JP2004000417A - Game machine, program, and server - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a game machine reducing a burden of inspections by dispensing with the inspections of a ball delivery rate, and the like, and performing a surprise inspection alone, and allowing a player to enjoy a sound game. <P>SOLUTION: This game machine is provided with an input game media number measuring means, a delivery game media number measuring means for obtaining the number of the game media to be delivered, and a calculating means calculating the numerical value related to the number of the game media from the numbers. When the numerical value obtained from the calculating means becomes below a preset numerical value, a big win lottery means draws a big win based on a probability table producing the big win at the probability of 100%. <P>COPYRIGHT: (C)2004,JPO

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a gaming machine, a program, and a server.
[0002]
[Prior art]
Normally, in a pachinko gaming machine, when a game ball launched on the game board by operating a launch handle enters a winning opening or a start opening provided on the game board, the game ball is paid out in advance. When the number is paid out (for example, 5 balls) and the game ball enters the starting port, a so-called variable display game is started on the display device provided on the game board. This variable display game is a game imitating a game played in a slot machine. A plurality of variable symbols are displayed on the display device, and after each of these symbols is variably displayed, these symbols are sequentially stopped at a predetermined timing. This is a game in which a big hit state occurs when the combination of symbols when the stop display of all symbols is confirmed becomes a predetermined combination.
[0003]
Actually, a lottery is performed to determine whether or not to generate a big hit when the game ball enters the start opening, and the combination of symbols that are stopped and displayed in the variable display game based on the lottery result Is determined, and the determined combination of symbols is displayed on the display device.
[0004]
Then, after the variable display game is over, if a big win occurs, the shutter provided in the vicinity of the big prize opening is operated to open the big prize opening, and then the preset prize opening is preset. When a certain number of game balls (for example, 10 balls) have entered, or when a predetermined period has elapsed, the shutter is again activated to close the special winning opening. In such a big win state, the big hit game, which is one time from the opening of the big prize opening to the closing state, is repeated a predetermined number of times (for example, 15 times). During the jackpot game, a predetermined number of game balls are paid out according to the number of game balls put into the big prize opening, so the player acquires a lot of game balls. can do.
[0005]
By the way, in such a pachinko machine, in order to prevent the player's shooting sensation excessively and to obtain illegal profits at the game store (so-called pachinko hall) side, The ratio of the number of game balls paid out to the number of game balls launched on the game board per hour (one hour) (ball-out rate) is within a predetermined range from a predetermined lower limit value to an upper limit value. (For example, 33 to 300%).
[0006]
However, even if the pitching rate is within the specified range by design, due to the delicate positional relationship of the multiple nails that are planted on the game board during the manufacturing process, etc. The ease of entering the game ball may be different, and in such a case, the exit rate varies. Thus, usually, pachinko machines are inspected for the rate at which they are launched before being supplied to a game store.
In this way, pachinko gaming machines are inspected so that pachinko gaming machines with extremely high or low ball-off rates are not supplied to the game store. Can be provided.
[0007]
However, such inspection involves transporting the pachinko gaming machine to the test site, actually continuing the game for a predetermined time at the test site, and for each pachinko gaming machine, the number of game balls launched on the game board. In addition, since the result is obtained by measuring the number of game balls that have been paid out, there is a problem that the inspection is complicated and the inspection side is troublesome.
[0008]
In addition, the above-described inspections may cause unexpected results due to unpredictable disturbances such as impact when transporting to the test site, changes in temperature and humidity, inclination of the installation location, etc. A gaming machine manufacturer that manufactures gaming machines had to take a great deal of effort to prepare for the inspection.
[0009]
Furthermore, since the plurality of nails implanted on the game board can be adjusted at the game store side, the inclination etc. can be adjusted. If it is to some extent, it is possible to adjust the pitching rate.
Therefore, depending on the speculation of the game store side, there is a risk that the pachinko machine launch rate may be extremely high or low, and if such an action is performed, There is a problem that it becomes difficult to provide a simple game.
[0010]
On the other hand, unlike the game method using the normal lottery method described above, when a game ball enters the start opening, a lottery (hereinafter referred to as the first lottery) is performed to determine whether or not to generate a jackpot, Further, when the number of game balls launched exceeds a predetermined number (for example, 10 balls), a lottery for determining whether to set a big hit flag, that is, whether to generate a big hit state (hereinafter referred to as a second lottery). There is a game method that is performed.
[0011]
In such a game method, when the first lottery is won, the jackpot right A is obtained, and when the second lottery is won, the right B that generates a jackpot state is obtained. When the right A is present when the right B is generated (when the jackpot flag is set), the jackpot state is set. When the right A is generated while the jackpot flag is set, the jackpot state is set. A plurality of jackpot rights A can be stocked, and when a jackpot flag is set, if there are a plurality of jackpot rights A, a jackpot state occurs for all of them.
[0012]
Specifically, when a game ball enters the start opening, the first lottery is performed to determine whether or not the jackpot right A is generated. When the jackpot right A is generated, it is determined whether or not the jackpot flag based on the second lottery is set. If the jackpot flag is set, a jackpot state is generated.
[0013]
Further, when the first lottery is won in a state where the jackpot flag based on the second lottery is not set, the right A is stocked, and when the first lottery is further won, the number of stocks of the right A increases. In other words, if the first lottery is won in the state where the jackpot flag is not set, the stock number of the right A is added every time the winner is won.
[0014]
When the second lottery is won, it is determined whether or not the jackpot right A based on the first lottery exists. When the right A is stocked, a jackpot state corresponding to all the stock numbers occurs.
[0015]
According to the pachinko gaming machine using the gaming method described above, the time for playing the jackpot game is extended according to the total number of stocks of the right A at that time. Therefore, even if the number of game balls entering the start port is small, the player may be able to acquire a considerable amount of balls at a time as long as the game balls are launched. You can enjoy the game with a greater expectation than pachinko machines using this lottery method.
[0016]
However, in the gaming method using the two types of lottery results as described above, even if the stock number of the right A is increased, if the jackpot flag is not set based on the second lottery, the jackpot state is not provided. Become.
In such a case, the number of game balls to be paid out decreases, and it may happen that it falls below the specified ball rate specified in the design, which may cause extreme disadvantage to the player, There is a problem that it becomes difficult to provide a player with a healthy game.
[0017]
[Problems to be solved by the invention]
[0018]
The present invention has been made in view of the above-described problems, and the purpose thereof is, for example, a method such as omitting the test of the ball exit rate and the like and making it possible to cope with only the spotting test. An object of the present invention is to provide a gaming machine, a program, and a server that can reduce the burden of inspection and can provide a healthy game to a player.
[0019]
[Means for Solving the Problems]
In order to achieve the above object, the first aspect of the present invention is based on the above probability table in which a 100% jackpot is generated when the numerical value obtained by the calculating means is equal to or less than a predetermined value. A lottery is performed.
Further, according to the second aspect of the present invention, when the numerical value obtained by the calculation means exceeds a predetermined value, a lottery is performed based on the probability table, while the numerical value is a predetermined value. When it becomes below, lottery is not performed and it is characterized by generating a big hit forcibly.
[0020]
More specifically, the first present invention provides the following.
(1) A jackpot lottery means for performing a jackpot lottery for determining whether or not to generate a jackpot based on a probability table stored in the storage means in response to a predetermined condition being satisfied, and further to the game The number of game media input means for obtaining the number of used game media, the number of game media payout means for obtaining the number of game media to be paid out, and a numerical value relating to the number of game media is calculated from these numbers. A gaming machine comprising a calculating means,
The jackpot lottery means performs the jackpot lottery based on the probability table in which 100% jackpot is generated when the numerical value obtained by the calculating means is equal to or less than a predetermined value.
[0021]
According to the invention of (1), when the numerical value relating to the number of game media is equal to or less than a predetermined value, a lottery is performed based on a probability table in which a 100% jackpot is generated, so a jackpot is always generated. As a result, since a large amount of game media is paid out immediately, the numerical value relating to the number of gaming media immediately rises, and a situation in which the numerical value relating to the number of gaming media falls below a predetermined value can be avoided. Therefore, it is possible to omit the inspection of the ball exit rate performed in the test organization, and for example, it can be handled only by the spot inspection.
[0022]
In addition, when a lottery is performed based on a probability table in which 100% jackpots are generated, each time a predetermined condition is satisfied, a jackpot will be generated, so a large number of jackpots will be generated continuously. A case where a predetermined upper limit is exceeded is also conceivable. Therefore, it is usually necessary to determine the number of times that a jackpot is generated, and to return the probability table to the initial one when a predetermined number of jackpots has occurred. The above-defined value is not particularly limited. For example, the lower limit value of the pitching rate and the lower limit value are set as reference values, which are slightly higher than the reference values (hereinafter referred to as lower limit vicinity values). ) Etc. In the present invention, the determined value is preferably the lower limit vicinity value. This is because if the above-described processing is performed when the lower limit value is reached, the lower limit value can be prevented.
Further, for example, in a pachinko machine, even when the inclination of a plurality of nails planted on the game board is adjusted, as described above, the exit rate is equal to or less than a predetermined value. Since a large amount of game balls are paid out immediately, a situation in which the numerical value related to the number of game media falls below a predetermined value can be avoided, and a healthy game can be provided to the player. it can.
[0023]
The second aspect of the present invention provides the following.
(2) A jackpot lottery means for performing a jackpot lottery for determining whether or not to generate a jackpot based on a probability table stored in the storage means in response to the predetermined condition being satisfied, and further to the game The number of game media input means for obtaining the number of used game media, the number of game media payout means for obtaining the number of game media to be paid out, and a numerical value relating to the number of game media is calculated from these numbers. A gaming machine comprising a calculating means,
The jackpot lottery means performs a jackpot lottery based on a probability table when the numerical value obtained by the calculating means exceeds a predetermined numerical value,
On the other hand, when the numerical value is equal to or less than a predetermined value, the jackpot lottery is not performed and the jackpot is forcibly generated.
[0024]
According to the invention of (2), when the numerical value relating to the number of game media exceeds a predetermined value, it is not particularly necessary to adjust the numerical value relating to the number of game media. However, when the numerical value related to the number of game media falls below a predetermined value, a lottery is not performed, and a big hit is forced, so a big hit will always occur every time a predetermined condition is met. A large amount of game media is paid out immediately. For this reason, it is possible to avoid a situation in which the numerical value related to the number of game media suddenly increases and the numerical value related to the number of game media falls below a predetermined value. Therefore, it is possible to omit the inspection of the ball exit rate performed in the test organization, and for example, it can be handled only by the spot inspection.
Further, for example, in a pachinko machine, even when the inclination of a plurality of nails planted on the game board is adjusted, as described above, the exit rate is equal to or less than a predetermined value. Since a large amount of game balls are paid out immediately, a situation in which the numerical value related to the number of game media falls below a predetermined value can be avoided, and a healthy game can be provided to the player. it can.
[0025]
The present invention further provides the following.
(3) The gaming machine according to (1) or (2),
The calculation means calculates the difference between the number of game media used in the game and the number of game media paid out from the numbers obtained by the input game media count measurement means and the payout game media count measurement means. It is characterized by calculating.
[0026]
According to the invention of (3), the difference between the number of game media used in the game and the number of game media paid out can be obtained as a numerical value related to the game media. When the difference between the number of game media used in the game and the number of game media paid out is equal to or less than a predetermined value, a lottery is performed based on a probability table in which 100% jackpot is generated. Therefore, the difference between the number of game media used in the game and the number of game media paid out can be set to a predetermined value or more. In this way, if the difference between the number of game media used in the game and the number of game media paid out can be made equal to or greater than a predetermined value, the ball-out rate and the like are generally determined in advance. It is possible to make it more than the specified value. Thereby, it is possible to omit the inspection of the ball exit rate or the like performed at the test site, and for example, it can be handled only by the spotting inspection.
[0027]
The present invention further provides the following.
(4) The gaming machine according to (1) or (2),
The calculation means calculates a ratio of the number of paid out game media to the number of game media used in the game, based on the numbers obtained by the input game medium count measuring means and the payout game media count measuring means. It is characterized by that.
[0028]
According to the invention of (4), the ratio of the number of game media paid out to the number of game media used in the game can be obtained as a numerical value related to the game media. When the ratio of the number of game media paid out to the number of game media used in the game is equal to or less than a predetermined value, a lottery is performed based on a probability table in which 100% jackpot occurs. The ratio of the number of paid out game media to the number of game media used in the game can be set to a predetermined value or more. By doing in this way, it becomes possible to abbreviate | omit the test | inspection of the ball-out rate etc. which are performed in a test field, For example, it can make it respond | correspondable only by a spot check.
[0029]
The first aspect of the present invention further provides the following.
(5) A winning hole provided on the game board, where a predetermined number of game balls are paid out when a game ball enters, and a probability table stored in the storage means when a game ball enters. Based on the number of game balls to be paid out, and a starting game ball measuring means for obtaining the number of game balls hit, and a starting lot for determining whether or not to generate a jackpot A game machine comprising a payout game ball measuring means for obtaining and a game play rate calculating means for calculating a game play rate from these numbers, wherein the game play rate obtained by the game play rate calculating means is: A lottery is performed based on the probability table in which a 100% jackpot is generated when the value is equal to or less than a predetermined value.
