied to the impact sensor 523) Among the accelerations, it continuously monitors and detects the magnitude of the acceleration within a predetermined frequency band, and outputs an on or off signal according to the magnitude of the detected impact. When an impact having a magnitude equal to or greater than a predetermined impact threshold is detected by the impact sensor 523, an on signal is output from the impact sensor 523, and otherwise an off signal is output from the impact sensor 523. Do. The error detection unit 710 is a shock sensor in a state in which both the glass frame opening SW 535 a and the inner frame opening SW 535 b output an off signal (that is, in a state where both the glass frame 12 and the inner frame 11 are not opened). When the signal of ON is continuously output for a predetermined time (for example, 5 seconds) or more from 523, it is judged and detected that a vibration error has occurred.

The error of error code EC14 is a magnetic error. When an abnormal magnetism (magnetic field) is applied to the gaming machine 100, the occurrence of a magnetic error is detected.
Since the gaming ball is configured to include a ferromagnetic body such as iron, it is possible for the player to easily make the gaming ball, for example, win in the starting opening 105 by using a magnet.
The magnetic sensor 521 is disposed at a predetermined location of the gaming machine 100 (in particular, for example, in the vicinity of the starting opening 105), and the magnitude of the magnetism applied to the gaming machine 100 (strictly, for example, the magnitude of the magnetism applied to the magnetic sensor 521) Are continuously monitored and detected, and an on or off signal is output according to the detected magnitude of magnetism. The magnitude of magnetism is a magnetic flux density or the strength of a magnetic field, or a physical quantity proportional to them. When a magnetism having a magnitude equal to or larger than a predetermined magnetic threshold is detected by the magnetic sensor 521, an on signal is output from the magnetic sensor 521, and otherwise an off signal is output from the magnetic sensor 521. Do. When the error detection unit 710 detects that an on signal is output from the magnetic sensor 521, or when an on signal is continuously output from the magnetic sensor 521 for a predetermined time (for example, 3 seconds) or more. , Determine and detect that a magnetic error has occurred.

The error of the error code EC15 is a radio wave error. When an abnormal radio wave is applied to the gaming machine 100, the occurrence of a magnetic error is detected.
Each time the entry of the game ball to the start opening 105 is detected, the first start opening SW 511 outputs one winning pulse signal as a signal indicating that the ball has been entered, and the main control unit 401 Based on the reception of the winning pulse signal, it is determined that the game ball has entered the starting opening 105. If an abnormal radio wave that causes the SW 511 to malfunction is given to the SW 511 from the outside, the winning pulse signal may be output from the SW 511 despite the absence of the game ball entering the starting opening 105. . The same applies to SW 512 to S 515.
The radio wave sensor 522 is disposed at a predetermined location of the gaming machine 100, continuously monitors and detects radio waves applied to the gaming machine 100, and causes the gaming machine 100 to transmit an abnormal radio wave that causes any one of the SW 511 to 515 to malfunction. When on, it outputs an on signal, otherwise it outputs an off signal. When the error detection unit 710 detects that the radio wave sensor 522 is outputting an on signal, or when the radio wave sensor 522 continuously outputs an on signal for a predetermined time (for example, 3 seconds) or more. , Determine and detect that a radio error has occurred.

The error of error code EC16 is a glass frame open error. When the glass frame 12 is open with respect to the inner frame 11, the occurrence of a glass frame open error is detected.
As described above, the glass frame 12 is attached to the inner frame 11 so as to be openable and closable, and is open to the inner frame 11 in the closed state (see FIG. 1) closed to the inner frame 11. In the open state (see FIG. 3). The glass frame open switch 535a is a switch for detecting whether the glass frame 12 is in the closed state or the open state, and outputs an off signal when the glass frame 12 is in the closed state, and the glass frame 12 is in the open state. At one time, it outputs an on signal. The error detection unit 710 determines and detects that a glass frame open error has occurred when the glass frame open SW 535 a outputs a signal of ON.

The error of error code EC17 is an inner frame opening error. When the inner frame 11 is open with respect to the outer frame 10, the occurrence of an inner frame opening error is detected.
As described above, the inner frame 11 is attached to the outer frame 10 so as to be openable and closable, and is open to the outer frame 10 in the closed state (see FIG. 1) closed to the outer frame 10 In the open state (see FIG. 3). The inner frame opening SW 535 b is a switch for detecting whether the inner frame 11 is in the closed state or the open state, and outputs an OFF signal when the inner frame 11 is in the closed state, and the inner frame 11 is in the open state. At one time, it outputs an on signal. When the on signal is output from the inner frame opening SW 535b, the error detection unit 710 determines and detects that an inner frame opening error has occurred.

The error of error code EC18 is a board gimmick error. When the position or drive of the board gimmick 130 is defective, occurrence of a board gimmick error is detected.
As described above, the board gimmick sensor 552 is a sensor for detecting the position of the board gimmick 130, whether the board gimmick 130 is disposed at a predetermined origin position and the board gimmick 130 is disposed at a predetermined exit position. Can be detected. Even in the game gimmick effect (see FIG. 16 (a)) and the presentation means initial operation process (see FIG. 20), the drive control is performed so that the game gimmick 130 is placed at the origin position by the presentation control unit 403. When the sensor 552 does not detect that the board gimmick 130 is disposed at the origin position regardless of whether the drive gimmick 130 is driven by the effect control unit 403 so as to be disposed at the exit position. When the sensor 552 does not detect that the board gimmick 130 is disposed at the advanced position regardless of the situation, the error detection unit 710 determines and detects that a board gimmick error has occurred.

When the sensor 552 does not detect that the disc gimmick 130 is disposed at the origin position although the disc gimmick 130 is driven and controlled to be disposed at the origin position, the above-described drive control is performed one more time. After performing the first board gimmick retry process repeatedly executed above, it is determined that the board gimmick error has occurred for the first time when the sensor 552 does not detect that the board gimmick 130 is disposed at the origin position. It may be detected. Similarly, when the sensor 552 does not detect that the board gimmick 130 is disposed at the exit position despite the drive control being performed so that the board gimmick 130 is disposed at the exit position, the above-described drive control is performed. Furthermore, a second gimmick retry process is repeatedly executed one or more times, and a gimmick error occurs for the first time when the sensor 552 does not detect that the gimmick 130 is disposed at the advanced position. It may be determined and detected.
If it is not detected by the sensor 552 that the board gimmick 130 is disposed at the origin position even after the first board gimmick retry processing, the drive control of the board gimmick 130 is ended at that point (after this, repair etc. Is required). The same applies to the second board gimmick retry process.

The error of error code EC19 is a frame gimmick error. When the position or the driving of the frame gimmick 131 is defective, the occurrence of the frame gimmick error is detected.
As described above, the frame gimmick sensor 553 is a sensor for detecting the position of the frame gimmick 131, whether the frame gimmick 131 is disposed at the predetermined origin position and the frame gimmick 131 is disposed at the predetermined exit position Can be detected. Even in the case of the frame gimmick effect (see FIG. 16B) and the effect means initial operation processing (see FIG. 20), the effect control unit 403 controls the frame gimmick 131 to be placed at the origin position. Regardless of whether or not the sensor 553 detects that the frame gimmick 131 is disposed at the origin position regardless of whether the frame gimmick 131 is disposed at the advanced position by the effect control unit 403. When the sensor 553 does not detect that the frame gimmick 131 is disposed at the advanced position regardless of the condition, the error detection unit 710 determines and detects that a frame gimmick error has occurred.

If the sensor 553 does not detect that the frame gimmick 131 is disposed at the origin position despite the drive control being performed so that the frame gimmick 131 is disposed at the origin position, the above-described drive control is performed one more time It is determined that the frame gimmick error has occurred for the first time when the sensor 553 does not detect that the frame gimmick 131 is disposed at the origin position, by performing the first frame gimmick retry process repeatedly executed above. It may be detected. Similarly, when the sensor 553 does not detect that the frame gimmick 131 is disposed at the advanced position despite the drive control being performed so that the frame gimmick 131 is disposed at the advanced position, the above-described drive control is performed. Furthermore, a second frame gimmick retry process which is repeatedly executed one or more times is performed, and a frame gimmick error occurs for the first time when the sensor 553 does not detect that the frame gimmick 131 is disposed at the advanced position. It may be determined and detected.
If it is not detected by the sensor 553 that the frame gimmick 131 is disposed at the origin position even after the first frame gimmick retry process, the drive control of the frame gimmick 131 is ended at that point (after this, repair etc. Is required). The same applies to the second frame gimmick retry process.

The error of the error code EC20 is an operation means error. When the operation of the operating means operable by the player is defective, the occurrence of the operating means error is detected.
Operation means operable by the player includes an effect button 121 and a cross key 122. When the effect button 121 is pressed, the on signal is output from the effect button 121. Otherwise, the off signal is output from the effect button 121. For example, effect means that the effect button 121 should not be pressed While the initial operation process is being performed, when the effect button 121 outputs an on signal, the error detection unit 710 determines and detects that an operation means error has occurred. The same applies to operation means (cross key 122) other than the effect button 121.
In addition, in the case where button driving such as rotating, vibrating or projecting the effect button 121 is possible, the error detection unit 710 generates an operation means error when the button driving can not be performed normally. It may be judged and detected. The above-described button driving is performed in the effect means initial operation processing, and is performed as an effect based on the result of the special view determination or the prior determination.

  You may provide the button drive sensor (not shown) which can detect whether rotation, a vibration, or protrusion of the production button 121 is performed normally. Then, although the rotation, vibration or protrusion of the effect button 121 is controlled so that the rotation, vibration or protrusion of the effect button 121 is performed, the button drive sensor indicates that the rotation, vibration or protrusion of the effect button 121 is normally performed. When it is not detected, the button drive retry process of repeatedly executing the above-mentioned drive control one or more times is performed, but still it is not detected by the button drive sensor that rotation, vibration or protrusion of the output button 121 is normally performed. For the first time, it may be determined and detected that an operation means error has occurred. If it is not detected by the button drive sensor that rotation, vibration or protrusion of the effect button 121 is normally performed even though the button drive retry process is performed, the drive control of the effect button 121 is ended at that point (this After that, repairs etc. will be required).

The error of error code EC21 is a vibration motor error. When the operation of the vibration motor 551 is defective, occurrence of a vibration motor error is detected.
When the vibration motor 551 operates normally to vibrate the effect button 121 when the vibration motor 551 is normal, the motor drive circuit that supplies drive power to the vibration motor 551 to the vibration motor 551 is within a predetermined normal range. A current having a magnitude flows. A current sensor that detects the magnitude of the current is provided in the error detection unit 710 or connected to the error detection unit 710. Then, when the magnitude of the current detected by the current sensor deviates from the normal range while operating the vibration motor 551, the error detection unit 710 determines that the vibration motor error has occurred. And detect.

The error of error code EC22 is a fan drive error. The gaming machine 100 is provided with an air cooling fan (not shown), and when the operation of the air cooling fan is defective, the occurrence of a fan driving error is detected.
During the operation of the gaming machine 100, the gaming machine 100 is configured such that the rotation operation of the air-cooling fan is always performed. On the other hand, when a rotation detection sensor (not shown) for detecting whether or not the air-cooling fan is rotating is provided in the gaming machine 100 and the stop of the rotation of the air-cooling fan is detected, The error detection unit 710 determines and detects that a fan drive error has occurred.

The error of error code EC23 is a fullness error. When the lower plate 125 is full, occurrence of a full error is detected.
The lower plate full detection SW 534 b can detect whether the lower plate 125 is full or not, and outputs an on signal when the lower plate 125 is full, while it is off otherwise. Output the signal of The error detection unit 710 determines and detects that a tray full error has occurred, when a signal of ON is output from the lower tray full detection SW 534 b.
Even if the error detection unit 710 outputs the on signal from the bottom plate detection switch 534b, if the payout control unit 402 is not trying to pay out the game ball (a winning ball or a rental ball), a plate full error occurs. It may be determined and not detected. In this case, when the payout control unit 402 is trying to pay out a game ball (a winning ball or a rental ball), a tray full error occurs only when a signal of ON is outputted from the lower bowl full tank detection SW 534 b. It is good to judge and detect it.
When there is the occurrence and detection of the dish filling error, the player operates the lower plate lever 126 or the like to discharge the gaming balls stored in the lower plate 125 into a ball box or the like, thereby eliminating the dish filling error. It can be done.
In the present embodiment, although it is assumed that the upper tray 123 and the lower tray 125 are provided as storage trays for gaming balls, the number of storage trays provided in the gaming machine 100 may be one. In this case, it may be considered that the one storage plate corresponds to the lower plate 125.

The error of error code EC24 is a shoot ball out error. When there is no game ball in the shoot (not shown) that supplies the game ball to the storage tank 321, the occurrence of a shoot ball out error is detected.
The shoot ball out detection SW 532 outputs an on signal when there is no gaming ball in the shoot, and outputs an off signal otherwise. The error detection unit 710 determines and detects that a shoot ball out error has occurred, when the on / off signal is output from the shoot ball out detection SW 532.

The error of error code EC25 is a payout SW connection error. The occurrence of a payout SW connection error is detected when the actual connection of the SW to be connected to the payout control board 302 is defective (including completely disconnected).
There are SW 531 to SW 535 as SW to be connected to the payout control substrate 302 (see FIG. 6). The SW 531 to SW 535 are connected to the payout control board 302 via a payout input interface IC (not shown). The payout input interface IC is provided with a payout connection abnormality detection circuit for detecting the presence or absence of an abnormality such as disconnection or short circuit in the wiring between the payout control substrate 302 and the SW 531 to SW 535, and when an abnormality is detected. A switch abnormality detection signal is output from the payout connection abnormality detection circuit to the payout control unit 402 and the like. The error detection unit 710 determines and detects that a payout SW connection error has occurred when a switch malfunction detection signal is output from the payout connection malfunction detection circuit.

The error of error code EC26 is an underpayment error. When there is a shortage of gaming balls paid out by the payout control board 302, the occurrence of a shortage of payout error is detected.
The payout ball detection SW 531 outputs one payout ball detection pulse signal each time it detects a game ball (a winning ball or a rental ball) paid out from the payout unit 323 toward the upper plate 123 or the lower plate 125. The payout control unit 402 can count the number of gaming balls actually paid out toward the upper tray 123 or the lower tray 125 as the payout count value by counting the payout ball detection pulse signal from the payout ball detection SW 531. . The error detection unit 710 subtracts the payout count value from the number of prize balls to be paid out according to the payout command or the number of rental balls to be paid out according to the ball lending control, and the subtraction result is a predetermined number (a positive value. When it becomes 200) or more, it is judged and detected that a shortage of payout error has occurred.

The error of error code EC27 is an overdelivery error. When the gaming balls paid out by the payout control board 302 are excessive, the occurrence of a payout excess error is detected.
The error detection unit 710 subtracts the number of prize balls to be paid out according to the payout command or the number of rental balls to be paid out according to the ball lending control from the payout count value, and the subtraction result is a predetermined number (a positive value For example, when 10) or more, it is determined and detected that an overdelivery error has occurred.

The error of error code EC28 is a dispensing unit error. When there is an abnormality in the operation of the dispensing unit 323, the occurrence of a dispensing unit error is detected.
For example, although the payout control unit 402 drives and controls the payout unit 323 and the payout motor 323M so that gaming balls are paid out according to a payout command or by ball lending control, a predetermined time (for example, When the dispensing ball detection pulse signal is not output from the dispensing ball detection SW 531 continuously for 3 seconds or more, the error detection unit 710 detects that a dispensing unit error has occurred (however, the detection is the chute ball). When the occurrence of the disconnection error is detected, it may not be performed).
Alternatively, for example, although the payout control unit 402 drives and controls the payout unit 323 and the payout motor 323M so that the gaming ball is paid out according to the payout command or by the ball lending control, the payout motor 323M by ball biting or the like. The error detection unit 710 may also detect that a payout unit error has occurred even if it is detected by the rotor rotation SW 533 that the rotor is not rotating.

The error of error code EC29 is a discharge ball error. When the gaming ball is parked in the internal area of the special winning opening 111, the occurrence of a discharge ball error is detected.
An excessive discharge or insufficient discharge of gaming balls in the special winning opening 111 will be described. The game balls having won the big winning opening 111 are moved while rolling on the structural parts provided in the inner region of the big winning opening 111 and then discharged from the discharge opening. The special winning opening SW 513 includes a ball entry switch that detects gaming balls that have entered the inner area of the special winning opening 111, and a discharge switch that detects gaming balls that are discharged from the discharge opening of the big winning opening 111. good. And, when the game ball which entered the big winning a prize opening 111 causes the blockage in the big winning a prize opening 111, it is the discharge switch than the ball entry number of the game sphere to the big winning a prize opening 111 which is detected by the entering switch. There is a discharge shortage error in which the number of game balls discharged from the big winning opening 111 detected by the game is smaller, and when the ball clogging in the big winning opening 111 is eliminated, the big winning detected by the entering switch An excess discharge error occurs in which the number of balls discharged from the special winning opening 111 detected by the discharge switch is greater than the number of balls entered into the mouth 111. The error detection unit 710 determines and detects that a discharge ball error has occurred when an underdischarge error or an overdischarge error occurs. The error detection unit 710 may separately detect the underdischarge error and the overdischarge error.

  The error of the error code EC30 is a definite variation SW abnormal passage error. In the gaming machine 100 according to the above-mentioned assumption, there is no concept of a probability variation SW abnormal passage error. However, if the gaming device 100 is modified as follows and configured as a V loop machine, a probability variation SW abnormal passage error may occur. This will be described.

When the gaming machine 100 is configured as a V-loop machine, a probability variation operation area (here, referred to as a V area) and a blade member can be provided inside the big winning opening 111. This blade member inhibits the V winning permission state that allows the game ball entering the large winning opening 111 to enter the V region and the ball entering the large winning opening 111 into the V region. Take one of the V winning inhibition states. When the wing member is in the V winning permissible state, the game ball entering the big winning opening 111 enters most or all of the V region, while the wing member is in the V winning inhibition state, the big winning hole 111 There is substantially no game ball entering the V field entering the V area.
Then, a V area detection SW (not shown) for detecting entry of gaming balls into the V area is connected to the main control board 301, and during a big hit game, entry into the V area of the gaming balls is the V area Only when it is detected by the detection SW, the main control section 401 makes the gaming state after the big hit game a high probability electric support game state, and during the big hit game, the ball entering the V area of the gaming ball detects the V area If not detected by the SW, the gaming state after the jackpot game is set to the low probability electric support gaming state.

The jackpot game by the odd variation jackpot is usually considered to be a jackpot game in which entry of the gaming ball into the V area is easier than the jackpot game by the jackpot.
That is, when configuring the gaming machine 100 as a V-loop machine, the main control unit 401 basically maintains the wing members in the V prize inhibition state, and a specific round game (for example, the second round) In the game only), the blade member is allowed to be in the V prize acceptable state for a predetermined long allowable time (for example, 20 seconds). As a result, in a specific round game in the jackpot game by the probability variation jackpot, entering of the game ball into the V area is easily generated.
On the other hand, the main control unit 401 sets the wing members in the V prize acceptable state, but also in the V prize acceptable state, even in the specific round game (for example, the second round game) of the big hit game by the big hit. Is a short allowable time (for example, 0.1 second) shorter than the above-mentioned long allowable time, and even if a game ball enters the big winning opening 111 temporarily in a specific round game of a big hit game by a big hit normally. The internal structure of the big winning opening 111 is designed so that the game ball does not enter the V area substantially. For this reason, it is substantially impossible to cause the game ball to enter the V area in a specific round game in the jackpot game by the normal jackpot, as long as there is no fraud.

  In such a V-loop machine, the above-mentioned identification is made even when the ball is detected by the V area detection SW when the ball is entered into the V area of the gaming ball during the big hit game by the big hit, or during the big hit game due to a definite variation big hit. When the ball entering the V area of the gaming ball is detected by the V area detection SW during a round game other than the round game, the error detection unit 710 determines and detects that the probability variation SW abnormal passage error has occurred. The change timing from the V prize inhibition state to the V prize acceptance state of the blade member is a start point, and the timing later than the change timing from the V prize acceptance state to the V prize inhibition state to the V prize inhibition state is a predetermined time (for example, 1 second) The period of time is defined as the V area effective period, and when the ball entering the V area of the gaming ball is detected by the V area detection SW outside the V area effective period, the error detection unit 710 generates a definite error SW abnormal passage error It may be judged and detected.

  The errors of the error codes EC31, EC32, and EC33 are a first power supply error, a second power supply error, and a third power supply error, respectively. If the state in which the power is supplied to the gaming machine 100 to be used for the player's game is from the viewpoint of the normal state (in other words, the normal state), the power is turned off from the powering-off state of the gaming machine 100 Switching to the on state can be said to be a kind of abnormality. From this point of view, the first, second or third power source error is defined as follows in relation to power on (see FIG. 18).

  When the gaming machine 100 is switched from the power-off state to the power-on state without accompanying the setting change mode activation operation and the RAM clear operation due to recovery from an unexpected power failure or the like (There is no concept of gaming condition setting value and low probability gaming In the case of configuring the gaming machine 100 in which the jackpot probability in the state and the high probability gaming state can not be changed, the gaming machine 100 has switched from the power off state to the power on state without involving the RAM clear operation. ), The error detection unit 710 determines and detects that a first power supply error has occurred. The determination and detection that the first power supply error has occurred are performed, for example, in step S174 or S175 of FIG. 18 or in step S176 via steps S174 and S175.

  When the gaming machine 100 is switched from the power-off state to the power-on state without setting change mode start operation and accompanied by the RAM clear operation (There is no concept of game condition setting value and low probability gaming state and high probability gaming state When the gaming machine 100 in which the probability of winning the jackpot in the jackpot can not be changed is configured, when the gaming machine 100 is switched from the power off state to the power on state with the RAM clear operation), the error detection unit 710 Determines and detects that a second power supply error has occurred. The determination and detection that the second power supply error has occurred are performed, for example, in step S172 or S173 of FIG. 18 or in step S176 via steps S172 and S173.

  When the gaming machine 100 is switched from the power-off state to the power-on state along with the setting change mode activation operation, the error detection unit 710 determines and detects that the third power supply error has occurred. The determination and detection that the third power supply error has occurred are performed, for example, at any one of steps S152 to S167 in FIG.

<< Outer error and non-outer error >>
Each of the plurality of errors that may occur in the gaming machine 100, including a total of 33 types of errors associated with the error codes EC01 to EC33, belongs to either the outer end error or the non-outer end error. It is optional whether each of the plurality of errors including the error of the error code EC01 to EC33 belongs to either the outer end error or the non-outer end error.

If a predetermined error detection signal is output from the external terminal board 305 as an external output signal (external output signal related to the error) when a certain error is detected, the error belongs to the outer end error. On the contrary, if a predetermined error detection signal is not output from the external terminal board 305 as an external output signal when a certain error is detected, the error belongs to the non-outer end error.
The error detection signal may be replaced with error detection information (external output information related to an error). Regarding a certain error, the error detection signal and the error detection information are signals indicating that the error has been detected or that the error has occurred or that the error has occurred. In the following description, it may be omitted from which of the error detection signal and the error detection information is output, but the error detection signal and the error detection information are output from the external terminal board 305 to the external device 610. Signal, information.

  That is, the outer end error is an error in which when the error is detected, a predetermined error detection signal (error detection information) is output from the external terminal substrate 305 based on the detection of the error (outer end error). It can be said that the outer end error is an error in which a predetermined error detection signal (error detection information) is not output based on the detection of the error (non-outer end error) from the external terminal board 305 when the error is detected. Therefore, although the detection of the outer end error affects the output signal from the external terminal board 305 to the external device 610, the detection of the non-outer end error affects the output (output signal) from the external terminal board 305 to the external device 610 Absent. That is, for example, when any external end error is detected when all of the output terminal portions TM [1] to TM [m] are off, of the output terminal portions TM [1] to TM [m] The output terminal unit TM [i] associated with the information output of the outer end error is switched from off to on, but even if a non-outer end error is detected, all the output terminal sections TM [1] to TM [m] Stayed off.

  Referring to FIG. 34, the gaming machine 100 is provided with an error detection unit 710 and an error notification unit 720.

The error detection unit 710 is, for example, any one control unit among the main control unit 401, the payout control unit 402, and the effect control unit 403, a combination of any two control units, or one of these three control units. Composed of a combination. Alternatively, for example, the error detection unit 710 may be considered to be provided in the gaming machine 100 separately from the main control unit 401, the payout control unit 402, and the effect control unit 403.
For example, when the error detection unit 710 is realized by a combination of the main control unit 401, the payout control unit 402, and the presentation control unit 403, the error detection unit 710 is a main control system error detection unit included in the main control unit 401 In this case, the main control system error detection unit mounted on the main control substrate 301, the payout control system error detection unit included in the payout control unit 402 (in other words, the payout control system error detection mounted on the payout control substrate 302) Section), and can be considered to include an effect control system error detection unit (in other words, an effect control system error detection unit mounted on the effect control substrate 303) included in the effect control unit 403, Among the 33 types of errors, a total of 33 types of errors with error codes EC01 to EC33, some of which are detected by the main control system error detection unit, and the rest of the 33 types of errors Errors are detected by the dispensing control system error detection unit, other errors will be detected by the effect control system error detection unit.

  When an error is detected by the error detection unit 710, the error notification unit 720 notifies an error related to the error. In the following description, "error notification about an error" may be expressed as "error notification of an error" or simply "error notification" for any error. The error notification is a notification to the player or the administrator of the gaming machine 100 or to both of them, and the output of the error detection signal (error detection information) from the external terminal board 305 is not included in the error notification. The error notification may be any notification that appeals to the five senses of human beings, but in particular it may be a notification, for example, visually or aurally or both. The errors for which the error notification is given at the time of detection may be any of a plurality of errors that may occur in the gaming machine 100, including a total of 33 types of errors associated with the error codes EC01 to EC33. There may be errors for which no error notification is given at the time of detection, but unless stated otherwise, it is understood that any error described below is an error for which an error notification is given at the time of detection.

  The error notification regarding any error including the errors ERx, ERy, X, Xa, Xb, Y and Ya described later basically indicates that the error has been detected, and indicates that the error has occurred. A detected error can be generated and detected, including some or all of a notification, a notification indicating that the error has occurred, and a notification indicating an action to be taken in response to the error It may also include notification (eg, siren sounds that do not form meaningful words) that are entirely or not easily distinguishable among any of the plurality of errors.

  The error notification unit 720 may be considered to be the notification component (notification means) itself that performs notification, or is considered to include an error notification control unit that controls the notification component to cause the notification component to perform an error notification. It may be considered that both the notification component and the error notification control unit are included. The notification component (informing means) includes an image display unit 104 for realizing an error notification by image display, a frame lamp 116 and a panel lamp 135 for realizing an error notification by light emission, and a speaker 115 for realizing an error notification by sound output. , And at least one other part may be included, the details will be described later.

If the error notification unit 720 is considered to include the error notification control unit, the error notification unit 720 is, for example, any one control unit of the main control unit 401, the payout control unit 402, and the effect control unit 403, Or a combination of the three control units. Alternatively, for example, the error notification unit 720 may be considered to be provided in the gaming machine 100 separately from the main control unit 401, the payout control unit 402, and the effect control unit 403.
For example, when the error notification unit 720 including the error notification control unit is realized by a combination of the main control unit 401, the payout control unit 402, and the presentation control unit 403, the error notification unit 720 controls the main control included in the main control unit 401. The system error notification unit (in other words, the main control system error notification unit mounted on the main control board 301), the payout control system error notification unit included in the payout control unit 402 (in other words, it is mounted on the payout control substrate 302) And the effect control system error notification unit included in the effect control unit 403 (in other words, the effect control system error notification unit mounted on the effect control board 303). In this case, for a total of 33 errors with error codes EC01 to EC33, error reports on some of the 33 errors in total Is performed by the main control system error notification unit, the error notification regarding the remaining part of the errors is performed by the payout control system error notification unit, and the error notification regarding the other errors is performed by the presentation control system error notification unit. Become.

<< About notification at the time of error duplication detection >>
The error detection unit 710 may detect multiple types of errors in duplicate. Two types of errors detected in duplicate will be referred to as errors ERx and ERy, and the handling when errors ERx and ERy are detected in duplicate will be described. Each of the errors ERx and ERy is a type of error for which an error notification is given at the time of detection. The errors ERx and ERy are two different types of errors and any of a plurality of errors that may occur in the gaming machine 100, including a total of 33 types of errors associated with error codes EC01 to EC33. There are two types of errors. Therefore, the matters described for the errors ERx and ERy are considered to apply to any two types of errors among the plurality of errors that may occur in the gaming machine 100, including the error notification performed correspondingly. It is good.

  The fact that the errors ERx and ERy are detected redundantly includes that the errors ERx and ERy are simultaneously detected, that the error ERx is detected and then the error ERy is detected, and the error ERy is detected. It also includes that the error ERx is detected from Assuming that no error is detected, the error is detected (detected) when a certain error (for example, ERx or ERy) occurs, so the occurrence of the error and the error It can be said that it is equivalent to be detected (detected), but similarly, when errors ERx and ERy occur redundantly, errors ERx and ERy are redundantly detected (detected). It can be said that redundant occurrence of ERy and equivalent detection (detection) of errors ERx and ERy are equivalent.

  When the errors ERx and ERy are redundantly detected in the error detection unit 710, the error notification unit 720 can notify one of the errors with priority over the other error. In the gaming machine 100, a priority (priority of notification) is set in advance for a plurality of types of errors that may occur, and an error for which a higher priority is relatively determined is relatively lower. The priority of is notified prior to the set error. Here, it is assumed that the priority of error ERx is higher than the priority of error ERy. Then, when the errors ERx and ERy are detected redundantly in the error detection unit 710, the error notification unit 720 can notify the error ERx with priority over the error ERy. The setting of the priority may be expressed as giving, assigning, or associating the priority below, but they have the same meaning.

Referring to FIG. 35 (a) etc., "to notify error ERx prior to error ERy" means "to execute error notification on error ERx prior to error notification on error ERy". Do.
For concreteness of explanation, the error notification about error ERx executed when only error ERx is detected is referred to by the symbol “Hx”, and the error regarding error ERy executed when only error ERy is detected The notification is referred to by the symbol "Hy".
Then, for example, when the error ERx and the error ERy are detected in duplicate,
While performing all of the error notifications Hx, not performing all of the error notifications Hy, and
To execute all of the error notification Hx while not executing a part of the error notification Hy and to execute the remaining part of the error notification Hy belongs to "notifying the error ERx prior to the error ERy".