[0030]
According to the invention of (5), when the ball-out rate falls below a predetermined value, a lottery is performed based on a probability table in which a 100% jackpot occurs. A jackpot occurs. As a result, a large amount of game balls are paid out immediately, so that it is possible to avoid a situation in which the starting rate suddenly increases and the starting rate falls below a predetermined value. Therefore, it is possible to omit the inspection of the ball exit rate performed in the test organization, and for example, it can be handled only by the spot inspection.
[0031]
In addition, when a lottery is performed based on a probability table where 100% jackpots are generated, a big jackpot will be generated each time a game ball enters the start opening, so a lot of jackpots will be generated continuously. It is also conceivable that the upper limit value determined by is exceeded. Therefore, it is usually necessary to determine the number of times that a jackpot is generated, and to return the probability table to the initial one when a predetermined number of jackpots has occurred. The above-defined value is not particularly limited. For example, the lower limit value of the pitching rate and the lower limit value are set as reference values, which are slightly higher than the reference values (hereinafter referred to as lower limit vicinity values). ) Etc. In the present invention, the determined value is preferably the lower limit vicinity value. This is because if the above-described processing is performed when the lower limit value is reached, the lower limit value can be prevented.
In addition, even when the inclination of a plurality of nails planted on the game board is adjusted, as described above, when the ball-out rate falls below a predetermined value, a large amount of games Since the ball is paid out, it is possible to avoid a situation in which the ball-out rate falls below a predetermined value, and a healthy game can be provided to the player.
[0032]
The second aspect of the present invention provides the following.
(6) A winning hole provided on the game board, where a predetermined number of game balls are paid out when a game ball enters, and a probability table stored in the storage means when a game ball enters. Based on the number of game balls to be paid out, and a starting game ball measuring means for obtaining the number of game balls hit, and a starting lot for determining whether or not to generate a jackpot A game machine comprising a payout game ball measuring means for obtaining and a game play rate calculating means for calculating a game play rate from these numbers, wherein the game play rate obtained by the game play rate calculating means is: When the value exceeds a predetermined value, a lottery is performed based on the probability table. On the other hand, when the pitch rate is equal to or less than a predetermined value, the lottery is not performed and the Characterized by generating jackpots And
[0033]
According to the invention of (6), when the starting rate exceeds a predetermined value, it is not particularly necessary to adjust the starting rate. Therefore, a lottery is performed based on the probability table, and the starting rate is When the value falls below a predetermined value, lottery will not be performed and a big hit will be forced, so a big hit will always occur when a game ball enters the start opening, and a large amount of game balls will be paid out immediately. Is called. For this reason, it is possible to avoid a situation in which the turnout rate suddenly increases and the turnout rate falls below a predetermined value. Therefore, it is possible to omit the inspection of the ball exit rate performed in the test organization, and for example, it can be handled only by the spot inspection.
In addition, even when the inclinations of a plurality of nails implanted on the game board are adjusted, when a ball-out rate falls below a predetermined value, a large amount of game balls are paid out immediately. Therefore, it is possible to avoid a situation in which the pitching rate falls below a predetermined value, and it is possible to provide a healthy game to the player.
[0034]
The present invention further provides the following.
(7) The gaming machine according to (5) or (6),
The predetermined value of the above-mentioned pitching rate is 33%.
[0035]
According to the invention of (7), when the starting rate becomes 33% or less, as described above, a large amount of gaming balls are paid out immediately, so that the starting rate starts to rise at a stretch, Can be avoided below 33%.
[0036]
The first aspect of the present invention further provides the following.
(8) A control program for causing a terminal to display a moving image, a still image, or an image obtained by combining these appropriately according to at least the gaming situation of the gaming machine, and a gaming ball image corresponding to a gaming board image and a gaming ball When the game ball image overlaps with the image, it is determined that the game ball image is included in the image, and a winning opening image that allows a predetermined number of game balls to be paid out, and the game ball image When the image overlaps with the image, it is determined that the game ball image is included in the image, and based on the probability table stored in the storage means, a start opening image is displayed for performing a lottery to determine whether or not to generate a big hit And at the same time, the above-mentioned terminal is provided with a game ball measurement means for obtaining the number of game balls that have been launched, a payout game ball measurement means for obtaining the number of game balls that have been dispensed, and Sphere ratio Based on the probability table in which a 100% jackpot is generated when the pitch rate obtained by the pitch rate calculating unit is equal to or less than a predetermined value. It is characterized by being made to perform a lottery.
[0037]
According to the invention of (8), when the ball-out rate falls below a predetermined value, a lottery is performed based on a probability table in which a 100% jackpot occurs. A jackpot occurs. As a result, a large amount of game balls are paid out immediately, so that it is possible to avoid a situation in which the starting rate suddenly increases and the starting rate falls below a predetermined value. Therefore, it is possible to provide a program capable of omitting the test of the pitching rate and providing a healthy game to the player.
[0038]
The first aspect of the present invention further provides the following.
(9) A server that controls each terminal to display at least an image indicating the gaming state of the gaming machine, and the gaming board image, the gaming ball image corresponding to the gaming ball, and the gaming ball image overlap with the image. The game ball image is determined to be included in the image, and a winning opening image for paying out a predetermined number of game balls, and when the game ball image overlaps the image, It is determined that a game ball image has entered, and based on the probability table stored in the storage means, a starting image is displayed for performing a lottery to determine whether or not to generate a jackpot, and the terminal is launched. Game game ball measuring means for obtaining the number of game balls that have been paid out, game game ball measuring means for obtaining the number of game balls that have been paid out, and game ball rate calculating means for calculating the game play rate from these numbers To act as Control is performed on the terminal, and when the starting rate obtained by the starting rate calculating means is equal to or less than a predetermined value, a lottery is performed based on the probability table in which 100% jackpot is generated. The terminal is controlled to perform the above.
[0039]
According to the invention of (9), when the ball-out rate falls below a predetermined value, a lottery is performed based on a probability table in which a 100% jackpot occurs. A jackpot occurs. As a result, a large amount of game balls are paid out immediately, so that it is possible to avoid a situation in which the starting rate suddenly increases and the starting rate falls below a predetermined value. Accordingly, it is possible to provide a server capable of omitting the inspection of the ball exit rate and providing a healthy game to the player.
[0040]
The second aspect of the present invention further provides the following.
A control program for causing a terminal to display a moving image, a still image, or a combination of these as appropriate according to at least the gaming situation of the gaming machine, the game board image, a gaming ball image corresponding to a gaming ball, and the above game When the ball image overlaps with the image, it is determined that the game ball image is included in the image, and a winning opening image that allows a predetermined number of game balls to be paid out, and the game ball image is the image. When overlapping, it is determined that the game ball image is included in the image, and based on the probability table stored in the storage means, a start opening image is displayed for performing a lottery to determine whether or not to generate a jackpot, The above-mentioned terminal machine is a game game ball measurement means for obtaining the number of game balls that have been launched, a game game ball measurement means for obtaining the number of game balls that have been paid out, and the ball launch rate is calculated from these numbers. Calculation Functioning as a pitching rate calculating means, and when the pitching rate obtained by the pitching rate calculating means exceeds a predetermined value, a lottery is performed based on the probability table, When the turn-out rate is equal to or less than a predetermined value, the lottery is not performed, and a jackpot is forcibly generated.
[0041]
The second aspect of the present invention further provides the following.
A server that performs control to display at least an image indicating the gaming state of the gaming machine on each terminal, and when the gaming board image, the gaming ball image corresponding to the gaming ball, and the gaming ball image overlap with the image, When it is determined that a game ball image is included in the image and a predetermined number of game balls are paid out, and when the game ball image overlaps the image, the game ball is included in the image. Based on the probability table stored in the storage means, it is determined that an image has been entered, and a starting image for performing a lottery to determine whether or not to generate a jackpot is displayed. The game ball measuring means for obtaining the number of game balls, the paying game ball measuring means for obtaining the number of game balls that have been paid out, and the ball exit rate calculating means for calculating the ball exit rate from these numbers. Control Further, if the starting rate obtained by the starting rate calculating means exceeds a predetermined value, the lottery is performed based on the probability table, while the starting rate is When the ball rate becomes equal to or less than a predetermined value, the lottery is not performed, and control for forcibly generating a big hit is performed on the terminal.
[0042]
According to the program and server according to the second aspect of the present invention, when the numerical value relating to the number of game media exceeds a predetermined value, it is not particularly necessary to adjust the numerical value relating to the number of game media. If the number related to the number of game media falls below a predetermined value, the lottery will not be performed and a big hit will be forced, so every time a given condition is met, Will occur. As a result, a large amount of game balls are paid out immediately, so that it is possible to avoid a situation in which the starting rate suddenly increases and the starting rate falls below a predetermined value. Therefore, it is possible to provide a program and a server that can omit the inspection of the ball exit rate and can provide a healthy game to the player.
[0043]
[Definition of terms]
In this specification, “identification information” used below refers to information that can be visually identified, such as characters, symbols, designs, or patterns.
“Fluctuation display” means that when the identification information changes sequentially, for example, when the symbol “7”, which is one identification information, changes to the symbol “8”, which is another identification information, or from the symbol “9” to another In addition to the case of changing to the symbol “☆”, when the identification information is moved and displayed while the identification information is displayed in the display area where the identification information can be displayed, for example, one symbol “ 7 ”is a concept including a case where the user moves while being displayed in the display area.
[0044]
In this specification, the “gaming machine” is not particularly limited, and refers to, for example, a pachislot gaming machine, a slot machine, a pachinko gaming machine, or the like.
The pachislot gaming machine generally displays a mechanical variation display device configured by arranging a plurality of rotating reels that variably display a plurality of symbols in a display window in front of the housing, and displays the symbols on the reels on a screen. In addition to having an electrical variation display device, a player operates to start and control the variation display device to rotate each reel, and to stop rotation of each reel in sequence by a player operation. Has a stop button.
The game by the pachislot machine is started when the player inserts a game medal or coin (hereinafter simply referred to as a medal). Then, according to the player's start operation, the variable display device is driven and controlled to rotate each reel, whereby the symbols are displayed in a variable manner. At this time, if the symbols of the reels appearing in the display window are in a specific combination (winning symbol), the player is given a profit by paying out medals.
[0045]
In such a pachislot machine, the combination of symbols that are stopped and displayed along the activated pay line is subjected to an internal lottery process (hereinafter referred to as internal lottery), and the lottery result and the player's suspension It is determined based on the operation timing. In other words, in order to establish a prize for paying out medals, the winning combination of the winning combination (hereinafter referred to as an internal winning combination) won by the internal winning lottery (hereinafter referred to as an internal winning combination) is achieved. The player is required to perform a stop operation at a timing at which the symbol combination indicating can be stopped on the active line. In other words, even if an internal winning is made, a prize cannot be established unless the player performs a stop operation at a timing at which the symbol combination indicating that the prize has been established can be stopped on the active line.
[0046]
The above-mentioned pachislot machines usually have a general gaming state, and when a predetermined winning is established, a single medal is not paid out. There is a jackpot state that is a good gaming state (bonus game). In the above-mentioned general gaming state, a predetermined number of medals can be paid out or replayed by winning an internal winning combination (hereinafter referred to as a small role) related to a winning symbol such as “Cherry” or “Bell”. It is a gaming state in which the right to be able to be obtained is obtained. Note that when the re-game winning is established, the number of medals equal to the number of medals inserted in the winning game is already inserted in the next game in which the winning is established. A game can be played without consuming money.
In the following explanation, when winning a replay, the same number of medals as the number of medals inserted in the game that won the replay are paid out, and in the next game, It is treated as playing a game with the same number of medals.
[0047]
On the other hand, the jackpot state includes a plurality of gaming states such as a big bonus (hereinafter referred to as “BB”) gaming state and a regular bonus (hereinafter referred to as “RB”) gaming state, and the number of medals paid out in the BB gaming state is: Usually, it is set to be larger than the number of medals paid out in the RB gaming state.
In the RB gaming state, a game is played with one medal bet, and a predetermined number of winning symbols (for example, “Replay-Replay-Replay”) are arranged, so that a large number of medals are paid out compared to the general gaming state. The game is played a predetermined number of times. In the RB gaming state, the winning combination related to the winning symbol is in a state where it is easy to win internally.
Further, in the BB gaming state, a transition to the RB gaming state occurs when a predetermined winning symbol (for example, “Replay-Replay-Replay”) is arranged during a predetermined number of games in the BB gaming state. When the RB gaming state ends, the BB gaming state is entered.
The transition to the RB gaming state occurs a predetermined number of times (for example, three times) during the BB gaming state. Thereby, the player can acquire many medals.
[0048]
In addition to the lottery method for determining whether or not to shift to the big hit state by the one type of lottery method described above as a lottery method for shifting to the big hit state, a big hit is generated by operating the start lever. An internal lottery is performed to determine whether or not the game is over, and when the number of games played exceeds a predetermined number (for example, 10 games), a lottery is performed to determine whether or not to generate a jackpot state. There is also a lottery method.
[0049]
With the pachinko gaming machine, generally, when a player operates a launching handle, a game ball is launched into the game board and hits an obstacle nail in the process of falling, so that the falling speed can be suppressed, This is a gaming machine in which a game ball is paid out as a prize ball when a game ball whose traveling direction has been changed enters various winning holes, starting holes and the like provided on the game board.
The pachinko gaming machine will be described in detail later with reference to the drawings.
[0050]
The “probability table” is a table for determining whether or not the jackpot lottery is won, and describes whether or not the jackpot lottery is won corresponding to a random number or the like. The probability table is stored in a ROM (Read Only Memory) or the like such as a control unit provided in the gaming machine, is set in a RAM (Random Access Memory) or the like such as the control unit, and then is randomized by the control unit. Whether to win or not is determined by sampling.