Referring to FIGS. 35 (b) and 35 (c), the error notification regarding a certain error detected is based on the display notification by the display of a predetermined error notification image on image display unit 104 and the output of sound from speaker 115. And sound notification. In the error notification regarding a detected error, the display notification and the sound notification respectively indicate that the error has been detected, indicate that the error has occurred, and that the error has occurred. And a part or all of a notification indicating an action to be taken in response to the error, which includes the error X described later even if the detected error is the error ERx or ERy. The same applies to other errors including Xa, Xb, Y and Ya.
Therefore, the error notification Hx includes the display notification by the display of the predetermined error notification image in the image display unit 104 and the sound notification by the output of the sound from the speaker 115, and the display notification and the sound notification of the error notification Hx. Respectively indicate that the error ERx has been detected, notify that the error ERx has occurred, notify that the error ERx has occurred, and take action in response to the error ERx It includes part or all of the notification to be shown.
Similarly, the error notification Hy includes a display notification by the display of a predetermined error notification image on the image display unit 104 and an acoustic notification by the output of a sound from the speaker 115, and the display notification of the error notification Hy and The sound notification should be performed in response to the notification that the error ERy has been detected, the notification that the error ERy has occurred, the notification that the error ERy has occurred, and the error ERy. It includes part or all of the notification that indicates an action.

Then, when the error ERx and the error ERy are detected in duplicate, there are the following first to third priority notification modes in the “report the error ERx prior to the error ERy”.
The first priority notification mode is a mode in which display notification and sound notification are performed in the error notification Hx and display notification and sound notification in the error notification Hy are not performed as shown in FIG.
In the second priority notification mode, as shown in FIG. 35 (e), the display notification and the sound notification in the error notification Hx and the display notification in the error notification Hy are executed but the sound notification in the error notification Hy is not performed. is there. At this time, display notification in the error notification Hx and Hy may be performed simultaneously, or may be performed alternately in time division.
The third priority notification mode is a mode in which display notification and sound notification in the error notification Hx and sound notification in the error notification Hy are executed but display notification in the error notification Hy is not executed as shown in FIG. . At this time, the sound notification in the error notification Hx and Hy may be performed simultaneously or may be performed alternately in time division (however, when performed simultaneously, the sounds by the sound notification are mixed and each sound notification It is more desirable to do it alternately because it will be difficult to hear the audio content of
Although the first to third priority notification modes have been described focusing on the display notification and the sound notification, the same applies to the case in which the lamp notification by causing the frame lamp 116 or the panel lamp 135 to emit light is included in the error notification. That is, for example, the error notification Hx executed when only the error ERx is detected and the error notification Hy executed when only the error ERy is detected include display notification, sound notification, and lamp notification respectively. In the case of the case, as shown in Figure 35-1,
The first priority notification mode is a mode in which the display notification in the error notification Hx, the sound notification and the lamp notification are executed, and the display notification in the error notification Hy, the sound notification and the lamp notification are not executed.
The second or third priority notification mode executes display notification in the error notification Hx, sound notification and lamp notification, and any one or two of the display notification in the error notification Hy, sound notification and lamp notification And the rest is not executed. In this case, the second or third priority notification mode is one of the display notification forming the error notification Hy, the sound notification and the lamp notification, the display notification is executed and the sound notification and the lamp notification are not performed. YHT _23A , priority notification mode YHT _23B in which sound notification is performed and display notification and lamp notification are not performed, and priority notification mode YHT _{23C in} which lamp notification is performed and display notification and sound notification are not performed. Priority notification mode YHT _23D that performs display notification and sound notification and does not perform lamp notification, Priority notification mode YHT _23E that performs sound notification and lamp notification and does not perform display notification, and display notification and lamp And a priority notification mode YHT _23F in which the notification is performed and the sound notification is not performed.
The same applies to the case where the error notification consists of four or more notifications. The fourth priority notification mode shown in FIG. 35-1 will be described later.

  With reference to FIGS. 36 (a) to (c), an aspect of the priority notification will be described in relation to the detection timing of the errors ERx and ERy. In FIGS. 36 (a) to (c), only the errors ERx and ERy are focused as errors (other errors are not considered).

  In the case shown in FIG. 36A, the errors ERx and ERy are not detected until the timing 1811, and the errors ERx and ERy are simultaneously detected at the timing 1811. In this case, the error notification Hx and the error notification Hy are not executed until the timing 1811, and only the error notification Hx is executed from the timing 1811 in the first priority notification mode, or the second or the second from the timing 1811 Only a part of the error notification Hy is performed while executing the error notification Hx in the 3 priority notification mode.

  In the case shown in FIG. 36 (b), the errors ERx and ERy are not detected until the timing 1821, and the error ERy is detected at the timing 1822 after the error ERx is detected at the timing 1821 (execution of the error notification Hx Assume that time is long enough). In this case, the error notification Hx and the error notification Hy are not performed until the timing 1821, the error notification Hx is performed from the timing 1821, and only the error notification Hx is performed in the first priority notification mode from the timing 1822. From the timing 1822, only a part of the error notification Hy is performed while executing the error notification Hx in the second or third priority notification mode.

  In the case shown in FIG. 36C, the errors ERx and ERy are not detected until the timing 1831, and the error ERx is detected at the timing 1832 after the error ERy is detected at the timing 1831. In this case, the error notification Hx and the error notification Hy are not performed until the timing 1831, the error notification Hy is performed from the timing 1831, and only the error notification Hx is performed from the timing 1832 in the first priority notification mode. Or, from the timing 1832, only a part of the error notification Hy is performed while executing the error notification Hx in the second or third priority notification mode. Here, it is assumed that the error notification Hy is continuously executed even after the timing 1832 if the error ERx is not detected.

There is also a mode of priority notification as follows.
That is, for example, the error notification Hx to be executed when only the error ERx is detected consists of notification using the first to third notification components and the error notification Hy to be executed when only the error ERy is detected. In the case of the notification using the first to third notification parts, when the errors ERx and ERy are detected in duplicate, only the first and second notification parts of the first to third notification parts are used. While reporting that some or all of "the error ERx has been detected", "the error ERx has occurred", "the error ERx has occurred" and "the action to be taken in response to the error ERx" Then, using only the third notification component, “error ERy is detected”, “error ERy has occurred”, “error ERy has occurred” and “error ERy should be performed. Action "mode of notifying some or all of (hereinafter referred to as a fourth priority notification manner) also," error ERx notifying in preference error ERy a "may be interpreted as belonging to the embodiment.
Here, the first and second notification parts are, for example, the image display unit 104 and the speaker 115, and the third notification part is, for example, the frame lamp 116 or the board lamp 135. In this case, the first to third notification parts The notification using the term “display notification” by the image display unit 104, sound notification by the speaker 115, and lamp notification by causing the frame lamp 116 or the panel lamp 135 to emit light.
When attention is paid to display notification, sound notification and lamp notification, the fourth priority notification mode executes display notification and sound notification forming the error notification Hx and lamp notification forming the error notification Hy as shown in FIG. 35-1. On the other hand, the lamp notification forming the error notification Hx, the display notification forming the error notification Hy, and the priority notification mode YHT _4A not performing the sound notification, the display notification and the lamp notification forming the error notification Hx and the error notification Hy The sound notification forming the error notification Hx while the sound notification forming the error notification Hx, the display notification forming the error notification Hy, the priority notification mode YHT _4B not performing the lamp notification, and the sound notification forming the error notification Hx And a lamp notification and a display notification for forming an error notification Hy while forming an error notification Hx Notification as well as a priority notification manner YHT _4C to non-execution acoustic notification and lamp informing forming the error notification Hy, the.
In the fourth priority notification mode, when the errors ERx and ERy are detected in duplicate, the two notification parts give notification about the error ERx, while the error ERy gives one notification part smaller than the error ERx. The error ERx can be said to have been notified prior to the error ERy in that the notification is given. Taken extended, the fourth priority notification manner, when the error ERx and ERy is redundantly detected, k _A number of using the notification component "that the error ERx is detected", "error ERx is generated the thing "," while the error ERx to notify some or all of it has occurred "and" action to be performed in response to the error ERx "less k _B-number of the notification component than k _a number Using the "error ERy detected", "error ERy has occurred", "error ERy has occurred" and "actions to be taken in response to error ERy" alert to some or all It may be understood that the embodiment belongs to the "report the error ERx in preference to the error ERy".

  Further, when any error including the errors ERx and ERy is detected, the error notification unit 720 determines which gaming state the current gaming state is (ie, for example, low probability non-power support gaming state, low probability) In any of the power support gaming state, the high probability non power support gaming state and the high probability power support gaming state), an error notification regarding a detected error may be performed.

  In addition, when any error including the errors ERx and ERy is detected, the error notification unit 720 is in the stop display of the special symbol and the decorative symbol even while the variable symbol of the special symbol and the decorative symbol is currently displayed. However, even when the display for waiting for customers is performed, an error notification regarding the detected error may be performed.

  The first embodiment includes the following Examples EX1_1 to EX1_10. The matters described above in the first embodiment are referred to as a basic embodiment for the sake of convenience. The matters described in the basic embodiment apply to the following Examples EX1_1 to EX1_10 unless otherwise stated or contradictory, and in each embodiment, the matters contradicting the matters described in the basic embodiment are each implemented. The description in the example takes precedence. Also, as long as no contradiction exists, the matters described in any of the embodiments EX1_1 to EX1_10 can be applied to any other embodiments (ie, any two or more of the plurality of embodiments). It is also possible to combine the examples).

――― Example EX1_1 ―――
Example EX1_1 will be described. Outer end error X (hereinafter abbreviated as error X) which is one of the outer end errors, and non-outer end error Y (hereinafter abbreviated as error Y) which is one of the non outer end errors Pay attention to Among the errors of error codes EC01 to EC33 shown in FIG. 33, error X may be any one error belonging to the outer end error, and error Y may be any one belonging to the non outer end error good.

  Referring to FIG. 37 (a), among all the errors belonging to the outer end error, only some errors may correspond to the outer end error X (however, all errors belonging to the outer end error correspond to the outer end error X). You may think that it is possible). For example, among the errors of error codes EC01 to EC33 shown in FIG. 33, the error of error codes EC01 to EC20 can be regarded as the outer end error. In this case, any one of the errors of error codes EC01 to EC20 can be selected. It is possible that the part corresponds to the outer end error X and the rest does not correspond to the outer end error X. However, it is considered that all errors of the error code EC01 to EC20 can correspond to the outer end error X You may

  Referring to FIG. 37 (b), among all errors belonging to non-outer end errors, only some errors may correspond to non-outer end errors Y (but all errors belonging to non-outer end errors are non-outer ends). You may think that it corresponds to the error Y). For example, among the errors of error codes EC01 to EC33 shown in FIG. 33, the error of error codes EC21 to EC33 can be a non-outer end error, and in this case, any of the errors of error codes EC21 to EC33 It is possible to take part as non-outer end error Y and the rest not as non-outer end error Y (but all errors with error code EC21 to EC33 correspond to non-outer end error Y You may think that it is possible.

  As described above with reference to FIGS. 33 and 34, etc., when the outer end error X is detected, while the predetermined error detection signal (error detection information) is output from the external terminal board 305, it is not detected. The detection of the end error Y does not affect the output (output signal) from the external terminal board 305 to the external device 610. That is, the outer end error X is an error in which an error detection signal (error detection information) is output by the external terminal board 305, and the non-outer end error Y is an error detection signal (error detection information) by the external terminal board 305. Is an error that is not output.

  On the other hand, since each of the errors X and Y is a kind of error for which an error notification is given at the time of detection, the error notification unit 720 gives an error notification regarding the error X when the error X is detected, and the error Y is detected. When this is done, an error notification regarding error Y is issued.

The error notification relating to the error X should be performed in response to the notification indicating that the error X has been detected, the notification indicating that the error X has occurred, the notification indicating that the error X has occurred, and the error X Notification of an aspect that includes part or all of the notification indicating an action, but in which it is impossible or easily to distinguish which of a plurality of errors that can be detected and detected or which can be detected For example, sirens that do not form meaningful words may also be included. Similarly,
The error notification relating to the error Y should be issued in response to the notification indicating that the error Y has been detected, the notification indicating that the error Y has occurred, the notification indicating that the error Y has occurred, and the error Y Notification of an aspect that includes part or all of the notification indicating an action, but in which it is impossible or easily to distinguish which of a plurality of errors that can be detected and detected or which can be detected For example, sirens that do not form meaningful words may also be included.

  The outer end error X for which the error detection information should be output to the external device 610 can be said to be an error that is more likely to be dealt with than the non-outer end error Y that is not so, and it is reported that it is given higher priority. Is preferred.

  Therefore, when the error detection unit 710 detects the outer end error X and the non-outer end error Y in duplicate, the error notification unit 720 reports the outer end error X prior to the non-outer end error Y.

  The significance of the priority notification is as described in the basic embodiment (see FIG. 35 (a) to (e) etc.). That is, in the embodiment EX1_1, the above-mentioned errors ERx and ERy may be considered to be the outer end error X and the non-outer end error Y, respectively. Therefore, the above-mentioned error notification Hx and error notification Hy are respectively outside. It may be considered as error notification regarding the end error X and error notification regarding the non-outer end error Y.

  Therefore, for example, referring to FIG. 36 (c), when the non-outer end error Y is detected and the error notification (corresponding to the error notification Hy) regarding the non-outer end error Y is performed, the outer end When an error X is detected, an error notification (corresponding to an error notification Hx) related to the outer end error X can be made, while the outer end error X is detected with reference to FIG. Error notification (corresponding to the error notification Hx) regarding the outer end error X when the non-outer end error Y is detected, the error notification (corresponding to the error notification Hy) regarding the non-outer end error Y It is good to make some or all of the) not executed. This is to notify the occurrence of the outer end error X with priority.

  Referring to FIGS. 38A and 38B, the notification mode of the error notification regarding the outer end error X and the notification mode of the error notification regarding the non-outer end error Y are different from each other. However, this means not only that the former notification mode and the latter notification mode are different from each other in all aspects, but also that the former notification mode and the latter notification mode are partially different. Is a concept that also

  For example, in the display notification in the error notification of the error X, the display notification in the error notification of the error Y is displayed while displaying the character "error X detected in large size" in the first display area of the image display unit 104. In the second display area of the image display unit 104 different from the first display area, the character “error Y detected” is displayed in a small size smaller than the large size. In this case, the display mode (display position, display size) in the display notification differs between the error notification of the error X and the error notification of the error Y. The first display area is closer to the center of the entire display area of the image display unit 104 than the second display area.

  Further, for example, in the sound notification in the error notification of the error X, the voice “error X is detected” and a predetermined siren sound (for example, a sound that sounds like “fan fan”) are alternately and repeatedly output from the speaker 115 On the other hand, in the sound notification in the error notification of the error Y, only the voice “the error Y is detected” is repeatedly outputted from the speaker 115 with an interval. In this case, the sound notification mode differs between the error notification of the error X and the error notification of the error Y. The sound volume of the speaker 115 in the sound notification during the error notification of the error X may be different from the sound volume of the speaker 115 in the sound notification during the error notification of the error Y (for example, the former may be larger) , The latter may be larger).

  The same applies to notifications other than display notification and sound notification. That is, for example, when the error notification of the errors X and Y includes the lamp notification by the frame lamp 116 and the board lamp 135, the error notification may be different between the errors X and Y with respect to the mode of the lamp notification. .

  In addition, the error notification unit 720 determines which gaming state the current gaming state is (that is, for example, low probability non-power support gaming state, low probability power support gaming state, high probability non power support gaming state, high probability If the outer end error X is detected, it is possible to execute an error notification regarding the outer end error X regardless of the power support gaming state, and if the non outer end error Y is detected, the non outer end error An error notification regarding Y may be executable. Also in this case, if the errors X and Y are detected in duplicate, the error X is notified prior to the error Y.

  Further, the error notification unit 720 is in the stop display of the special symbol and the decorative symbol even when the variable symbol of the special symbol and the decorative symbol is displayed at present (including the time when the customer waiting display is naturally performed). Even if the outer end error X is detected, error notification regarding the outer end error X can be executed, and when the non outer end error Y is detected, the error notification regarding the non outer end error Y can be performed. It is good. Also in this case, if the errors X and Y are detected in duplicate, the error X is notified prior to the error Y.

  Also, of the outer end error X and the non-outer end error Y, the execution of a specific effect is limited only when an error notification regarding the outer end error X is performed (that is, the specific effect is not performed). (In this case, the outer end error X is any error other than the error code EC18 to EC21 error among the error code EC01 to EC33, and realizes a specific effect) It is not an error that is caused by a malfunction of the rendering component. As a result, the administrator of the gaming machine 100 can easily notice the notification of the external end error X with a high degree of correspondence required, such that the error detection information is output to the external device 610.

  This will be specifically described with reference to FIGS. 39 (a) to 39 (c). Now, as shown in FIG. 39A, in a state where the error notification regarding the error X and the error notification regarding the error Y are not performed, the effect 2152 is performed from the timing 2141 to the timing 2144 and the effect 2151 from the timing 2142 to the timing 2143 Let's assume a case where Here, it is assumed that the timings 2141, 2142, 2143 and 2144 come in this order as time passes. Therefore, the entire execution period of the effect 2151 falls within the execution period of the effect 2152. However, the execution period of the effect 2151 and the execution period of the effect 2152 may completely coincide with each other, may partially overlap, or may be completely separated. The effects 2151 and 2152 are effects that are executed and controlled by the effect control unit 403, and each of the effects 2151 and 2152 may be effects based on the result of the special view determination or the prior determination.

  In the above case, as shown in FIG. 39B, assuming that the error notification regarding the outer end error X is executed from timing 2140 before timing 2141 to timing 2145 after timing 2144, the effect control unit 403 , Execution of the effect 2151 between the timing 2142 and 2143 (ie, the effect 2151 is not performed). However, the execution of the effect 2152 between the timings 2141 and 2144 is not limited (ie, the effect 2152 is performed). Assuming that execution of the error notification of the outer end error X is started from the intermediate timing between timing 2142 and 2143, the effect 2151 is executed until the intermediate timing, and the effect 2151 is not executed from the intermediate timing. be able to.

  On the other hand, in the above case, as shown in FIG. 39C, when error notification regarding non-outer end error Y is executed between timing 2140 and timing 2145 (however, error notification regarding outer end error X is not performed at all) And the effect control unit 403 executes the effect 2152 between the timing 2141 and the timing 2144 without performing the limitation as described above, and executes the effect 2151 at the timing 2142 and the timing 2143.

In the example of FIGS. 39A to 39C, of the outer end error X and the non-outer end error Y, the execution of the effect 2151 as a specific effect is performed only when the error notification regarding the outer end error X is performed. Is restricted (i.e., the effect 2151 is not executed).
Here, non-execution of the effect 2151 as a specific effect also includes the meaning that the effect 2151 is not executed in a mode that can be viewed by the player. Even when the effect 2151 is actually executed, when the effect 2151 is not visible from the player, it can be said that the effect 2151 is not executed in a mode in which the player can visually recognize. Also, even when the effect 2151 is not actually performed, it can be said that the effect 2151 is not executed in a mode in which the player can visually recognize. When thinking like this, the execution of the effect 2151 indicates that the effect 2151 is executed in a mode that the player can visually recognize, and the execution of the effect 2152 is that the effect 2152 is in a mode that the player can visually recognize It may be understood that it refers to being performed, and further that non-execution of the effect 2152 may be understood as indicating that the effect 2152 is not executed in a mode that can be viewed by the player.
In addition, the image 2151 may be an effect by display using the image display unit 104. In this case, execution of the image 2151 refers to displaying an image forming the image 2151, and non-execution of the image 2151 Indicates to hide the image. Similarly, the image 2152 may be an effect by display using the image display unit 104. In this case, the execution of the image 2152 refers to displaying the image forming the image 2152, and the non-execution of the image 2152 Indicates to hide the image.

  For example, effects 2151 and 2152 include reach effects, button effects, operation-responsive effects, frame gimmick effects, board gimmick effects, effects for displaying a hold image, effects for changing a display mode of a hold image, etc. It may be any two of a plurality of effects that can be executed by the effect control unit 403 based on the prior determination. In particular, for example, the effect 2151 may be a board gimmick effect or a frame gimmick effect which is a movable effect for driving the movable member (board gimmick 130, frame gimmick 131) (in this case, the outer end error X is an error code EC01 Among errors in EC33, any errors other than errors in error codes EC18 and EC19 shall be assumed). As a result, it is possible to suppress that notification of the outer end error X, which requires a high degree of correspondence, such that the error detection information is output to the external device 610, becomes particularly difficult to notice because it is buried in flashy gimmick effects.

  In addition, when the error notification regarding the outer end error X is executed between the timing 2140 and 2145, it is stated that the effect 2152 is executed among the effects 2151 and 2152, but the effect 2152 is also not performed in addition to the effect 2151. You may do it. In this case, both of the effects 2151 and 2152 function as the specific effect. In this case, for example, the effect 2151 may be a board gimmick effect or a frame gimmick effect, and the effect 2152 may display an image (such as an image forming a reach effect) on the image display unit 104 based on the result of the special drawing determination or the prior determination. It may be an effect to

――― Example EX1_2 ―――
Example EX1_2 will be described. Example EX1_2 is an example based on Example EX1_1, and the contents described in Example EX1_1 also apply to Example EX1_2 as long as there is no description and no contradiction.

  In the embodiment EX1_2, in addition to the outer end error X and the non-outer end error Y, attention is also paid to the outer end error Xa (hereinafter sometimes abbreviated as error Xa). Among the errors of the error codes EC01 to EC33 shown in FIG. 33, the error Xa may be any one error belonging to the outer end error. Of all the errors belonging to the outer end error, any error may correspond to the outer end error Xa. However, it is assumed that the error Xa is an outer end error of a type different from the error X.

  Similar to the outer end error X, when the outer end error Xa is detected, a predetermined error detection signal (error detection information) is output from the external terminal board 305. That is, the outer end error Xa is an error in which the external terminal board 305 outputs an error detection signal (error detection information).

  However, an error detection signal (error detection information) output from the external terminal substrate 305 when the outer end error X is detected, and an error detection output from the external terminal substrate 305 when the outer end error Xa is detected. A signal (error detection information) is output from a common output terminal portion of the external terminal substrate 305. That is, assuming that the common output terminal unit is the output terminal unit TM [1], an error detection signal for the outer end error X is output from the output terminal unit TM [1] when the outer end error X is detected. When the outer end error Xa is detected, an error detection signal for the outer end error Xa is output from the output terminal TM [1].

  The error detection signal for the outer end error X and the error detection signal for the outer end error Xa may be two signals that can be distinguished in the external device 610. That is, for example, an 8-bit digital signal is output from the output terminal section TM [1] by turning on / off the output terminal section TM [1] as the common output terminal section. If different digital values are assigned to the error detection signal and the error detection signal for the outer end error Xa, the external device 610 separates the error detection signal for the outer end error X and the error detection signal for the outer end error Xa. It can be recognized separately.

  The signal of the indistinguishable form may be output from the common output terminal unit. That is, for example, when attention is focused only on the outer end errors X and Xa and the common output terminal portion is the output terminal portion TM [1], the output terminal portion TM [1] is not detected when the outer end errors X and Xa are not detected. Is kept off, and when the outer end error X is detected, the output terminal TM [1] is turned on for a predetermined time to output an error detection signal for the outer end error X, and also output when the outer end error Xa is detected. By turning on the terminal portion TM [1] for a predetermined time, an error detection signal for the outer end error Xa is output. In this case, although the external device 610 receiving the error detection signal can recognize that either the outer end error X or Xa is detected, it can not recognize which of the outer end error X and Xa is detected (ie, The error detection signal from the output terminal unit TM [1] functions as a signal indicating that either the outer end error X or Xa has occurred and has been detected).

  However, for example, the on-time of output terminal section TM [1] at the time of detection of outer end error X (the length of time for which the output terminal section TM [1] is kept on) and the output at the time of detection of outer end error Xa It is also possible to make the on time of the terminal portion TM [1] different from each other, and in this case, the external device 610 receives an error detection signal for the outer end error X and the outer end error. It becomes possible to distinguish and recognize the error detection signal for Xa (in this case, the error detection signal from the output terminal TM [1] at the time of detection of the outer end error X is detected by the occurrence of the outer end error X) Functions as a signal indicating that the external end error Xa has been detected, and an error detection signal from the output terminal TM [1] at the time of detection of the external end error Xa functions as a signal indicating that the external end error Xa is generated and detected. ).

  Similar to the detection of the error X or Y, the error notification unit 720 performs error notification on the error Xa when the error Xa is detected. The error notification regarding the error Xa should be performed in response to the notification indicating that the error Xa has been detected, the notification indicating that the error Xa has occurred, the notification indicating that the error Xa has occurred, and the error Xa. Notification of an aspect that includes part or all of the notification indicating an action, but in which it is impossible or easily to distinguish which of a plurality of errors that can be detected and detected or which can be detected For example, sirens that do not form meaningful words may also be included.

  As described in the embodiment EX1_1, when the error detection unit 710 detects the outer end error X and the non-outer end error Y in duplicate, the error notification unit 720 detects the outer end error X from the non-outer end error Y Also prioritize notification. In addition to this, when the error detection unit 710 detects the outer end error Xa and the non-outer end error Y in duplicate, the error notification unit 720 gives priority to the outer end error Xa over the non-outer end error Y. You may report it. Furthermore, in the embodiment EX1_2, a higher priority (priority of notification) is given to the outer end error X than the outer end error Xa, and as a result, the outer end errors X and Xa in the error detection unit 710 When detected in duplicate, the error notification unit 720 gives notification of the outer end error X prior to the outer end error Xa. Among the outer end errors, high / low of the necessity of the correspondence exists, and the quality improvement of the error correspondence is achieved by preferentially notifying the direction of the outer end error X whose necessity of the correspondence is higher.

The significance of the priority notification is as described in the basic embodiment (see FIG. 35 (a) to (e) etc.). That is,
If attention is paid to error notification at the time of detecting duplicates of errors X and Y,
It is good to think that the above errors ERx and ERy are errors X and Y respectively, and that the error notification Hx concerning the error ERx and the error notification Hy concerning the error ERy respectively correspond to the error notification concerning the error X and the error notification concerning the error Y ,
If attention is paid to error notification at the time of detecting duplicates of errors Xa and Y,
It is better to think that the above errors ERx and ERy are errors Xa and Y respectively, and that the error notification Hx concerning the error ERx and the error notification Hy concerning the error ERy respectively correspond to the error notification concerning the error Xa and the error notification concerning the error Y ,
If attention is paid to error notification at the time of detecting duplicates of errors X and Xa,
It may be considered that the above-mentioned errors ERx and ERy correspond to the errors X and Xa respectively, and the error notification Hx concerning the error ERx and the error notification Hy concerning the error ERy correspond to the error notification concerning the error X and the error notification concerning the error Xa, respectively. .
The mode of priority alerting at the time of detecting duplicates of errors X and Y, the mode of priority alerting at the time of detecting duplicates of errors Xa and Y, and the mode of priority alerting at the time of detecting duplicates of errors X and Xa are mutually the same. It may be different from each other.
As an example, attention will be added to the detection of duplicates of errors X and Xa and duplicates of errors X and Y. When only the error X is detected, and when only the error Xa is detected and when only the error Y is detected, it is assumed that display notification, sound notification and lamp notification are performed as error notifications. Then, at the time of duplicate detection of errors X and Xa, the priority notification aspects YHT _{23A to} YHT _23F belonging to the first priority notification aspect, the second or third priority notification aspect described above (see FIG. 35-1), and the fourth priority The error X is notified prior to the error Xa using any one of the priority notification modes YHT _{4A to} YHT _4C belonging to the notification mode, while the above-described first priority is given when duplicates of the errors X and Y are detected. An error X is made using any one of the notification modes, the priority notification modes YHT _{23A to} YHT _23F belonging to the second or third priority notification modes, and the priority notification modes YHT _{4A to} YHT _4C belonging to the fourth priority notification mode. The notification is given priority over the error Y. Under the present circumstances, the priority alerting | reporting aspect used at the time of the duplication detection of the error X and Xa and the priority alerting | reporting aspect used at the time of the duplication detection of the errors X and Y may mutually correspond, and may mutually differ.

  In particular, when attention is paid to duplicate detection of the errors Xa and Y, the description of the example EX1_1 after replacing “X” in the description of the example EX1_1 with “Xa” is included in the example EX1_2. In addition, when attention is paid to duplicate detection of errors X and Xa, after “non-outer end error Y” in the description of the embodiment EX1_1 is replaced with “outer end error Xa” and “Y” is replaced with “Xa” The description of Example EX1_1 may be included in Example EX1_2.

  That is, when attention is paid when detecting duplicates of the errors X and Xa, as in the case of FIG. 36C, the error X is detected when an error notification regarding the error Xa is being issued accompanying the detection of the error Xa. In the case, it is possible to perform an error notification regarding the error X, while performing an error notification (corresponding to the error notification Hx) regarding the error X as the error X is detected, as in FIG. When the error Xa is detected when the error notification is detected, a part or all of the error notification (corresponding to the error notification Hy) regarding the error Xa may not be executed. This is to notify the occurrence of the error X with priority.

  When attention is paid to the duplicate detection of the errors X and Xa, the notification form of the error notification on the error X and the notification form of the error notification on the error Xa are mutually the same as described with reference to FIGS. 38 (a) and (b). It is different. However, this does not only mean that the former notification mode and the latter notification mode are different from each other in all aspects, but that the former notification mode and the latter notification mode are partially different. Is a concept that also A specific method of changing the notification mode of the error notification is as described in the embodiment EX1_1.

  In addition, the error notification unit 720 determines which gaming state the current gaming state is (that is, for example, low probability non-power support gaming state, low probability power support gaming state, high probability non power support gaming state, high probability If the outer end error X is detected, it is possible to execute an error notification regarding the outer end error X regardless of the power support gaming state), and if the outer end error Xa is detected, the outer end error Xa is detected An error notification may be performed, and if a non-outer end error Y is detected, an error notification regarding the non-outer end error Y may be performed. Also in this case, when at least two errors among the errors X, Xa and Y are detected in duplicate, the way of priority notification is as described above.

  Further, the error notification unit 720 is in the stop display of the special symbol and the decorative symbol even when the variable symbol of the special symbol and the decorative symbol is displayed at present (including the time when the customer waiting display is naturally performed). Even if the outer end error X is detected, error notification regarding the outer end error X can be executed, and when the outer end error Xa is detected, the error notification regarding the outer end error Xa can be performed. If the outer end error Y is detected, an error notification regarding the non-outer end error Y may be executable. Also in this case, when at least two errors among the errors X, Xa and Y are detected in duplicate, the way of priority notification is as described above.

  Also, among the errors X, Xa and Y, the execution of a specific effect is restricted only when an error notification regarding the error X is performed and an error notification regarding the error Xa is performed (ie, specific The effect may be made non-execution). The method of limiting the execution of a specific effect (a method of disabling a specific effect) when a certain error notification is performed is as described in the embodiment EX1_1.

  The effect 2151 as an example of the specific effect shown in FIGS. 39 (a) to 39 (c) may be a frame gimmick effect or a board gimmick effect.

  Although it is assumed that a higher priority (priority of notification) is given to the outer end error X than the outer end error Xa, conversely, the outer end error Xa is set to the outer end error Xa. In this case, the outer end error Xa is notified prior to the outer end error X when the outer end errors X and Xa are detected in duplicate. It will be.