The control unit provided in the gaming machine functions as a storage unit that stores a probability table.
In the first aspect of the present invention, when the numerical value relating to the game medium becomes equal to or less than a predetermined value, a lottery is performed based on a probability table in which a 100% jackpot is generated, but the numerical value relating to the gaming medium is a predetermined value. If it exceeds, a probability table that is normally used is used. That is, according to the present invention, the big win lottery is performed using different probability tables when the numerical value relating to the game medium becomes equal to or less than the predetermined value and when the numerical value relating to the game medium exceeds the predetermined value. . In this specification, a probability table used when a numerical value related to a game medium exceeds a predetermined value is referred to as an “initial setting probability table”.
[0051]
The initial probability table is not particularly limited. For example, among the numerical values “0” to “209”, “17” corresponds to the jackpot, and “other numerical values, that is,“ 0 ”. ~ 16, 18 ~ 209 include probability tables that correspond to outliers. In addition, when the lottery process is performed using this probability table, the probability that a jackpot will occur is 1/210.
Needless to say, the probability table in which 100% jackpot is generated is a probability table in which all the numerical values “0” to “209” correspond to the jackpot in the above case.
In the above case, one default probability table is used. However, even if a plurality of probability tables are stored in the ROM or the like and different probability tables are set in the RAM or the like depending on the value such as the starting ball rate. Good.
For example, if a probability table with a probability of occurrence of jackpot of 0% is prepared, and the numerical value relating to the game medium is a predetermined value (upper limit value) or a value in the vicinity thereof, the probability of occurrence of the jackpot is 0%. The probability table may be used.
[0052]
Instead of sampling random numbers, a counter may be provided in the gaming machine, and a result corresponding to a numerical value counted by the counter may be extracted to determine whether or not to generate a jackpot.
[0053]
In the gaming method in which the first lottery and the second lottery are performed as described above, there are a probability table used for the first lottery and a probability table used for the second lottery. In this case, when the numerical value relating to the game medium becomes equal to or less than a predetermined value, the second lottery may be performed based on the probability table in which the right to win 100% is generated. Both the second lottery and the second lottery may be performed based on a probability table in which the right to win 100% is generated.
[0054]
“Forcibly generating a big win” means that if a predetermined condition is met, the result will be the same as if the big win lottery is won, provided that the numerical value relating to the game medium is equal to or less than a predetermined value. This means that a control program is set.
[0055]
Note that in the gaming method in which the first lottery and the second lottery are performed as described above, the right to win only the second lottery is compulsory when the numerical value relating to the game medium is equal to or less than a predetermined value. You may make it generate | occur | produce, You may generate | occur | produce the right of winning forcibly both the 1st lottery and the 2nd lottery.
[0056]
The “predetermined condition” means that in a pachinko gaming machine, for example, it is detected that one game ball has entered the start port. In a pachislot machine or the like, for example, it means that a start lever is operated with a medal inserted.
[0057]
The “game medium” refers to a medium that mediates a game value necessary for playing a game between the outside and the inside of the gaming machine as described above. Examples of the game medium include game balls, medals, coins, tokens, etc., as well as cards that store game value information given to players.
In the following description, matters relating mainly to pachislot machines and slot machines will be described, and matters relating to pachinko gaming machines will be described in detail later.
[0058]
The “number of inserted game media” refers to the number of game media used in the game. For example, in a pachislot machine or a slot machine, a pachislot machine or the like for playing a game per unit game number (100 games). The number of medals inserted in If the pachislot machine has a credit function, the number of medals bet to play one game out of the credited medals is included in the number of inserted game media. .
Here, the “credit function” means that a game is played by inserting medals in advance and accumulating them as game values, or by accumulating medals given when winning a prize is established as game values. It refers to a function that allows a game to be played using a pre-stored game value without inserting medals into a pachislot machine or the like before starting. The “one game” refers to a game that is performed during a period from when a player performs a start operation until all reels stop or game media is paid out.
[0059]
“Inserted game medium number measuring means” means means for measuring the number of inserted game media, for example, installed in a medal take-in path through which a medal inserted into the medal slot passes. The inserted medal passage detector, a control unit that receives a detection signal from the inserted medal passage detector, and the like function as a means for measuring the number of inserted game media.
The inserted medal passage detector may be mechanical, or may be a transmissive or reflective optical sensor that detects passage of medals with light. Further, when the pachislot machine has a credit function, means for transmitting a detection signal relating to the number of medals bet to play one game from the credited medals to the control unit. And the like are included in the input game medium number measuring means.
[0060]
The “number of payout game media” refers to the number of game media to be paid out. For example, in a pachislot machine or a slot machine, the number of medals actually paid out by winning an internal winning combination. When the pachislot machine has a credit function, the number of credited medals is included in the number of inserted game media when the internal winning combination wins.
[0061]
The “payout game medium number measuring means” refers to a means for measuring the number of paid out game media. For example, when a winning is established, a medal is paid out to a player. A payout medal detector installed in the medal payout device to be performed, a control unit that receives a detection signal from the payout medal detector, and the like function as a payout game medium number measuring unit.
If the pachislot machine has a credit function, means for transmitting a detection signal relating to the number of credited medals to the control unit is also included in the payout game medium number measuring means.
[0062]
In the case of the above-mentioned pachislot gaming machine, the “number of payouts” means the number of medals to be paid out when winning a winning combination in the RB gaming state or winning a small role in the BB gaming state or the general gaming state.
In the following description, the number of medals to be paid out by winning in the RB gaming state is also referred to as the number of winning payouts in the RB gaming state. Similarly, for the winning of a small role in the general gaming state and the winning of the small role in the BB gaming state, the number of payouts of the winning combination in the general gaming state and the number of winnings of the small role in the BB gaming state, respectively. .
[0063]
Further, in the case of the pachinko gaming machine, it means the number of game balls to be paid out in response to the game ball entering the winning opening or starting port. The start port may be set so that the game ball is paid out when the game ball is inserted, or may be set so as not to be paid out.
In the following description, the number of game balls to be paid out when one game ball enters the winning opening is also referred to as the number of payouts at the winning opening. Similarly, for the winning prize opening and the starting opening, the number of payouts at the winning prize opening and the number of payouts at the starting opening are respectively referred to. The number of payouts at the winning opening, the number of payouts at the big winning opening, and the number of payouts at the start opening are not particularly limited, and all the payout numbers may be the same or different.
[0064]
The “numerical value regarding the number of game media” refers to a numeric value determined based on the number of input game media and the number of payout game media described above. For example, a numerical value obtained by calculating a difference between the number of input game media and the number of payout game media, And a numerical value obtained by calculating a ratio of the number of payout game media to the number of input game media. The numerical value relating to the number of game media includes the number of input game media and the number of payout game media. This is because the number of input game media and the number of payout game media are information that is a basis for calculating a numerical value related to the number of game media, and are closely related.
Hereinafter, as numerical values relating to the number of game media, a numerical value obtained by calculating a difference between the number of input game media and the number of payout game media and a numerical value obtained by calculating a ratio of the number of payout game media to the number of input game media will be described. In the invention, the numerical values relating to the number of game media are not limited to these numerical values.
For example, other numerical values that can be calculated based on the number of input game media and the number of payout game media (specifically, the number of games in a pachislot machine, etc.) can also be referred to as values related to the number of game media. As described above, the numerical values related to the number of game media include the number of input game media and the number of payout game media, and other values (such as the number of games in a pachislot game machine) are the numbers of these input game media and This is because the value can be calculated based on the number of payout game media.
[0065]
“The numerical value obtained by calculating the difference between the number of inserted game media and the number of paid-out game media” is, for example, paid out with respect to the number of medals inserted per unit game number (for example, 100 games) in the above-mentioned pachislot machine. In this specification, the above numerical value is also referred to as a difference number.
[0066]
Here, when the number of medals inserted per unit game number (100 games) is D (sheets) and the number of medals to be paid out is E (sheets), the difference number W (sheets) is (1) It can be calculated using an equation.
W = ED (1)
Note that the number D of medals inserted per unit game is always less than or equal to a predetermined number by setting the maximum number of medals that can be used in one game to a predetermined number (for example, three). Can do.
[0067]
If the number of winning payouts in the RB gaming state is F (sheets) and the number of winnings is G (times), the number of medals to be paid out in the RB gaming state is F × G (sheets).
In addition, the number of small part winnings in the BB gaming state is H (sheets), the number of small part winnings is I (times), and the number of times of transition to the RB gaming state during the BB gaming state is L (times). In the BB gaming state, the number of medals to be paid out is (H × I) + (F × G) × L (sheets).
[0068]
In addition, in the case of a general gaming state other than the BB gaming state and the RB gaming state, the number of payouts U (sheets) is awarded V (times) per unit game, and the BB gaming state is M (times). When the RB gaming state occurs N (times), the number E of medals to be paid out can be calculated using the following equation (2).
E = {(H × I) + (F × G) × L} × M + (F × G) × N + (U × V) (2)
In the BB gaming state and / or the general gaming state, there may be a plurality of types of small roles. However, here, it is assumed that there is only one kind of small role in the BB gaming state and the general gaming state. Explains.
[0069]
In addition, the number M of occurrences of the BB gaming state and the number N of occurrences of the RB gaming state depend on the probability that the player wins the lottery performed in response to the start of the game. The probability of winning is determined in advance.
However, if the game is not being performed, the number M of occurrences of the BB gaming state and the number N of occurrences of the RB gaming state can be adjusted by changing the setting inside the pachislot machine. is there.
[0070]
The difference number is determined by measuring the number D of inserted medals and the number E of paid out medals for each unit game number (for example, 100 games), and the number D of game balls inserted, It can be calculated from the number E of game balls paid out.
Further, the difference number can be calculated as follows.
[0071]
For example, the number D of medals inserted when playing 10 games ₁ And the number of medals paid out E ₁ The number of medals inserted after every 10 games ₂ , D ₃ ... and the number E of medals paid out ₂ , E ₃ , ... are measured. And after 100 games, that is, D ₁₀ And E ₁₀ When D is measured, D ₁ ~ D ₁₀ Is D and E ₁ ~ E ₁₀ Is E, and the difference number per unit game number (100 games) is calculated.
After that, when 10 games have passed, that is, D ₁₁ And E ₁₁ When D is measured, D ₂ ~ D ₁₁ Is D and E ₂ ~ E ₁₁ Is the difference number per unit game (100 games).
Thus, when the difference number per 100 games is calculated for every 10 games, the difference number is calculated by measuring the number D of inserted medals and the number E of paid-out medals for every 100 games. Compared with the method, it is possible to calculate the difference number by reducing the time interval, and when the calculated difference number is equal to or less than a predetermined value, the jackpot is based on a probability table in which 100% jackpot occurs. Since it is possible to forcibly generate a big hit without performing a lottery or a big hit lottery, the difference number can be more reliably kept at the lower limit value or more.
In the example described above, the number of games is used as a reference unit. However, when the difference ball number is obtained, time may be used as a reference unit.
[0072]
In the pachislot gaming machine, as the method of calculating the difference number, for example, a command signal transmitted from a control unit provided in the pachislot gaming machine, that is, a command signal for using a medal and a medal to be paid out And a method of calculating the difference number based on the command signal.
[0073]
In the case of the above-mentioned pachinko gaming machine, the “numerical value calculated from the difference between the number of input game media and the number of game media to be paid out” is, for example, a game ball that is launched on the game board per unit time (1 hour) The difference from the number of spheres. In the present specification, the above numerical value is also referred to as a difference ball number.
[0074]
When the number of game balls launched on the game board per unit time (1 hour) is A (ball) and the number of game balls to be paid out is B (ball), the difference ball number X (ball) is (3 ) Equation.
X = BA (sphere) (3)
Note that the number A of game balls to be launched on the game board has a maximum number per unit time, and is set so that the game balls cannot be launched on the game board beyond that number.
[0075]
When a big hit state has occurred, once the winning prize opening becomes open until a predetermined number of game balls enter the winning prize opening or until a predetermined period elapses The jackpot game is repeated a plurality of times.
When the number of payouts at the big prize opening is J balls, in all of the jackpot games repeated K times, if L game balls can be put into the big prize opening, the number of game balls to be paid out is (J × L) × K sphere.
[0076]
In addition, when the payout amount at the winning opening is P balls and the payout amount at the starting opening is Q balls, the gaming balls are R times at the winning opening and the gaming balls are S at the starting opening per unit time (1 hour). Assuming that the winning hit state occurs T times, the number B of game balls to be paid out can be calculated using the following equation (4).
B = {(J × L) × K} × T + (P × R) + (Q × S) (4)
Note that the number L of game balls entering the prize winning opening, the number R of game balls entering the prize opening, and the number S of game balls entering the start opening depend on the positional relationship of a plurality of nails implanted in the game board. When the game is not being played, it can be adjusted to some extent by changing the angles of the plurality of nails.
[0077]
The number K of jackpot games that are repeated when the jackpot state is occurring is determined in advance.
[0078]
The number of difference balls is determined by measuring the number A of game balls that have been launched and the number B of game balls that have been paid out per unit time (for example, one hour). And the number B of paid-out game balls can be calculated.
The difference ball number can also be calculated as follows.