――― Example EX1_3 ―――
Example EX1_3 will be described. Example EX1_3 is an example based on Examples EX1_1 and EX1_2, and the contents described in Examples EX1_1 and EX1_2 apply to Example EX1_3 unless otherwise stated or contradictory.

  Referring to FIG. 40A, in addition to the error detection unit 710 and the error notification unit 720, the gaming machine 100 can be considered to be provided with a notification error information transmission unit 730. The detection result of the occurrence of an error for each type of error by the error detection unit 710 is transmitted to the notification error information transmission unit 730, and when any error is detected, the notification error information transmission unit 730 detects an error. The error notification unit 720 transmits notification error information indicating that an error has occurred or an error has occurred. Unlike the external output information, the notification error information is not the information output from the external terminal board 305. The notification error information also includes information specifying which type of error the detected error is (which type of error among the errors of the error codes EC01 to EC33).

The error notification unit 720 performs the above-described error notification in response to the reception of the notification error information from the notification error information transmission unit 730. That is, for example, the error notification unit 720, from the notification for error information transmitting unit 730, an error X receives a notification for error information HI _X to indicate that it has been detected performs error notification about the error X, error Y has been detected When the notification error information HI _Y indicating that is received, the error notification regarding the error Y is performed, and when the notification error information HI _Xa indicating that the error Xa is detected is received, the error notification regarding the error Xa is performed. The same is true for other errors.

As shown in FIG. 40 (b), the notification for error information transmitting unit 730, a first notification for error information transmitting unit 731 that transmits broadcast for error information HI _X upon detection of an error X, upon detection of an error Y A second notification error information transmission unit 732 for transmitting notification error information HI _Y , and a third notification error information transmission unit 733 for transmitting notification error information HI _Xa at the time of detection of error Xa are included. It can be said that However, in the case of the gaming machine 100 in which the error Xa can not exist, the third notification error information transmitting unit 733 does not exist.

  The notification error information transmission unit 730 is detected when any error is detected by the error detection unit 710 regardless of whether the error notification unit 720 is performing some error notification or not. The notification error information on the error is transmitted to the error notification unit 720.

That is, for example, regardless of whether or not the error notification unit 720 is performing error notification regarding the error Y or Xa, the first notification error information transmission unit 731 does not use the error detection unit 710 to detect an error X there transmits a broadcast for error information HI _X if it is detected, even while the error notification unit 720 based on the broadcast for error information previously received HI _X is performing an error notification about the error X, You may submit a new notification for error information HI _X if new error X was detected in the error detection unit 710.

Similarly, for example, regardless of whether or not the error notification unit 720 is performing error notification regarding the error X or Xa, for example, the second error information transmission unit 732 for notification does not generate an error in the error detection unit 710. If Y is detected, the notification error information HI _Y is transmitted, and the error notification unit 720 is in the process of giving an error notification regarding the error Y based on the notification error information HI _Y received earlier. When the error detection unit 710 newly detects an error Y, the notification error information HI _Y may be newly transmitted.

Similarly, for example, regardless of whether or not the error notification unit 720 is performing an error notification regarding the error X or Y, for example, the third notification error information transmission unit 733 uses the error detection unit 710 to check the error. If Xa is detected, the notification error information HI _Xa is transmitted, and the error notification unit 720 is in the process of giving an error notification regarding the error Xa based on the notification error information HI _Xa received earlier. You may submit a new notification for error information HI _Xa if new error Xa was detected in the error detection unit 710.

  The error detection is performed without separating the error detection system and the information output system according to the error detection from the system for actually performing the error notification, and considering whether any error notification is being performed. At the same time, by adopting a configuration for transmitting notification error information, the processing related to information transmission is simplified.

――― Example EX1_4 ――
Example EX1_4 will be described.

  The outer end error includes an outer end error Xb (hereinafter sometimes abbreviated as error Xb) in addition to the above-described outer end errors X and Xa. Although the outer end error Xb is an outer end error of a type different from the outer end errors X and Xa, the description regarding the outer end error Xa shown in the embodiments EX1_2 and EX1_3 includes the contents of the corresponding error notification, and The outer end error Xb may also be true or true except for one difference between (i.e., the descriptions of Examples EX1_2 and EX1_3 after replacing “Xa” with “Xb” in the descriptions of Examples EX1_2 and EX1_3. Is included in or may be included in Example EX1_4).

The differences between the outer end errors Xa and Xb are as follows.
An error detection signal (error detection information) output from the external terminal board 305 when the outer end error X is detected, and an error detection signal (output from the external terminal board 305 when the outer end error Xa is detected The error detection information (error detection information) is output from the common output terminal portion of the external terminal substrate 305, while an error detection signal (error detection information) output from the external terminal substrate 305 when the outer end error X is detected. And an error detection signal (error detection information) output from the external terminal substrate 305 when the outer end error Xb is detected, are output from separate output terminal portions of the external terminal substrate 305. That is, assuming that the common output terminal unit is the output terminal unit TM [1], when the outer end error X or Xa is detected, an error detection signal for the outer end error X or Xa is output terminal unit TM [1] When the outer end error Xb is detected, an error detection signal for the outer end error Xb is output from the output terminal TM [2].

  Therefore, for example, when the outer end error which is one of the outer end errors Xa and Xb is referred to as the outer end error Xab, when the outer end error Xab is detected by the error detection unit 710, the type of the outer end error Xab (Ie, depending on whether the detected outer end error Xab is error Xa or Xb), the error detection signal for the outer end error Xab is output in common with the error detection signal for the outer end error X There are cases where the signal is output from a terminal unit (for example, TM [1]) and when it is output from an output terminal unit (for example, TM [2]) different from the common output terminal unit.

  Non-outer-end errors include non-outer-end errors Ya (hereinafter sometimes abbreviated as errors Ya) in addition to the above-mentioned non-outer-end errors Y. Although the non-outer end error Ya is a different type of non-outer end error than the non-outer end error Y, the description regarding the non-outer end error Y shown in the embodiments EX1_1 to EX1_3 includes the contents of the corresponding error notification The same applies to non-outer-end error Ya (that is, description of Examples EX1_1 to EX1_3 after replacing “Y” with “Ya” in the description of Examples EX1_1 to EX1_3 is Example EX1_4. (May be included or included).

  Referring to FIG. 41, errors P and Q are also defined here. The error P is either the outer end error Xb or the non-outer end error Y, and the error Q is either the outer end error X or the non-outer end error Ya. The errors P and Q will be referred to in the examples below.

  Refer to FIG. 42 (a). With regard to error detection and error notification, a functional block diagram of the gaming machine 100 can also be shown as shown in FIG. 42 (a). That is, it can be considered that the gaming machine 100 is configured to include the control units 810A and 810B and the error notification unit 720. The control unit 810A includes an error detection unit 812A and a notification error information transmission unit 814A, and the control unit 810B includes an error detection unit 812B and a notification error information transmission unit 814B.

  As shown in FIG. 42 (b), a plurality of errors which may occur in the gaming machine 100 including a total of 33 types of errors associated with the error codes EC01 to EC33 include a plurality of first errors and a plurality of second errors. Fall into the group of errors. The first error group includes one or more errors among the plurality of errors, and the second error group includes one or more other errors among the plurality of errors. Any one of a plurality of errors which may occur in the gaming machine 100 may be classified into the first and second error groups.

  Each error belonging to the first error group is detected by the error detection unit 812A, and each error belonging to the second error group is detected by the error detection unit 812B. That is, it can be said that the error detection units 812A and 812B are components of the error detection unit 710 described above, and a part of the function of the error detection unit 710 is realized by the error detection unit 812A. The other part is realized by the error detection unit 812B.

  The error detection unit 812A performs a first error determination process for detecting and determining the presence or absence of each error belonging to the first error group, and the error detection unit 812B determines the presence or absence of each error belonging to the second error group A second error determination process for detection and determination is performed. Since the control unit 810A includes the error detection unit 812A, it can be said that the first error determination process is performed by the control unit 810A, and the control unit 810B includes the error detection unit 812B. It can be said that the second error determination process is performed by the control unit 810B. In the first and second error determination processes, each error occurs according to the method shown in the basic embodiment (refer to the method for determining the presence or absence of each error of error codes EC01 to 33 described with reference to FIG. 33). It may be detected and judged whether or not it is.

  In the control unit 810A, the error detection unit 812A detects the presence or absence of occurrence of each error belonging to the first error group, and the detection result is transmitted to the notification error information transmission unit 814A to detect any error belonging to the first error group. If it has been, the notification error information transmitting unit 814A transmits the first notification error information indicating that an error has been detected or an error has occurred or an error has occurred. The first notification error information is directly transmitted from the transmission unit 814 (in other words, the control unit 810A) to the error notification unit 720. Unlike the external output information, the first notification error information is not the information output from the external terminal board 305. The first notification error information also includes information specifying which type of error the detected error is (which type of error among the errors of the error codes EC01 to EC33).

  In the control unit 810B, the error detection unit 812B detects the presence or absence of occurrence of each error belonging to the second error group, and the detection result is transmitted to the notification error information transmission unit 814B to detect any error belonging to the second error group. When it is determined, the notification error information transmission unit 814B transmits the second notification error information indicating that an error has been detected or an error has occurred or an error has occurred. The second notification error information is transmitted from the transmission unit 814B (in other words, the control unit 810B) to the error notification unit 720 via the control unit 810A. That is, the second notification error information is first transmitted from the control unit 810B to the control unit 810A, and when the control unit 810A receives the second notification error information, the received second notification error information is sent to the error notification unit 720. Directly send. Unlike the external output information, the second notification error information is not the information output from the external terminal board 305. The second notification error information also includes information specifying which type of error the detected error is (which type of error among the errors of the error codes EC01 to EC33).

  Notification error information (first notification error information) for each error belonging to the first error group is transmitted from the transmission unit 814A, and notification error information for each error belonging to the second error group (second notification error Information) is transmitted from the transmission unit 814B. That is, it can be said that transmitters 814A and 814B are components of notification error information transmitter 730 shown in FIG. 40, and a part of the function of transmitter 730 is realized by transmitter 814A. Is realized by the transmission unit 814B.

  The error notification unit 720 performs the above-described error notification in response to the reception of the notification error information. As described above, in the present embodiment, the first notification error information is transmitted from the control unit 810A to the error notification unit 720 and received by the error notification unit 720, and the second notification error information is controlled from the control unit 810B. It is transmitted to the error notification unit 720 via the unit 810A and received by the error notification unit 720.

  When the error notification unit 720 receives notification error information indicating that a certain error has been detected, the error notification unit 720 issues an error notification regarding the error. That is, for example, when the error notification unit 720 receives notification error information indicating that the errors X, Xa, Xb, Y, and Ya have been detected, the error notification unit 720 reports an error notification regarding the errors X, Xa, Xb, Y, and Ya, respectively. Do.

――― Example EX1_5 ―――
Example EX1_5 will be described. The example EX1_5 is an example based on the examples EX1_1 to EX1_4, and the contents described in the examples EX1_1 to EX1_4 apply to the example EX1_5 as long as there is no description and no contradiction.

  With regard to the configuration shown in FIG. 42 (a) (see also FIG. 42 (b)), in Example EX1_5, the first error group includes the outer end error X and the second error group includes the non-outer end error Y. .

  Then, when attention is paid to errors X and Y, the first error determination process for detecting and determining the occurrence of outer end error X is performed in control unit 810A, and control unit 810B causes non-outer end error Y A second error determination process is performed to detect and determine the occurrence.

  When the error X is detected, the first notification error information indicating that the error X is detected is transmitted from the control unit 810A to the error notification unit 720, and when the error Y is detected, Second notification error information indicating that the error Y is detected is transmitted from the control unit 810B to the error notification unit 720 via the control unit 810A.

  When the error notification unit 720 receives the first notification error information indicating that the error X is detected, the error notification unit 720 gives an error notification regarding the error X, and receives the second notification error information indicating that the error Y is detected. An error notification regarding error Y is performed.

――― Example EX1_6 ――
Example EX1_6 will be described. The example EX1_6 is an example based on the examples EX1_1 to EX1_4, and the contents described in the examples EX1_1 to EX1_4 apply to the example EX1_6 as long as there is no description and no contradiction.

  With regard to the configuration shown in FIG. 42 (a) (see also FIG. 42 (b)), in the embodiment EX1_6, the first error group includes the outer end error X and the second error group is the error P (thus error Xb and Y See FIG. 41).

  Then, when attention is paid to errors X and P, the first error determination processing for detecting and determining the occurrence of outer end error X is performed in control unit 810A, and error P (therefore error Xb is performed in control unit 810B). And Y) is performed, and a second error determination process is performed to detect and determine the occurrence.

  Then, when the error X is detected, the first notification error information indicating that the error X is detected is transmitted from the control unit 810A to the error notification unit 720. When the error P is detected, second notification error information indicating that the error P is detected is transmitted from the control unit 810B to the error notification unit 720 via the control unit 810A. Since the error P is either the error Xb or Y, in detail, when the outer end error Xb is detected as the error P, the second notification error information indicating that the error Xb is detected is controlled. When the non-outside error Y is detected as an error P, the second notification error information indicating that the error Y is detected is transmitted from the unit 810B to the error notification unit 720 via the control unit 810A. It is transmitted to the error notification unit 720 from the unit 810B via the control unit 810A.

  The error notification unit 720 performs error notification on the error X when receiving the first notification error information indicating that the error X has been detected. Similarly, the error notification unit 720 performs error notification on the error P when the second notification error information indicating that the error P is detected is received. Since the error P is any one of the errors Xb and Y, in detail, when the error notification unit 720 receives the second notification error information indicating that the error Xb is detected as the error P, an error notification regarding the error Xb is issued. When the second notification error information indicating that the error Y is detected as the error P is received, the error notification regarding the error Y is performed.

  When the outer end error Xb is detected as the error P, an error detection signal for the outer end error Xb is output from the external terminal board 305, but when the non-outer end error Y is detected as the error P Output of the error detection signal from the external terminal board 305 is not performed. That is, when the error P is detected by the control unit 810B, the external terminal board 305 responds to the type of the detected error P (depending on whether the detected error P is the error Xb or Y), The signal and information (error detection signal and error detection information for the error P) corresponding to the detection of the error P may or may not be output. In other words, in the error P, an error (in this case, the outer end error Xb) in which the error detection information is externally output by the external terminal board 305 and an error in which the error detection information is not externally output (here, the non-outer end error Y And there.

――― Example EX1_7 ―――
Example EX1_7 will be described. Example EX1_7 is an example based on Examples EX1_1 to EX1_4, and the contents described in Examples EX1_1 to EX1_4 apply to Example EX1_7 as long as there is no description and no contradiction.

  With regard to the configuration shown in FIG. 42 (a) (see also FIG. 42 (b)), in Example EX1_7, the first error group includes the error Q (thus errors X and Ya; see FIG. 41) and the second error group Is assumed to include an error Y.

  Then, when attention is paid to errors Q and Y, the first error determination processing for detecting and determining the occurrence of error Q (therefore errors X and Ya) is performed in control unit 810A, and error is performed in control unit 810B. A second error determination process for detecting and determining the occurrence of Y is performed.

  Then, when the error Q is detected, the first notification error information indicating that the error Q is detected is transmitted from the control unit 810A to the error notification unit 720. Since the error Q is either the error X or Ya, in detail, when the error X is detected as the error Q, the first notification error information indicating that the error X is detected is the control unit 810A. Is sent to the error notification unit 720, and when the error Ya is detected as the error Q, the first notification error information indicating that the error Ya is detected is sent from the control unit 810A to the error notification unit 720. . When the error Y is detected, second notification error information indicating that the error Y is detected is transmitted from the control unit 810B to the error notification unit 720 via the control unit 810A.

  When the error notification unit 720 receives the first notification error information indicating that the error Q is detected, the error notification unit 720 performs error notification on the error Q. Since the error Q is either the error X or the error Ya, in detail, when the error notification unit 720 receives the first notification error information indicating that the error X is detected as the error Q, an error notification regarding the error X is issued. When the first notification error information indicating that the error Ya is detected as the error Q is received, the error notification regarding the error Ya is performed. The error notification unit 720 performs error notification on the error Y when receiving the second notification error information indicating that the error Y is detected.

  When the outer end error X is detected as the error Q, an error detection signal for the error X is output from the external terminal board 305, but when the non-outer end error Ya is detected as the error Q, the error The output from the external terminal board 305 of the detection signal is not performed. That is, when the error Q is detected by the control unit 810A, the external terminal board 305 responds to the type of the detected error Q (depending on whether the detected error Q is the error X or Ya). The signal and information (error detection signal for error Q and error detection information) corresponding to the detection of error Q may or may not be output. In other words, as the error Q, an error (here, outer end error X) in which the error detection information is externally output by the external terminal board 305 and an error in which the error detection information is not output externally (here, the non-outer end error Ya) And there.

――― Example EX1_8 ―――
Example EX1_8 will be described. In the embodiment EX1_8, applied technology applicable to the above-mentioned embodiments EX1_1 to EX1_7 will be described. In the description of the embodiment EX1_8 and any subsequent description, the error detection unit 710 includes the error detection units 812A and 812B when the configuration of FIG. 42 (a) is adopted. It shall refer to the site. In the embodiment EX1_8, only the errors X and Y are focused on and the presence of other errors is ignored unless otherwise described.

  Reference is made to FIG. Now, in a situation where the outer end error X and the non-outer end error Y are simultaneously occurring and both the outer end error X and the non-outer end error Y are detected by the error detection unit 710, It is assumed that the gaming machine 100 is switched from the power on state to the power off state and then returns to the power on state at timing 2112. It is assumed that the cause of the outer end error X is eliminated between the timings 2111 and 2112, and thereafter the outer end error X is not generated. On the other hand, it is assumed that the cause of the non-outer end error Y is not resolved between the timings 2111 and 2112, and the state where the non-outer end error Y is generated is maintained also after the timing 2112.

  When the power of the gaming machine 100 is shut off in a situation in which both the outer end error X and the non-outer end error Y are detected by the error detection unit 710 and thereafter the power is restored (that is, when it returns to the power on state) As long as the external end error X is not detected again by the error detection unit 710 after power recovery, the error notification of the external end error X is not performed after power recovery, and similarly, the non-outer end is detected by the error detection unit 710 after power recovery. As long as the error Y is not detected again, the error notification of the non-outer end error Y is not performed after power recovery. That is, the information that the outer end error X or the non-outer end error Y is detected is not stored through the power shutoff and restoration, and such information is reset by the power shutoff.

  Under the above assumption, when the operation of each part of the gaming machine 100 becomes possible by power restoration at timing 2112, the error detection unit 710 detects the error Y (specifically, the error Y occurs) The error notification unit 720 executes an error notification regarding the error Y from the timing 2113 by receiving information based on the detection result (error information for notification in the embodiments EX1_3 to EX1_7). Start running). The timing 2113 is a timing after the timing 2112. The timing 2114 shown in FIG. 43 will be described later.

When the power supply restoration command (first, second or third power supply restoration command) is received by the effect control unit 403 due to power supply restoration, the restoration display is performed as described above (see FIG. 21A, etc.), In the case where error notification regarding error Y is performed after power supply recovery, it is preferable to start execution of error notification regarding error Y after performing recovery display. That is, since the recovery display is basically performed for the predetermined time t _HK (refer to FIG. 22), it is preferable that after the power is restored, the recovery display for the predetermined time t _HK is performed and then the execution of the error notification regarding the error Y is started. . The non-outer end error Y is to wait for the end of the recovery display because the urgency of the error notification is lower than the outer end error X in which the error detection information is output at the time of detection. If the error Y disappears before the timing 2113 after the timing 2111, the error detection unit 710 does not detect the error Y at the timing 2113, so the error notification of the error Y from the timing 2113 is made. Will not run.

For example, in the power supply restoration case DH1 shown in FIG. 23, the timings 1214 and 1216 in FIG. 23 respectively correspond to the timings 2112 and 2113 in FIG.
Also, for example, in the power supply restoration case DH2 shown in FIG. 24, the timings 1224 and 1226 in FIG. 24 correspond to the timings 2112 and 2113 in FIG. 43, respectively.
Further, for example, in the power recovery case DH3 shown in FIG. 25, the timings 1242 and 1243 in FIG. 25 correspond to the timings 2112 and 2113 in FIG. 43, respectively.

Also, although different from the above-mentioned assumption, if an error X is detected by the error detection unit 710 while the recovery display is being performed after power recovery, it is added to the recovery display or the recovery display is ended. The error notification regarding the error X may be performed. That is, for example, if the error X is not detected after the power is restored under the condition that the error Y occurs also after the timing 2112, the recovery display is performed between the timing 2112 and the timing 2113 of FIG. If an error notification regarding Y is performed but an error X is detected after timing 2112 but before timing 2114 (see FIG. 43), error notification regarding error X is restored from timing 2114 It is preferable to carry out along with the display, or to make the error display regarding the error X from the timing 2114 be finished by ending the recovery display up to the timing 2114. The time difference between timings 2112 and 2114 is less than the predetermined time t _HK (see FIG. 22) described above. The timing 2114 may coincide with the timing 2112.

If an error X is not detected, it is assumed that a recovery display is performed between the timing 2112 and the timing 2113 in FIG. 43, and the pattern of the error notification when the error X is detected at the timing 2114 is as follows: One of the patterns PTN _{A1 to} PTN _A3 may be adopted.

Referring to FIGS. 44 (a) to 44 (c), in any of the patterns PTN _{A1 to} PTN _A3 , restoration display is performed from timing 2112 to immediately before timing 2114. At this time, the above-mentioned restoration sound output (figure 21 (d)) may also be performed.

As shown in FIG. 44 (a), in the pattern PTN _A1 , when the error X is detected at timing 2114, from the timing 2114, the image display unit 104 displays the restoration display and the display notification in the error notification of the error X. At the same time, sound notification in the error notification of the error X is performed using the speaker 115. At this time, if the recovery sound output has been performed until timing 2114, it is preferable to stop the recovery sound output from timing 2114. In the pattern PTN _A1 , when the predetermined time t _HK (time determined as the time for the recovery display should be performed; from FIG. 22) elapses from the timing 2112, the recovery display ends, but the display notification in the error notification of the error X is It may be continuously performed together with the sound notification in the error notification of the error X.
The significance of the display notification and the sound notification in the error notification is as described above with reference to FIG.

As shown in FIG. 44 (b), the pattern _{PTN A2,} an error X is detected at a timing 2114, the timing 2114, performs acoustic notification in the error notification of the error X using speaker 115. At this time, if the recovery sound output has been performed until timing 2114, it is preferable to stop the recovery sound output from timing 2114. In the pattern PTN _A2 , the restoration display is ended at the timing 2114, and the display notification in the error notification of the error X is started in the image display unit 104 from the timing 2114. In the pattern PTN _A2 , even after the predetermined time t _HK has elapsed from the timing 2112, the display notification and the sound notification in the error notification of the error X may be continuously performed.

As shown in FIG. 44C, in the pattern PTNA _A3 , when an error X is detected at timing 2114, sound notification in error notification of the error X is performed using the speaker 115 at timing 2114. At this time, if the recovery sound output has been performed until timing 2114, it is preferable to stop the recovery sound output from timing 2114. In the pattern PTN _A3 , the recovery display is continuously executed also after the timing 2114. More specifically, while the recovery display is performed until the predetermined time t _HK elapses from the timing 2112, the display notification in the error notification of the error X is not performed. In the pattern PTN _A3 , when the predetermined time t _HK has elapsed from the timing 2112, the recovery display ends. In the pattern PTN _A3 , after the predetermined time t _HK has elapsed from the timing 2112, both the display notification and the sound notification in the error notification of the error X may be executed.

  In the embodiment EX1_8, the above “error X” may be read as “error Xa” or “error Xb”, and “error Y” may be read as “error Ya”.

  Also, after the power-on process, when the gaming machine 100 is maintained in the power-on state, the effect control unit 403 receives the power recovery command (first, second or third power recovery command) due to a malfunction. It is also conceivable that the same effect as when the regular power recovery command (first, second or third power recovery command) is received by the effect control unit 403 even if such reception is received. The operation (including the operation described above in the embodiment EX1_8) may be performed. The normal power recovery command is the power-on process (at step S174, S172 or S165 in FIG. 18) that is executed immediately after the state of the gaming machine 100 is switched from the power-off state to the power-on state. The power supply recovery command transmitted from the control unit 401 to the effect control unit 403 is indicated.

――― Example EX1_9 ―――
Example EX1_9 will be described. Also in the embodiment EX1_9, an applied technology applicable to the above-mentioned embodiments EX1_1 to EX1_7 will be described. In the embodiment EX1_9, the relationship between the adjustment of the volume or the light amount by the player and the errors X and Y will be described. In the embodiment EX1_9, only the errors X and Y are focused on and the presence of other errors is ignored unless otherwise described.

First, a situation where not performed any error notification in (hereinafter, for convenience, availability SIT _O hereinafter) under the adjustable period (FIG. 28), according to the input adjustment image display operation, or, in some cases Even if the adjustment image display operation is not input, the adjustment image 1420 can be displayed (see FIGS. 29A and 29B).

Further, even under the situation where no error notification regarding the outer end error X is performed and an error notification regarding the non-outer end error Y is performed (hereinafter referred to as a status SIT _Y for convenience), any error notification is performed. As in the case where the adjustment image 1420 can not be displayed, the adjustment image 1420 can be displayed in the adjustable period according to the input of the adjustment image display operation or, in some cases, even if the adjustment image display operation is not input. The operation of the gaming machine 100 according to the input of the volume value change instruction operation and the light amount value change instruction operation under the condition SIT _Y (the change operation of the S / W volume value and the S / W light value and the output of the reference sound) may be the same as that under SIT _O, i.e., it may be the same as shown in the basic embodiment.

This will be supplemented with reference to FIG. That is, in the situation SIT _Y , when the adjustment image display operation is input during the adjustable period, the adjustment image 1420 including the volume gauge 1422 and the volume value numerical image 1423 is displayed. At timing when the adjustment image 1420 is displayed even if there is no input of the adjustment image display operation, such as waiting for a customer, the adjustment image 1420 is displayed without the input of the adjustment image display operation. Also good. Then, in the situation SIT _Y , if the volume value change instruction operation is input while the adjustment image 1420 is displayed, the contents of the volume gauge 1422 and the volume value numerical image 1423 change along with the change of the S / W volume value. At this time, the above-mentioned reference sound is output. However, as described above, the change of the S / W volume value has upper and lower limits, and the output of the reference sound may not be performed depending on the adjustable period (see FIG. 31).

When the adjustment image 1420 is displayed, the light intensity gauge 1424 and the light intensity value numerical image 1425 are also displayed. Therefore, in the situation SIT _Y , when the light quantity value change instruction operation is input while the adjustment image 1420 is displayed, the contents of the light quantity gauge 1424 and the light quantity value numerical image 1425 are changed along with the change of the S / W light quantity value. It will change. However, as described above, there is a limitation of upper and lower limits in changing the S / W light quantity value.

On the other hand, under the situation where the error notification regarding the outer end error X is performed (hereinafter referred to as the situation SIT _X for convenience), the S / W is instructed by the volume value change instruction operation and the light amount value change instruction operation. The sound volume value and the S / W light amount value may not be changed (that is, the S / W sound volume value change by the input of the sound volume value change instruction operation and the S / W light amount by the input of the light amount value change instruction operation You may not want to change the value).

Under the condition SIT _X , an operation by any of the following patterns PTN _{B1 to} PTN _B3 may be performed.

Figure 46 (a), the the pattern _{PTN B1} involved in situations SIT _X, including the volume gauge 1422 and volume value numeric image 1423 at time should circumstances SIT _O or status SIT _Y if adjusting image 1420 is displayed The adjustment image 1420 is not displayed, and the reference sound is not output even when the volume value change instruction operation is input. That is, for example, when the pattern PTN _B1 is adopted, the adjustment image 1420 including the volume gauge 1422 and the volume value numerical image 1423 is displayed in the situation SIT _X even if the adjustment image display operation is input at any timing. In addition, even if the volume value change instruction operation is input at any timing, the reference sound is not output.

When the adjustment image 1420 is not displayed, the light intensity gauge 1424 and the light intensity value numerical image 1425 are not displayed either.
When the pattern PTN _B1 is adopted, the S / W volume value is not changed even if the volume value change instruction operation is input in the situation SIT _X , and the S / W even if the light amount value change instruction operation is input. The light quantity value is never changed.

Figure 46 Referring to (b), the pattern _{PTN B2} involved in situations SIT _X, including the volume gauge 1422 and volume value numeric image 1423 at time should circumstances SIT _O or status SIT _Y if adjusting image 1420 is displayed The adjustment image 1420 is displayed. That is, for example, when the pattern PTN _B2 is adopted, the adjustment image 1420 including the volume gauge 1422 and the volume value numerical image 1423 when the adjustment image display operation is input during the adjustable period in the situation SIT _X Is displayed. Such as customer wait state, when reaching the situation SIT _X at the timing as even conditions SIT _O or status SIT _Y If no input of the adjustment image displaying operation adjustment image 1420 is displayed, the adjustment image displaying The adjustment image 1420 may be displayed without input of the operation.
Then, when the pattern _{PTN B2} are employed, in the context SIT _X, the volume value change instruction operation is entered when adjusting image 1420 is displayed, as in the situation SIT _O or circumstance SIT _Y, volume The display contents of the gauge 1422 and the volume value numerical image 1423 change unless the upper and lower limits are restricted (at this time, even if the S / W volume value is changed along with the change of the volume gauge 1422 and the volume value numerical image 1423) it may, S / W volume value as the volume gauge 1422 and volume value numeric image 1423 is changed may be unchanged), unlike the situation SIT _O or circumstance SIT _Y, the guide sound is output There is not.

That is, for example, when the pattern PTN _B2 is adopted, the adjustment image 1420 including the volume gauge 1422 and the volume value numerical image 1423 indicating that the S / W volume value is “7” is displayed in the situation SIT _X After that, when the volume value change instruction operation for increasing the S / W volume value is input, as shown in FIG. 46 (b), the display content of the volume gauge 1422 and the volume value numerical image 1423 is the S / W volume. The value is changed to indicate that the value is "8", but no reference sound is output at this time. At this time, the S / W volume value may actually be changed to “8” in conjunction with a change in the display content of the volume gauge 1422 and the volume value numerical image 1423, but the S / W volume value may be changed. May remain “7” (if the S / W volume value is kept “7”, the volume gauge 1422 and volume value numerical image should originally indicate the S / W volume value Between the display contents of 1423 and the actual S / W volume value, a wrinkle resulting from the detection of the error X will occur).

When the adjustment image 1420 is displayed, the light intensity gauge 1424 and the light intensity value numerical image 1425 are also displayed. Therefore, when the pattern _{PTN B2} are employed, in the context SIT _X, when the light value change instruction operation is entered when adjusting image 1420 is displayed, as in the situation SIT _O or circumstance SIT _Y, The display contents of the light amount gauge 1424 and the light amount value numerical value image 1425 may be changed as long as the upper and lower limits are not limited (in this case, the S / W light amount together with the display content change of the light amount gauge 1424 and the light amount value numerical image 1425) The value may be changed, or even if the display contents of the light amount gauge 1424 and the light amount value numerical image 1425 are changed, the S / W light amount value may be unchanged.

Figure 46 Referring to (c), the pattern _{PTN B3} involved in situations SIT _X, including the volume gauge 1422 and volume value numeric image 1423 at time should circumstances SIT _O or status SIT _Y if adjusting image 1420 is displayed The adjustment image 1420 is displayed. That is, for example, when the pattern PTN _B3 is adopted, the adjustment image 1420 including the volume gauge 1422 and the volume value numerical image 1423 when the adjustment image display operation is input in the adjustable period in the situation SIT _X Is displayed. Such as customer wait state, when reaching the situation SIT _X at the timing as even conditions SIT _O or status SIT _Y If no input of the adjustment image displaying operation adjustment image 1420 is displayed, the adjustment image displaying The adjustment image 1420 may be displayed without input of the operation.
However, when the pattern _{PTN B3} are employed, in the context SIT _X, even if the volume value change instruction operation is entered when adjusting image 1420 is displayed, unlike the situation SIT _O or circumstance SIT _Y, volume gauge There is no change in the display contents of the volume value numerical image 1423, and no reference sound is output.

When the adjustment image 1420 is displayed, the light intensity gauge 1424 and the light intensity value numerical image 1425 are also displayed. However, when the pattern PTN _B3 is adopted, the display contents of the light intensity gauge 1424 and the light intensity value numerical image 1425 even if the light intensity value change instruction operation is input in the situation SIT _X when the adjustment image 1420 is displayed. Does not change.
When the pattern PTN _B3 is adopted, the S / W volume value is not changed even if the volume value change instruction operation is input in the situation SIT _X , and the S / W even if the light amount value change instruction operation is input. The light quantity value is never changed.

  In the embodiment EX1_9, the above-mentioned “error X” may be read as “error Xa” or “error Xb”, and “error Y” may be read as “error Ya”.

――― Example EX1_10 ―――
Example EX1_10 will be described. In Example EX1_10, handling of an error in the setting change mode will be described. As described with reference to FIG. 18, after shifting to step S152 in the power-on process, the operation mode of the gaming machine 100 is set to the setting change mode from step S152 to step S167.

When the operation mode of the gaming machine 100 is set to the setting change mode, an operation according to any one of the following patterns PTN _{C1 to} PTN _C3 is performed in relation to detection or notification of a specific error. Although the error X is mainly assumed as the specific error in this case, the specific error may be the errors Xa, Xb, Y and Ya, or any other error.

When the pattern PTN _C1 is adopted, in the setting change mode (that is, when the operation mode of the gaming machine 100 is set to the setting change mode), the error detection unit 710 detects whether or not a specific error occurs. The error determination process can be executed, and therefore, when a specific error occurs, the specific error is detected by the error detection unit 710. Then, when a specific error is detected in the setting change mode when the pattern PTN _C1 is adopted, the notification error information indicating that is the error detection unit 710 or the notification error information transmission unit (730, The error notification unit 720 which is transmitted from the 814A or 814B) to the error notification unit 720 and receives the notification error information executes an error notification regarding a specific error.

  However, at this time, a part of the error notification regarding a specific error may not be executed. That is, for example, when the error notification regarding the specific error executed when the specific error is detected in the game mode includes the display notification and the sound notification (see FIG. 35 (b) etc.), the setting change mode When a specific error is detected in, any one of the display notification and the sound notification may be performed and the other may be non-execution.

When the pattern PTN _C2 is adopted, as in the case of adopting the pattern PTN _C1 , in the setting change mode (that is, when the operation mode of the gaming machine 100 is set to the setting change mode), the error detection unit 710 It is possible to execute an error determination process for detecting the presence or absence of a specific error. Therefore, when a specific error occurs, the specific error is detected by the error detection unit 710.
However, when a specific error is detected in the setting change mode when the pattern PTN _C2 is adopted, the notification error information indicating that is the error detection unit 710 or the notification error information transmission unit (730, Although transmitted to the error notification unit 720 from 814A or 814B), the error notification unit 720 does not execute an error notification regarding a specific error. In this case, after the operation mode of the gaming machine 100 is switched from the setting change mode to the game mode, an error notification regarding a specific error may be started based on the notification error information already received, or the setting change. The notification error information received in the mode may be discarded (in the case of performing the discard, error notification regarding a specific error is executed unless a specific error is detected after the transition to the game mode). Not).
Alternatively, in the setting change mode when the pattern PTN _C2 is adopted, even if a specific error is detected, notification error information indicating that is not transmitted to the error notification unit 720 (for example, Example EX1_3 or EX1_4). As a result, the error notification unit 720 may be configured not to perform error notification regarding a specific error.

When the pattern PTN _C3 is adopted, in the setting change mode (that is, when the operation mode of the gaming machine 100 is set to the setting change mode), the error detection unit 710 detects whether or not a specific error occurs. As a result, even if a specific error occurs, the specific error is not detected by the error detection unit 710 even if the specific error occurs. As a result, as a matter of course, the error notification unit 720 does not execute an error notification regarding a specific error.

In the pattern PTN _C3 , for example, it is assumed that the error detection process by the error detection unit 710 is executed in the timer interrupt process of FIG. 9, and as a result, the interrupt execution of the timer interrupt process is not permitted. In the setting change mode, the error determination process is not executed. On the other hand, in the pattern PTN _C1 or PTN _C2 , it is assumed that the error detection process by the error detection unit 710 can be performed separately from the timer interrupt process.

When the pattern PTNC _C1 or PTNC _C2 is adopted, the operation of the setting change mode may be interrupted or canceled when the error detection unit 710 detects a specific error. The operation of the setting change mode includes an operation according to the process of steps S153 to S164 of FIG.

  The suspension of the operation in the setting change mode means that, for example, when a specific error is detected in the setting change mode, the operation in the setting change mode is not performed for a predetermined time, and the setting change mode is waited for a predetermined time Point to resume the operation of. That is, for example, when a specific error is detected after execution of the process of step S154 of FIG. 18 and before execution of the process of step S155, the setting change mode is started from the process of step S155 after waiting for a predetermined time to elapse. Resume the operation of. Therefore, when the operation of the setting change mode is interrupted, the change and writing of the game condition setting value in response to the setting value change instruction operation or the confirmation operation are not performed.

  Alternatively, interruption of the operation in the setting change mode means, for example, when the specific error is detected in the setting change mode, the operation in the setting change mode is not performed until the specific error is not detected by the error detection unit 710. It means that the operation of the setting change mode is resumed after the specific error is not detected by the error detection unit 710. In this method, whether the error determination processing executed by the error detection unit 710 detects an occurrence of a specific error and determines the occurrence of a specific error, and whether a specific error is eliminated after detecting the occurrence of a specific error It is assumed that the error solution determination process includes the following: Therefore, for example, when a specific error is detected after execution of the process of step S154 of FIG. 18 and before execution of the process of step S155, the operation of the setting change mode is stopped at that time, and the specific error The operation of the setting change mode is resumed from the process of step S155 on condition that the cancellation is detected. Therefore, when the operation of the setting change mode is interrupted, the change and writing of the game condition setting value in response to the setting value change instruction operation or the confirmation operation are not performed.

  The cancellation of the operation of the setting change mode indicates that the operation of the setting change mode including the process of steps S153 to S164 of FIG. 18 is canceled. Therefore, for example, when a specific error is detected after execution of the process of step S154 of FIG. 18 and before execution of the process of step S155, the operation of the setting change mode is canceled at that time, and the process proceeds to step S165. The process may proceed or proceed to step S172 or S174.

/ / / / / / / / / Second embodiment / / / / / / / / / /
A second embodiment according to the present invention will be described. The second embodiment is implemented in combination with the first embodiment. In the second embodiment, details such as detection or notification relating to some errors described in the first embodiment will be described.

[About Error X]
A detailed description of error X is provided.

  The error notification regarding the error X includes display notification by the image display unit 104, sound notification by the speaker 115, lamp notification by the frame lamp 116 (specifically, lamp notification by causing the frame lamp 116 to emit light), and the frame lamp 116 And LED notification by emitting an error notification LED different from the board lamp 135 (however, only a part of the four notifications may be included). The lamp notification may be by light emission of the panel lamp 135. The error notification LED may be an LED (light emitting diode) installed at any part of the gaming machine 100, and for example, on the back surface of any of the main control board 301, the payout control board 302 and the effect control board 303. It may be provided, or may be provided in the information display unit 114 connected to the main control board 301. The error notification LED may be a 7-segment LED display (the same applies to other error notification LEDs described later).

  The error notification regarding the error X may not be stopped until the power of the gaming machine 100 is shut off (that is, until the gaming machine 100 is turned off) once it is started. The error notification may end when a predetermined time (for example, 30 seconds) elapses after the start of the notification.

  When the power of the gaming machine 100 is shut off while the error notification regarding the error X is being executed, and then the power is restored (that is, when the power returns to the power on state), the error detection unit 710 again performs the error X Unless detected, no error notification regarding error X is made. That is, the information that the error X has been detected is not stored through the shutoff and restoration of the power, and such information is reset by the shutoff of the power. This may be true for any other outer end error (including Xa and Xb).

  The lamp notification that forms the error notification regarding the error X may be part of a plurality of lamps included in the frame lamp 116 and may be due to the light emission of the lamp associated with the error X. Other lamps in the frame lamp 116 may be turned off. The same applies to the case where the lamp notification is performed using the board lamp 135.

  The effect control unit 403 can output various predetermined basic effect sounds from the speaker 115 under various situations when the error X is not detected. However, when the error notification regarding the error X is performed, only the sound by the sound notification constituting the error notification of the error X is output from the speaker 115, and the other sounds including the basic effect sound are not output. Also good. The basic effect sound is a sound that is output according to the result of the special drawing determination during the variation display of the special symbol and a background sound that is output independently of the result of the special drawing determination, a hit that is output during the jackpot game Other than the effect sound and the above-mentioned reference sound, it includes not only the winning sound that is output when the game ball enters the winning device (starting ports 105 and 106, the big winning port 111 or the normal winning port 112).

  When the error detection unit 710 detects an error X, the gaming machine 100 may stop the game in response to an abnormality. When the game is abnormally stopped, the above-mentioned timer interrupt process and effect timer interrupt process are not executed (therefore, the special symbol process etc. is not executed), and the player's operation on the operation handle 119 and the firing instruction member 120 The firing of the game ball to the game area 103 is not executed regardless of the condition. In addition, the special symbol is not displayed in the abnormal response stop of the game. When the game is abnormally stopped during the change display of the special symbol, the change display of the special symbol is interrupted at that time and the special symbol is not displayed. In this case, the fluctuation display of the special symbol is resumed after the power is restored after the power of the gaming machine 100 is turned off. When the game is abnormally stopped during the big hit game, the big hit game is interrupted at that time. In this case, the jackpot game is resumed after the power is restored after the power of the gaming machine 100 is turned off.

  The abnormal handling stop of the game is not performed in response to the detection of the error Xb, and is not performed in response to the detection of the error Y. In response to the detection of the error Xa or Ya, the abnormal response stop of the game may be performed or may not be performed.

  In addition, when the error detection unit 710 detects an error X, or when an error notification regarding the error X is performed, the payout operation of the gaming ball (a winning ball or a rental ball) using the payout unit 323 is stopped. You may.

[About Error Xa]
A detailed description of the error Xa is provided.

  The error notification related to the error Xa includes display notification by the image display unit 104, sound notification by the speaker 115, and lamp notification by the frame lamp 116 (in detail, notification by causing the frame lamp 116 to emit light) (however, Among the three types of notification, only a part of the notification may be included). The lamp notification may be by light emission of the panel lamp 135. Furthermore, LED notification by light emission of an error notification LED different from the frame lamp 116 and the panel lamp 135 may be included in the error notification regarding the error Xa. In this case, a common error notification LED may be shared as an error notification LED for the error Xa and an error notification LED for another error (for example, the error X), or an error notification LED for the error Xa and Error notification LEDs for other errors (for example, error X) may be separately provided.

  The error notification regarding the error Xa may not be stopped until the power of the gaming machine 100 is shut off (that is, until the gaming machine 100 is turned off) once it is started. The error notification may end when a predetermined time (for example, 30 seconds) elapses after the start of the notification.

  In the case where the error notification regarding the error Xa ends after a predetermined time (for example, 30 seconds) elapses after the start of the error notification, the following may be performed. That is, after the error notification about the error Xa is started in response to the detection of the error Xa, if the error Xa is newly detected before the predetermined time elapses, the predetermined time from the new detection time point The error notification regarding the error Xa may be executed again for a minute.

  In the case of adopting a method of ending the error notification over time after the start of the error notification regarding the error Xa, of the error notifications regarding the error Xa, the display notification may be ended after the sound notification is ended.

  When the error notification regarding the error Xa is performed, just as when the error notification regarding the error X is performed, only the sound by the sound notification that constitutes the error notification of the error Xa is output from the speaker 115, and the other sound is not It may be output.

  In the embodiments including the present embodiment, it is assumed that the corresponding error notification is performed when the error Xa is detected, but the error notification is not performed even if the error Xa is detected. As such, the gaming machine 100 may be modified.

[About Error Xb]
A detailed description of the error Xb is provided.

  The error notification relating to the error Xb includes display notification by the image display unit 104, sound notification by the speaker 115, lamp notification by the frame lamp 116 (in detail, notification by causing the frame lamp 116 to emit light), the frame lamp 116 and And LED notification by emitting an error notification LED different from the panel lamp 135 (however, only a part of the four notifications may be included). The lamp notification may be by light emission of the panel lamp 135. The error notification LED may be an LED (light emitting diode) installed at any part of the gaming machine 100, and for example, on the back surface of any of the main control board 301, the payout control board 302 and the effect control board 303. It may be provided, or may be provided in the information display unit 114 connected to the main control board 301. A common error notification LED may be shared as an error notification LED for error Xb and an error notification LED for another error (eg error X or Xa), or an error notification LED for error Xb and others An LED for error notification about an error of (e.g. error X or Xa) may be provided separately.

The error detection unit 710 can constantly monitor and detect whether or not the error Xb has occurred, and can transmit information indicating the detection result to the error notification unit 720 (this information is shown in FIG. 40 or 42). The notification error information transmission unit (730, 814A or 814B) shown in (a) may be transmitted to the error notification unit 720). For this reason, after the start of the error notification regarding the error Xb, the error notification unit 720 recognizes whether the error Xb continues to occur or the error Xb has been eliminated, using the information indicating the detection result. can do.
Alternatively, the error determination processing for the error Xb executed by the error detection unit 710 is added to the error occurrence determination processing of detecting and determining the occurrence of the error Xb, and detecting whether the error Xb has been eliminated after detecting the occurrence of the error Xb And an error solution determination process may be included. In this case, when the elimination of the error Xb is detected in the error elimination determination process, the error elimination information indicating that fact may be transmitted to the error notification unit 720 (the error elimination information is shown in FIG. 40 or FIG. ) May be transmitted from the error information transmission unit for notification (730, 814A or 814B) to the error notification unit 720), the error notification unit 720 recognizes the elimination of the error Xb by receiving the error elimination information. can do.

  Of the above four notices constituting the error notice of the error Xb, regarding the sound notice, it is preferable to end after the start of the sound notice after a predetermined time has elapsed, and in this case, the other three notices (display notice, The lamp notification and the LED notification may be continued until the elimination of the error Xb is detected and recognized.

  When the error notification of the error Xb is executed including the sound notification, when the elimination of the error Xb is detected and recognized, the error notification unit 720 immediately stops the sound notification during the error notification of the error Xb. Then, after a predetermined time (for example, one second) has elapsed, the lamp notification during the error notification of the error Xb may be ended.

  When the error notification of the error Xb is being executed, when the elimination of the error Xb is detected and recognized, the error notification may be stopped immediately, or the error notification may be continued for a predetermined period of time before the error is concerned. The notification may be stopped.

  In addition, when the error detection unit 710 detects the error Xb or when an error notification regarding the error Xb is performed, the payout operation of the gaming ball (a winning ball or a rental ball) using the payout unit 323 is stopped. You may.

  The lamp notification that forms an error notification regarding the error Xb may be light emission of a lamp that is part of a plurality of lamps included in the frame lamp 116 and is associated with the error Xb, and in the lamp notification, Other lamps in the frame lamp 116 may be turned off. The same applies to the case where the lamp notification is performed using the board lamp 135.

[About Error Y]
A detailed description of error Y is provided.

  The error notification regarding the error Y includes display notification by the image display unit 104, sound notification by the speaker 115, lamp notification by the frame lamp 116 (in detail, notification by causing the frame lamp 116 to emit light), the frame lamp 116 and And LED notification by emitting an error notification LED different from the panel lamp 135 (however, only a part of the four notifications may be included). The lamp notification may be by light emission of the panel lamp 135. The error notification LED may be an LED (light emitting diode) installed at any part of the gaming machine 100, and for example, on the back surface of any of the main control board 301, the payout control board 302 and the effect control board 303. It may be provided, or may be provided in the information display unit 114 connected to the main control board 301. A common error notification LED may be shared as an error notification LED for error Y and an error notification LED for another error (e.g. error X, Xa or Xb), or for error notification about error Y An LED for error notification about LEDs and other errors (e.g. error X, Xa or Xb) may be provided separately.

The error detection unit 710 can constantly monitor and detect whether or not an error Y has occurred, and can transmit information indicating the detection result to the error notification unit 720 (this information is shown in FIG. 40 or 42). The notification error information transmission unit (730, 814A or 814B) shown in (a) may be transmitted to the error notification unit 720). Therefore, after the start of the error notification regarding the error Y, the error notification unit 720 recognizes whether the error Y continues to occur or the error Y has been eliminated, using the information indicating the detection result. can do.
Alternatively, the error determination process for the error Y performed by the error detection unit 710 is performed in addition to the error occurrence determination process of detecting and determining the occurrence of the error Y, and detecting whether the error Y has been eliminated after detecting the occurrence of the error Y And an error solution determination process may be included. In this case, when the elimination of the error Y is detected in the error elimination determination process, the error elimination information indicating that fact may be transmitted to the error notification unit 720 (the error elimination information is shown in FIG. 40 or FIG. ) May be transmitted from the error data transmission unit for notification (730, 814A or 814B) to the error notification unit 720), the error notification unit 720 recognizes the elimination of the error Y by receiving the error elimination information. can do.

  When the occurrence of the error Y is detected and the information indicating the error (notification error information) is received, the error notification unit 720 may immediately execute an error notification regarding the error Y, or after the reception, The error notification regarding the error Y may be executed after a predetermined time has elapsed, or after the reception, only the display notification, the lamp notification, and the LED notification that constitute the error notification of the error Y are started first. It is also possible to start sound notification that constitutes an error notification of error Y after a predetermined time has elapsed.

  After the error notification unit 720 starts error notification of the error Y, the error notification unit 720 can continue to execute the error notification until the elimination of the error Y is detected and recognized, and when the cancellation of the error Y is detected and recognized The error notification can be ended.

  When the error detection unit 710 detects an error Y, or when an error notification regarding the error Y is performed, the payout operation of the game ball (a winning ball or a rental ball) using the payout unit 323 is stopped. Also good.

  The effect control unit 403 can output the above-described basic effect sound from the speaker 115 under various situations when the error Y is not detected. However, when the error notification regarding the error Y is performed (in detail, for example, when the sound notification during the error notification is performed), the output of a part or all of the basic effect sound may be stopped. The volume (output volume) of part or all of the basic effect sound may be reduced in comparison with the time when the error notification is not performed, or the basic effect sound at the same volume as when the error notification is not executed. May be output.

  When the power of the gaming machine 100 is shut off while the error notification relating to the error Y is being executed, and then the power is restored (i.e., when the power returns to the power on state), the error detection unit 710 again detects the error Y Unless detected, no error notification regarding error Y is performed. That is, the information that the error Y is detected is not stored through the power shutoff and restoration, and such information is reset upon the power shutoff. This may be true for any other non-outer error (including Ya).

[About Error Ya]
A detailed description of the error Ya is provided.

  Error notification regarding the error Ya includes display notification by the image display unit 104, sound notification by the speaker 115, lamp notification by the frame lamp 116 (in detail, notification by causing the frame lamp 116 to emit light), the frame lamp 116 and And LED notification by emitting an error notification LED different from the panel lamp 135 (however, only a part of the four notifications may be included). The lamp notification may be by light emission of the panel lamp 135. The error notification LED may be an LED (light emitting diode) installed at any part of the gaming machine 100, and for example, on the back surface of any of the main control board 301, the payout control board 302 and the effect control board 303. It may be provided, or may be provided in the information display unit 114 connected to the main control board 301. A common error notification LED may be shared as an error notification LED for the error Ya and an error notification LED for another error (e.g. error X, Xa, Xb or Y), or an error about the error Ya The notification LED and an error notification LED for another error (eg, error X, Xa, Xb or Y) may be separately provided.

  The error notification regarding the error Ya may not be stopped until the power of the gaming machine 100 is shut off (that is, until the gaming machine 100 is turned off) once it is started, or an error regarding the error Ya The error notification may be ended if a predetermined time (for example, 5 minutes) elapses after the start of the notification.

  The lamp notification forming the error notification regarding the error Ya may be part of a plurality of lamps included in the frame lamp 116 and may be light emission of a lamp associated with the error Ya, and in the lamp notification, Other lamps in the frame lamp 116 may be turned off. The same applies to the case where the lamp notification is performed using the board lamp 135.

  The effect control unit 403 can output the above-described basic effect sound from the speaker 115 under various situations when the error Ya is not detected. However, when the error notification regarding the error Ya is performed (in detail, for example, when the sound notification during the error notification is performed), the output of a part or all of the basic effect sound may be stopped. The volume (output volume) of part or all of the basic effect sound may be reduced in comparison with the time when the error notification is not performed, or the basic effect sound at the same volume as when the error notification is not executed. May be output.

  When the common error notification LED is shared as a notification LED for a plurality of errors, the common error notification LED is configured of a plurality of LEDs, and the error notification is performed according to the type of error to be performed. It is preferable to control the lighting / non-lighting mode of the plurality of LEDs. Thereby, a person who visually recognizes a plurality of LEDs (for example, a manager of the gaming machine 100) detects which error is detected in the lighting / non-lighting mode of the plurality of LEDs (error notification for any error is given) Can be recognized). The plurality of LEDs may constitute a 7-segment LED display, or may be arrayed in a predetermined direction.

[Output of external terminal board]
The output of the external terminal board 305 will be described in detail. In the following, the description of “external terminal board 305” may be omitted in relation to the error detection signal, but as described above, the error detection signal is outputted from external terminal board 305. is there.

When the error X is detected, an error detection signal EDS _X indicating that the error X is detected may be outputted from the external terminal board 305 for a predetermined time t _AX .
Similarly, even when the error Xa is detected, an error detection signal EDS _Xa indicating that the error Xa is detected may be output from the external terminal substrate 305 for a predetermined time t _AXa .

In a period when the error detection signal EDS _X is output, when an error X is detected again, the predetermined time t _AX min counted from the detection timing again, the error detection signal EDS _X may be output.
Similarly, in a period in which the error detection signal EDS _Xa is output, when an error Xa is detected again, the predetermined time t _AXa minutes counted from the detection timing again, and outputs an error detection signal EDS _Xa good.
However, for the error X, when the error X is detected again within a predetermined time (for example, 1 second) longer than the predetermined time t _AX (for example, 0.2 seconds) after the output of the error detection signal EDS _X starts. The error detection signal EDS _X may not be output for the second detection.

When the error Xb is detected, an error detection signal EDS _Xb indicating that the error Xb is detected is output from the external terminal board 305, but the error detection signal EDS _Xb is output to the error detection unit 710. After the error Xb is detected, the error detection unit 710 continues to output until the error detection unit 710 no longer detects the error Xb (in other words, until the elimination of the error Xb is detected), and the error detection unit 710 outputs the error Xb. Is not detected (in other words, when the elimination of the error Xb is detected), it is not output.

  For the outer end error including the errors X, Xa and Xb, when the outer end error is detected, the corresponding error detection signal may be output immediately, or a predetermined time after the outer end error is detected. A corresponding error detection signal may be output after the lapse.

With regard to the error Xb, the output of the error detection signal EDS _Xb is started after the first predetermined time from the time when the error Xb is detected, and when the error Xb is not detected thereafter (in other words, the elimination of the error Xb is detected And the output of the error detection signal EDS _Xb may be ended after the second predetermined time has elapsed from the time when the error Xb is not detected.

  For an external error including errors X, Xa and Xb, if the output, non-output, and output of the corresponding error detection signal are performed in this order, the first output start point or end point and the second output The output / non-output of the error detection signal may be controlled such that the time difference between it and the start point is greater than or equal to a predetermined minimum off time. That is, when the error detection signal is continuously output, a period during which the error detection signal is not output may be secured for the minimum off time.

When the error X is detected, the error detection signal EDS _X can be kept output until the power of the gaming machine 100 is shut off (until the power is turned off). Similarly, when the error Xa is detected, the error detection signal EDS _Xa can be continuously output until the power of the gaming machine 100 is shut off (until the power is turned off).

[Dissolution detection type / Resolution non-detection type]
Some of the outer end errors and some of the non-outer errors belong to the resolution detection type, and some of the remaining outer edge errors and the rest of the non-outer errors belong to the resolution non detection type.

  The error determination processing for an error of the elimination detection type performed by the error detection unit 710 is, in addition to the error occurrence determination processing of detecting and determining the occurrence of the error, whether the error has been eliminated after detecting the occurrence of the error It includes an error resolution determination process of detection and determination. In this case, when the elimination of the elimination detection type error is detected in the error elimination determination processing, the error elimination information indicating that is from the error detection unit 710 or the notification error information transmission unit (730, 814A or 814B) It may be transmitted to the notification unit 720, and the error notification unit 720 can recognize the cancellation of the cancellation detection type error by receiving the error cancellation information.

  The error determination process for an error of the elimination non-detection type performed by the error detection unit 710 includes only an error occurrence determination process of detecting and determining the occurrence of the error, and is the error eliminated after detecting the occurrence of the error? It does not include the error solution determination process which detects and determines the That is, the error detection unit 710 does not detect and judge whether or not the error has been eliminated after detecting the error of the elimination non-detection type. For this reason, even if the error is eliminated after occurrence and detection of the error of the elimination detection type, the fact is not transmitted to the error notifying unit 720, and hence the error notifying unit 720 recognizes the elimination of the error. I can not do it.

  At least errors Xb and Y belong to the resolution detection type. The errors X and Xa belong to the elimination non-detection type (however, the errors X and Xa may be modified so as to belong to the elimination non-detection type). The error Ya may belong to the elimination detection type or may belong to the elimination non-detection type.

[Supplement and modification of error notification]
Some supplementary explanations and modifications of the error notification will be described.

In display notification during error notification regarding a certain error, a predetermined error notification image is displayed on the image display unit 104 as described above. When the error notification is not performed, a predetermined effect image is displayed in the image display unit 104, but when the error notification image is displayed, the error notification image is superimposed and displayed on the effect image. The error notification image is displayed together with the effect image, or only the error notification image is displayed without displaying the effect image. The error notification image is basically displayed in a part of the entire display area of the image display unit 104, but may be an image displayed over the entire display area of the image display unit 104.
When the error notification image is superimposed on the effect image, the error notification image may be an image having transparency. In this case, the player can visually recognize the effect image behind the error notification image through the error notification image, but the visibility is lower than that at the time when the error notification image is not displayed. Alternatively, when the error notification image is displayed superimposed on the effect image, the error notification image may be an image having no transparency. In this case, the effect image behind the error notification image is not visible.

  The effect image includes a decorative symbol (in detail, a decorative symbol image representing the decorative symbol), a winning effect image constituting a winning effect, a customer waiting effect image constituting a customer waiting effect, and the like.

When an arbitrary first error is detected and only error notification regarding the first error is performed, the first error notification image for the first error is displayed on the image display unit 104. Similarly, when an arbitrary second error different from the first error is detected and only error notification regarding the second error is performed, the second error notification image for the second error is displayed on the image display unit 104. Be done.
The gaming machine 100 can not display the first and second error notification images simultaneously (for example, the first and second error notification images can be displayed using the entire display area of the image display unit 104). It may be a gaming machine). In this case, when the first error and the second error are detected in duplicate, only the error notification image for the error associated with higher priority among the first and second error notification images, It is displayed in priority. The same is true when three or more errors are detected in duplicate.
The gaming machine 100 may be a type of gaming machine capable of simultaneously displaying the first and second error notification images. For example, first and second image areas that do not overlap with each other are set in the entire image area of the image display unit 104, and the first error notification image is displayed in the first display area when the first error is detected. While displaying, when the second error is detected, the second error notification image is displayed in the second display area, and when the first and second errors are detected in duplicate, the first and second errors are displayed. 2 Display the first and second error notification images simultaneously in the display area. The same is true when three or more errors are detected in duplicate. Any error notification image may be displayed at a position not overlapping the display area of the temporarily stopped or fully stopped decorative symbol.

  When a plurality of errors are detected in duplicate, the sound notification for the error associated with the highest priority is performed for sound notification in the error notification, and the sound notification for other errors is not performed. It is good. Alternatively, when a plurality of errors are detected in duplicate, a plurality of sound notifications for the plurality of errors may be sequentially performed in time division.

When describing that the priority of any first error is higher than the priority of any second error as “first error> second error”, for errors X, Xa, Xb, Y and Ya,
For example, "X>Xa>Xb>Ya>Y",
Alternatively, “Xa>X>Xb>Ya> Y” may be satisfied.

  Further, in the image display unit 104, the display area of the error notification image for the outer end error (for example, error X, Xa or Xb) is more than the display area of the error notification image for the non-outer end error (for example, error Y or Ya) Is also good (but it is also possible to reverse the magnitude relationship). Although the error notification image includes a character image representing a character, the size of characters in the error notification image for an outer end error (e.g. error X, Xa or Xb) is also for the non outer end error (e.g. error Y or Ya) It is preferable that the size is larger than the size of the characters in the error notification image (however, the magnitude relationship can be reversed). The error notification image for the outer end error (for example, error X, Xa or Xb) is at the center of the entire display area of the image display unit 104 rather than the error notification image for the non-outer end error (for example, error Y or Ya). It should be displayed close (but the reverse is also possible).

  Also, the execution time of the error notification regarding the non-outer end error (for example, the error Y) may be longer than the execution time of the error notification regarding the outer end error (for example, the error X or Xa). More specifically, for example, at least one of the display notification and the sound notification during the error notification regarding the error X or Xa may be ended when a certain notification time elapses, and the error notification regarding the error Y is being performed. At least one of the display notification, the sound notification, and the LED notification may be continuously executed until the elimination of the error Y is detected. In this case, after the display notification in the error notification of the error Y, the sound notification or the LED notification is started, the error Y is an error if the error Y does not disappear even if the time exceeding the certain notification time elapses. The execution time of at least one of the display notification during the notification, the sound notification and the LED notification is longer than the execution time of the display notification and the sound notification during the error notification of the error X or Xa.