[0079]
For example, the number A of game balls launched in 10 minutes ₁ And the number of game balls B paid out ₁ And the number of game balls launched A every 10 minutes A ₂ , A ₃ , ... and the number of game balls B paid out ₂ , B ₃ , ... are measured. And when 1 hour has passed, that is, A ₆ And B ₆ When measuring ₁ ~ A ₆ Is A and B ₁ ~ B ₆ Is B, and the number of difference balls per unit time (1 hour) is calculated.
Then, when 10 minutes have passed, that is, A ₇ And B ₇ When measuring ₂ ~ A ₇ Is A and B ₂ ~ B ₇ Is the difference ball number per unit time (1 hour).
As described above, when the number of difference balls per hour is calculated every 10 minutes, the number of game balls A and the number B of game balls paid out are measured every hour. Compared with the method of calculating the number, the number of difference spheres can be calculated by making the time interval fine, and the probability that a 100% jackpot will occur when the number of differences calculated in detail is less than or equal to a predetermined value Since the jackpot lottery can be performed based on the table, or the jackpot lottery can be forcibly generated without performing the jackpot lottery, the difference number can be more reliably kept to the lower limit value or more.
[0080]
In the pachinko gaming machine, as the method of calculating the difference ball number, for example, a sensor that can actually detect a game ball that is launched on a game board and a sensor that can detect a game ball that is paid out. And a method of calculating the difference ball number based on the number of game balls detected by each sensor (hereinafter also referred to as a method of detecting the game ball and calculating the difference ball number), or in a pachinko gaming machine A command signal transmitted from a control unit provided, that is, a method for calculating the number of difference balls based on a command signal for launching a game ball on the game board and a command signal for paying out the game ball (hereinafter, Or a method of calculating the difference ball number only in the control unit).
[0081]
“The numerical value obtained by calculating the ratio of the number of paid-out game media to the number of input game media” is, for example, paid out with respect to the number of medals inserted per unit game number (for example, 100 games) in the pachislot machine. This refers to the ratio of the number of medals, and in this specification, the above numerical value is also referred to as a refund rate.
In the pachinko gaming machine, the “numerical value obtained by calculating the ratio of the number of payout game media to the number of input game media” is, for example, a game to be paid out with respect to the number of game balls shot on the game board per unit time (1 hour). It refers to the ratio of the number of spheres, and in this specification, the above numerical value is referred to as the exit rate. It should be noted that the ball exit rate will be described in detail later.
[0082]
When the number of medals to be inserted per unit game number (100 games) is D (sheets) and the number of medals to be paid out is E (sheets), the payout rate Z (%) uses the following equation (5). Can be calculated.
Z = (E / D) × 100 (%) (5)
Note that the number D of medals inserted per unit game is always less than or equal to a predetermined number by setting the maximum number of medals that can be used in one game to a predetermined number (for example, three). Can do.
[0083]
The number E of medals to be paid out per unit game can be obtained from the above-described equation (2).
[0084]
The payout rate is determined by measuring the number of inserted medals D and the number of paid out medals E for each unit game number (for example, 100 games), It is possible to calculate from the number E of medals paid out.
[0085]
For example, the number D of medals inserted in the first 10 games ₁ And the number of medals paid out E ₁ The number of medals inserted after every 10 games ₂ , D ₃ , ... and the number E of game balls paid out ₂ , E ₃ , ... are measured. When 100 games are played, that is, D ₁₀ And E ₁₀ When D is measured, D ₁ ~ D ₁₀ Is D and E ₂ ~ E ₁₀ Let E be a payout rate per unit game number (100 games). After that, when 10 games are played, that is, D ₁₁ And E ₁₁ When D is measured, D ₂ ~ D ₁₁ Is D and E ₂ ~ E ₁₁ Is a payout rate per unit game number (100 games).
Thus, when the payout rate per 100 games is calculated for every 10 games, the payout rate is calculated by measuring the number D of inserted medals and the number E of paid out medals for every 100 games. Compared with the method, it is possible to calculate the payout rate by making the time interval fine, and when the finely calculated payout rate falls below a predetermined value, the jackpot is based on a probability table in which 100% jackpot occurs. Since it is possible to forcibly generate a big hit without performing a lottery or a big hit lottery, the difference number can be more reliably kept to the lower limit value or more.
In the example described above, the number of games is used as a reference unit. However, when obtaining the payout rate, time may be used as the reference unit.
[0086]
In the present invention, as a method of calculating the payout rate, for example, a command signal transmitted from a control unit provided in a pachislot machine, that is, a command signal for using a medal and a command for paying out a medal A method of calculating the difference number based on the signal can be mentioned.
[0087]
The “winning hole” is an opening provided on the game board so that a game ball can enter. When a game ball enters the winning hole, a predetermined number of payouts (for example, 5 balls) is obtained. Will be paid out.
[0088]
In the present specification, the start port is an opening provided on the game board so that a game ball can enter, and when the game ball enters the start port, the game ball has a predetermined number of payouts (for example, (5 balls) and a lottery to determine whether or not to generate a big hit is performed in a control unit provided in the pachinko gaming machine. In addition, the variable symbol is variably displayed on the display device provided on the game board, and the variable display game is started.
The difference between the winning opening and the starting opening is whether or not a lottery is performed to determine whether or not to generate a jackpot by entering a game ball, and other components may be the same Well, it can be different.
In the present specification, the start opening is included in the above-described “winning opening”, and the above-described large winning opening that intermittently opens in a predetermined cycle while the big hit state is generated is also described above. It shall be included in the “winning mouth”. However, a lottery is performed to determine whether or not to generate a big hit in response to the game ball entering, but the starting port where the game ball is not paid out only by entering the game ball is the present invention. It does not correspond to the prize opening provided on the game machines.
[0089]
The “ball-out rate” refers to the ratio of the number of game balls to be paid out to the number of game balls shot out on the game board per unit time (1 hour).
When the number of game balls launched on the game board per unit time (1 hour) is A (ball), and the number of game balls to be paid out is B (ball), the launch rate X (%) is (6 ) Equation.
X = (B / A) × 100 (%) (6)
Note that the number A of game balls to be launched on the game board has a maximum number per unit time, and is set so that the game balls cannot be launched on the game board beyond that number.
[0090]
As for the game balls to be paid out, the game balls are paid out in response to the game ball entering the big prize opening when the big hit state is generated, or the game ball has entered the prize opening or the start opening. It is paid out in response.
[0091]
When a big hit state has occurred, once the winning prize opening becomes open until a predetermined number of game balls enter the winning prize opening or until a predetermined period elapses The jackpot game is repeated a plurality of times.
When the number of payouts at the big prize opening is J balls, in all of the jackpot games repeated K times, if L game balls can be put into the big prize opening, the number of game balls to be paid out is (J × L) × K sphere.
[0092]
In addition, when the payout amount at the winning opening is P balls and the payout amount at the starting opening is Q balls, the gaming balls are R times at the winning opening and the gaming balls are S at the starting opening per unit time (1 hour). Assuming that the winning hit occurs T times, the number B of game balls to be paid out can be calculated using the following equation (7).
B = {(J × L) × K} × T + (P × R) + (Q × S) (7)
Note that the number L of game balls entering the prize winning opening, the number R of game balls entering the prize opening, and the number S of game balls entering the start opening depend on the positional relationship of a plurality of nails implanted in the game board. When the game is not being played, it can be adjusted to some extent by changing the angles of the plurality of nails.
[0093]
The number K of jackpot games that are repeated when the jackpot state is occurring is determined in advance.
[0094]
The above-mentioned pitch rate is determined by measuring the number A of game balls that have been launched and the number B of game balls that have been paid out per unit time (for example, one hour). And the number B of game balls that have been paid out.
In addition, the above-mentioned ball exit rate can also be calculated as follows.
[0095]
For example, the number A of game balls launched in 10 minutes ₁ And the number of game balls B paid out ₁ And the number of game balls launched A every 10 minutes A ₂ , A ₃ , ... and the number of game balls B paid out ₂ , B ₃ , ... are measured. And when 1 hour has passed, that is, A ₆ And B ₆ When measuring ₁ ~ A ₆ Is A and B ₁ ~ B ₆ And B is calculated as a ball-out rate per unit time (1 hour).
Then, when 10 minutes have passed, that is, A ₇ And B ₇ When measuring ₂ ~ A ₇ Is A and B ₂ ~ B ₇ And B is calculated as a ball-out rate per unit time (one hour).
In this way, when calculating the rate of hourly play every 10 minutes, the number of game balls A and the number B of game balls paid out are measured every hour. Compared with the method of calculating the rate, it is possible to calculate the ball-out rate by making the time interval fine, and when the ball-out rate calculated finely becomes a predetermined value or less, 100% jackpot occurs Since the jackpot lottery can be performed based on the probability table, or the jackpot lottery can be forcibly generated without performing the jackpot lottery, the pitching rate can be more reliably set to the lower limit value or more.
[0096]
In the gaming machine of the present invention, as a method of calculating the above-mentioned pitch rate, for example, a sensor that can actually detect a game ball that is launched on a game board and a game ball that is paid out can be detected. A sensor is provided, and a method of calculating a ball-out rate based on the number of game balls detected by each sensor (hereinafter also referred to as a method of calculating a ball-out rate by detecting a game ball) or in a pachinko gaming machine A method for calculating a ball-out rate based on a command signal transmitted from a control unit provided on the game board, that is, a command signal for launching a game ball on the game board and a command signal for paying out the game ball (hereinafter referred to as a command signal) And a method of calculating the ball exit rate only in the control unit).
Note that a method for detecting the game ball and calculating the ball-out rate and a method for calculating the ball-out rate only in the control unit will be described later.
[0097]
DETAILED DESCRIPTION OF THE INVENTION
Embodiments of the present invention will be described with reference to the drawings.
In the following description, a pachinko gaming machine will be described as a gaming machine, and a pitch rate will be described as a numerical value related to gaming media. Furthermore, when the ball-out rate is equal to or less than a predetermined value, the pachinko gaming machine in which a lottery is performed based on a probability table in which a 100% jackpot occurs is also referred to as a pachinko gaming machine according to the first invention, When the starting rate exceeds a predetermined value, a lottery is performed based on the probability table. On the other hand, when the starting rate falls below a predetermined value, the lottery is not performed and forced. A pachinko gaming machine that generates a big hit is also referred to as a pachinko gaming machine according to the second aspect of the present invention. In addition, unless particularly distinguished from each other, the pachinko gaming machine according to the first aspect of the present invention and the pachinko gaming machine according to the second aspect of the present invention will be simply described as the pachinko gaming machine according to the present invention. .
In the pachinko gaming machine according to the first aspect of the present invention and the pachinko gaming machine according to the second aspect of the present invention, the game ball detection routine shown in FIG. 8 is different from the game ball detection routine shown in FIG.
Of course, the gaming machine of the present invention is not limited to such a pachinko gaming machine, and the above-described method for calculating a numerical value relating to a gaming medium and a numerical value relating to the gaming medium equal to or less than a predetermined value. The pachinko gaming machine using the method of performing a jackpot lottery based on a probability table in which 100% jackpots are generated or forcibly generating a jackpot without performing the jackpot lottery is a game according to the present invention. It corresponds to the machine.
[0098]
FIG. 1 is a front view schematically showing a pachinko gaming machine according to the present invention.
The pachinko gaming machine 10 includes a main body frame 12, a game board 14 incorporated in the main body frame 12, a window frame 16 of the main body frame 12 provided in front of the game board 14, and a main body below the window frame 16. An upper plate 20 and a lower plate 22 provided on the front surface of the frame 12 and a firing handle 26 provided on the right side of the lower plate 22 are arranged.
[0099]
A plurality of obstacle nails (not shown) are driven in the front surface of the game board 14. The game board 14 is molded from a resin material, and a metal rod-like body is implanted in the resin material game board 14 so as to protrude in the forward direction of the game board 14 without being configured to drive nails. The present invention can also be applied to the pachinko gaming machine 10 (Pachikon machine) as described above. In the present specification, the pachinko gaming machine 10 is a concept that includes a pachinko machine.
[0100]
Further, the launch handle 26 is provided so as to be rotatable with respect to the main body frame 12, and the player can advance the pachinko game by operating the launch handle 26. On the back side of the firing handle 26, a firing motor 28 is provided. When the launch handle 26 is rotated clockwise by the player, power is supplied to the launch motor 28 and the game balls stored in the upper plate 20 are sequentially launched onto the game board 14. Here, although the launch motor 28 is used, a launching solenoid for launching a game ball can also be used.
The means for launching a game ball on the game board 14 and the means for detecting the launched game ball will be described later with reference to the drawings.
[0101]
The launched game ball is guided to a guide rail 30 provided on the game board 14 and moves to the upper part of the game board 14. After that, the game ball is changed in its traveling direction by collision with the above-described obstacle nails. It falls toward the bottom of the board 14.
[0102]
FIG. 2 is an enlarged front view schematically showing the game board 14. In addition, the same code | symbol was attached | subjected to the component corresponding to the component shown in FIG. 1 mentioned above. FIG. 2 shows the above-described obstacle nail omitted.
[0103]
A display device 32 which is a display unit as will be described later is provided in the approximate center of the front surface of the game board 14. A display device 52 is provided at the upper center of the display device 32. The display device 52 is composed of, for example, a 7-segment display, and a normal symbol as display information is variably displayed so as to repeat fluctuation and stop. On the left and right sides of the display device 32, ball passage detectors 55a and 55b are provided. When the ball passage detector 55a or 55b detects that a game ball has passed in the vicinity of the ball passage detector 55a or 55b, on the display device 52 described above, the normal symbol variation display is started, and after a predetermined time has passed, Stops the fluctuation display. This normal symbol is information including numbers, symbols, and the like, for example, numbers from “0” to “9” and symbols such as “☆”. When the normal symbol is displayed as a predetermined symbol, for example, “7” and stopped, a solenoid 57 for driving movable pieces 58a and 58b provided on both the left and right sides of a starting port 44 to be described later. A current is supplied to (not shown), and the movable pieces 58a and 58b are driven so that the game balls can easily enter the start opening 44, so that the start opening 44 is opened. When a predetermined time elapses after the start port 44 is opened, the movable piece is driven to close the start port 44 so that it is difficult for a game ball to enter.
[0104]
Four holding lamps 34a to 34d are provided on the left and right sides of the display device 52 described above. Further, a general winning opening 50 is provided at the top of the display device 52. Also, a large winning opening 38 for a game ball is provided at the bottom of the game board 14. A shutter 40 is provided in the vicinity of the special winning opening 38 so as to be freely opened and closed. The shutter 40 is driven by a solenoid 48 (not shown) so as to be intermittently opened when a big hit state occurs.
[0105]
General winning ports 54a and 54b are provided on both the left and right sides of the display device 32 described above. Further, general winning holes 54c and 54d are provided on both the left and right sides of the lower portion of the display device 32. In addition, special winning ports 56 a and 56 b are provided on the left and right ends of the game board 14, and special winning ports 56 c and 56 d are provided on the left and right sides of the big winning port 38.
[0106]
In addition, a starting port 44 is provided as an opportunity to shift a plurality of, for example, three pieces of identification information displayed on the display device 32 to a variable display state when a variable display game described later is started. A ball detection sensor 42 is provided at the above-described grand prize winning port 38, start opening 44, general prize winning ports 50 and 54a to 54d, and special prize winning ports 56a to 56d, and when a game ball enters, When the ball detection sensor 42 detects that the game ball has passed, a predetermined number of game balls are paid out to the lower plate 22 by the payout device 59 (not shown) according to the type of the winning opening. Has been made. The payout device 59 and the control unit that transmits a command signal to pay out the game ball to the payout device 59 function as payout means.
The payout device 59 is provided with a payout ball detection sensor 53 that detects a game ball to be paid out. The payout ball detection sensor 53 and the control unit that receives a detection signal indicating that a game ball has been detected from the payout ball detection sensor 53 functions as a payout game ball measuring means for obtaining the number of game balls that have been paid out. To do.
[0107]
Furthermore, on both the left and right sides of the display device 32, rolling guide members 60a and 60b for guiding the path of the game ball in a predetermined direction are also provided. In addition, decorative lamps 36a and 36b are provided on the upper left side and the upper right side outside the game board 14.
[0108]
In addition, the part which displays the effect image mentioned later in the display apparatus 32 mentioned above may consist of a liquid crystal display panel, or may consist of a cathode ray tube. Further, in the above-described example, the display device 32 is shown in the case where the display device 32 is provided in the approximate center of the front surface of the gaming board 14 of the pachinko gaming machine 10 which is a pachinko gaming machine, but the player can see it. If it is such a position, the display device 32 may be provided at any position of the pachinko gaming machine.
[0109]
FIG. 3 is an explanatory diagram schematically showing a means for launching a game ball on the game board 14 and a means for detecting the launched game ball. In FIG. 3, a case where a launch solenoid is provided as a means for launching a game ball on the game board 14 will be described.
[0110]
A launch solenoid S is provided at the lower end of the guide rail 30, and by operating the launch solenoid S, a game ball can be launched onto the game board 14. The guide rail 30 in the vicinity of the launch solenoid S is provided with a launch ball passage detector 61, which can be a mechanical launch ball passage detection switch. Further, as the shot ball passage detector 61, a transmissive or reflective optical sensor that detects the passage of the game ball with light may be provided.
[0111]
In the middle of the guide rail 30, there is a discharge port for discharging the game ball that returns backward along the guide rail 30 due to insufficient launch force of the launch solenoid S or when the launch solenoid S has launched two game balls. 63 is provided, and a return ball detection switch 65 for detecting a game ball discharged from the discharge port 63 is further provided. By detecting the game ball of the return ball detection switch 65, the number of game balls actually launched can be counted reliably.
The launching ball passage detector and the return ball detection switch configured as shown in FIG. 3 and the control unit that receives the detection signals from the launching ball passage detector and the return ball detection switch are the game balls that have been launched. It functions as a launching game ball measuring means for obtaining the number.
[0112]
FIG. 4 is a block diagram showing a control circuit of a pachinko gaming machine that is an embodiment according to the present invention. In FIG. 4, a case where a launch motor 28 is provided as means for launching a game ball on the game board 14 will be described.
[0113]
The firing handle 26 described above is connected to an interface circuit group 62 of the control circuit 60, and the interface circuit group 62 is connected to an input / output bus 64. An angle signal indicating the rotation angle of the firing handle 26 is converted into a predetermined signal by the interface circuit group 62 and then supplied to the input / output bus 64. The input / output bus 64 is configured such that a data signal or an address signal is input / output to / from a central processing circuit (hereinafter referred to as CPU) 66 which is an arithmetic processing unit. In addition, the ball detection sensor 42 is also connected to the above-described interface circuit group 62, and the game balls are used for the big winning port 38, the starting port 44, the general winning ports 50 and 54a to 54d, and the special winning ports 56a to 56d. , The ball detection sensor 42 supplies a detection signal to the interface circuit group 62. Further, a ball passage detector 55 is also connected to the interface circuit group 62. When the ball passage detector 55 detects that a game ball has passed in the vicinity thereof, it supplies a detection signal to the interface circuit group 62. .
[0114]
The input / output bus 64 is connected with a payout ball detection sensor 53, a shot ball passage detector 61, and a return ball detection switch 65. When a game ball is detected, the detection signal is sent to the interface circuit group 62. To supply.
[0115]
A ROM 68 and a RAM 70 are also connected to the input / output bus 64 described above. The ROM 68 stores a control program for controlling the flow of the entire game of the pachinko gaming machine. Further, the ROM 68 displays image data of a fluctuating symbol that is displayed in a variable display or stopped when the variable display game is executed on the display device 32, character image data that is a moving object displayed as an effect screen, and the display device 32. Background image data and moving image video image data constituting the background, sound data used in the game, a probability table for determining whether or not to win, initial data for executing the control program, decoration lamp 36 A program for controlling the blinking operation pattern is stored.
[0116]
The above-described symbol image data is used when the symbol is variably displayed on the display device 32 or when it is stopped and displayed, depending on various display modes, for example, an enlarged image, a reduced image, a deformed image, and the like. Image data. In addition, the character image data, background image data, and moving image video image data composed of the moving objects described above are displayed as a screen image on the display device 32 as a moving image, a still image, or a combination thereof so as to produce a game. Is for. Furthermore, the character image data composed of the moving objects described above includes image data corresponding to each of the actions so as to display the action of the character.
Furthermore, the sound data is also used to produce a game, and is used to emit sound such as sound effects from the speaker 46.
[0117]
The RAM 70 stores flags and variable values used in the above-described program. For example, new input data, calculation results by the CPU 66, accumulated reach data indicating a game history, accumulated fluctuation number, and accumulated jackpot number are stored.
In addition, the number of game balls launched on the game board and the number of game balls dispensed are stored, and the number of game balls launched on the game board and the number of game balls dispensed are stored. It stores the ball-out rate calculated based on it.
[0118]
The CPU 66, which is a control unit, performs arithmetic processing by calling and executing a predetermined program, and character image data, background image data, moving image video image data, and fluctuating symbol images composed of moving objects based on the result of the arithmetic processing. Data and sound data are transmitted as electronic data and other controls are performed.
[0119]
Further, the CPU 66 reads the image data of the variation symbol that is the identification information described above and controls the display device 32 so that the symbol is variably displayed, or displays the combination state of the symbols that are the plurality of identification information. The device 32 is controlled so as to be stopped and displayed at a predetermined timing.
Further, the CPU 66 functions as an exit rate calculating means for calculating an exit rate from the number of game balls launched on the game ball and the number of game balls paid out stored in the RAM 70.
[0120]
Further, an interface circuit group 72 is also connected to the input / output bus 64. The interface circuit group 72 is connected to the display device 32, the speaker 46, the firing motor 28, the solenoids 48 and 57, the holding lamp 34, the decoration lamp 36, and the payout device 59. The interface circuit group 72 is connected to the CPU 66. A drive signal and drive power are supplied to control each of the above-described devices according to the result of the arithmetic processing.
[0121]
The screen image of the display device 32 serving as a display unit is composed of an identification image on which a fluctuating symbol is displayed and an effect image on which an effect screen is displayed. By the control of the CPU 66, these two images are superimposed and combined. , Display as one image.
[0122]
In this way, by overlaying and synthesizing a plurality of images, for example, a design image and an effect image, it is possible to produce a scene where the design fluctuates with the effect image as a background, and various display forms are possible. It becomes.
[0123]
The solenoid 48 is for opening and closing the shutter 40 as described above, and the solenoid 57 is for opening and closing the movable pieces 58 a and 58 b provided on both the left and right sides of the start port 44.
The hold lamp 34 indicates the number of times that the combination of symbols displayed on the display device 32 is valid, and the decoration lamp 36 indicates to the player when the game is a big hit or reaches. It blinks or lights up to indicate that.
The payout device 59 receives a predetermined number of game balls in the upper plate 20 or the lower plate 22 according to the game situation (for example, a game ball has entered the winning opening etc.) according to a control signal from the CPU 66. It is something to be paid out.
[0124]
A control unit is configured from the arithmetic processing device (CPU 66) described above, a display unit is configured from the display device 32, and a pachinko gaming machine is configured from the pachinko gaming machine 10.
In this specification, it is described that there is one arithmetic processing device included in the control unit. However, in the pachinko gaming machine according to the present invention, the arithmetic processing device included in the control unit needs to be one. Rather, for example, the control unit is mainly based on the arithmetic processing device P that advances the game mainly by controlling each part of the pachinko gaming machine 10 and the command signal from the arithmetic processing device P. And an arithmetic processing unit Q that generates an image to be displayed on the display unit. The number of ROMs and RAMs included in the control unit is not necessarily one.
[0125]
In the following, it is assumed that the pachinko gaming machine 10 is activated and the variables used in the CPU 66 described above are initialized to predetermined values and are in steady operation.
In addition, as a method for calculating the pitch rate, a pachinko gaming machine in which a method for detecting a game ball and calculating the pitch rate is used will be described.
[0126]
FIG. 5 is a flowchart showing a subroutine executed for measuring the number of game balls launched on the game board. This subroutine is called and executed at a predetermined timing from a control program for controlling the pachinko game of the pachinko gaming machine 10 being executed in advance.
[0127]
First, the number of game balls launched on the game board (launch detection number A) stored in the RAM 70 is set to 0 (step S100).
Next, it is determined whether or not the game ball launched by the launch motor 28 has been detected by the launch ball passage detector 61 (step S101). That is, the CPU 66 determines whether or not a detection signal from the shot ball passage detector 61 has been received.
If it is determined that it has not been detected, the process returns to step S101.
[0128]
If it is determined that the shot ball passage detector 61 has detected it, it is next determined whether or not the returned game ball has been detected by the return ball detection switch 65 (step S102). That is, the CPU 66 determines whether or not a detection signal from the return ball detection switch 65 has been received.
[0129]
If it is determined that the game ball is detected by the return detection switch 65, the process returns to step S101.
On the other hand, if it is determined that the game ball has not been detected by the return detection switch 65, 1 is added to (incremented to) the number of detected fires A stored in the RAM 70, and the accumulated value is stored in the RAM 70 as A + 1 (step S103). ).
[0130]
Next, it is determined whether or not a predetermined period has elapsed since the execution of step S100 (step S104). If it is determined that the predetermined period has not elapsed, the process returns to step S101, and the processes of steps S101 to S103 are performed again.
Note that, instead of the above-described step S104, when a predetermined period has elapsed while the processing of steps S101 to S103 is being executed, the processing of step S105 described later is forcibly executed to execute this subroutine. It is good also as ending.
[0131]
As described above, by repeatedly executing the processing of steps S101 to S103 until it is determined in step S104 that the predetermined period has elapsed, it is possible to measure the number of game balls launched within the predetermined period. Become.
If it is determined in step S104 that the predetermined period has elapsed, the number A of fire detections within the predetermined period is stored in the RAM 70 (step S105), and this subroutine is terminated.
When a subroutine for measuring the number of game balls launched on the game board is being executed, the firing ball passage detector 61, the return ball detection switch 65, and the launch ball passage detector 61 are returned. A control unit (CPU 66) that receives a detection signal from the ball detection switch 65 functions as a hitting game ball measuring means for obtaining the number of hit game balls.
[0132]
FIG. 6 is a flowchart showing a subroutine that is executed to measure the number of game balls that have been paid out. This subroutine is called and executed at the same time as the launch game ball measurement processing routine shown in FIG. 5, for example, is executed from the control program for controlling the pachinko game of the pachinko gaming machine 10 executed in advance. Is.
[0133]
First, the CPU 66 sets the number of paid out game balls (payout detection number B) stored in the RAM 70 to 0 (step S110).
Next, it is determined whether or not a game ball is detected by the payout ball detection sensor 53 (step S111). If it is determined that it has not been detected, the process returns to step S111.