/ / / / / / / / / / Third embodiment / / / / / / / / / /
A third embodiment according to the present invention will be described. The third embodiment is implemented in combination with the first or second embodiment. I will explain in detail about each error.

  In the third embodiment, among the errors of error codes EC01 to EC033, error codes EC10 to EC12, EC14 to EC17 and EC31 to EC33 (that is, AT incorrect winning error, DT incorrect winning error, FN incorrect winning error, magnetic error, Only radio wave error, glass frame open error, inner frame open error, 1st to 3rd power supply error) is an outer end error, and other errors (ie errors of error codes EC01 to EC09, EC13 and EC18 to EC30) Are all non-outer end errors. However, vibration errors may be classified as outer end errors. Also, the probability variation SW abnormal passage error may be classified as the outer end error. Also, the first power supply error may be classified as a non-outer end error.

Errors of error code EC01, EC02, EC04 to EC06, EC10 to EC15 and EC29 to EC33 (ie main / payout connection error, main / sub connection error, main / sub communication error, main control board error, SW connection error, AT Main control system error group is formed by incorrect winning error, DT incorrect winning error, FN incorrect winning error, vibration error, magnetic error, radio error, discharge ball error, positive SW abnormal passage error and 1st to 3rd power supply errors) ,
Error code EC03, EC09, EC16, EC17, EC23 to EC28 (ie, main / delivery communication error, card unit connection error, glass frame opening error, inner frame opening error, bowl full error, chute ball out error, payout SW Connection error, underdelivery error, overdelivery error and overdelivery unit error) form a delivery control system error group,
A production control system error group is formed by the error codes EC07, EC08 and EC18 to EC22 (ie, sub connection error, sub interface error, board gimmick error, frame gimmick error, operation means error, vibration motor error and fan drive error) Be done.

  The main control unit 401 performs error determination processing for detecting and determining the presence or absence of each error belonging to the main control system error group (includes error occurrence determination processing, and includes error resolution determination processing for an elimination detection type error) I do. Similarly, the payout control unit 402 performs error determination processing for detecting and determining the presence or absence of each error belonging to the payout control system error group (including an error occurrence determination processing, and an error resolution determination processing for an error of the elimination detection type) Do). Similarly, the effect control unit 403 performs an error determination process (including an error occurrence determination process and an error elimination determination process for an error of the elimination detection type) for detecting and determining the presence or absence of each error belonging to the effect control system error group Do).

  Therefore, the above-mentioned error detection unit 710 is included in the main control system error detection unit which is included in the main control unit 401 and executes error determination processing for each error belonging to the main control system error group, and included in the payout control unit 402 A payout control system error detection unit that executes an error determination process for each error that belongs to the payout control system error group, and a production control that performs an error determination process for each error that is included in the effect control unit 403 and that belongs to the production control system error group It can be considered that the system error detection unit is configured. For example, the error detection unit 812A and the error detection unit 812B in FIG. 42A correspond to the main control system error detection unit and the payout control system error detection unit, respectively, and detect the error information for notification in FIG. 42A. It can be considered that the unit 814A and the notification error information detection unit 814B are included in the main control unit 401 and the payout control unit 402, respectively. That is, it can be considered that the control unit 810A and the control unit 810B in FIG. 42A correspond to the main control unit 401 and the payout control unit 402, respectively.

  The error notification unit 720 is mainly considered to be configured by the effect control unit 403 or configured by the notification component (notification means) that realizes an error notification and the effect control unit 403 that controls the operation of the notification component. However, part of the error notification may be executed under the control of the main control unit 401 or the payout control unit 402. That is, for example, when the error notification LED is provided on the back surface of the main control substrate 301 or the information display unit 114, the LED notification using the error notification LED is performed under the control of the main control substrate 301. When the error notification LED is provided on the back surface of the payout control substrate 302, the LED notification using the error notification LED is executed under the control of the payout control substrate 302.

[Glass frame open / inner frame open error]
The notification of the glass frame opening error and the inner frame opening error will be described in detail. Each of the glass frame opening error and the inner frame opening error is a solution detection type error.

As shown in FIG. 47A, when the output signal of the glass frame opening SW 535 a is off, the error detection unit 710 determines that the glass frame opening error has not occurred, and the output signal of the glass frame opening SW 535 a is on. And determine and detect that a glass frame open error has occurred. Therefore, when the output signal of the glass frame opening SW 535 a is switched from on to off, it is determined that the glass frame opening error has been eliminated. Basically, an error notification regarding a glass frame opening error may be executed from when a glass opening error is detected until it is determined that the glass frame opening error is eliminated (therefore, when the above cancellation is determined, the error notification is May be terminated).
As shown in FIG. 47 (b), when the output signal of the inner frame opening SW 535b is off, the error detection unit 710 determines that the inner frame opening error has not occurred, and the output signal of the inner frame opening SW 535b is on. When, the inner frame opening error is determined and detected as occurring. Therefore, when the output signal of the inner frame opening SW 535 b is switched from on to off, it is determined that the inner frame opening error has been eliminated. Basically, an error notification regarding the inner frame opening error may be executed until it is determined that the inner frame opening error is resolved after the inner frame opening error is detected (therefore, the error notification when the above-mentioned resolution is determined May be terminated).

  The output terminal portion TM [2] is assigned to the glass frame opening error and the inner frame opening error, and when the output signal of the glass frame opening SW 535 a or the inner frame opening SW 535 b is on, the output terminal portion TM 2 ] Is turned on, and when the output signals of the glass frame open SW 535 a and the inner frame open SW 535 b are both off, the output terminal portion TM [2] is turned off. A signal from the output terminal TM [2] when the output terminal TM [2] is turned on functions as an error detection signal for a glass frame opening error or an inner frame opening error. However, the error detection signal is common to the glass frame open error and the inner frame open error, and the output of the external terminal board 305 indicates whether the detected error is the glass frame open error or the inner frame open error. I can not distinguish it.

  The error notification regarding the glass frame opening error and the error notification regarding the inner frame opening error can be performed by the display notification by the image display unit 104, the sound notification by the speaker 115, and the lamp notification by the frame lamp 116 (more specifically, the frame lamp 116 And LED notification by emitting an error notification LED 66A (not shown) different from the frame lamp 116 and the board lamp 135 (however, some of the four notifications). May include only notification of The lamp notification may be by light emission of the panel lamp 135. The error notification LED 66 </ b> A may be an LED (light emitting diode) installed at any location of the gaming machine 100, but here, it is assumed that it is provided on the back surface of the payout control board 302. In this case, among the components of the error notification regarding the glass frame opening error or the inner frame opening error, only the LED notification is controlled by the payout control unit 402, and the display notification, the sound notification and the lamp notification are performed by the effect control unit 403. Is controlled. The error notification LED 66A may be a 7-segment LED display (the same applies to other error notification LEDs described later).

  The error notification regarding the glass frame opening error and the error notification regarding the inner frame opening error may be identical to each other (in detail, the notification mode of the error notification regarding the glass frame opening error and the error regarding the inner frame opening error The notification modes of the notification may be the same as each other).

  Alternatively, the error notification regarding the glass frame opening error and the error notification regarding the inner frame opening error may be different from each other (Specifically, the notification mode of the error notification regarding the glass frame opening error and the error regarding the inner frame opening error The notification modes of the notification may be different from each other). The difference here may be a whole difference or a partial difference. For example, the display contents of the image display unit 104 in the display notification of the error notification of the glass frame opening error (eg, display of the character "glass frame is open") and the image in the display notification of the error notification of the inner frame open error It may be different from the display content of the display unit 104 (e.g., the display of the characters "The inner frame is open"). The same applies to sound notification and the like.

  Of the above four types of notification that constitute an error notification of a glass frame opening error or an inner frame opening error, regarding sound notification, it is preferable to end after a predetermined time has elapsed after the start of sound notification. The three notifications (display notification, lamp notification and LED notification) may be continued until the cancellation of the glass frame opening error or the inner frame opening error is detected and recognized.

  When the error notification of the glass frame open error or the inner frame open error is executed including the sound notification, when the cancellation of the glass frame open error or the inner frame open error is detected and recognized, the error notification unit 720 First, immediately stop the sound notification during the error notification of the glass frame open error or the inner frame open error, and then, after the predetermined time (for example, 1 second) elapses, the error notification of the glass frame open error or the inner frame open error The lamp notification may be ended.

  The error notification may be stopped immediately when the cancellation of the glass frame open error or the inner frame open error is detected and recognized when the error notification of the glass frame open error or the inner frame open error is executed. The error notification may be stopped after continuing the error notification for a predetermined time.

  When the error detection unit 710 detects a glass frame opening error or an inner frame opening error, or when an error notification regarding a glass frame opening error or an inner frame opening error is performed, the payout unit 323 is used. The payout operation of the game balls (prize balls or rental balls) may be stopped.

  A lamp notification forming an error notification regarding a glass frame opening error or an inner frame opening error is a part of a plurality of lamps included in the frame lamp 116 and is a lamp associated with the glass frame opening error or the inner frame opening error In the lamp notification, the other lamps in the frame lamp 116 may be turned off. The same applies to the case where the lamp notification is performed using the board lamp 135.

[Magnetic error / radio wave error]
Detailed description will be given on the notification of the magnetic error and the radio wave error. It is assumed that each of the magnetic error and the radio wave error is a resolution non-detection type error (however, it may be a resolution detection type error).

As shown in FIG. 48A, when the error detection unit 710 detects that the magnetic sensor 521 is outputting an on signal, or the magnetic sensor 521 continues for a predetermined time (for example, 3 seconds) or more. When an on signal is output, it is determined and detected that a magnetic error has occurred.
As shown in (b) of FIG. 48, when the error detection unit 710 detects that the radio wave sensor 522 outputs an on signal, or the radio wave sensor 522 continues for a predetermined time (for example, 3 seconds) or more. When an on signal is output, it determines and detects that a radio wave error has occurred.

  A common output terminal TM [1] is assigned to magnetic errors and radio errors. The output terminal unit TM [1] is basically turned off, and when it is detected that a magnetic error or radio wave error has occurred, the output terminal unit TM [1] is switched on immediately. The on state of the output terminal portion TM [1] based on the magnetic error or the radio wave error may be continued until the power of the gaming machine 100 is shut off, or may be maintained for a predetermined time. The signal from the output terminal TM [1] when the output terminal TM [1] is turned on functions as an error detection signal for a magnetic error or a radio wave error. However, the error detection signal is common to the magnetic error and the radio wave error, and the output of the external terminal board 305 can not distinguish whether the detected error is a magnetic error or a radio wave error.

  Error notification regarding the magnetic error or radio wave error includes display notification by the image display unit 104, sound notification by the speaker 115, lamp notification by the frame lamp 116 (specifically, lamp notification by causing the frame lamp 116 to emit light), LED notification by emitting an error notification LED 66B (not shown) different from the frame lamp 116 and the board lamp 135 (however, only a part of the four notifications includes information) Also good). The lamp notification may be by light emission of the panel lamp 135. The error notification LED may be an LED (light emitting diode) installed at any part of the gaming machine 100, and for example, on the back surface of any of the main control board 301, the payout control board 302 and the effect control board 303. It may be provided, or may be provided in the information display unit 114 connected to the main control board 301.

  Once the error notification regarding the magnetic error or the radio wave error is started, it may not be stopped until the power of the gaming machine 100 is shut off (that is, until the gaming machine 100 is turned off), The error notification may be ended when a predetermined time (for example, 30 seconds) elapses after the start of the error notification regarding the error or the radio wave error.

  When the power of the gaming machine 100 is shut off while the error notification relating to the magnetic error or the radio wave error is being executed, and then the power is restored (that is, when the power returns to the power on state), As long as no magnetic error or radio wave error is detected, no error notification relating to the magnetic error or radio wave error is made. That is, information that magnetic or radio errors are detected is not stored through power shutoff and restoration, and such information is reset upon power shutoff. This may be true for other outer end errors other than magnetic errors and radio errors.

  The lamp notification forming the error notification regarding the magnetic error or the radio wave error may be light emission of a lamp which is a part of the plurality of lamps included in the frame lamp 116 and is associated with the magnetic error or the radio wave error. The other lamps in the frame lamp 116 may be turned off in the lamp notification. The same applies to the case where the lamp notification is performed using the board lamp 135.

  The effect control unit 403 can cause the speaker 115 to output various predetermined basic effect sounds under various situations when no magnetic error or radio wave error is detected. However, when an error notification relating to a magnetic error or a radio wave error is performed, only the sound by the acoustic notification that constitutes the error notification of the magnetic error or the radio wave error is output from the speaker 115, and other sounds including the basic effect sound are not It may be output. The significance of the basic effect sound is as described above.

  When a magnetic error or a radio wave error is detected by the error detection unit 710, the gaming machine 100 may stop the game in response to an abnormality. The significance of the abnormal handling suspension is as described above.

  In addition, when a magnetic error or a radio wave error is detected by the error detection unit 710, or when an error notification relating to the magnetic error or the radio wave error is performed, a game ball using the payout unit 323 (a prize ball or a rental ball ) May be stopped.

[AT / DT / FN Incorrect Winning Error]
A detailed description will be given of the notification of the AT illegal winning error, the DT incorrect winning error, the FN incorrect winning error, and the like. Each of the AT, DT, and FN incorrect winning errors is a resolution non-detection type error.

  The method of judging and detecting that the AT, DT and FN incorrect winning error has occurred is as described in the first embodiment.

  Referring to FIG. 49, common output terminal portion TM [1] is assigned to AT, DT and FN incorrect win errors. The output terminal TM [1] is basically turned off, and when it is determined that an AT, DT or FN incorrect winning error has occurred, the output terminal TM [1] is switched on immediately. The ON state of the output terminal portion TM [1] based on the AT, DT or FN incorrect winning error may be continued until the power of the gaming machine 100 is shut off, or may be maintained for a predetermined time. good. A signal from the output terminal TM [1] when the output terminal TM [1] is turned on functions as an error detection signal for an AT, DT or FN incorrect winning error. However, the error detection signal is common among the AT, DT and FN incorrect prize errors, and the output of the external terminal board 305 distinguishes which of the AT, DT and FN incorrect prize errors the detected error is. Can not.

  Error notification regarding AT, DT or FN incorrect winning error is display notification by the image display unit 104, sound notification by the speaker 115, and lamp notification by the frame lamp 116 (in detail, notification by making the frame lamp 116 emit light) And. The lamp notification may be based on the light emission of the board lamp 135 (however, only a part of the three notifications may be included). Furthermore, an LED notification by the emission of an error notification LED 66C (not shown) different from the frame lamp 116 and the panel lamp 135 may be included in the error notification regarding the AT, DT or FN incorrect winning error.

  The error notification regarding the AT, DT or FN incorrect prize winning error may not be stopped once it is started until the power of the gaming machine 100 is shut off (that is, until the gaming machine 100 is turned off). The error notification may be ended if a predetermined time (for example, 30 seconds) elapses after the start of the error notification regarding the AT, DT or FN incorrect prize winning error.

  In the case where the error notification regarding the AT, DT or FN incorrect prize winning error ends after a predetermined time (for example, 30 seconds) elapses after the start of the error notification, the following may be performed. That is, after the error notification regarding the AT, DT or FN incorrect winning error is started in response to the detection of the AT, DT or FN incorrect winning error, the AT, DT or FN incorrect winning error occurs before the predetermined time passes. When a new detection is made, an error notification regarding an AT, DT or FN incorrect winning error may be executed again for a predetermined time from the new detection time.

  In the case of adopting a method of terminating the error notification over time after the start of the error notification regarding AT, DT or FN incorrect prize error, the sound notification is ended among the error notifications about AT, DT or FN incorrect prize error The display notification may be ended later.

  When an error notification regarding an AT, DT or FN incorrect prize error is performed, only the sound by the acoustic notification constituting the error notification of the AT, DT or FN incorrect prize error is outputted from the speaker 115, and the other sound is not outputted. You may make it to.

  In each embodiment including the present embodiment, it is assumed that the corresponding error notification is performed when the AT, DT or FN incorrect winning error is detected, but the AT, DT or FN incorrect winning error is detected. Even if this is the case, the gaming machine 100 may be modified so that no error notification is performed.

[Dish full error]
A detailed explanation will be given on the notification of the counter-full error and the like. Dishintan error is a resolution detection type error.

  The determination and detection method that the pan full error has occurred are as described in the first embodiment, and based on the output signal of the bottom pan detection SW 534 b (or, the top pan detection SW 534 a and the bottom pan). The determination and the detection are performed based on the output signal of the tongue detection SW 534 b. The error detection unit 710 detects that the output signal of the lower bottom detection SW 534 b is turned off (or the output signal of the upper top detection SW 534 a is turned off) after determining and detecting that the counter top error has occurred. It is judged that the Dishikan error has been resolved. Basically, the error notification regarding the dish filling error may be continuously executed until it is determined that the dish filling error is eliminated after it is detected.

  The error notification regarding the fullness error is display notification by the image display unit 104, sound notification by the speaker 115, lamp notification by the frame lamp 116 (in detail, notification by making the frame lamp 116 emit light), and the frame lamp 116 And LED notification by emitting an error notification LED 66D (not shown) different from the board lamp 135 (however, only a part of the four notification may be included) . The lamp notification may be by light emission of the panel lamp 135. The error notification LED 66D may be an LED (light emitting diode) installed at any place of the gaming machine 100, but here, it is assumed that it is provided on the back surface of the payout control board 302. In this case, among the components of the error notification related to the fullness error, only the LED notification is controlled by the payout control unit 402, and the display notification, the sound notification and the lamp notification are controlled by the effect control unit 403.

  The error notification unit 720 may immediately execute an error notification regarding the error, if the occurrence of the error is detected and information indicating that (error information for notification) is received, or the error notification unit 720 may After the predetermined time has elapsed, an error notification regarding the fullness error may be executed, or after the reception, only the display notification, the lamp notification and the LED notification constituting the error notification of the fullness error first After the start of the execution, after a predetermined time has passed, sound notification may be started which constitutes an error notification of a fullness error.

  After the error notification unit 720 starts an error notification of the pan full error, the error notification unit 720 can continue to execute the error notification until it is detected and recognized that the pan full error has been canceled, and the cancellation of the pan error is detected and recognized At this time, the error notification can be ended.

  When the error detection unit 710 detects a fullness error or when an error notification regarding a fullness error is performed, the payout operation of the gaming ball (a winning ball or a rental ball) using the payout unit 323 is stopped. You may.

  The effect control unit 403 can cause the speaker 115 to output the above-described basic effect sound under various situations when a fullness error is not detected. However, when the error notification regarding the counter-full-tank error is performed (in detail, for example, when the sound notification during the error notification is performed), the output of part or all of the basic effect sound may be stopped The volume (output volume) of part or all of the basic effect sound may be reduced in comparison with the time when the error notification is not performed, or the basic effect at the same volume as when the error notification is not executed. You may output a sound.

  When the power of the gaming machine 100 is shut off while the error notification relating to the dish full error is being executed, and then the power is restored (that is, when the power is turned back on), the error detection unit 710 again As long as a tongue error is not detected, an error notification regarding a tray full error is not performed. That is, the information that the error is detected is not stored through the interruption and restoration of the power, and such information is reset by the interruption of the power. This may be the same for other non-outside errors other than the fullness error.

[SW connection error]
The notification of the SW connection error will be described in detail. It is assumed that the SW connection error is a solution non-detection type error (although it may be a solution detection type error).

  The determination and detection method of the occurrence of the SW connection error is as described in the first embodiment. When the SW connection error is detected, the manager of the gaming machine 100 turns off the power of the gaming machine 100 to remove the cause of the SW connection error (such as connecting the SWs 511 to 515 to the main control board 301 correctly) After that, the power of the gaming machine 100 is turned on again (the turn-on may be accompanied by a setting change mode start operation or a RAM clear operation). After this re-injection, if the SW connection error is not detected again, it means that the SW connection error has been eliminated, but in this case, information indicating that the SW connection error has been eliminated is transmitted to the error notification unit 720. There is nothing to do. As described above, the information that the SW connection error is detected when the power of the gaming machine 100 is turned off is lost from the gaming machine 100, and after the power is restored, unless the SW connection error is detected again, An error notification regarding the SW connection error is not performed.

  The administrator of the gaming machine 100 may remove the cause of the SW connection error while keeping the power of the gaming machine 100 turned on. In this case, if it is confirmed by the error detection unit 710 that the switch abnormality detection signal is no longer detected from the connection abnormality detection circuit in the input interface IC between the main control board 301 and the SW 511 to 515 through the operation, an error occurs. The detection unit 710 may determine and detect that the SW connection error has been eliminated. At this time, the effect of the elimination may be transmitted to the error notification unit 720.

  Error notification regarding the SW connection error includes display notification by the image display unit 104, sound notification by the speaker 115, lamp notification by the frame lamp 116 (in detail, notification by causing the frame lamp 116 to emit light), and the frame lamp 116 And LED notification by emitting an error notification LED 66E (not shown) different from the board lamp 135 (however, only a part of the four notification may be included) . The lamp notification may be by light emission of the panel lamp 135. The error notification LED 66E may be an LED (light emitting diode) installed at any place of the gaming machine 100, and for example, on the back surface of any of the main control board 301, the payout control board 302 and the effect control board 303. It may be provided, or may be provided in the information display unit 114 connected to the main control board 301.

  Once the error notification regarding the SW connection error is started, it may not be stopped until the power of the gaming machine 100 is shut off (that is, until the gaming machine 100 is turned off), or the SW connection error may be generated. The error notification may be ended if a predetermined time (for example, 5 minutes) elapses after the start of the error notification regarding. However, as described above, it may be determined and detected that the SW connection error has been eliminated by the error detection unit 710, and in the case where the effect of the elimination is transmitted to the error notification unit 720, the transmission In response to the reception, the error notification regarding the SW connection error may be ended.

  The lamp notification that forms an error notification regarding the SW connection error may be light emission of a lamp that is a part of the plurality of lamps included in the frame lamp 116 and is associated with the SW connection error, and the lamp notification , The other lamps in the frame lamp 116 may be turned off. The same applies to the case where the lamp notification is performed using the board lamp 135.

  The effect control unit 403 can output the above-mentioned basic effect sound from the speaker 115 under various situations when the SW connection error is not detected. However, when the error notification regarding the SW connection error is performed (in detail, for example, when the sound notification during the error notification is performed), the output of a part or all of the basic effect sound may be stopped. The volume (output volume) of part or all of the basic effect sound may be reduced in comparison with the time when the error notification is not performed, or the basic effect at the same volume as when the error notification is not executed. You may output a sound.

[Shoot ball out / insufficient payout / overdelivery error]
The details of the shooting ball out error, the underdelivery error, the overdelivery error, etc. will be described in detail. The shoot ball out error, the underdelivery error or the overdelivery error is a solution detection type error. However, it is also possible to set the overdelivery error as a non-detection type error.

  The determination and detection method that the shoot ball out error has occurred are as described in the first embodiment, and the determination and detection are performed based on the output signal of the shoot ball out detection SW 532. After determining and detecting that the shoot ball out error has occurred, if the output signal of the shoot ball out detection SW 532 is turned off, the error detection unit 710 determines that the shoot ball out error has been eliminated.

  The determination and detection method that the underdelivery error and the overdelivery error have occurred are as described in the first embodiment. An error clear SW (not shown) that can be operated only by the administrator of the gaming machine 100 can be provided on the back of the payout control board 302. When the underdelivery error is detected, the administrator of the gaming machine 100 performs an operation of removing the cause of the underdelivery error (for example, an operation for eliminating the ball clogging of the payout unit 323) and pressing the error clear SW. Do. As a result, it is considered that the insufficient payment error has been eliminated, and the fact is notified to the error notification unit 720. The same applies to overdelivery errors. After the above operation, the insufficient payout error or the excessive payout error may be resolved only by turning on the power of the gaming machine 100 again (turning the power on again after the power off state) (in this case, Underdelivery errors or overdelivery errors are not judged to be resolved until the power is shut off). Note that the power on of the gaming machine 100 may be accompanied by the setting change mode start operation or the RAM clear operation. Also, it is possible to omit the error clear SW. In this case, it is considered that the insufficient payout error or the excessive payout error has been eliminated by turning on the power of the gaming machine 100 again (since the information that these errors have been detected is reset by turning off the power).

  Basically, a shoot ball out error, a drop out error, or a drop out error, until a shoot ball out error, a drop out error, or a overdelivery error is determined to have been resolved, after detecting the shoot ball out error, the underdelivery error or the overdelivery error. Alternatively, an error notification relating to a payout excess error may be continuously executed (therefore, the error notification may be ended when the above-mentioned cancellation is determined).

  The error notification regarding the shooting ball out error, the underdelivery error or the overdelivery error is indicated by display notification by the image display unit 104, sound notification by the speaker 115, and lamp notification by the frame lamp 116 (in detail, the frame lamp 116 is lighted) Notification) and LED notification by emitting an error notification LED 66F (not shown) different from the frame lamp 116 and the board lamp 135 (however, only a part of the four notifications) May be included)). The lamp notification may be by light emission of the panel lamp 135. The error notification LED 66F may be an LED (light emitting diode) installed at any place of the gaming machine 100, but here, it is assumed that it is provided on the back surface of the payout control board 302. In this case, among the components of the error notification regarding the shoot ball out error, the underdelivery error or the overdelivery error, only the LED notification is controlled by the payout control unit 402, and the display notification, the sound notification and the lamp notification are the effect control unit Execution is controlled by 403.

  The error notification regarding the shoot ball out error, the underdelivery error or the overdelivery error may not include the audio notification.

  When an error detection unit 710 detects an out-of-shooting ball error, an under-delivery error or an over-delivery error, or when an error notification regarding a out-of-shooting ball error, an under-delivery error or an over-delivery error is performed The payout operation of the game ball (a winning ball or a rental ball) using H.323 may be stopped.

[Card unit connection error]
The notification of a card unit connection error will be described in detail. The card unit connection error is a solution detection type error. However, it is also possible to set a card unit connection error as a non-detection type error.

  The method of determining and detecting that a card unit connection error has occurred is as described in the first embodiment. When a card unit connection error is detected, the administrator of the gaming machine 100 turns off the power of the gaming machine 100 and removes the cause of the card unit connection error (work to properly connect the card unit 620 to the payout control board 302) After that, the game machine 100 is powered on again (the restart may be accompanied by a setting change mode start operation or a RAM clear operation). After this re-insertion, if no card unit connection error is detected again, it means that the card unit connection error has been eliminated, but in this case, the information indicating that the card unit connection error has been eliminated is the error notification unit It is not transmitted to 720. As described above, the information that the card unit connection error is detected when the power of the gaming machine 100 is turned off is lost from the gaming machine 100, and after the power is restored, the card unit connection error is not detected again. As long as the card unit connection error is not detected, the error notification is not performed.

  The administrator of the gaming machine 100 may remove the cause of the card unit connection error while keeping the power of the gaming machine 100 turned on. In this case, when communication between the payout control unit 402 and the card unit 620 is established through the operation, the error detection unit 710 may determine and detect that the card unit connection error has been eliminated. The cancellation notification may be transmitted to the error notification unit 720.

  Basically, an error notification regarding a card unit connection error may be continuously executed until a card unit connection error is determined after detection of a card unit connection error (therefore, the error will be determined if the above determination is made. The notification may be ended).

  Error notification regarding a card unit connection error includes display notification by the image display unit 104, sound notification by the speaker 115, lamp notification by the frame lamp 116 (in detail, notification by causing the frame lamp 116 to emit light), and frame lamp LED notification by emitting an error notification LED 66 G (not shown) different from the LED lamp 116 and the board lamp 135 (however, only part of the four notification may be included) ). The lamp notification may be by light emission of the panel lamp 135. The error notification LED 66 </ b> G may be an LED (light emitting diode) installed at any place of the gaming machine 100, but here, it is assumed that it is provided on the back surface of the payout control board 302. In this case, of the components of the error notification related to the card unit connection error, only the LED notification is controlled by the payout control unit 402, and the display control, the sound notification and the lamp notification are controlled by the effect control unit 403.

  The error notification regarding the card unit connection error may not include the sound notification.

  When a card unit connection error is detected by the error detection unit 710, or when an error notification regarding a card unit connection error is performed, the payout operation of the gaming ball (prize ball or rental ball) using the payout unit 323 You may stop it.

[Board gimmick / frame gimmick / operation method error]
We will explain in detail the notification of board gimmick errors, frame gimmick errors, and operation means errors. Board gimmick errors, frame gimmick errors and operation means errors are non-detection type errors.

  The method for determining and detecting that a gimmick error, a frame gimmick error and an operation means error have occurred are as described in the first embodiment.

  The error notification concerning the board gimmick error, the frame gimmick error or the operation means error is the display notification by the image display unit 104, the sound notification by the speaker 115, the lamp notification by the frame lamp 116 (in detail, the frame lamp 116 is lighted) And (notify that only part of the three notifications may be included). The lamp notification may be by light emission of the panel lamp 135.

  In the effect means initial operation processing executed in response to the reception of the power supply recovery command, the board gimmick 130 is driven in the same manner as the board gimmick effect (FIG. 16A) and the frame gimmick 131 is a frame gimmick effect (FIG. 16). It is driven in the same manner as (b). In drive means initial operation processing, when driving control of the board gimmick 130 and the frame gimmick 131, when it is detected that a board gimmick error and a frame gimmick error are generated, an error notification regarding the board gimmick error, respectively An error notification regarding a frame gimmick error is performed. Similarly, when it is detected that an operation means error has occurred in the rendering means initial operation processing, an error notification regarding the operation means error is performed.

  On the other hand, if no gimmick error is detected after no gimmick error is detected in the presentation means initial operation processing, the error notification regarding the gimmick error may be set to non-execution (frame gimmick The same applies to errors and operation means errors). That is, for example, a board gimmick 130, a frame gimmick 131 to perform a game gimmick effect, a frame gimmick effect, or a button drive (a production button 121 is rotated, vibrated, projected, etc.) When it is attempted to drive and control the effect button 121, when a board gimmick error, a frame gimmick error, or an operation means error is detected, an error notification regarding the game gimmick error, an error notification regarding the frame gimmick error, the operation means, respectively An error notification regarding an error may not be performed. This is to prevent these error notifications from interfering with the player's game.

  Alternatively, even when a board gimmick error is detected in the rendering means initial operation process, a board gimmick error is detected after the board gimmick error is not detected in the presentation means initial motion process. The error notification may be performed, but the notification modes of the error notification may be made different between the former case and the latter case (the same applies to the error notification related to the frame gimmick error and the error notification related to the operation means error ). That is, for example, in the case of the former, display notification, lamp notification and sound notification are performed in the error notification regarding the board gimmick error, but in the case of the latter, display notification and lamp notification are performed in the error notice regarding the board gimmick error However, sound notification is not executed (the same applies to error notification regarding frame gimmick error and error notification regarding operation means error).