[0134]
If it is determined that the ball is detected by the payout ball detection sensor 53, 1 is added (incremented) to the payout detection number B stored in the RAM 70, and B + 1 is accumulated and stored in the RAM 70 (step S113).
Next, it is determined whether or not a predetermined period has elapsed since the execution of step S110 (step S114). Note that the predetermined period here may be the same as or different from the predetermined period in the subroutine described with reference to FIG.
If it is determined that the predetermined period has not elapsed, the process returns to step S111, and the processes of steps S111 and S113 are executed again.
[0135]
As described above, by repeatedly executing the processes of steps S111 and S113 until it is determined in step S114 that the predetermined period has elapsed, the number of game balls paid out during the predetermined period can be measured. Become.
When it is determined in step S114 that the predetermined period has elapsed, the payout detection number B within the predetermined period is stored in the RAM 70 (step S115), and this subroutine is terminated.
When the subroutine for measuring the number of paid-out game balls is being executed, the pay-out ball detection sensor 53 and the control unit (CPU 66) that receives the detection signal from the pay-out ball detection sensor 53 are It functions as a payout game ball measuring means for obtaining the number of game balls paid out.
[0136]
FIG. 7 is a flowchart showing a subroutine for calculating the exit rate, which is executed by the control unit described above. This subroutine is called and executed at a predetermined timing from a control program for controlling the pachinko game of the pachinko gaming machine 10 being executed in advance.
[0137]
First, it is determined whether or not it is time to calculate the ball-out rate after the game is executed (step S400). If it is determined that it is not the timing for calculating the pitch rate, the process returns to step S400 and the process of step S400 is executed again.
[0138]
The timing for calculating the above-mentioned ball-out rate may be every unit time (for example, 1 hour, 10 minutes) or every number of thrown balls (for example, 100 or 500 balls). Further, it may be the same as or different from the predetermined period in the subroutine described with reference to FIGS.
[0139]
In step S400, when it is determined that it is the timing for calculating the pitching rate, the number of detected shots A stored in the RAM 112 and the number of detected payouts B stored in the RAM 112 are read out and the above equation (6) is used. A process of calculating the ball exit rate is performed (step S401).
In step S401, the control unit (CPU 66) functions as an exit rate calculating means for calculating an exit rate from the number of game balls that have been launched and the number of game balls that have been paid out.
[0140]
Next, the exit rate calculated in step S401 is stored in the RAM 70 (step S402), and this subroutine is terminated.
[0141]
FIG. 8 is a flowchart showing a subroutine for performing game ball detection which is called and executed in the pachinko gaming machine according to the first aspect of the present invention. FIG. 9 is a flowchart showing a subroutine for performing game ball detection which is called and executed in the pachinko gaming machine according to the second aspect of the present invention.
However, in the pachinko gaming machine according to the first aspect of the present invention and the pachinko gaming machine according to the second aspect of the present invention, the game ball detection routine shown in FIG. 8 and the game ball detection routine shown in FIG. Further, in these subroutines, the same processing is performed except that the processing when it is determined that the pitching rate is equal to or less than a predetermined value is different. Therefore, when the same processing is performed in FIGS. 8 and 9, the same reference numerals are given.
[0142]
First, a game ball detection routine that is called and executed in the pachinko gaming machine according to the first aspect of the present invention will be described.
FIG. 8 is a flowchart showing a subroutine for detecting a game ball executed in the control circuit 60 described above. This subroutine is called and executed at a predetermined timing from a control program for controlling the pachinko game of the pachinko gaming machine 10 being executed in advance.
[0143]
First, it is detected whether or not a game ball has entered the winning opening (step S11). For example, in the example shown in FIG. 2 described above, the winning ports are general winning ports 50 and 54a to 54d and special winning ports 56a to 56d. In step S11, when it is determined that a game ball has entered the winning opening, the payout device 59 is driven to execute a process of paying out a predetermined number of gaming balls according to the type of winning opening (step S12).
[0144]
Next, it is determined whether or not a game ball has entered the start port (step S13). This starting port is, for example, the starting port 44 in the example shown in FIG. When it is determined in this step S13 that a game ball has entered the starting port, the payout device 59 is driven to execute a process of paying out a predetermined number of game balls (step S17).
[0145]
Next, the CPU 66 reads the pitch rate stored in the RAM 70 in step S402 described above, and determines whether or not the pitch rate is equal to or less than a predetermined value (step S121). The determined value is, for example, a lower limit value or a lower limit vicinity value, but is preferably a lower limit vicinity value here. This is because it is possible to prevent the ball-out rate from becoming lower than the lower limit value by performing the following processing at the lower limit value.
[0146]
In the pachinko gaming machine according to the first aspect of the present invention, as shown in FIG. 8, when it is determined that the ball-out rate is not more than a predetermined value, a lottery is performed based on a probability table in which 100% jackpot occurs. This is performed (step S122).
That is, the CPU 66 uses the probability table for 100% jackpot set in the RAM 70 and uses the data corresponding to the numerical value obtained as a result of random number sampling as the lottery result. In this lottery table, Since the data corresponding to is a big hit, if a game ball enters the start opening, a big hit will occur.
[0147]
In this way, when it is determined that the ball-out rate has become equal to or less than a predetermined value, a big hit will be generated each time a game ball enters the start opening, so a lot of big hits will occur continuously, depending on the case A case where a predetermined upper limit is exceeded is also conceivable. Therefore, it is usually necessary to determine the number of times that a jackpot is generated, and to return the probability table to the initial one when a predetermined number of jackpots has occurred.
[0148]
Further, the predetermined value is not particularly limited, and may be 33% which is the lower limit value of the starting rate in a short time, or may be 50% which is the lower limit value of the starting rate in a long time. Also, 35% and 53%, which are lower limit values, may be used. Among these, 33% and 35% are preferable.
[0149]
On the other hand, when it is determined that the value is not less than or equal to a predetermined value, a lottery is performed based on an initially set probability table (step S123).
That is, the CPU 66 uses, as a lottery result, data corresponding to a numerical value obtained as a result of random number sampling using the initially set probability table set in the RAM 70.
[0150]
Next, a variable display game described later is executed (step S14).
When step S12 or S17 described above is executed, the payout device 59 and the control unit that transmits a command signal to pay out the game ball to the payout device 59 function as payout means.
[0151]
Further, it is determined whether or not the game ball has passed through the ball passage detector (step S15). The ball passage detectors are, for example, the ball passage detectors 55a and 55b in the example shown in FIG.
[0152]
In step S15, when it is determined that the game ball has passed through the ball passage detector, as described above, the display device 52 executes a process of variably displaying normal symbols (step S16). As described above, when the variably displayed normal symbol stops and becomes a predetermined symbol, the movable pieces 58a and 58b are driven to open the start port 44, so that the start port 44 is opened. This makes it easier for game balls to enter.
[0153]
Next, a game ball detection routine that is called and executed in the pachinko gaming machine according to the second aspect of the present invention will be described.
FIG. 9 is a flowchart showing a subroutine for detecting a game ball executed in the control circuit 60 described above. This subroutine is called and executed at a predetermined timing from a control program for controlling the pachinko game of the pachinko gaming machine 10 being executed in advance.
[0154]
In the gaming ball detection routine shown in FIG. 9, only the processing in step S124 is different, and therefore only the processing will be described here.
In the pachinko gaming machine according to the second aspect of the present invention, when it is determined that the pitching rate is equal to or less than a predetermined value, a lottery is not performed and a big hit is generated forcibly. (Step S124).
That is, unlike the pachinko gaming machine according to the first aspect of the present invention, the pachinko gaming machine according to the second aspect of the present invention forcibly generates a jackpot without performing a lottery, and then the game detection routine shown in FIG. A variable display game is displayed in the same manner as above.
[0155]
Next, the variable display game will be described. FIG. 10 is a flowchart showing a subroutine for performing the variable display game process that is called and executed in step S14 described above.
[0156]
When the subroutine shown in FIG. 10 is called, the fixed screen displayed on the display device 32 is switched to the normal screen, and the variable display game is started. Here, the variable display game is a game imitating a game played in a slot machine, and a plurality of symbols, which are a plurality of identification information, are displayed on the display device 32 and each of them is displayed so as to fluctuate. These symbols are displayed so as to stop at the same time, and when the combination of symbols when all the symbols are stopped becomes a predetermined combination, the pachinko game is shifted to a state advantageous to the player. It is a game, and this variation display and stop display are executed as one stroke.
[0157]
For example, as a set of twelve numerals consisting of “1”, “2”,..., “12”, these twelve symbols are sequentially displayed on the display device 32, and the symbols move. In this way, the display itself is displayed so as to change. For example, on the display device 32, the symbol “1” is displayed so as to scroll from the top to the bottom of the display device 32, and then the symbol “2” is displayed so as to scroll from the top to the bottom. Similarly, “3” is displayed so as to scroll from top to bottom. After the symbol “1” to the symbol “12” are displayed in this manner, the symbol “1” is displayed so as to scroll again, and the same display is sequentially repeated.
[0158]
By displaying the symbols in this manner on the display device 32, the symbols are scrolled from “1” to “2” and from “2” to “3” until the symbols are sequentially changed to “12”. Then, “1” is displayed again. A mode in which symbols are displayed in such a manner that the symbols themselves sequentially change while moving the position of one symbol is called variable display. A mode in which a certain symbol is stopped and displayed is called stop display.
[0159]
When displaying symbols belonging to one set on the display device 32, the displayed symbols are not limited to only one symbol belonging to the set, and a plurality of symbols, for example, two to three symbols, are displayed simultaneously. It is good to do. For example, when the symbol “5” is variably displayed on the display device 32, a part or the whole of the symbol “4” is variably displayed below the symbol “5”, and the symbol “6” is displayed above the symbol “5”. ”May be displayed in a variable manner. The symbol set described above is a concept corresponding to the symbol set displayed on one reel used in the slot machine.
[0160]
Further, when the variable display game is executed on the display device 32, symbols belonging to each of the plurality of sets are displayed. For example, when each of the symbols belonging to three groups is displayed in the horizontal direction, the symbols belonging to one group are displayed on the left side of the display device 32, and the symbols belonging to the other group are displayed on the display device 32. The symbols that are displayed in the center and belong to the remaining groups are displayed on the right side of the display device 32.
[0161]
By displaying the symbol as the identification information in this way, a plurality of identification information is displayed on the display device 32 as the display unit. For example, when it is decided to change and display so that only one symbol of symbols belonging to one set is always displayed, three symbols are displayed on the display device 32, that is, one symbol on the left side. One symbol is displayed in the center, and one symbol is displayed on the right side. Further, the number of groups when the variable display game is executed is not limited to three, and symbols belonging to a plurality of groups other than three may be displayed on the display device 32.
[0162]
As described above, by displaying the symbols in this manner, a plurality of symbols, that is, a plurality of identification information, are displayed on the display device 32 as a display unit. Furthermore, as described above, a plurality of symbols may be displayed for symbols belonging to one set. For example, two symbols belonging to one set may be displayed so as to be variably displayed at the same time. When displaying about a group, a total of six symbols will be variably displayed on the display device 32.
[0163]
After variably displaying symbols belonging to a plurality of sets, when all the symbols that have been variably displayed are stopped and displayed at a predetermined timing, when the combination of these symbols is stopped and displayed in accordance with the predetermined combination, If the variable display game is won, the game shifts to a state where the pachinko game is advantageous to the player.
[0164]
For example, when symbols belonging to three groups are displayed on the display device 32, symbols belonging to one group are stopped and displayed at “7”, symbols belonging to other groups are also stopped and displayed at “7”, and the rest When the symbol belonging to the pair is also stopped and displayed at “7”, the symbol combination matches the predetermined combination “7”-“7”-“7”, and the variable display game is won by winning the jackpot game. Will shift to a state that is advantageous to the player. When the game is shifted to a state where it is a big hit and advantageous to the player, a current is supplied to the solenoid 48 described above to open the shutter 40 of the big prize opening 38 provided on the front surface of the game board 14 and to increase the size of the game ball. It makes it easy to enter the winning opening 38.
[0165]
Further, when the variable display game is being executed, an effect screen such as a background image or a character image is also displayed on the display device 32. The fixed screen described above is a screen displayed on the display device 32 when the variable display game executed on the display device 32 is not executed and only the pachinko game is progressing on the pachinko gaming device 10. Say.
[0166]
In addition, the normal screen refers to the time from when the variable display game is started on the display device 32 and the symbols displayed on the display device 32 are variably displayed until the variable display game reaches reach or a big hit state. In the meantime, it refers to an effect screen displayed on the display device 32.
[0167]
When the above-described variable display game is started, first, an internal lottery process based on a calculation process of the CPU 66 is executed (step S200). This internal lottery process predetermines a combination of symbols when the symbols are determined by stopping and displaying all symbols belonging to a plurality of groups that have been variably displayed according to the results of the lottery in steps S122 to S123 or step S124. As will be described later, the CPU 66 performs the process of the variable display of symbols and the stop display so that the symbols are stopped and displayed by the combination of symbols determined by the internal lottery process.
[0168]
In the pachinko gaming machine according to the first aspect of the present invention shown in FIG. 8, when it is determined that the starting rate is equal to or less than a predetermined value, a lottery is performed based on a probability table in which a 100% jackpot is generated in S122. Therefore, the process is performed so that the symbol is always displayed in a stop-hit state.
Further, in the pachinko gaming machine according to the second aspect of the present invention shown in FIG. 9, when it is determined that the starting rate is equal to or less than a predetermined value, the big hit is forcibly generated in S124. Processing is performed so as to stop at the symbol display that becomes the state.
[0169]
Next, screen configuration information of the selected background image is generated in the RAM 70 (step S201). That is, after the internal lottery process is executed, a control program for selecting a background image is called from the ROM 68 and executed by the CPU 66 in accordance with the result of the internal lottery process and the progress of the variable display game.
[0170]
Next, the screen configuration information of the selected background image is generated in the RAM 70 by the CPU 66 as needed based on the result obtained by the CPU 66. The background image is not particularly limited, and is appropriately selected by the CPU based on the progress of the variable display game and the result of the internal lottery process.
[0171]
Next, screen configuration information of the selected character image is generated in the RAM 70 (step S202). That is, the screen configuration information of the character image selected by the CPU 66 is generated in the RAM 70 based on the execution result of the control program.
[0172]
At this time, for example, by controlling the head position of the character image to be shifted by a predetermined amount of movement at a constant interval (frame span) every 1/60 seconds, 1/30 seconds, or the like, It can be displayed with movement.
Note that an image showing a character is not necessarily displayed on the display device. The character image is not particularly limited, and is appropriately selected by the CPU based on the progress of the variable display game and the result of the internal lottery process.
[0173]
Next, the screen configuration information of the variation symbol as identification information is generated in the RAM 70 by the CPU 66 based on the execution result of the control program (step S203).
[0174]
Based on the above-described control program, the screen configuration information of the images constituting each of the above-mentioned variable symbols is obtained by the CPU 66 by a periodic interval (frame span, for example, every 1/60 seconds or 1/30 seconds). ), For the images that become the variation symbols having the same identification information, the head position of the screen configuration information is shifted by a predetermined movement amount, and the images that become the variation symbols are sequentially generated in a predetermined order. By controlling as described above, it is possible to display the variation of the variation symbol.
[0175]
Furthermore, since the fluctuation speed of the fluctuation pattern can be controlled by adjusting the frame span, the reading position of the screen configuration information, etc., the fluctuation pattern in the background image depends on the story being developed. It is also possible to smooth the fluctuation of the image and to fuse the background image and the fluctuation pattern.
[0176]
The ROM 68 stores a plurality of pieces of image data having different shapes for the same variation design, and reads them from the CPU 66 and transmits them to the display device 32 as needed, so that the variation design shapes over time during the variation display. It is also possible to display it as it changes.
[0177]
Next, in steps 201 to 203, each image data corresponding to the screen configuration information is read from the ROM 68 by the CPU 66 based on the screen configuration information generated in the RAM 70.
Thereafter, the image data is displayed on the display device 32 according to the priority order, position, and the like displayed in the screen configuration information, and then transmitted to the display device 32 and displayed (step S204).
[0178]
The processes in steps S201 to S204 described above are repeatedly executed until it is determined in step S207, which will be described later, that all symbols belonging to the plurality of sets are stopped and displayed. By repeatedly executing such processing, the symbols can be variably displayed in a predetermined manner, and the character image can also be displayed so as to perform a predetermined action.
[0179]
Next, it is determined whether or not it is time to stop and display symbols belonging to one of the three sets (step S205). When it is determined that it is time to stop and display a symbol, one variable symbol is stopped and displayed (step S206).
In step S205 described above, when it is determined that it is not time to stop and display the symbols, or when the processing of step S206 is executed, it is determined whether or not all symbols belonging to the plurality of sets are stopped and displayed (step S207). ).
[0180]
When it is determined that all symbols belonging to the plurality of sets are not stopped and displayed, the process returns to step S201. On the other hand, if it is determined that all of the symbols have been stopped and displayed, it is next determined whether or not the combination of the symbols of the plurality of variable symbols that have been stopped and displayed matches the combination of symbols that are in the big hit state (step S208). ).
However, as to whether or not the combination of the symbols of the three variable symbols that are stopped and displayed matches the symbol combination that is in the big hit state, the result of the lottery process in steps S122 to S123 described above, or step S124, It is predetermined.
[0181]
In step S208, when it is determined that the combination of symbols of the plurality of variable symbols that are stopped and displayed matches the combination of symbols that will be in the jackpot state, the jackpot state is entered, and the jackpot execution processing subroutine shown in FIG. 11 is executed. For example, the special winning opening is opened a plurality of times (step S209). On the other hand, if it is determined that the combination of the symbols of the plurality of variable symbols that are stopped and displayed does not match the combination of symbols that are in the big hit state, this subroutine is terminated.
[0182]
By executing the above-described variable display game processing routine, the display device 32 performs variable display and stop display of the variable symbols, and further displays a moving image having a certain storyline and the variable display game. There will be a performance that will inspire and intrigue the player.
[0183]
Next, a jackpot execution processing routine that is executed when a jackpot state occurs in step S209 shown in FIG. 10 will be described with reference to FIG.
In the following description, 15 jackpot games are intermittently provided in the jackpot state. In addition, the jackpot game is a game in which a single winning game is performed until ten game balls enter the special winning opening or until a predetermined time elapses after the big winning opening becomes open. To do. Furthermore, one big hit game is also called one round.
[0184]
In this jackpot execution processing routine, first, n, which is the number of jackpot games, is set to n = 1 (step S301). That is, the CPU 66 stores n = 1 in a table (round number storage table) that stores the number of jackpot games provided in the RAM 70.
[0185]
Next, it is determined whether or not it is time to open the special winning opening 38 (step S302).
If it is determined that it is time to open the special winning opening 38, the special winning opening 38 is opened (step S303).
That is, the CPU 66 opens the special prize opening 38 by supplying a drive signal to the solenoid 48 via the interface circuit group 72. Thereby, it becomes possible for the player to insert a game ball into the special winning opening 38.
On the other hand, when it is determined that it is not the timing when the special winning opening 38 is opened, the process returns to step S302.
[0186]
Next, it is determined whether or not a game ball has entered the special winning opening 38 (step S304). Whether or not a game ball has entered the special winning opening 38 is determined by whether or not a gaming ball has been detected by a sensor provided in the special winning opening 38, for example.
When a game ball is detected by a sensor provided in the special winning opening 38, a detection signal is supplied to the interface circuit group. Receiving this detection signal, the CPU 66 stores the number of game balls in a table (large winning port game ball storage table) that stores the number of game balls that have entered the big winning port provided in the RAM 70 (step S305). Further, the payout device 59 is driven to execute a process of paying out the game balls with a predetermined payout number (step S306).
In step S306, the payout device 59 and the control unit that transmits a command signal for paying out the game ball to the payout device 59 receive one game ball in the winning opening, It functions as a payout means for paying out according to the number of payouts.
[0187]
When it is determined in step S304 that no game ball is inserted in the big prize opening 38, or when a process of paying out game balls is executed in step S306, a predetermined number of game balls are then given to the big prize opening 38. Whether or not is entered is determined (step S307). That is, the CPU 66 compares the number of game balls stored in the special winning opening game ball storage table with the predetermined number of game balls (10 balls) stored in another area of the RAM, and enters the special winning opening 38. It is determined whether or not the number of game balls entered is a predetermined number (10 balls).
[0188]
If it is determined that a predetermined number of game balls are not contained in the special winning opening 38, it is determined whether or not a predetermined time has elapsed since the special winning opening 38 is opened (step S308). That is, the CPU 66 determines whether or not the elapsed time started in step S302 has reached a predetermined time.
If it is determined that the predetermined time has not elapsed since the special winning opening 38 is in the open state, the process returns to step S304.
[0189]
On the other hand, when it is determined in step S307 that a predetermined number of game balls have entered the special winning opening 38, or when it is determined that a predetermined time has elapsed in step S308, the special winning opening 38 is closed (step S309). ).
In this way, the opening time of the special winning opening 38 is determined by either the number of game balls that have entered the special winning opening 38 or the time, and if a predetermined number of gaming balls enter the special winning opening 38. Even if the predetermined time has not been reached, the big prize opening 38 is closed. On the other hand, even if the number of game balls that have entered the big prize opening 38 has not reached the predetermined value, if the predetermined time has passed, The mouth 38 is closed.
The special winning opening 38 is closed by supplying a drive signal to the solenoid 48 via the interface circuit group 72.
[0190]
Next, 1 is added to n, which is the number of jackpot games, and n = n + 1 is set (step S310). That is, the CPU 66 stores the number of jackpot games in the round number storage table provided in the RAM 70 so that n = n + 1.
Then, it is determined whether or not the number n of jackpot games is 15 or less (step S311). That is, the CPU 66 first reads the number of jackpot games stored in the round number storage table, compares this number with the data of n = 15 stored in another area of the RAM, and determines the number of jackpot games n. It is determined whether or not n ≦ 15. When it is determined that the number of jackpot games n is n ≦ 15, the process returns to step S302. Therefore, in this subroutine, the big hit game is repeatedly performed until n exceeds 15.
When n, which is the number of jackpot games, exceeds 15, this subroutine is terminated.
In this subroutine, the maximum number of n is 15. However, n is not limited as long as it is a natural number, and may be larger or smaller than 15.
In addition, while the jackpot execution processing routine described above is being executed, the display device 32 displays an effect image for making the player recognize that a jackpot state has occurred and excite the game.
[0191]
As described above, in the pachinko gaming machine according to the first aspect of the present invention, the lottery is performed based on the probability table in which a 100% jackpot is generated when the starting rate falls below a predetermined value. A big hit always occurs when a game ball enters the mouth. As a result, a large amount of game balls are paid out immediately, so that it is possible to avoid a situation in which the starting rate suddenly increases and the starting rate falls below a predetermined value. Therefore, it is possible to omit the inspection of the ball exit rate performed in the test organization, and for example, it can be handled only by the spot inspection.
[0192]
In addition, even when the inclination of a plurality of nails planted on the game board is adjusted, as described above, when the ball-out rate falls below a predetermined value, a large amount of games Since the ball is paid out, it is possible to avoid a situation in which the ball-out rate falls below a predetermined value, and a healthy game can be provided to the player.
[0193]
In the pachinko gaming machine according to the second aspect of the present invention, when the starting rate exceeds a predetermined value, it is not particularly necessary to adjust the starting rate, so a lottery is performed based on the probability table. When the ball rate falls below a predetermined value, a lottery is not performed, and a big hit is forcibly generated. Therefore, a big hit is always generated when a game ball enters the starting port, which immediately causes a large amount of game balls A payout is made. For this reason, it is possible to avoid a situation in which the turnout rate suddenly increases and the turnout rate falls below a predetermined value. Therefore, it is possible to omit the inspection of the ball exit rate performed in the test organization, and for example, it can be handled only by the spot inspection.
In addition, even when the inclinations of a plurality of nails implanted on the game board are adjusted, when a ball-out rate falls below a predetermined value, a large amount of game balls are paid out immediately. Therefore, it is possible to avoid a situation in which the pitching rate falls below a predetermined value, and it is possible to provide a healthy game to the player.
[0194]
In the embodiment described above, a program for controlling a pachinko game, a program for executing a subroutine described with reference to FIGS. 5 to 11, that is, a program for measuring the number of game balls launched, a game ball , A program for measuring the number of game balls that have been paid out, a program for calculating the rate of exit, and the calculated rate of exit being less than a predetermined value, % A program that generates a lottery based on a probability table that generates a jackpot, forcibly generates a jackpot without a lottery, a program that executes a variable display game, and a program that generates a jackpot state Although the case where it was memorize | stored in ROM68 and RAM70 of the pachinko machine 10 was shown, the end connected so that communication was possible with the server In the case of the configuration can be performed pachinko game by machine the operator operation may be of a server and terminal data used in the above-described programs and these programs.
[0195]
In this way, when the server and the terminal are configured, the server has a program for measuring the number of game balls that have been launched, a program for detecting game balls, and a game ball that has been paid out. A lottery based on a probability table in which 100% jackpots are generated when a program for measuring the number, a program for calculating the pitch rate, or the calculated pitch rate falls below a predetermined value. A program that forcibly generates a jackpot without a lottery, a program that executes a variable display game, and a program that generates a jackpot state are stored in advance, and these programs are executed at a predetermined timing. It is sent to the terminal.
[0196]
On the other hand, the terminal temporarily stores these transmitted programs, and appropriately reads and executes the stored programs to advance the pachinko game. Also, a program for controlling pachinko games, a program for measuring the number of game balls that have been launched, a program for detecting game balls, a program for measuring the number of game balls that have been paid out, A lottery is performed based on a probability table in which a 100% jackpot occurs due to the program that calculates the game, or the calculated ball-out rate falls below a predetermined value, or a lottery is not performed and the jackpot is forced. A program to be generated, a program to execute a variable display game, a program to generate a jackpot state is executed on the server side, and a command generated according to the execution result is transmitted to the terminal as a control signal or control information It is good also as transmitting. In this case, the terminal selects or generates an image for playing a pachinko game in accordance with the transmitted control signal and control information, and displays the image on the display unit.
[0197]
The terminal (a control unit provided in the terminal) is configured to make a lottery based on a probability table in which a 100% jackpot is generated when the ball-out rate falls below a predetermined value. The program is also referred to as the program according to the first aspect of the present invention, and the server that makes a lottery based on a probability table in which a 100% jackpot is generated when the turnout rate falls below a predetermined value, It is also referred to as a server according to the present invention. In addition, when the launching rate exceeds a predetermined value, the terminal (a control unit provided in the terminal) makes a lottery based on the probability table. A program that is configured to forcibly generate a jackpot without performing a lottery when the value is less than or equal to a predetermined value is also referred to as a program according to the second aspect of the present invention. When the value exceeds the specified value, a lottery is performed based on the probability table. On the other hand, when the pitching rate is equal to or less than a predetermined value, the lottery is not performed and a big hit is forcibly generated. The server is also referred to as a server according to the second aspect of the present invention.