  Once started, the error notification regarding the board gimmick error, the frame gimmick error or the operation means error may be continued until the power of the gaming machine 100 is turned off, or ends after being executed for a predetermined time. It may be something.

  Arbitrary error notification is naturally not performed during a period in which the power of the gaming machine 100 is turned off, not limited to an error notification relating to a board gimmick error, a frame gimmick error or an operation means error. The gimmick error was not detected in the presentation means initial operation process which is executed when the game machine 100 is turned off after the power notification of the gimmick error is being issued, and then turned on again. In this case, the error notification regarding the board gimmick error is not executed, and when the board gimmick error is detected, the error notification regarding the board gimmick error is executed again.

[Output of external terminal board]
The output of the external terminal board 305 will be described in detail. Although items partially overlapping with the items already described are included in the following description, the output of the external terminal board 305 may be as follows.

When a magnetic error or a radio wave error is detected, an error detection signal EDS _ZK indicating that a magnetic error or a radio wave error is detected may be outputted from the external terminal board 305 for a predetermined time _tZK .
Similarly, even when an AT, DT or FN incorrect prize error is detected, an error detection signal EDS _FN indicating that an AT, DT or FN incorrect prize error is detected from the external terminal board 305 for a predetermined time t _FN May be output.

In a period when the error detection signal EDS _ZK is outputted, when the magnetic error or radio error is detected again, the predetermined time t _ZK minutes counted from the detection timing again, and outputs an error detection signal EDS _ZK good.
Similarly, when an AT, DT or FN incorrect prize error is detected again in a period during which the error detection signal EDS _FN is output, the error detection signal is counted from the detection timing again for a predetermined time t _FN. EDS _FN may be output.
However, for the magnetic error or radio wave error, the magnetic error or radio wave error is detected again within a predetermined time (eg, 1 second) longer than the predetermined time t _ZK (eg, 0.2 seconds) after the output of the error detection signal EDS _ZK starts. If it is, the error detection signal _EDSZK may not be output for the second detection.

If a glass frame or inner frame opening error is detected, an error detection signal EDS _KH indicating that a glass frame or inner frame opening error is detected is output from the external terminal board 305, but the error detection The signal EDS _KH is detected until the glass frame or inner frame opening error is detected by the error detection unit 710 and then the glass frame or inner frame opening error is not detected by the error detection unit 710 (in other words, the glass frame or inner frame It is continuously output until the elimination of the frame opening error is detected, and when the glass frame or inner frame opening error is not detected by the error detection unit 710 (in other words, the glass frame or inner frame opening error is eliminated). When it is detected, it is not output.

When the power is turned on without the RAM clear operation and the setting change mode start operation, the power is turned on with the RAM clear operation, and when the power turn on with the setting change mode start operation is performed, respectively. An error detection signal EDS _DEN indicating that the first, second and third power supply errors have been detected may be outputted from the external terminal board 305 for a predetermined time t _DEN (for example, 30 seconds). For example, the error detection signal EDS _DEN may be started at any timing when the operation mode of the gaming machine 100 is set to the initial mode or the setting change mode, or from the initial mode or the setting change mode to the game mode The output may be started at the timing of switching to. More specifically, for example, the output of the error detection signal EDS _DEN may be started at step S175, S173 or S166 of FIG. 18, or at step S176 or S167. When the first power supply error does not belong to the outer end error, the error detection signal EDS _DEN is not output when the power-on without the RAM clear operation and the setting change mode start operation is performed.

  If any of the magnetic error, radio error, AT, DT and FN incorrect winning error, glass frame and inner frame opening error is detected as the outer end error, it will be handled immediately when the outer end error is detected. An error detection signal may be output, or a corresponding error detection signal may be output after a predetermined time has elapsed since an outer end error is detected.

With regard to the glass frame or inner frame opening error, the output of the error detection signal EDS _KH is started after a first predetermined time from the time when the glass frame or inner frame opening error is detected, and then the glass frame or inner frame opening error When the glass frame or inner frame opening error is not detected (in other words, the glass frame or inner frame opening error is not detected). The output of the error detection signal EDS _KH may be ended after the elapse of the second predetermined time from the time when the cancellation is detected).

  When the output, non-output, and output of the corresponding error detection signal are performed in this order for any of the magnetic error, radio error, AT, DT and FN incorrect winning error, and glass frame and inner frame opening error, The output / non-output of the error detection signal may be controlled such that the time difference between the start time point or end time point of the first output and the start time point of the second output is equal to or greater than a predetermined minimum off time. That is, when the error detection signal is continuously output, a period during which the error detection signal is not output may be secured for the minimum off time.

When a magnetic error or radio wave error is detected, the error detection signal EDS _ZK can be kept output until the power of the gaming machine 100 is shut off (until the power is turned off). is there. Similarly, when an AT, DT or FN illegal prize error is detected, the error detection signal EDS _FN is kept output until the power of the gaming machine 100 is shut off (until the power is turned off). It is also possible.

  Among the errors belonging to the outer end error, errors other than the glass frame opening error and the inner frame opening error (including magnetic error, radio error, AT, DT and FN incorrect winning error and first to third power supply errors) are as follows: A corresponding error detection signal is output as a security signal from the common output terminal TM [1]. Therefore, when the external device 610 receives an error detection signal as a security signal from the output terminal unit TM [1], it can only recognize that the output terminal unit TM [1] is turned on, thereby causing a magnetic error, It is not possible to distinguish which of the radio wave error, the AT, the DT and the FN incorrect winning error and the first to third power supply errors occurred and detected.

  However, the error detection signal may be output from the output terminal TM [1] in such a manner that the distinction can be made. That is, for example, an 8-bit digital signal is output from the output terminal TM [1] by turning on / off the output terminal TM [1], and an error detection signal for a magnetic error and an AT incorrect prize error If different digital values are assigned to the error detection signal of the above, the external device 610 can distinguish and recognize the error detection signal for the magnetic error and the error detection signal for the AT incorrect winning error. Alternatively, the on time (the length of time for which the output terminal TM [1] is maintained on) of the output terminal TM [1] at the time of detection of the magnetic error and the output terminal TM at the time of detection of the AT incorrect prize error It is also possible to make the on time of [1] different from each other. In this case, from the difference of the on time, the external device 610 receives an error detection signal for the magnetic error and an error detection signal for the AT incorrect prize error. And can be distinguished. The same applies to the distinction between other outer end errors.

An error detection signal regarding the glass frame opening error and the inner frame opening error is output from the output terminal portion TM [2] which is a dedicated terminal. Therefore, the external device 610 monitors the signal from the output terminal unit TM [2] (the on / off state of the output terminal unit TM [2]) to generate a glass frame open error or an inner frame open error. Can correctly recognize the
In many cases, a manager of a game machine 100 (such as a store clerk at a game arcade) opens the glass frame 12 or the inner frame 11 for the purpose of eliminating a ball jam or the like. If an error detection signal for a glass frame opening error and an inner frame opening error is also output from the output terminal unit TM [1] as a security signal, when there is an output of the security signal, it is a magnetic error. It is difficult to distinguish whether it is due to an illegal act or the like, or due to the opening of the glass frame 12 or the inner frame 11 performed by the administrator of the gaming machine 100 (such as a store clerk at the game arcade) In order to distinguish them, a confirmation operation to go to see the actual gaming machine 100 is required. By outputting an error detection signal for the glass frame opening error and the inner frame opening error from the dedicated terminal, such an inconvenience of the checking operation is eliminated.

[Supplement and modification of error notification]
Some supplementary explanations and modifications of the error notification will be described. As described in the second embodiment, a type in which the gaming machine 100 preferentially displays an error notification image for an error associated with a higher priority when a plurality of errors are detected in duplicate. (For example, a type of gaming machine that displays only an error notification image about an error associated with the highest priority among a plurality of detected errors) or a plurality of errors It may be a type of gaming machine capable of simultaneously displaying a plurality of error notification images.

  FIG. 50 shows an example of an error notification when the gaming machine 100 is formed as the latter type of gaming machine. That is, for example, image areas 3121 to 3124 which do not overlap each other are set in all the image areas of the image display unit 104, and insufficient payout error, discharge ball error, card unit connection error and fan drive error are detected redundantly. In this case, an error notification image including the characters “insufficient payment error” is displayed on the image area 3121 as a display notification that constitutes an error notification of the underdelivery error, and an image region as a display notification that constitutes the error notification of the discharge ball error. An error notification image including the characters "discharge ball error" is displayed on 3122, and an error notification image including the characters "card unit connection error" is displayed on the image area 3123 as a display notification constituting an error notification of a card unit connection error, In addition, characters in the image area 3124 as display notification constituting an error notification of a fan drive error Fan drive error "may be displayed an error notification image including. The same is true for other errors. Any error notification image may be displayed at a position not overlapping the display area of the temporarily stopped or fully stopped decorative symbol.

  It should be noted that, when the error is detected and the error notification related to the error is issued, the player operates the lower plate lever 126 or the like, and the game ball stored in the lower plate 125 is a ball box or the like. By discharging it, it is possible to eliminate the dish-fill-in error, thereby stopping the error notification regarding the dish-fill-in error. That is, the error notification can be stopped by the operation of the player with regard to the error notification regarding the tray full error. The error notification can not be stopped by the operation of the player with regard to the error notification of the outer end error including the magnetic error and the like and the error notification of the part non-outer end error (SW connection error and the like).

  Also, as described above, when a plurality of errors are detected in duplicate, the sound notification for the error associated with the highest priority is performed for sound notification in the error notification, and the other Sound notification about an error may not be performed. Alternatively, when a plurality of errors are detected in duplicate, a plurality of sound notifications for the plurality of errors may be sequentially performed in time division.

  For example, if “first error> second error” is written that the priority of any first error is higher than the priority of any second error, for example, “first, second or third power error” Magnetic error or radio wave error> AT, DT or FN incorrect winning error> Glass frame or inner frame opening error> SW connection error> Dish full error ”. However, higher priority may be associated with the AT, DT or FN incorrect winning error than the magnetic error or the radio wave error. A higher priority may be associated with any one of the magnetic error and the radio error than the other. Different priorities may be associated between the AT, DT, and FN incorrect win errors. Different priorities may be associated between glass frame or inner frame opening errors.

From a total of 33 types of errors composed of errors of error codes EC01 to EC33, any 5 types of errors are extracted and the 5 types of extracted errors are assigned to the errors X, Xa, Xb, Y and Ya The method of extraction and assignment at this time corresponds to a permutation of 33 to 5 (a permutation of 33 errors to 5 errors), and is expressed as “ ₃₃ P ₅ ” in mathematical symbols. The present invention includes all extraction and Assignments are _{"33 P 5"} street.

  Particularly, for example, among the errors of error codes EC01 to EC33, a plurality of errors (for example, AT incorrect prize error, DT incorrect prize error, FN incorrect prize error, etc.) which belong to or may belong to the outer end error in the third embodiment It may be considered that three errors arbitrarily extracted from magnetic error, radio wave error, glass frame open error, inner frame open error and first to third power supply errors correspond to the errors X, Xa and Xb, Among the errors of the error code EC01 to EC33, among the plurality of errors (for example, the errors of the error codes EC01 to EC09, EC13 and EC18 to EC30) described in the third embodiment as belonging or belonging to the non-outer end error It may be considered that two randomly extracted errors correspond to the errors Y and Ya.

  Regarding the error X etc. in the first embodiment etc. For example, the error X may be a magnetic error or a radio wave error, and the error Xa may be an AT, DT or FN incorrect winning error, and the error Xb is It may be a glass frame or inner frame opening error, and the error Y may be a fullness error, and the error Ya may be a SW connection error. However, the error Y may be any non-outer end error (for example, a shoot ball out error, a payout SW connection error) belonging to the payout control system error group, and the error Ya is an arbitrary error group belonging to the main control system error group. It may be a non-outer end error (e.g. a vibration error, a discharge ball error). Also, the error X may be an AT, DT or FN incorrect winning error, and the error Xa may be a magnetic error or a radio error.

  The above-described error notification LEDs 66A to 66G for realizing LED notification of several error notifications may be configured by sharing the common LED, or may be realized by all different LEDs. Alternatively, some of the error notification LEDs 66A to 66G may be configured by sharing the common LED, and the remaining portion may be realized by a dedicated LED. However, the error notification LEDs for some errors (in particular, the error notification LEDs for each error belonging to the payout control system error group for which the error determination process is performed by the payout control unit 402) are the same as those of the payout control board 302. It may be configured by an error notification LED block (not shown) provided on the back surface. However, it is also possible to provide the error notification LED block on the back surface of the main control board 301. The error notification LED block is composed of a plurality of LEDs, and allows the administrator of the gaming machine 100 to visually recognize which error is detected and notified by the on / off state of the plurality of LEDs. Although the error notification LED block may be configured of a plurality of LEDs arranged in an array, it is considered here to be a 7-segment LED display.

  As shown in FIG. 51, a 7-segment LED display 3200 (hereinafter referred to as 7-segment 3200) as an error notification LED block is a bar “0” that does not represent any one digit numerical value from 0 to 9 or any numerical value. "-" Can be displayed. The 7-segment 3200 may be capable of displaying two or more digits.

  Among all the errors that can be generated and detected by the gaming machine 100, some of the plurality of errors become 7 segment display target errors. At least all or part of the errors belonging to the payout control system error group subjected to the error determination processing in the payout control unit 402 belong to the 7-segment display target error. Furthermore, all or part of the errors belonging to the main control system error group for which the main control unit 401 performs error determination processing may also belong to the 7-segment display target error. Here, for the purpose of the description, 7-segment display of countersink error, chute ball out error, payout SW connection error, underdelivery error, overdelivery error, card unit connection error, payout unit error and main / dispense communication error Although considered to be included in the target error, other errors (in particular, a glass frame or inner frame opening error) may also be included in the 7-segment display target error.

  Under the situation where the 7-segment display target error is not generated and detected at all, the 7-segment 3200 displays the bar “−” or is turned off. When any 7-segment display target error is detected, the error notification unit 720 (here, the payout control unit 402 or the main control unit 401) is used as part of the error notification of the detected 7-segment display target error (LED notification). ) Causes the 7-segment 3200 to display the numerical value associated with the detected 7-segment display target error. For example, Dishintan error, Shoot ball out error, Payout SW connection error, Inadequate payment error, Overdelivery error, Card unit connection error, Payout unit error, Main and Payout communication error, numerical value "1", "2" respectively , “3”, “4”, “5”, “6”, “7”, “8” may be associated with each other. The way of assigning numerical values here is merely an example, and can be arbitrarily modified.

  When a plurality of 7-segment display target errors are detected in duplicate, one of the detected 7-segment display target errors is specified as a priority 7-segment display target error according to a predetermined rule, and the priority is given A numerical value associated with the 7-segment display target error is displayed on the 7-segment 3200.

  For example, among a plurality of 7-segment display target errors detected in duplicate, the 7-segment display target error detected first or last in time may be specified as a priority 7-segment display target error, The 7-segment display target error associated with the smallest numerical value or the largest numerical value may be specified as a priority 7-segment display target error.

  Alternatively, for example, different priorities are set in advance for a plurality of errors belonging to the 7-segment display target error, and the highest priority is set among the plurality of 7-segment display target errors detected in duplicate. The 7-segment display target error may be specified as a priority 7-segment display target error. Although the way of setting priority is arbitrary here, all combinations existing as a combination of setting of priority are included in the present invention, but, for example, the error as a 7 segment display target error is not limited to the other. Since the influence on the game is smaller than the 7-segment display target error, it is preferable that the priority with respect to the fullness error is set to be lower than the priority of the other 7-segment display target errors. In addition, the shooting ball out error as a 7 segment display target error is also relatively low in the urgency / importance of handling the error as compared with other 7 segment display target errors (but excluding the fullness error). Therefore, for example, among the plurality of 7-segment display target errors, it is preferable to set the priority of the fullness error to the lowest and set the priority of the shoot ball out error to the second lowest.

  The display of the numerical value of the detected 7-segment display target error in the 7-segment 3200 may be continued until the elimination of the 7-segment display target error is detected, or with the elapse of a predetermined time. It may be finished. When a 7-segment display target error to which a higher priority is set is detected while the numerical value of a detected 7-segment display target error is displayed in 7-segment 3200, display is made on 7-segment 3200 It is possible to change the numerical value to be the numerical value corresponding to the 7 segment display target error to which the higher priority is set.

  With regard to any of a plurality of types of errors that may be generated and detected by the gaming machine 100, the specific content of the error notification may be completely different among the plurality of types of errors, or partially among the plurality of types of errors. It may be coincident and partially different, or completely coincident among a plurality of types of errors. A specific example will be given focusing on the display notification during error notification.

  That is, for example, in the display notification in the error notification of the glass frame opening error and the display notification in the error notification of the inner frame opening error, the common first character “door is open” is displayed on the image display unit 104 In the display notification in the error notification of the glass frame opening error, the second character “glass frame is open” is displayed on the image display unit 104 and the display notification in the error notification of the inner frame opening error Then, the third character “inner frame is open” may be displayed on the image display unit 104. However, in any case, for example, in the display notification in the error notification of the magnetic error, the fourth character “magnetic error” different from the first to third characters is displayed on the image display unit 104.

  Further, for example, in the display notification in the error notification of the shoot ball out error, the underdelivery error and the overdelivery error, the common character "Please call a person in charge" may be displayed on the image display unit 104, or 3 Characters different from each other may be displayed on the image display unit 104 between the error notifications of the two errors.

/ / / / / / / / / / Fourth embodiment / / / / / / / / / /
A fourth embodiment according to the present invention will be described. The fourth embodiment is implemented in combination with the first, second or third embodiment. In the fourth embodiment, regarding the matters inconsistent with the first, second or third embodiment, the description of the fourth embodiment is prioritized. The fourth embodiment includes the following Examples EX4_1 to EX4_7. Although specific numerical values for time are listed in the embodiments EX4_1 to EX4_7, these are merely examples, and the specific numerical values can be variously changed.

――― Example EX4_1 ―――
Example EX4_1 will be described.

Referring to FIG. 52, in the gaming machine 100 according to the embodiment EX4_1, the second or third power supply error is detected when the power is turned on with the RAM clear operation or the setting change mode activation operation, and as a result, the output terminal The part TM [1] is turned on for a predetermined time t _A1 (here, 0.2 seconds). The on may be performed immediately after the power is turned on, or may be performed after a predetermined time has elapsed. For example, in step S173 or S166 of FIG. 18, the output terminal portion TM [1] may be turned on for a predetermined time _{t A1.}

FIG. 53 relates to Example EX4_1, and illustrates how to output an error detection signal related to an AT incorrect prize error. In the gaming machine 100 according to Example EX4_1, in the big winning opening closing period in which the big winning opening 111 is closed (however, the predetermined time t _A2 after the big winning opening 111 is switched from the open state to the closed state) Every time it detects that a winning pulse signal has been output from the special winning opening SW 513) (except for the exclusion period until 10 seconds has elapsed), the output terminal TM [1] is output for a predetermined time t _A3 (here, 0. Turn on only for 2 seconds. However, if a winning pulse signal is continuously output from the special winning opening SW 513 during the special winning opening closing period excluding the exclusion period, a period in which the output terminal portion TM [1] is turned on for a predetermined time t _A3 Next, a period in which the output terminal portion TM [1] is turned off for a predetermined time t _A4 (here, 0.2 seconds) between a period in which the output terminal portion TM [1] is turned on for a predetermined time t _A3. Secure.

The situation in which the output terminal TM [1] is turned on based on the winning pulse signal from the special winning opening SW 513 may be considered to correspond to the situation in which the error detecting section 710 detects that an AT incorrect prize error has occurred. .
The special winning opening SW 513 outputs one winning pulse signal each time the game ball enters the special winning opening 111.

FIG. 54 (a) relates to the embodiment EX4_1, and shows how to output an error detection signal related to a magnetic error. In the gaming machine 100 according to the example EX4_1, when the magnetic sensor 521 outputs an on signal, the output terminal TM [1] is turned on for a predetermined time t _A5 (here, 0.2 seconds). Here, it is assumed that a magnetic detection pulse signal which is turned on only for a very short time is output from the magnetic sensor 521 every time when the magnetic sensor 521 detects a magnetism having a magnitude equal to or greater than a predetermined magnetic threshold. (The minute time is sufficiently shorter than the predetermined time t _A5 ). However, when the output signal of the magnetic sensor 521 is turned on, the output signal of the magnetic sensor 521 is turned on again within a predetermined mask time (one second in this case) longer than the predetermined time t _A5. That is, in the case where the magnetic detection pulse signal is output again), mask processing is applied in which the output terminal unit TM [1] is not turned on again.
The situation in which the output terminal TM [1] is turned on based on the magnetic detection pulse signal from the magnetic sensor 521 may be considered to correspond to the situation in which the error detection section 710 detects that a magnetic error has occurred.

FIG. 54 (b) relates to the embodiment EX4_1, and shows how to output an error detection signal related to a radio wave error. When the on signal is output from the radio wave sensor 522, the error detection unit 710 according to the example EX4_1 turns on the output terminal unit TM [1] for a predetermined time t _A6 (here, 0.2 seconds). Here, every time it is detected that an abnormal radio wave causing any one of the SW 511 to 515 to malfunction is being applied to the gaming machine 100, a radio wave detection pulse signal which is turned on for a minute time is outputted from the radio wave sensor 522 (The micro time is sufficiently shorter than the predetermined time t _A6 ). However, when the output signal of the radio wave sensor 522 is turned on, the output signal of the radio wave sensor 522 is turned on again within a predetermined mask time (one second in this case) longer than the predetermined time t _A6. That is, in the case where the radio wave detection pulse signal is output again), mask processing is applied in which the output terminal unit TM [1] is not turned on again.
A situation in which the output terminal TM [1] is turned on based on the radio wave detection pulse signal from the radio wave sensor 522 may be considered to correspond to a situation in which the error detection unit 710 detects that a radio wave error has occurred.

  By the way, although not described in the above-described embodiments, a payout radio wave sensor (not shown) may be provided to the gaming machine 100 separately from the radio wave sensor 522. The payout radio wave sensor is connected to the payout control substrate 302, and outputs an on or off signal to the payout control substrate 302. When an abnormal radio wave that causes the payout unit 323 to malfunction is given to the payout unit 323 from the outside, the gaming ball is paid out from the payout unit 323 even though it is not a situation where the payout operation of the gaming ball (prize ball or rental ball) should be performed. May be The payout radio wave sensor continuously monitors and detects whether or not an abnormal radio wave causing the payout unit 323 to malfunction is continuously added to the gaming machine 100, and an abnormal radio wave causing the payout unit 323 to malfunction causes the gaming machine 100 to malfunction. Output an on signal when not on, and an off signal otherwise. When the error detection unit 710 detects that the on signal is output from the payout radio wave sensor, or the on signal is continuously output from the payout radio wave sensor for a predetermined time (3 seconds in this case) or more. At the same time, it can be determined and detected that a payout radio wave error has occurred.

  In the embodiment EX4_1, the payout radio wave error belongs to the outer end error and belongs to the payout control system error group in which the error determination processing is performed by the payout control unit 402. The above-mentioned error X may be a payout radio wave error.

FIG. 54 (c) shows how to output an error detection signal related to a payout radio wave error according to the embodiment EX4_1. When the ON signal is output from the payout radio wave sensor, the error detection unit 710 according to the example EX4_1 turns on the output terminal unit TM [1] for a predetermined time t _A7 (here, 0.2 seconds). Here, whenever it is detected that an abnormal radio wave causing the payout unit 323 to malfunction is being applied to the gaming machine 100, a payout radio wave detection pulse signal which is turned on for a minute time is outputted from the payout radio wave sensor (The minute time is sufficiently shorter than the predetermined time t _A7 ). However, if the output signal of the payout radio wave sensor is turned on again, the output signal of the payout radio wave sensor is turned on again within a predetermined mask time (one second in this case) longer than the predetermined time t _{A7 after} the output signal of the discharge radio wave sensor is turned on ( That is, in the case where the payout radio wave detection pulse signal is output again), the mask processing may be applied or may not be applied, in which the output terminal unit TM [1] is not turned on again.
The situation in which the output terminal TM [1] is turned on based on the payout radio wave detection pulse signal from the payout radio wave sensor may be considered to correspond to the situation in which the error detection section 710 detects that a payout radio wave error has occurred. .

  FIGS. 55 (a) to 55 (c) show how to output an error detection signal related to a winning abnormality error according to Example EX4_1 (the significance of the winning abnormality error will be described later). The winning combination detection SW shown in FIG. 55 (a) or the like refers to any one of the first starting opening SW511, the second starting opening SW512, the special winning opening SW513, and the normal winning opening SW514. It is assumed that the winning detection SW outputs one winning pulse signal each time the entry of the gaming ball into the winning device is detected. The output signal of the winning detection SW is in an on or off state, and the winning pulse signal is a pulse signal which is on only for a short time. The winning devices when the winning detection SW is SW 511, 512, 513, 514 correspond to the first starting opening 105, the second starting opening 106, the big winning opening 111, and the normal winning opening 112, respectively.

The error detection unit 710 monitors and detects, for each winning detection SW, whether the following first winning abnormality determination condition is satisfied, based on the winning pulse signal from the winning detection SW.
Referring to FIG. 55 (a), the first winning abnormality determination condition is an output of winning pulse signals equal to or greater than a specified number within a predetermined time t _A11 starting from the timing when one winning pulse signal is output from the winning detection SW. It is a condition that it is detected. The predetermined time t _A11 and the prescribed number in this case are predetermined for each winning detection SW.
As shown in FIG. 55 (a), in the gaming machine 100 according to the embodiment EX4_1, when the first winning abnormality determination condition is satisfied for any winning detection SW, the output terminal portion TM [1] is output for a predetermined time t _A12 ( Here, it is turned on only for 0.2 seconds.

The error detection unit 710 monitors and detects, for each winning detection SW, whether or not the following second winning abnormality determination condition is satisfied, based on the winning pulse signal from the winning detection SW.
Referring to FIG. 55 (b), the second winning abnormality determination condition is a condition in which the output signal of the winning detection SW is kept on for a certain period of time t _A13 (the second winning abnormality determination is made unless the fraud is made. It is impossible for the condition to hold. The fixed time t _A13 here may be predetermined for each winning detection SW, or may be a common time for the SWs 511 to 514.
As shown in FIG. 55 (b), in the gaming machine 100 according to the embodiment EX4_1, when the second winning abnormality determination condition is satisfied for any winning detection SW, the output terminal TM [1] is switched for a predetermined time t _A14 ( Here, it is turned on only for 0.2 seconds. Counted from the switch on the output terminal portion TM [1] from OFF timing, when the output signal of the winning detection SW is detected to have been kept stationary for an additional time t _A13 minutes on, the detection From the timing of, the output terminal TM [1] is turned on again for a predetermined time _tA14 .

Based on the winning pulse signal from the special winning opening SW 513, the error detection unit 710 monitors and detects whether the following third winning abnormality determination condition is satisfied.
Referring to FIG. 55 (c), the third prize abnormality determination condition is a predetermined upper limit number (for example, 14) from the large winning opening SW 513 in the above-described one AT unit operation (corresponding to a round game in the big hit game). The condition is that an overcoming winning pulse signal is output.
As shown in FIG. 55 (c), in the gaming machine 100 according to Example EX4_1, when the third prize abnormality determination condition is satisfied, the output terminal portion TM [1] is maintained for a predetermined time t _A15 (here, 0.2 seconds). Only turn on. Even after the output terminal unit TM [1] is turned on for a predetermined time t _A15, determination of success or failure of the third prize abnormality determination condition may be continued, and if the third prize abnormality determination condition is newly satisfied, Again, the output terminal portion TM [1] may be turned on for a predetermined time _tA15 .

  The situation where the output terminal TM [1] is turned on based on the prize pulse signal from the prize detection SW may be considered to correspond to the situation where it is detected by the error detecting section 710 that a prize abnormality error has occurred. It is also possible to understand that the prize abnormal error here is a combination of a part of the AT incorrect prize error, a part of the DT incorrect prize error and the FN incorrect prize error. It may be understood that the error includes a winning error and an FN incorrect winning error. The prize abnormality error may correspond to the above-mentioned error Xa, belongs to the outer end error, and belongs to the main control system error group in which the main control unit 401 performs an error determination process.

Although specific numerical values (for example, 0.2 seconds and 10 seconds) for a plurality of times mentioned in the example EX4_1 can be changed variously, in the example EX4_1, the long and short relationship between the plurality of times and the same The sex shall be in accordance with the above-mentioned specific numerical length relationship and identity. That is, for example, as long as “t _A1 <t _A2 ” is maintained, the specific numerical values of the times t _A1 and t _A2 can be changed. However, it is also possible to reverse the long and short relationships of the plurality of times mentioned in the embodiment EX4_1 (ie, it is also possible to set, for example, “t _A1 > t _A2 ”), and the amounts of time different from each other It is also possible to match multiple times that have been stated to have (ie it is also possible to say “t _A1 = t _A2 ”) and to have multiple times stated to have the same amount of time It is also possible to make the times (i.e. for example t _A3 and t _A4 ) different from one another.

――― Example EX4_2 ―――
Example EX4_2 will be described.

Referring to FIG. 56, in the gaming machine 100 according to the example EX4_2, when the outer end error other than the glass frame opening error and the inner frame opening error is detected, the output terminal portion TM [1] is output for a predetermined time t _B1 ( Here, it is turned on only for 30 seconds. However, when the outer end error other than the glass frame open error and the inner frame open error is detected again while the output terminal unit TM [1] is turned on for the predetermined time t _B1 , the output terminal unit TM [1] Is extended, and the output terminal unit TM [1] is turned on for a predetermined time t _B1 from the second detection timing.

――― Example EX4_3 ―――
Example EX4_3 will be described.

  Referring to FIG. 57, in Example EX4_3, the vibration error, the winning error, and the positive SW abnormal passage error belong to the outer end error. The significance of the prize failure error is as described in Example EX4_1. In the embodiment EX4_3, the prize abnormal error described below may be read as an AT incorrect prize error, a DT incorrect prize error, or an FN incorrect prize error. Further, in the embodiment EX4_3, it is assumed that the main / payout communication error and the main / sub communication error also belong to the outer end error. Even if the connection between the main control board 301 and the payout control board 302 and the connection between the main control board 301 and the effect control board 303 are normal, immediately after the game machine 100 is powered on and the game machine 100 is activated. Although the communication between the main control board 301 and the payout control board 302 and the communication between the main control board 301 and the effect control board 303 have not been established, their communication becomes defective, and as a result, The main and payout communication errors and the main and sub communication errors occur only in a short period of time.

In the gaming machine 100 according to the example EX4_3, the second or third power supply error is detected when the power is turned on with the RAM clear operation or the setting change mode activation operation (for example, in step S173 or S166 of FIG. 18). As a result, the output terminal TM [1] is turned on for a predetermined time t _C1 (here, 30 seconds). Further, immediately after the gaming machine 100 is activated, the output terminal portion TM [1] is turned on while the main / payout communication error and the main / sub communication error occur.

  In the gaming machine 100 according to the embodiment EX4_3, when a magnetic error or radio wave error is detected, the output terminal unit TM [1] is turned on, and when the output terminal unit TM [1] is on, the power of the gaming machine 100 is turned off. It will be maintained until

In the gaming machine 100 according to the example EX4_3, when the vibration error is detected, the output terminal unit TM [1] is turned on, and then the predetermined time t _C2 (here, 30 seconds) from the time when the vibration error is not detected. After keeping the output terminal section TM [1] on until the lapse of time, the output terminal section TM [1] is turned off.

In the gaming machine 100 according to the example EX4_3, the output terminal portion TM [1] is turned on for a predetermined time t _C3 (here, 0.128 seconds) each time a winning prize error or a probability variation SW abnormal passing error is detected. . However, when continuously outputting an error detection signal by turning on the output terminal portion TM [1] for a predetermined time t _C3 , an interval between adjacent error detection signals is set to a predetermined time t _C4 (here, 0. 0). It shall secure for 128 seconds or more.

Although specific numerical values (for example, 30 seconds and 0.128 seconds) for a plurality of times mentioned in the example EX4_3 can be changed variously, in the example EX4_3, the long and short relationship between the plurality of times and the same The sex shall be in accordance with the above-mentioned specific numerical length relationship and identity. That is, for example, as long as “t _C1 > t _C3 ” is maintained, the specific numerical values of the times t _C1 and t _C3 can be changed. However, it is also possible to reverse the long and short relationships among the plurality of times mentioned in the embodiment EX4_3 (that is, for example, it is also possible to set “t _C1 <t _C3 ”), and mutually different time amounts It is also possible to match multiple times that have been stated to have (ie it is also possible to say “t _C1 = t _C3 ”) and to have several times stated to have the same amount of time It is also possible to make the times (i.e., for example, t _C3 and t _C4 ) different from one another.

――― Example EX4_4 -――
Example EX4_4 will be described. In the embodiment EX4_4, it is assumed that the winning prize error, the vibration error, and the probability variation SW abnormal passage error belong to the outer end error. The significance of the prize failure error is as described in Example EX4_1.

As shown in FIG. 58A, in the gaming machine 100 according to Example EX4_4, when a magnetic error or a radio wave error is detected, an output terminal after a predetermined time t _D1 (here, 4 milliseconds) has elapsed from the detection. The unit TM [1] is switched from off to on, and then the on of the output terminal unit TM [1] is maintained until the power of the gaming machine 100 is turned off.

As shown in FIG. 58 (b), in the gaming machine 100 according to the embodiment EX4_4, when a specific cheating error is detected, an output terminal portion after a predetermined time t _D1 (here, 4 milliseconds) has elapsed from the detection. Then, the output terminal TM [1] is turned off after the output terminal TM [1] is kept on for a predetermined time t _D2 (here 240 seconds). However, when the specific injustice error is detected again while the output terminal unit TM [1] is turned on based on the specific injustice error being detected, the predetermined time t _D1 is determined from the second detection timing. The output terminal portion TM [1] is turned on again for a predetermined time t _D2 from the time when it has elapsed.
Here, the specific fraud error includes the prize abnormal error described in the example EX4_1, and also includes the vibration error and the probability variation SW abnormal passage error. In the embodiment EX4_4, the winning abnormal error may be read as an AT incorrect winning error, a DT incorrect winning error, or an FN incorrect winning error. The vibration error may be detected only when the special winning opening 111 is open.

As shown in FIG. 58C, in the gaming machine 100 according to the embodiment EX4_4, a predetermined time t _D3 (here, 1.5 seconds) after the gaming machine 100 is switched from the power off state to the power on state by power on. After the lapse of time, the output terminal unit TM [1] is switched from off to on, and thereafter, the output terminal unit TM [1] is kept on for a predetermined time t _D4 (here, 30 seconds) before the output terminal unit TM [ 1] Turn off. However, when the specific cheating error is detected while the output terminal TM [1] is turned on triggered by the power-on, the predetermined time t _D2 is re-started from the time when the predetermined time t _D1 has elapsed from the detection timing. Turn on the output terminal TM [1] for the same amount.

Although specific numerical values (for example, 240 seconds and 30 seconds) for a plurality of times mentioned in the example EX4_4 can be changed variously, in the example EX4_4, the long and short relationship and the identity of the plurality of times are , The relationship between the specific numerical values described above, and the identity. That is, for example, as long as "t _D2 > t _D4 " is maintained, the specific numerical values of the times t _D2 and t _D4 can be changed. However, it is also possible to reverse the long and short relationships among the plurality of times mentioned in the embodiment EX4_4 (that is, for example, it is also possible to set “t _D2 <t _D4 ”), and mutually different time amounts It is also possible to match multiple times which have been stated to have (ie it is also possible to say eg "t _D2 = t _D4 ").

――― Example EX4_5 ―――
Example EX4_5 will be described. In Example EX4_5, it is assumed that a winning prize error belongs to an outer end error. The significance of the prize failure error is as described in Example EX4_1.

As shown in FIG. 59, in the gaming machine 100 according to the embodiment EX4_5, the second or the power is turned on with the RAM clear operation or the setting change mode activation operation (for example, in step S173 or S166 of FIG. 18). The third power supply error is detected, and as a result, the output terminal TM [1] is turned on for a predetermined time t _E1 (here, 30 seconds).

In addition, in the gaming machine 100 according to the example EX4_5, when the prize abnormal error or the radio wave error is detected, the output terminal portion TM [1] is turned on for a predetermined time t _E2 (here, 30 seconds) from the detection time point. . The prize abnormality error in this case is the error as described in the embodiment EX4_1. However, in the embodiment EX4_5, the prize abnormality error may be read as an AT incorrect prize error, a DT incorrect prize error or an FN incorrect prize error. Although "t _E1 = t _E2 " is assumed here, it may be "t _E1 > t _E2 " or "t _E1 <t _E2 ".

  Further, in the gaming machine 100 according to the example EX4_5, when the magnetic error is detected, the output terminal TM [1] is turned on, and the output terminal TM [1] is continuously turned on until the magnetic error is eliminated. (Ie as long as the detection of the magnetic error is continued). The elimination of the magnetic error after the magnetic error is detected may be realized by turning off the power of the gaming machine 100, or may be realized by switching the output signal of the magnetic sensor 521 from on to off. .

  When a plurality of conditions for turning on the output terminal portion TM [1] occur, the turning on of the output terminal portion TM [1] is continued until all the plurality of conditions are not satisfied. This is the same in all the examples other than the example EX4_5 belonging to the fourth embodiment, and may be the same in any embodiment other than the fourth embodiment.

――― Example EX4_6 ――
Example EX4_6 will be described. In Example EX4_6, it is assumed that the prize-abnormality error belongs to the outer end error.

As shown in FIG. 60, in the gaming machine 100 according to Example EX4_6, at least one of the inner frame opening error and the glass frame opening error occurs starting from the state where the inner frame opening error and the glass frame opening error do not occur. Output when the first state (ie, the state in which at least one of the inner frame opening SW 535 b and the glass frame opening SW 535 a is on) continues for a predetermined time t _F1 (here, 0.096 seconds) Switch the terminal TM [2] from off to on. Thereafter, the second state (i.e., the inner frame opening SW535b and glass frame opening SW535a both off and going on state) in which both the inner frame open error and glass frame open error is not detected, the predetermined time t _{F2 (here} 0.096 seconds) until continues, the output terminal portion TM [2] oN is maintained, and turns off the output terminal portion TM [2] from oN when the continuation is detected in the second state of the predetermined time t _F2 min Switch to

As shown in FIG. 61, in the gaming machine 100 according to Example EX4_6, when the power is turned on regardless of whether it is accompanied by the RAM clear operation or the setting change mode activation operation (for example, processing of FIG. After the start, at step S151), the first, second or third power supply error is detected, and as a result, the output terminal TM [1] is turned on for a predetermined time t _F3 (here, 0.256 seconds) It is assumed.

  After that, the output terminal TM [1] is turned on during a period in which a winning abnormality error, a magnetic error or a radio wave error is detected. In the case where a plurality of errors among the prize abnormality error, the magnetic error and the radio wave error are detected in duplicate, the output terminal TM [1] is kept on until all the plurality of errors are eliminated. . The prize abnormality error in this case is the error as described in the embodiment EX4_1. However, in the embodiment EX4_6, the prize abnormality error may be replaced with an AT incorrect prize error, a DT incorrect prize error or an FN incorrect prize error.

Although specific numerical values (for example, 0.096 seconds and 0.256 seconds) for a plurality of times mentioned in the example EX4_6 can be changed variously, in the example EX4_6, their long and short relationships with the plurality of times And identity shall be in accordance with the above-mentioned specific numerical length relationship and identity. That is, for example, as long as “t _F1 <t _F3 ” is maintained, the specific numerical values of the times t _F1 and t _F3 can be changed. However, it is also possible to reverse the long and short relationships of the plurality of times mentioned in the embodiment EX4_6 (that is, for example, it is also possible to make “t _F1 > t _F3 ”), and mutually different time amounts It is also possible to match multiple times that have been stated to have (ie it is also possible to say “t _F1 = t _F3 ”) and to have several times stated to have the same amount of time It is also possible to make the times (ie for example t _F1 and t _F2 ) different from one another.

――― Example EX4_7 ―――
Example EX4_7 will be described. In the embodiment EX4_7, it is assumed that the winning prize error, the vibration error, and the probability variation SW abnormal passage error belong to the outer end error.

Referring to FIG. 62, in the gaming machine 100 according to the embodiment EX4_7, the second or the time when the power on with the RAM clear operation or the setting change mode activation operation is performed (for example, in step S173 or S166 in FIG. 18) The third power supply error is detected, and as a result, the output terminal TM [1] is turned on for a predetermined time t _G1 (here, 0.056 seconds). Further, winning the abnormal error, vibration error, magnetic errors, Telecommunications error, even when the probability variation SW abnormal passage error is detected, respectively, the output terminal portion TM [1] is turned on for a predetermined time t _G1. However, when continuously outputting an error detection signal by turning on the output terminal portion TM [1] for a predetermined time t _G1 , the interval between adjacent error detection signals is set to a predetermined time t _G2 (here, 0. 0). It shall secure for 056 seconds or more.

The prize abnormality error in this case is the error as described in the embodiment EX4_1. However, in the embodiment EX4_7, the prize abnormality error may be read as an AT incorrect prize error, a DT incorrect prize error or an FN incorrect prize error. Furthermore, although “t _G1 = t _G2 ” is assumed here, “t _G1 > t _G2 ” or “t _G1 <t _G2 ” may be adopted.

As for the magnetic error, after the detection of the magnetic error, from the timing when the elimination of the magnetic error is detected (that is, the timing when the output signal of the magnetic sensor 521 is turned on and then turned off), the output terminal TM 1) may be turned on for a predetermined time t _G1 . The same applies to radio wave errors.

/ / / / / / / / / / Fifth embodiment / / / / / / / / / /
A fifth embodiment according to the present invention will be described. The structure etc. of the above-mentioned external terminal board 305 will be described in the fifth embodiment. The fifth embodiment is implemented in combination with the first to fourth embodiments.

63 and 64 show a perspective view and a plan view of the external terminal board 305. FIG. As described above, the external terminal board 305, the output circuit OC [1] ~OC [m] , the output terminal portion TM [1] ~TM [m] and connector CN _O are mounted (here Each of the output circuits OC [1] to [m] includes the photocoupler PC and the resistance element R. In FIGS. 63 and 64, among the output circuits OC [1] to [m], only the photocoupler and the resistance element of the output circuit OC [1] have the reference numeral “PC” in order to prevent the drawings from being complicated. And “R” are shown, and the wiring patterns formed on the external terminal substrate 305 are not shown. In each output terminal portion, a diode DI is also mounted on the external terminal substrate 305 for preventing application of a reverse voltage to the phototransistor provided on the output side of the photocoupler.

Here, of the output terminal portion TM [1] ~TM [10] , the output terminal portion TM [1] closest and output terminal portion TM to the connector CN _O [10] Most of connector CN _O It is assumed that the output terminal portions TM [1] to TM [10] are arranged in this order along the longitudinal direction of the external terminal substrate 305 so as to be far. However, the arrangement of the output terminal portions TM [1] to TM [10] is arbitrary. That is, for example, the output terminal TM [1] that outputs an error detection signal for a magnetic error or the like and the output terminal TM [2] that outputs an error detection signal for a glass frame opening error or the like are adjacent to each other. One or more other output terminals may be disposed between the output terminals TM [1] and TM [2].

  The structure of the output terminal unit is the same among the output terminal units TM [1] to TM [10], and therefore, among the output terminal units TM [1] to TM [10], the output terminal unit TM is representative. The structure of [1] will be described.

  FIGS. 65A and 65B are a perspective view and a plan view of the output terminal portion TM [1]. The output terminal portion TM [1] includes a terminal block housing 4100 formed of a resin material, and a pair of metal terminals fixed to the terminal block housing 4100, terminals 4110A and 4110B (FIGS. b) corresponding to the hatched area). When the terminals 4110A and 4110B in the output terminal TM [1] are conductive, the output terminal TM [1] is on, and when the terminals 4110A and 4110B in the output terminal TM [1] are nonconductive, The output terminal unit TM [1] is off.

In FIG. 65C, a wire 4200A for electrically connecting the terminal 4110A to the external device 610 (in other words, for propagating an electrical signal applied to the terminal 4110A to the external device 610), and a terminal 4110B. And a wire 4200B for electrically connecting the external device 610 (in other words, for propagating an electrical signal applied to the terminal 4110B to the external device 610). A portion (hereinafter referred to as an exposed conducting wire portion 4210A) exposed at one end of the wiring 4200A is crimped to the terminal 4110A by pressure bonding, and a portion exposed a conducting wire at one end of the wiring 4200B (hereinafter referred to as an exposed conducting wire portion 3210) is bonded to the terminal 4110B by pressure bonding, and the other ends of the wires 4200A and 4200B are connected to the external device 610, whereby the external output signal B _OUT [1] (FIG. 32) from the pair of terminals 4110A and 4110B. Reference) can be transmitted to the external device 610.

  The operation performed by the administrator of the gaming machine 100 to electrically connect the wires 4200A and 4200B to the terminals 4110A and 4110B is referred to as electrical connection securing operation. Terminal crimping control levers 4120A and 4120B are attached to the terminal block housing 4100 for the administrator of the gaming machine 100 to operate in the conduction securing operation. The terminal pressure bonding control levers 4120A and 4120B are made of a resin material. While the shapes of the terminal crimping control levers 4120A and 4120B are different from each other, the lever 4120A has a roughly Z-shape while the lever 4120B has a generally I-shape (rod-like shape; however, some bending There is a part).

  A portion of the lever 4120A and a portion of the lever 4120B protrude from the terminal block housing 4100. Of the two ends of the lever 4120A, the end projecting from the terminal block housing 4100 is referred to as the end 4122A, and of the two ends of the lever 4120B, the end projecting from the terminal block housing 4100 The end of the is called end 4122B. Of the two ends of the lever 4120A, the end opposite to the end 4122A is referred to as a terminal crimp 4130A, and of the two ends of the lever 4120B, the end opposite to the end 4122B is a terminal It is called a crimped part 4130B. In FIGS. 65 (a) and 65 (b), the dot regions correspond to the terminal crimping portions 4130A and 4130B. The terminal crimping portions 4130A and 4130B are accommodated in the terminal block housing 4100.

  When no external force is applied to the end 4122A of the lever 4120A, the restoring force of the first spring (not shown) provided in the terminal block housing 4100 pushes the end 4122A upward and interlocks with this. Then, the terminal crimping portion 4130A is pressed against the terminal 4110A. When the administrator of the gaming machine 100 applies an external force to push down the end 4122A of the lever 4120A downward in the conduction securing operation, the first spring is compressed and the end 4122A is pushed downward and interlocked with this, the terminal crimping is performed. A pressure bonding space 4140A is formed between the portion 4130A and the terminal 4110A. In the conduction securing work, after inserting the exposed wire portion 4210A of the wire 4200A into the pressure bonding space 4140A, if application of external force to the end 4122A of the lever 4120A is cancelled, the terminal crimping portion 4130A is obtained by the restoring force of the first spring. As a result, the exposed conducting wire portion 4210A is pressed (crimped) onto the terminal 4110A, and as a result, the conduction between the exposed conducting wire portion 4210A and the terminal 4110A is secured.

  Similarly, in a situation where no external force is applied to the end 4122B of the lever 4120B, the end 4122B is pushed upward by the restoring force of a second spring (not shown) provided in the terminal block housing 4100, In conjunction with this, the terminal crimping portion 4130B is pressed against the terminal 4110B. When the administrator of the gaming machine 100 applies an external force to push down the end 4122B of the lever 4120B in the continuity securing operation, the second spring is compressed and the end 4122B is pushed downward, interlocking with this, the terminal crimping is performed. A pressure bonding space 4140B is formed between the portion 4130B and the terminal 4110B. In the conduction securing work, after inserting the exposed wire portion 4210B of the wire 4200B into the pressure bonding space 4140B, if application of external force to the end 4122B of the lever 4120B is not performed, the terminal crimping portion 4130B is obtained by the restoring force of the second spring. As a result, the exposed conducting wire portion 4210B is pressed (crimped) onto the terminal 4110B, and as a result, the conduction between the exposed conducting wire portion 4210B and the terminal 4110B is secured.

  In FIGS. 65 (a) and 65 (b), the pressure bonding space 4140A is shown, but without inserting an object such as the exposed wire portion 4210A between the terminal 4110A and the terminal pressure bonding portion 4130A and the end of the lever 4120A. Under a situation where no external force is applied downward to the portion 4122A, the pressure-bonding space 4140A to such an extent that the exposed conducting wire portion 4210A can be inserted is not formed by the restoring force of the first spring. The same applies to the pressure bonding space 4140B.

  FIG. 66 is a schematic side view of the output terminal portion TM [1] in a state where the output terminal portion TM [1] is mounted on the external terminal substrate 305. In order to clarify the description of the structure of the output terminal portion TM [1], X axis, Y axis and Z axis orthogonal to each other are defined in real space. The X axis and the Y axis are parallel to the component mounting surface 305S (the surface on which the terminal block housing 4100 is mounted) of the external terminal board 305, and the Z axis is orthogonal to the component mounting surface 305S. The output terminal portions TM [1] to TM [10] (terminal block housings 4100 of the output terminal portions TM [1] to TM [10]) are arranged along the Y-axis direction. In the description of the fifth embodiment, the upper side is the direction parallel to the Z axis and directed from the component mounting surface 305S of the external terminal board 305 to the end portions 4122A and 4122B, and the lower side is the reverse thereof. It is the direction. It is assumed that the direction from the bottom to the top coincides with the direction from the origin of the Z axis to the positive side.

  The distance between the end 4122A (strictly, the lower end of the portion of the lever 4120A located on the most positive side of the X axis) and the component mounting surface 305S (Z under a condition where no external force is applied to the end 4122A of the lever 4120A) (Z The distance along the axial direction is referred to as the height of the lever 4120A and is represented by the symbol "L1A". The distance between the end 4122B (strictly, the lower end of the portion of the lever 4120B located on the most positive side of the X axis) and the component mounting surface 305S (Z under a condition where no external force is applied to the end 4122B of the lever 4120B) (Z The distance along the axial direction is referred to as the height of the lever 4120B and is represented by the symbol "L1B". The height L1A of the lever 4120A is higher than the height L1B of the lever 4120B (ie, L1A> L1B).

  Further, of the two surfaces parallel to the Y axis and the Z axis in the terminal block housing 4100, the surface closer to the end portions 1422A and 1422B is referred to as a surface SF1, and the other surface is referred to as a surface SF2. It is assumed that the direction from the surface SF2 to the surface SF1 coincides with the direction from the origin of the X axis to the positive side. The direction in which each of the lever 4120A and the lever 4120B protrudes from the terminal block housing 4100 matches the direction from the origin of the X axis toward the positive side.

  As shown in FIG. 65 (b), when the component mounting surface 305S is viewed from the positive side of the Z-axis along the Z-axis direction, the projection amount L2B of the lever 4120B from the surface SF1 to the positive direction of the X-axis is a surface The projection amount L2A of the lever 4120A in the positive direction of the X axis from the SF1 is larger than the projection amount L2A. Note that “L2A = 0” may be possible.

  Furthermore, when focusing on the two output terminal portions TM [i] and TM [i + 1] arranged adjacent to each other, the terminal crimping lever 4120A of the output terminal portion TM [i] and the terminals of the output terminal portion TM [i + 1] Two output terminal portions TM [i-1] and TM [i] disposed so as to be adjacent to each other such that the terminal crimping lever 4120B of the output terminal portion TM [i + 1] is disposed between the crimping lever 4120A and the crimping lever 4120A. ], The terminal crimping lever of the output terminal TM [i-1] between the terminal crimping lever 4120B of the output terminal TM [i] and the terminal crimping lever 4120B of the output terminal TM [i-1] The terminal block housings 4100 of the output terminal portions TM [1] to TM [10] are arrayed and mounted on the external terminal substrate 305 so that 4120A is disposed.

  Such a structure and arrangement make it easy to secure conduction.

  When the total length of the lever 4120A in a plane parallel to the X axis and the Z axis is compared with the total length of the lever 4120B in a plane parallel to the X axis and the Z axis, the total length of the former is longer than the total length of the latter Also, the long length of the former and the full length of the latter coincide with each other.

  Although the colors of the levers 4120A and 4120B in one output terminal portion TM [i] are common, the colors of the levers 4120A and 4120B are different between the output terminal portions TM [1] to TM [10]. It has become.

  The external terminal board 305 is attached to the gaming machine 100 in a state of being accommodated and fixed in an external terminal board case not shown. The external terminal board case is formed of, for example, a transparent resin material such as polycarbonate.

  Referring to FIG. 67, a seal 4300 is attached to the external terminal board case. The seal 4300 is a seal whose base is yellow, and a red square frame 4320 is printed with the yellow as a base. Further, inside the square frame 4320, characters 4340 are printed in black. The character 4340 is a character indicating that the substrate accommodated and fixed in the external terminal substrate case is the external terminal substrate 305, and is, for example, a character "external terminal" or "external terminal substrate". Alternatively, the seal 4300 may be directly attached to the external terminal substrate 305.

/ / / / / / / / / / Sixth embodiment / / / / / / / / / /
A sixth embodiment according to the present invention will be described. The sixth embodiment is implemented in combination with the first to fifth embodiments. In the sixth embodiment, supplementary matters relating to game condition setting values will be described.

  Now, attention is paid to one special drawing determination information JJ acquired based on the game ball winning on the starting opening 105 or 106, and attention is paid to a specific effect EE that can be performed for the special drawing determination information JJ.

  The effect control unit 403 executes or does not execute the specific effect EE for the special-image determination information JJ based on the result of the special-image determination or the prior determination for the special-image determination information JJ. The specific effect EE may be the advance notice effect that can be executed during the variation display of the special symbol for the special figure determination information JJ based on the result of the special figure determination to the special figure determination information JJ, and the special figure determination information Based on the result of the prior determination to JJ, it may be a pre-reading advance notice effect executed before the variation display of the special symbol for the special drawing determination information JJ.

  The specific effect EE is arbitrary as long as it is determined and controlled to be executed / not executed based on the result of the special drawing determination or the prior determination on the special drawing determination information JJ. For example, the specific effect EE may be reach effect, or the display mode of the on-hold image indicating that the special-image determination information JJ is stored in the storage area 413a is a display mode with a high hit probability. It may be a preview effect, a so-called zone effect, or a display effect of a cut-in image. Here, it is assumed that the specific effect EE is an effect that suggests that the expectation of the jackpot (the expectation of execution of the jackpot) is high. The meaning of the expression “the expectation of the jackpot (the expectation of the execution of the jackpot) is high” is as described in the first embodiment in relation to the reach production, but at least the execution of the specific production EE is a specific production EE. It is suggested that the degree of expectation of jackpot of information JJ for special figure determination is higher than the non-execution (details are the degree of expectation that jackpot game is executed based on the result of special figure determination for information JJ for special figure determination) You can think that

FIG. 68 shows the appearance rate and the like of the specific effect EE in the low probability gaming state. FIG. 68 shows the appearance rates and the like of the specific effects EE in 1, 4 and 6 among 1, 2, 3, 4, 5 and 6 which are candidates for game condition setting values. In the low probability gaming state, the probability of winning a jackpot when the gaming condition setting value is "i", the probability of losing (ie probability of not winning a jackpot) are respectively represented by K _Ai and K _Di (i is an integer) .

In addition, under the condition that the game condition setting value is "i" and the special figure determination information JJ is jackpotted in the low probability gaming state, the special effect EE is performed on the special figure determination information JJ. Under the condition that it is a low probability gaming state, the game condition setting value is "i", and the special figure determination information JJ is a loss, while the probability that the _key is executed is represented by KBi. The probability that the specific effect EE is executed for JJ is represented by K _Ei .

Then, when in the low probability gaming state and the gaming condition setting value is “i”, special drawing determination information JJ is won as a big hit and specific effect EE is executed to special drawing determination information JJ. that the probability _{K Ci is} represented by _{"K Ci = K Ai × K} Bi". Similarly, when in the low probability gaming state and the gaming condition setting value is “i”, the special view determination information JJ is lost and the special effect EE is executed on the special view determination information JJ. This probability K _Fi is expressed by “K _Fi = K _Di × K _Ei ”.

In addition, when the game condition setting value is “i” in the low probability gaming state, the probability that the specific effect EE is executed for the information JJ for special view determination that is the big hit or the loss (the overall effect of the specific effect EE Occurrence probability) K _Gi is represented by "K _Gi = K _Ci + K _Fi ".

And when it is in the low probability gaming state and the gaming condition setting value is "i", the jackpot expectation K _Hi by the execution of the specific effect EE is "K _Hi = K _Ci / (K _Ci + K _Fi )" expressed. The expectation of the jackpot by execution of the specific effect EE corresponds to the expectation (reliability) of the jackpot indicated by the specific effect EE, and the expectation K _Hi is a low probability gaming state and the game condition setting value is “ In the case of i ′ ′, when the specific effect EE is executed, it indicates the probability that the jackpot game will be executed based on the result of the special view determination on the special view determination information JJ.

A concrete numerical example is given. First, as described with reference to FIG. 19, here, “(K _A1 , K _A4 , K _A6 ) = (1/300, 1/275, 1/250)” and “(K _D1 , K _D4 , K _D6 ) = (299/300, 274/275, 249/250) ". The probabilities K _{B1 to} K _B6 are all equal to each other, and here, “K _B1 = K _B2 = K _B3 = K _B4 = K _B5 = K _B6 = 1/2”. Similarly, the probabilities K _{E1 to} K _E6 are all the same as each other, and in this case, “K _E1 = K _E2 = K _E3 = K _E4 = K _E5 = K _E6 = _1/600 ”. Then, _inevitably, the _{"K G1 <K G2 <K} G3 <K G4 <K G5 <K G6" and _{"K H1 <K H2 <K} H3 <K H4 <K H5 <K H6". Under the above numerical example, the probabilities K _G1 , K _G4 and K _G6 are respectively about 0.333%, about 0.348% and about 0366%, and the expectation (probability) K _H1 , K _H4 and K _H6 Of about 50.08%, about 52.26%, and about 54.64%, respectively.

  By making it possible to change the game condition setting value, the manager of the gaming machine 100 can adjust the winning probability of the jackpot, but at this time, how many game condition setting values are set, Care must be taken to make it impossible for the player to guess during the game.

Taking this into consideration, the probabilities K _{B1 to} K _B6 are all made equal to one another, and the probabilities K _{E1 to} K _E6 are all made equal to one another. That is, under the condition that the game condition setting value is the low probability gaming state and the special figure determination information JJ is won for the big win, the probability that the specific effect EE is executed for the special figure determination information JJ is set as the game condition setting value. Similarly, it is determined that the specific effect EE is executed on the special view determination information JJ under the condition that the game is in a low probability gaming state and the special view determination information JJ is lost. It is fixed independently of the condition setting value. Thus, for example, as the game condition setting value is higher or lower (in other words, the larger or the smaller), the specific effect EE is more likely to be executed / is less likely to be executed at a big hit, or the specific effect EE is It is possible to prevent the game condition setting value from being easily estimated by the player based on the appearance degree of the specific effect EE.

However, as a result, the higher the game condition setting value (the higher the jackpot winning probability), the higher the probability (the overall appearance probability of the specific effect EE) K _Gi becomes higher and the expectation K _H relating to the specific effect EE is also high. Become.

  Although the method of setting various probabilities and the like are described on the assumption that the game state is the low probability gaming state, the same may be applied to the high probability gaming state. That is, under the condition that the special figure determination information JJ is in the high probability gaming state and the special figure determination information JJ is won for the big hit, the probability that the specific effect EE is executed for the special figure determination information JJ is set as the game condition setting value. Similarly, it is determined that the special effect EE is executed on the special view determination information JJ under the condition that the game is in a high probability gaming state and the special view determination information JJ is lost. It is good to fix without depending on the condition setting value.

/ / / / / / / / / / Seventh embodiment / / / / / / / / / /
A seventh embodiment according to the present invention will be described. The seventh embodiment is implemented in combination with the first to sixth embodiments. In the seventh embodiment, a modification of the method of setting the jackpot probability according to the game condition setting value will be described.

  In the seventh embodiment, the ratio of the jackpot probability in the high probability gaming state to the jackpot probability in the low probability gaming state is changed depending on the game condition setting value.

  FIG. 69 shows the relationship between the game condition setting value and the jackpot winning probability assumed in the seventh embodiment. That is, the winning probability of the jackpot in the low probability gaming state, when the gaming condition setting value is 1, 2, 3, 4, 5, 6, respectively, 1/300, 1/290, 1/280, 1 / The winning probability of the jackpot in the high probability gaming state is set to 275, 1/260, 1/250, and when the game condition setting value is 1, 2, 3, 4, 5, 6, all is 1/30. Be done. As a result, the ratio RT of the jackpot probability in the high probability gaming state to the jackpot probability in the low probability gaming state varies depending on the game condition setting value, and the ratio RT changes the gaming condition setting value. The higher you go, the smaller you get.

  The gaming machine 100 where such a jackpot winning probability setting method is considered to function particularly advantageously is shown in the following Examples EX7_1 and EX7_2. The seventh embodiment also includes the following example EX7_3.

――― Example EX7_1 ―――
Example EX7_1 will be described. In Example EX7_1, it is assumed that the gaming machine 100 is configured as a so-called ST machine. That is, specifically, in Example EX7_1, the number of times of high probability provision and the number of times of application of electricity support to each of jackpots of A to D are modified 30 times and 30 times respectively by modifying the one shown in FIG. Suppose that the number of times of high probability provision and the number of times of power support to each of the jackpots of Toru A and Toru B are 0 and 30, respectively. In this case, in the flowchart of FIG. 13, "30" may be set to both X and J in step S128, and "0" and "30" may be set to X and J in step S129. Alternatively, the number of times of high probability provision and the number of times of electronic assistance may be 30 times or 30 times for all types of jackpots (i.e., special A to special D, through A and through B). In this case, in each of steps S128 and S129 in FIG. 13, both the high probability game flag and the power support game flag may be set to ON and both X and J may be set to "30".

  In such an ST machine, temporarily changing the jackpot probability in the high probability gaming state according to the game condition setting value causes the so-called continuation probability to change depending on the game condition setting value. As shown in FIG. 69, if the winning probability of the jackpot in the high probability gaming state is made constant without depending on the game condition setting value, the continuation probability is prevented from changing depending on the game condition setting value.

  In addition, with the continuation probability in here, the big hit game is executed again from the timing which shifted to the high probability electric support game state after the big hit game, the probability of returning to the high probability electric support game state after the big hit game again. Starting from the timing at which the transition to the high probability electric support game state after pointing to or through the jackpot game, the large hit game is executed again, returns to the high probability electric support game state after the large hit game again, or the low probability electric support game state Points to the probability of transitioning to

――― Example EX7_2 ―――
Example EX7_2 will be described. In Example EX7_2, it is assumed that the gaming machine 100 is configured as a so-called small hitting RUSH loading machine. This will be described.

  In the non-power-sap game mode, the game is played by hitting the left, and the trigger for acquisition of the special view determination information is mainly the winning of the first starting opening 105. In the special view determination for the special view determination information acquired based on the winning on the first starting opening 105, no small hit will occur or a small first small hit probability (for example, 1%) A small hit occurs. On the other hand, in the power support game state, the game is played by right-handing, and the trigger for acquisition of the special view determination information is mainly the winning of the second starting opening 106. Then, in the special figure determination for the special figure determination information acquired based on the winning on the second starting opening 106, a small hit occurs with a very high second small hitting probability (for example, 80%) (second small The hit probability is higher than the above first small hit probability).

  Then, in the high probability electric support game state, when the player continues to hit the right, the payout rate when the big hit game is not performed ("The number of balls paid out is hit in the So that the number divided by the number of game balls played is higher than 100%, and in the gaming state other than the high probability electric support state (including the low probability electric support state), right The small hit RUSH equipped machine is configured so that the payout rate when the big hit game is not performed is 100% or less when the jackpot is continuously performed.

  For example, in a small hit RUSH loading machine, when winning in a small hit in the high probability electric support game state, expected number of ball entry to the big winning opening 111 in the opening period of the big winning opening 111 in small hitting game The game ball enters the big winning opening 111 during the opening period of the big winning opening 111 in the small hitting game when the value is “KAT1” and when the small winning is won in the low probability electric support gaming state The arrangement positions of the second starting opening 106 and the large winning opening 111, the opening pattern of the electric tulip 107, and the opening pattern of the large opening 111 in the small hitting game are designed such that the expected ball number is "KAT2". (However, assuming that the right strike is being continued). Here, “KAT1> KAT2” (for example, KAT1 = 2 and KAT2 = 0.05).

  As described above, in the gaming machine 100 configured as a small hit RUSH loading machine, if the right hit is continued only in the high probability electric support gaming state, even if the big hit does not occur, a plurality of small hits may occur. The actual winning prize ball will increase by the occurrence. The actual winning prize ball is obtained by subtracting the number of gaming balls hit in the game area 103 from the number of winning balls paid out.

  Therefore, in the gaming machine 100 configured as a small hitting RUSH loading machine, temporarily, the jackpot winning probability in the high probability gaming state as in the first embodiment (FIG. 19) is increased with the increase of the game condition setting value. For example, the higher the game condition setting value (the larger the game condition setting value), the less chance of the small hit game being executed in the high probability electric support gaming state, which is disadvantageous to the player (high probability electric support The high probability electric support game state will end if winning in the jackpot of the B in the gaming state, but the probability that the end occurs will increase as the jackpot probability in the high probability game state increases. ).

  As shown in FIG. 69, assuming that the jackpot winning probability in the high probability gaming state is constant without depending on the game condition setting value, the expected value of the number of times the small hitting game is executed in the high probability electric support gaming state Is constant without depending on the game condition setting value.

  In addition, when the high probability electric support game state is classified into the specific high probability electric support game state and the non-specific high probability electric support game state, and the right strike is continued, when the big hit game is not performed The payout rate may be higher than 100% only to a specific high probability electric support gaming state. Here, the specific high probability electric support game state is a high probability electric support game state which shifts after the jackpot game of special B or special D, and the non-specific high probability electric support game state is special A or special C It is a high probability electric support game state to shift after the jackpot game (see FIG. 12).

――― Example EX7_3 ―――
Example EX7_3 will be described. In the seventh embodiment, referring to FIG. 69, a method of decreasing the ratio RT as the gaming condition setting value increases (ie, as the jackpot probability in the low probability gaming state increases) As described above, it is also possible to increase the ratio RT as the game condition setting value increases.

/ / / / / / / / / / Eighth embodiment / / / / / / / / / /
An eighth embodiment according to the present invention will be described. In the eighth embodiment, a modification technique relating to setting of game condition setting values will be described.

  Reference is made to FIG. In the eighth embodiment, it is assumed that the setting operation unit 416 (see FIG. 6) is configured by the setting key receiving unit 416a and the setting key state detection unit 416b. The setting key receiving portion 416a has a hole for inserting the setting key 416c which is a metal key. The administrator of the gaming machine 100 turns the state of the setting key receiver 416a off or on by rotating the setting key 416c around the axis with the setting key 416c held and managed by the player inserted into the hole. You can switch to the state. Setting key state detection unit 416b outputs a setting key state signal of off when the state of setting key receiver 416a is off, and a setting key state signal of on when the state of setting key receiver 416a is on Output

  FIG. 71 is a flowchart of a power-on process according to the eighth embodiment. In the first to seventh embodiments, the power-on process according to the eighth embodiment may be executed instead of the power-on process shown in FIG. The processing of each step shown in FIG. 71 and FIG. 72 described later, which forms the power-on process according to the eighth embodiment, is executed by the main control unit 401.

  In the eighth embodiment, it is assumed that the operation mode of the gaming machine 100 is any one of an initial mode, a setting confirmation mode, a setting change mode, and a gaming mode. Immediately after the power is turned on, the operation mode of the gaming machine 100 is the initial mode.

  In the power-on process according to the eighth embodiment, first, in step S211, whether or not the on signal is output from the inner frame opening SW 535b is checked, and the on signal is output from the inner frame opening SW 535b. While the process proceeds to step S212 (ie, when the inner frame 11 is in the open state), the process proceeds to step S174 when an off signal is output (ie, when the inner frame 11 is in the closed state). At the stage of performing the process of step S211, it is assumed that information indicating whether the output signal of the inner frame opening SW 535b is on is transmitted from the payout control unit 402 to the main control unit 401.

  In step S212, when the state of the setting key state signal is confirmed and the setting key state signal is on (ie, when the setting key receiving portion 416a is on), the process proceeds to step S213 while being off. If yes, the process proceeds to step S171a.

  In step S213, it is checked whether a predetermined RAM clear operation is input. As described above, the RAM clear operation is an operation of pressing the RAM clear SW 415 configured by a push button switch or the like. When the RAM clear operation is input in step S213, the process proceeds to step S214, the operation mode of gaming machine 100 is set to the setting change mode, and after the access to main RAM 413 is permitted, the setting change mode of step S215. Processing is performed. On the other hand, when the RAM clear operation is not input in step S213, the process proceeds to step S216.

  When the process proceeds to step S216, the processes of steps S217 and S218 are performed following the process of step S216. In step S216, the operation mode of the gaming machine 100 is set to the setting confirmation mode, and access to the main RAM 413 is permitted. The processes of steps S217 and S218 are the same as the processes of steps S154 and S157 of FIG. 18, respectively. That is, in step S217, the main CPU 411 reads the gaming condition setting value stored in the gaming condition setting value storage area 413c. In step S218, the main CPU 411 displays setting value information indicating the current game condition setting value on a setting display LED 417 (see FIG. 6) provided on the main control board 301 or connected to the main control board 301. For example, the setting display LED 417 may be configured of a 7-segment LED display. In this case, setting value information indicating the current game condition setting value is displayed as a numerical value on the 7-segment LED display. However, the setting display LED 417 may be any display device as long as the setting value information can be indicated visually.

  The setting confirmation mode is a mode only for the administrator of the gaming machine 100 to confirm the setting value information. When the setting confirmation mode is set, transition to another operation mode is possible unless the power is turned off. There is not. In step S219 following step S218, the power-off determination process is continuously executed, and the process waits for the power to be turned off.

  Step S171a corresponds to step S171 in FIG. In step S171a, it is checked whether a predetermined RAM clear operation has been input. When the RAM clear operation is input in step S171a, the process proceeds to step S172 to sequentially execute the processes of steps S172 and S173, and then the process of step S177 is performed through the process of step S176. When the RAM clear operation is not input in step S171a, the process proceeds to step S174. If the process proceeds to step S174 through step S171a or without passing through step S171a, the processes of steps S174 and S175 are sequentially performed, and then the process of step S177 is performed through the process of step S176. The processes of steps S172 to S177 here are the same as the processes of steps S172 to S177 described in the first embodiment with reference to FIG.

  As described above, in the eighth embodiment, the setting confirmation mode is set if the state of the setting key receiving portion 416a is turned on and the power of the gaming machine 100 is turned on without opening the inner frame 11 while performing the RAM clear operation. The setting change mode is activated if the state of the setting key receiving portion 416a is turned on and the power of the gaming machine 100 is turned on while keeping the inner frame 11 open and accompanied by the RAM clear operation. Therefore, in the eighth embodiment, "the state of the setting key receiving portion 416a is turned on while opening the inner frame 11 with the RAM clear operation" is the above-mentioned setting change mode starting operation (step of FIG. 18). This corresponds to S151).

  Since the inner frame 11 can not be opened without using the dedicated key held by the administrator of the gaming machine 100, it is intended to prevent the setting confirmation mode or the setting change mode from being activated illegally using a jig or the like. The opening condition of the inner frame 11 is included in the start condition of the setting confirmation mode or the setting change mode. Further, the state of the setting key receiving portion 416a is turned off except when the setting confirmation mode or the setting change mode is intentionally activated, but the state of the setting key receiving portion 416a is erroneously turned on. It is not preferable that the setting confirmation mode or the setting change mode is activated when the power is restored through power interruption during closing of the inner frame 11 in the closed state. By including the opening of the inner frame 11 in the start condition of the setting confirmation mode or the setting change mode, starting of the unintended setting confirmation mode or the setting change mode in such a case is also avoided.

  FIG. 72 shows a flowchart of the setting change mode process executed in step S215 of FIG. The setting change mode process of FIG. 72 includes the processes of steps S153 to S168. The processes of steps S153 to S168 constituting the setting change mode process of FIG. 72 are the same as the processes of steps S153 to S168 described in the first embodiment with reference to FIG. However, in the eighth embodiment, the setting OK operation (see step S158) is an operation to switch the state of the setting key receiving unit 416a from on to off through the rotation operation of the setting key 416c, and the setting value change instruction operation and confirmation operation (Refer to steps S159 and S163) is an operation to press the RAM clear SW 415. When the setting value change instruction operation and the confirmation operation are the pressing operation of the RAM clear SW 415, in the setting change mode, the RAM clear SW 415 is a part of the setting operation unit 416 (see FIG. 6) responsible for setting the game condition setting value. Will function as

  Each process in the setting change mode may be executed on the condition that the inner frame 11 is in the open state. That is, for example, even if there is an input of the setting value change instruction operation in step S159, it may be considered that the setting value change instruction operation is not input if the inner frame 11 is not in the open state at that time. The same is true for the confirmation operation and the like.

  Although many repetitions of the items described in the first embodiment are included, details of the setting change mode process of FIG. 72 will be described. In the setting change mode process of FIG. 72, the processes of steps S153 to S155 are sequentially executed first.

  In step S153, the main CPU 411 performs a RAM clear process of discarding and initializing the stored content of the main RAM 413 except for the stored content of the game condition setting value storage area 413c (see FIG. 8). In step S154, the main CPU 411 reads the game condition setting value stored in the game condition setting value storage area 413c. The read game condition setting value is stored as temporary data in a register of the main CPU 411. When the gaming machine 100 is shipped from the factory, a predetermined value (for example, 1) is substituted for the gaming condition setting value of the storage area 413c.

  In step S155, the main CPU 411 confirms whether the read gaming condition setting value is an integer within a predetermined normal range. The game condition setting value is designed to be an integer of 1 or more and 6 or less. Therefore, the normal range is one or more and six or less. If the gaming condition setting value read out is not an integer within the normal range (N in step S155), the initial value "1" is substituted for the gaming condition setting value in step S156, and then the process proceeds to step S157. If the game condition setting value is an integer within the normal range (Y in step S155), the process proceeds directly from step S155 to step S157.

  In step S157, the main CPU 411 displays setting value information indicating the current game condition setting value on a setting display LED 417 configured of a 7-segment LED display or the like. In step S158 following step S157, the main CPU 411 confirms whether a predetermined setting OK operation has been input to the setting operation unit 416 (that is, it is confirmed whether the setting key state signal is off). In step S158, when a predetermined setting OK operation is input to setting operation unit 416 (that is, when the setting key status signal is off), the process proceeds to step S163, and otherwise the step It transfers to S159.

  In step S159, the main CPU 411 confirms whether or not a predetermined setting value change instruction operation (that is, an operation to press the RAM clear SW 415) is input to the setting operation unit 416, and the setting value change instruction operation is input to the setting operation unit 416. If yes, the process proceeds to step S160, otherwise the process returns to step S157.

  In step S160, the main CPU 411 confirms whether the current game condition setting value is an integer within a predetermined range. The predetermined range here is a range of 1 or more and 5 or less. If the current game condition setting value is not an integer within the predetermined range (N in step S160), the game condition setting value is substituted with “0” in step S161 and then the process proceeds to step S162. If the game condition setting value is an integer within the predetermined range (Y in step S160), the process proceeds directly from step S160 to step S162. In step S162, the main CPU 411 adds "1" to the current game condition setting value, and then returns to step S157.

  In step S163, the main CPU 411 shifts the setting operation unit 416 to a predetermined confirmation operation (that is, the RAM clear SW 415). It is confirmed whether or not the pressing operation is input, and if there is an input of the confirmation operation, the process proceeds to step S164. In step S164, the main CPU 411 writes (that is, saves) the gaming condition setting value at the timing when the finalizing operation is received in the gaming condition setting value storage area 413c, and then sequentially executes the processing of steps S165 to S168. In step S165, the main CPU 411 transmits a third power supply recovery command to the effect control unit 403, and performs initialization processing in step S166. The initialization process of step S166 includes a RAM clear process for discarding and initializing the stored contents of the main RAM 413 except for the stored contents of the game condition setting value storage area 413c, and also includes various necessary processes.

  In the initial mode and the setting change mode, interrupt execution of timer interrupt processing (see FIG. 9) is prohibited. In step S167, the main CPU 411 permits interrupt execution of the timer interrupt process (see FIG. 9) and switches the operation mode of the gaming machine 100 from the setting change mode to the game mode, and thereafter the power-off determination processing in step S168. And interrupt execution of the timer interrupt process periodically.

  In the above-mentioned setting change mode process, the following first setting determination method is adopted for determination of the game condition setting value or the like. That is, in the first setting confirmation method, after the state of the setting key receiving portion 416a is switched from on to off in the setting change mode (Y in step S158), the RAM clear SW 415 is pressed (Y in step S163) The condition setting value is determined and stored (step S164), and then the game mode is directly shifted without powering off the gaming machine 100.

  Instead of the first setting determination method, the following second setting determination method or third setting determination method may be adopted.

  In the second setting confirmation method, in the setting change mode process, the processes of steps S153 to S164 in FIG. 72 are performed as described above, but after the process of step S164, the processes of steps S165 to S167 are not performed. It transfers to step S168 and repeats a power-off determination process. That is, in the second setting confirmation method, after the state of the setting key receiving portion 416a is switched from on to off in the setting change mode (Y in step S158), the RAM clear SW 415 is pressed (Y in step S163) Although the condition setting value is determined and stored (step S164), it does not shift to the game mode as it is, but shifts to the game mode by turning off the power once and then turning the power on again (S176 in FIG. 71).

In the third setting confirmation method, in the setting change mode process, the processes of steps S153 to S162 in FIG. 72 are performed as described above, but a predetermined setting OK operation is input to the setting operation unit 416 in step S158. If there is (that is, the setting key status signal is off), the process proceeds to step S168 without shifting to step S163, and the power-off determination process is repeated (therefore the process of steps S163 to S167 is not executed) ). Further, in the third setting determination method, the gaming condition setting value after addition is written (that is, stored) in the gaming condition setting value storage area 413c every time “1” is added to the gaming condition setting value in step S162. . In the first and second setting determination methods of the first embodiment and the eighth embodiment, when “1” is added to the game condition setting value in step S162, the game condition setting in the register of the main CPU 411 is performed. Only “1” is added to the data corresponding to the value, and the storage content of the storage area 413c does not change (the same applies to the substitution in steps S156 and S161).
In the third setting confirmation method, after the state of the setting key receiving portion 416a is switched from on to off in the setting change mode (Y in step S158), the game mode is not entered as it is, and the power is turned off once. By reintroducing, the setting contents of the game condition setting value in the setting change mode are decided, and the game mode is entered (S176 in FIG. 71). In practice, the game condition setting value at the power-off timing is decided as the game condition setting value used in the game mode by turning off the power after transitioning to the setting change mode.

/ / / / / / / / / / Ninth embodiment / / / / / / / / / /
A ninth embodiment according to the present invention will be described. In the ninth embodiment, a modification technique related to display after power restoration will be described. The method described in the ninth embodiment may be applied to the first to eighth embodiments.

When the power is restored after power failure, before plying display or change effect, the predetermined time t _HK min, or time duration of less than the predetermined time t _HK, has been described to perform the recovery display (FIGS. 22 25 In the gaming machine 100 according to the ninth embodiment, reference may be made to the case where recovery display is performed after power recovery or not depending on the state of the game at the time of power shutdown (strictly, immediately before power shutdown). This will be described.

FIG. 73 shows the behavior of the gaming machine 100 in the power recovery case DH3a. The state of the game at the time of power interruption (strictly, immediately before the power interruption) is common to the power restoration case DH3a and the power restoration case DH3 of FIG. In the ninth embodiment, the operation in the power recovery case DH3a is executed instead of the power recovery case DH3.
In the power recovery case DH3a, "U1 = 0" and "U2 = 0", and the special symbol is stopped and displayed, and the state of the gaming machine 100 is turned on due to the occurrence of a power failure at timing 1261 which is not in the big hit game. At the timing 1262 after that, the power is restored and the gaming machine 100 returns to the power-on state and the power-on process is executed to execute the first power recovery command from the main control unit 401 to the effect control unit 403. Sent to

  Not only in the power recovery case DH3a, in the power-off process, the first protection information indicating the current pending information numbers U1 and U2 and the second protection information indicating whether the variation display of the special symbol is performed at the current time And, when the variation display of the special symbol is performed at the present time, the third protection information indicating the remaining fluctuation time of the special symbol and the fourth protection indicating whether or not the jackpot game is being performed at the present time Information and fifth protection information indicating the progress of the jackpot game, such as how many round games are currently played if the jackpot game is currently being played, and the current high probability Each information at the time of a power failure occurrence includes the state of the game flag and the power support game flag, and the sixth protection information indicating the high probability game remaining number X and the power support game remaining number J RAM413 are stored and protected. Here, the current time refers to the execution time point of the power-off process, and therefore refers to the power-off time of the gaming machine 100 (strictly, immediately before the power-off time).

  Therefore, in the power recovery case DH3a, “U1 = 0” and “U2 = 0” by the power-off process executed at timing 1261 (strictly, immediately before timing 1261), and At the present time, each information at the time of a power failure occurrence is stored and protected in the main RAM 413, including the fact that the special symbol has been fluctuating and stopped since the big hit game has not been executed.

  In the power recovery process during power-on processing at timing 1262, the stored content of the main RAM 413 is read from the main CPU 411, and the gaming machine 100 returns to the state at the time of the power failure. The first to third power supply recovery commands transmitted from the main control unit 401 to the effect control unit 403 as well as the power supply recovery case DH3a include the first to sixth protection information.

  The effect control unit 403 that has received the first power recovery command from the main control unit 401 through the power-on process at timing 1262 executes the power recovery effect process (see FIG. 20). However, based on the information included in the first power recovery command, the effect control unit 403 causes the special symbol to stop fluctuating when the power of the gaming machine 100 is shut down (strictly, right before the power shut down) and the big hit game is executed. When it is determined that it was not inside, a customer waiting display is performed without performing a recovery display. The start timing of the customer waiting display may be slightly after the timing 1262, but here, for simplification of the description, it is assumed that the customer waiting display is performed from the timing 1262. The customer waiting display performed from timing 1262 is a customer waiting display including an initial appearance display.

  Referring to FIG. 74, in the initial appearance display, a predetermined background image is displayed on the image display unit 104, and the decorative symbol is stopped and displayed in a predetermined initial appearance pattern. Not only in the initial appearance mode, the decorative design is displayed superimposed on the background image. The decorative symbols include the left symbol, the middle symbol and the right symbol as described above (see FIG. 14 (a)). In the game, the left symbol, the middle symbol and the right symbol are to be stopped and displayed in various arrangements, but the initial appearance mode is one predetermined arrangement. Although the specific arrangement of the initial appearance is arbitrary, it is assumed here that the arrangement in which the left, middle, and right designs are respectively 1 design, 2 design, and 3 design is the initial appearance. (Refer to FIG. 14 (a) and (b)). That is, that the left symbol, the middle symbol, and the right symbol are stopped and displayed at 1 symbol, 2 symbols, and 3 symbols, respectively, corresponds to the stop symbols of the decorative symbols in the initial appearance mode.

  The initial appearance display is continuously executed until the fluctuation effect is started in response to the reception of the fluctuation start command. However, the initial appearance display may be ended after a predetermined time has elapsed. In power recovery case DH3a, after timing 1262, based on the entry of the gaming ball into starting opening 105, variation display of the special symbol is started at timing 1263 and a variation start command is received by effect control unit 403 Production has been started. For this reason, the customer waiting display including the initial appearance display ends at timing 1263.

  After the gaming machine 100 is turned off by operating the power switch 445 at timing 1261 instead of power interruption due to a power failure, the gaming machine 100 is returned to the power-on state by operating the power switch 445 at timing 1262 and the first Even when the second or third power supply restoration command is received by the effect control unit 403, the operation after the timing 1262 including the timing 1262 may be the same as that described above.

Also in the ninth embodiment, when a power failure occurs during the variable display of the special symbol, the operation as shown in FIG. 23 and FIG. 24 is performed. Therefore, in the gaming machine 100 according to the ninth embodiment, depending on the state of the game at the time of power interruption (strictly, immediately before the power interruption), there are cases where recovery display is performed after power recovery and cases where it is not performed. Become. More specifically, if a power failure occurs during the fluctuation display of the special symbol, the restoration display is performed after the power restoration (FIGS. 23 and 24), but it is not in the jackpot game and the stop display of the special symbol If a power failure occurs during this time, the restoration display is not performed after power restoration (Fig. 73). Also, although not shown in the drawings, even if the special symbol is being displayed for a stop, even if the power is cut off during the big hit game, the recovery display is performed after the power is restored. In this case, the recovery display ends when the effect control unit 403 receives a predetermined command transmitted from the main control unit 401 at the end of the big hit game, or, after the big hit game, the next variation start command is produced control unit The process is ended by the reception of the signal 403, or is ended after the predetermined time t _HK has elapsed (in the case of ending with the elapse of the predetermined time t _HK , the initial appearance after the end) You may perform customer waiting display including display).

  In the case where the power is cut off in the middle of some game (special pattern change game or big hit game by change display of the special symbol) and the power is restored, the game is resumed in the middle, what display It is in a state where it can not correctly recognize whether it should be performed, and by receiving a command after the power recovery command, a formal display that should be performed can be performed. For this reason, when the game is resumed midway after power recovery, it is possible to perform recovery display until a command after the power recovery command is received.

  In the power recovery case DH1 of FIG. 23, the customer waiting display performed from the timing 1216 may also be a customer waiting display including an initial display.

/ / / / / / / / / / Tenth embodiment / / / / / / / / / /
A tenth embodiment according to the present invention will be described. In the tenth embodiment, modification techniques and applied techniques to the above-described embodiments will be described.

As described with reference to FIG. 43, in the gaming machine 100, when the power is cut off in a state in which the outer end error X and the non-outer end error Y are detected in duplicate, and then the power is restored, Error notification of end error Y can be performed.
On the other hand, in the gaming machine 100, as described above, when the outer end error X and the non-outer end error Y are detected in duplicate, the outer end error X is notified prior to the non-outer end error Y. The person (or the manager of the gaming machine 100) will pay attention to the error notified of priority, and the non-priority error may not be noticed. However, once the power is restored after the power is turned off, the player (or the manager of the gaming machine 100) pays attention to the non-priority error by notifying the non-priority error (here, error Y). It has the effect of becoming easier.

Further, errors that may occur in the gaming machine 100 are roughly classified into “errors with high possibility of fraud” and “errors with high possibility of failure”.
The “probable error in fraud” is an error that is determined to be relatively higher in probability (probability) that a fraud has been conducted than the “probable error in failure”.
The “error with high possibility of failure” is an error which is judged to be relatively higher than the “error with high possibility of fraud” (probability) that the gaming machine 100 has a failure (probability). The “probable failure error” may be considered as “a low possibility of fraud”. A “low probability of fraud” error is an error that is determined to be relatively lower in probability (probability) that a fraud has been made than “a high probability of fraud”.

The injustice refers to an action (action of a player) which causes the gaming machine 100 to malfunction for the purpose of obtaining a prize ball illegally. Typically, for example, a magnetic error, a radio wave error, an AT incorrect prize error, a DT incorrect prize error, an FN incorrect prize error and a prize abnormal error are considered to belong to the “error with high possibility of fraud”.
The failure of the gaming machine 100 refers to a state in which the gaming machine 100 can not perform a normal operation without being subjected to an illegal act, and includes a wide range of malfunctions. For example, it is understood that SW connection error, frame gimmick error and shoot ball out error belong to “error with high possibility of failure” or “error with low possibility of fraud”.

In the gaming machine 100, basically, the "probable error of fraud" is an outer end error (in particular, errors X and Xa, for example), and the "probability of failure is an error" or "cheating" Classification of outer end error and non outer end error is performed (although there is an exception) such that “possibly low error” is non outer end error (in particular, for example, errors Y and Ya).
When both "error with high possibility of fraud" and "error with high possibility of failure" occur, it is necessary to notify the administrator of the gaming machine 100 (the clerk of the game arcade etc.) to that effect. The "probable error" needs to be notified quickly so that the store operating the game arcade is not disadvantaged. For this reason, “error having a high possibility of fraud” is assigned to the outer end error, and information is output from the external terminal board 305 when an error occurs. As for the “error with high possibility of failure”, since the gaming machine 100 does not operate properly at the time of occurrence, it is expected that the player informs the administrator of the gaming machine 100 to that effect. For this reason, the necessity of outputting information from the external terminal substrate 305 is low.

  Further, since the setting change mode is an important mode in operation of the gaming machine 100, the external terminal substrate 305 may output a signal to the external device 610 at various timings related to the setting change mode. At this time, a signal related to the setting change mode is output from a specific output terminal portion of the external terminal substrate 305. The specific output terminal unit may be a dedicated terminal for transmitting a signal related to the setting change mode. In this case, the specific output terminal section is different from the output terminal section TM [1] used for outputting an error detection signal related to a magnetic error or the like on the premise of the matter described in the third embodiment, and the glass frame or inner frame is opened. It is assumed that the output terminal section TM [3] different from the output terminal section TM [2] used for the output of the error detection signal related to the error. In the case where the dedicated terminal is not used, the specific output terminal section is the output terminal section TM [1] or TM [2].

  The specific output terminal is in principle turned off. Then, for example, when the power is turned on with the setting change mode start operation, a signal indicating that is output to the external device 610 by turning on a specific output terminal portion for a predetermined time. For example, in the setting change mode, when a setting value change instruction operation, a setting OK operation or a confirmation operation is input to the setting operation unit 416, a signal indicating that is input, and a specific output terminal unit is turned on for a predetermined time. You may output to the external device 610 by doing.

  Further, although the method of outputting signals and information from the external terminal substrate 305 to the external device 610 by the conduction / non-conduction (on / off) of the output terminal portion TM [i] has been described above, The manner of operation is not limited to this, and is arbitrary. For example, output of signals and information from external terminal board 305 to external device 610 is realized by serial communication such as SPI (Serial Peripheral Interface) or arbitrary parallel communication. It is good.

  In the above description of each embodiment, entering the game ball into the starting opening 105 or 106 (winning) may be regarded as the establishment of the first starting condition or the second starting condition, Strictly speaking, it may be considered as follows. That is, the game ball entering the starting opening 105 or 106 (specifically, the ball being detected by the starting opening SW 511 or 512) corresponds to the establishment of a predetermined acquisition condition, and the acquisition condition is established. The special view determination information is acquired. Thereafter, reaching the state where the acquired special view determination information is read out from the special view determination information storage area 413a as the determination target TT in the special symbol processing corresponds to the satisfaction of the start condition, and the start condition is satisfied. Special drawing determination is performed on the special drawing determination information. It may be considered that the execution of the special view determination on the special view determination information itself corresponds to the establishment of the start condition.

  The present invention may be applied to other gaming machines such as slot machines that are not classified as pachinko gaming machines. In pachinko gaming machines, gaming balls are used as gaming media (three-dimensional gaming media in real space), but in slot machines, coins are used as gaming media.

  The embodiment of the present invention can be variously modified as appropriate within the scope of the technical idea shown in the claims. The above embodiment is merely an example of the embodiment of the present invention, and the meaning of the terms of the present invention or each constituent feature is not limited to that described in the above embodiment. The specific numerical values shown in the above description are merely examples, and as a matter of course they can be changed to various numerical values.

100 gaming machine 105, 106 start opening 111 large winning opening 305 external terminal board 610 external device 710, 812A, 812B error detection unit 720 error notification unit 730, 814A, 814B notification error information transmission unit 810A, 820A control unit TM [i ] Output terminal section

Claims (1)

In the gaming machine provided for gaming,
An external output unit capable of outputting a signal to the outside of the gaming machine;
Error detection means for detecting a plurality of types of errors that may occur in the gaming machine, including a first error and a second error;
A notification unit capable of notifying an error when the first error or the second error is detected;
When the first error is detected, a predetermined error detection signal is output from the external output unit, while the detection of the second error does not affect the output of the external output unit.
The notification means enables notification of the first error when the first error is detected during notification of the second error, and the second error is generated during notification of the first error. A game machine characterized in that when it is detected, part or all of the notification of the second error is not executed.

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