Further, in the following description, only the program according to the first aspect of the present invention or the server according to the first aspect of the present invention is simply described as an example of the present invention as a program or server according to the present invention. And
[0198]
FIG. 12 is a front view showing an example of a terminal when it is configured as described above.
In the example shown in FIG. 12, the terminal 100 is a general-purpose personal computer, and a player's input operation is input from an input device 102 connected to the terminal 100, for example, a keyboard. The control unit 130 of the terminal 100 includes a CPU 108, a ROM 110, a RAM 112, and the like, which will be described later, and a program for controlling a pachinko game and a program for controlling a variable display game are executed in the control unit 130. .
[0199]
The control unit 130 also has a communication interface circuit 120 (not shown), and the control unit 130 communicates with a server described later via the communication interface circuit 120 and is transmitted from the server. The pachinko game is controlled based on the control signal or control information, the program, and the data, and the variable display game is controlled.
[0200]
Furthermore, a pachinko gaming machine image imitating a pachinko gaming machine as shown in FIG. 12 is displayed on the display device 116 connected to the terminal machine 100, and the pachinko gaming is performed on the pachinko gaming machine image. . On the pachinko gaming machine image, the display unit 132 on which the above-described variable display game is executed is displayed as an image. On the display unit 132, an image of a symbol which is identification information as described above is displayed.
[0201]
Further, as will be described later, when the subroutine shown in FIGS. 5 to 11 and FIGS. 16 to 20 are executed by the control unit 130, the control unit 130 is obtained by the exit rate calculation means. When the ball-out rate is equal to or less than a predetermined value, a lottery is performed based on a probability table in which a 100% jackpot is generated.
[0202]
FIG. 13 is a front view illustrating another example of the terminal. Note that components corresponding to those shown in FIG. 12 are given the same reference numerals.
The example of FIG. 13 shows a portable terminal 140, and a player's input operation is input from an input device 102 provided in the terminal 140, for example, a switch. The control unit 130 (not shown) is provided in the terminal 140, and includes a CPU 108, a ROM 110, a RAM 112, and the like, which will be described later. The control unit 130 controls pachinko games and variable display games. The program is executed.
[0203]
The control unit 130 also has a communication interface circuit 120 (not shown). The control unit 130 communicates with a server (to be described later) via the communication interface circuit 120, and a control signal transmitted from the server or It controls pachinko games and variable display games based on control information, programs, and data.
[0204]
Further, the display device 116 provided on the upper surface of the terminal device 140 is composed of a liquid crystal display panel, and as shown in FIG. 13, a pachinko gaming machine image imitating a pachinko gaming machine is displayed. This pachinko gaming machine image A pachinko game is played above. On the pachinko gaming machine image, the display unit 132 on which the above-described variable display game is executed is displayed as an image. On the display unit 132, an image of a symbol which is identification information as described above is displayed.
[0205]
Further, as will be described later, when the subroutine shown in FIGS. 5 to 11 and FIGS. 16 to 20 are executed by the control unit 130, the control unit 130 is obtained by the exit rate calculation means. When the ball-out rate is equal to or less than a predetermined value, a lottery is performed based on a probability table in which a 100% jackpot is generated.
[0206]
As described above, in the terminal 100 shown in FIG. 12, the display device 116 is configured separately from the control unit 130, and various control signals or control such as display control signals transmitted from the server. The information is supplied to the control unit 130 of the terminal 100, and the control unit 130 generates a display signal based on the supplied control signal or control information, and supplies the generated display signal to the display device 116.
[0207]
Meanwhile, the terminal 140 shown in FIG. 13 is configured integrally with the display device 116, and a control signal or control information such as a display control signal transmitted from the server is supplied to the control unit 130 of the terminal 140. Then, the control unit 130 generates a display signal based on the supplied control signal or control information, and supplies the generated display signal to the display device 116. The embodiment described below can be applied to a configuration in which the control unit of the terminal and the display device are separate or integrated.
[0208]
FIG. 14 is a block diagram illustrating a configuration of the terminal 100 or 140 (hereinafter referred to as a pachinko gaming terminal device). FIG. 15 is a block diagram showing a configuration of a server 80 that is connected to the pachinko gaming terminal device via a communication line and supplies various control signals or control information and data to the pachinko gaming terminal device.
[0209]
An input device 102 for inputting a player's operation, for example, a keyboard and a switch, is connected to the interface circuit 104 of the pachinko gaming terminal device 100, and the interface circuit 104 is connected to the input / output bus 106. A data signal or an address signal is input / output to / from a central processing circuit (hereinafter referred to as CPU) 108 via the input / output bus 106. A ROM 110 and a RAM 112 are also connected to the input / output bus 106. The ROM 110 and the RAM 112 store programs as will be described later and image data to be displayed on the display device 116.
[0210]
An interface circuit group 114 is also connected to the input / output bus 106. A display device 116 and a speaker 118 are connected to the interface circuit group 114, and the interface circuit group 114 supplies a display signal and an audio signal to each of the display device 116 and the speaker 118 according to the result of arithmetic processing in the CPU 108. To do.
[0211]
Further, a communication interface circuit 120 is also connected to the input / output bus 106. The communication interface circuit 120 is for communicating with a server 80 (to be described later) via a communication line such as a public telephone line network or a local area network (LAN).
[0212]
On the other hand, the server 80 includes a hard disk drive 88, a CPU 82, a ROM 84, a RAM 86, and a communication interface circuit 90 as shown in FIG. The hard disk drive 88 includes a program for communicating with a pachinko gaming terminal device, a program for receiving information issued from the pachinko gaming terminal device, a program for controlling pachinko gaming, and a variable display game. Store the program to be controlled. The communication interface circuit 90 is for communicating with the pachinko gaming terminal devices 100 and 140 described above via a communication line such as a public telephone line network or a local area network (LAN).
[0213]
In the case of the configuration as described above, the pachinko gaming machine image imitating the pachinko gaming machine shown in FIG. 12 or 13 is displayed on the display device 116 of the pachinko gaming terminal device 100, and the game board surface, the holding lamp An image showing devices such as a decoration lamp, a display unit 132 for playing a variable display game, a display unit 152 for displaying a normal symbol, and an image showing a game ball are displayed on the display device 116. In the display unit 132 for executing the variable display game, when the variable display game is executed, an image of a symbol as identification information is displayed.
[0214]
Hereinafter, subroutines executed by each of the pachinko gaming terminal device and the server are shown in FIGS.
[0215]
In the following, it is assumed that the pachinko gaming terminal device 100 or 140 and the server 80 are activated in advance and are in steady operation. It is assumed that the variables used in the CPU 108 and CPU 82 described above are initialized to predetermined values. In the following description, devices such as a winning opening, a starting port, a ball passage detector, and game balls are displayed on the display device 116 as images.
[0216]
A program for controlling a pachinko game and a program for executing a variable display game are stored in advance in the ROM 110 of the pachinko game terminal device 100 or 140, and various image data required as the pachinko game progresses. FIGS. 16 to 20 show subroutines executed in the pachinko gaming terminal device 100 or 140 and the server 80 in the case where only the server 80 is appropriately transmitted.
[0217]
FIG. 16 is a subroutine executed in order to calculate the pitching rate, and is a subroutine executed in the pachinko gaming terminal device 100 or 140. This subroutine is read from the ROM 110 and executed at a predetermined timing from the main routine.
[0218]
First, the number of game balls launched on the game board (launch detection number A) stored in the RAM 112 is set to 0 (step S150), and the number of game balls dispensed (payout detection number B) is further set. Set to 0 (step S151).
[0219]
Next, it is determined whether or not a game ball has been launched (step S152). That is, the CPU 108 determines whether or not a player's input operation is input from the input device 102 provided in the terminal 100 or 140.
If it is determined that a game ball has been launched, 1 is added (incremented) to the number of detected fires A stored in the RAM 112, and A + 1 is accumulated and stored in the RAM 112 (step S153).
[0220]
Next, it is determined whether or not the game ball has been paid out (step S154). That is, whether or not a game ball has been paid out by executing the process of step S34 or S41 described later, or whether or not the game ball has been paid out by executing the process of step S306 shown in FIG. to decide.
When it is determined that the game ball has been paid out, 1 is added (incremented) to the payout detection number B stored in the RAM 112, and B + 1 is accumulated and stored in the RAM 112 (step S155).
[0221]
Next, it is determined whether or not a predetermined period has elapsed since the execution of the process of step S151 (step S156). If it is determined that the predetermined period has not elapsed, the process returns to step S152, and the processes of steps S152 to S155 are performed again.
[0222]
As described above, by repeatedly executing the processes of steps S152 to S156 until it is determined in step S156 that the predetermined period has elapsed, the number of game balls shot out during the predetermined period and the paid out game balls Can be measured.
If it is determined in step S156 that it is the timing to calculate the pitching rate, the number of detected shots A stored in the RAM 112 and the number of detected payouts B stored in the RAM 112 are read out and the above equation (1) A process of calculating the ball exit rate is performed (step S157).
[0223]
Next, the exit rate calculated in step S157 is stored in the RA 112 (step S158), and this subroutine is terminated.
When the subroutine shown in FIG. 16 is executed, the control unit 130 (CPU 108) of the pachinko gaming terminal device 100 or 140 gives out a game ball measuring means for obtaining the number of game balls that have been shot out. It functions as a payout game ball measuring means for obtaining the number of game balls, and a exit rate calculating means for calculating the exit rate from these numbers.
[0224]
FIG. 17 is a subroutine executed in the pachinko gaming terminal device 100 or 140. In the following description, it is assumed that the subroutine is read from the ROM 110 and executed at a predetermined timing from the main routine. It is assumed that this main routine includes in advance a program necessary for communication with the server 80 such as a program for determining whether or not communication with the server 80 is possible.
[0225]
First, a pachinko game is started by a player's operation, and a game program is executed (step S32). This game program includes a game program for controlling a pachinko game, a program for calculating a pitch rate, and a probability table in which a 100% jackpot is generated when the calculated pitch rate falls below a predetermined value. Including a program for performing a lottery based on this, a program for performing a variable display game and a jackpot execution process, and also a pachinko machine image imitating a pachinko game machine, a background image, and a fluctuating image And a character image are displayed on the display device 116.
[0226]
Further, when a game program is executed in the pachinko gaming terminal device 100 or 140, it is detected that the player has operated the input device 102. When it is detected that the player has operated the input device 102, as described above, the display device 116 of the pachinko gaming terminal device 100 or 140 displays a pachinko gaming machine image simulating a pachinko gaming machine. A display unit 132 for displaying the variable display game is also displayed on the machine image.
[0227]
Further, when the player operates the input device 102 to fire a game ball, an image of the game ball that can be viewed so that the game ball moves on the game board surface is displayed on the pachinko gaming machine image.
[0228]
Next, it is determined whether or not a game ball has entered the winning opening (step S33). This winning opening is an image portion corresponding to the general winning openings 50 and 54a to 54d and the special winning openings 56a to 56d shown in FIG.
[0229]
When it is determined that a game ball has entered the winning opening, a process of paying out the game ball with a predetermined payout number P is executed (step S34). It should be noted that the payout number P may be set individually according to the type of winning a prize opening, or may all be the same. Further, in the process of step S34, the pachinko gaming terminal device 100 or 140 stores the number of game balls in the RAM 112 even if the number of game balls is displayed at some position on the display device 116. It is good.
[0230]
Next, it is determined whether or not a game ball has entered the start port (step S35). This start port is, for example, an image portion corresponding to the start port 44 shown in FIG. 2 described above.
When it is determined in this step S35 that a game ball has entered the starting port, a process of paying out the game ball with a predetermined payout number Q is executed (step S41).
[0231]
Next, the CPU 108 reads the exit rate stored in the RAM 112 in step S158 described above, and determines whether or not the exit rate is equal to or less than a predetermined value (step S42).
When it is determined that the turnout rate is equal to or less than a predetermined value, a lottery is performed based on a probability table in which 100% jackpot is generated (step S43).
That is, the CPU 66 uses the probability table for 100% jackpot set in the RAM 70 and uses the data corresponding to the numerical value obtained as a result of random number sampling as the lottery result. In this lottery table, Because the data corresponding to is a jackpot, if a game ball enters the start opening, a jackpot will occur
The
[0232]
In this way, when it is determined that the ball-out rate has become equal to or less than a predetermined value, a big hit will be generated each time a game ball enters the start opening, so a lot of big hits will occur continuously, depending on the case A case where a predetermined upper limit is exceeded is also conceivable. Therefore, it is usually necessary to determine the number of times that a jackpot is generated, and to return the probability table to the initial one when a predetermined number of jackpots has occurred.
[0233]
Further, the predetermined value is not particularly limited, and may be 33% which is the lower limit value of the starting rate in a short time, or may be 50% which is the lower limit value of the starting rate in a long time. Also, 35% and 53%, which are lower limit values, may be used. Among these, 33% and 35% are preferable.
[0234]
On the other hand, when it is determined that the value is not less than the predetermined value, a lottery is performed based on the initially set probability table (step S44).
That is, the CPU 66 uses, as a lottery result, data corresponding to a numerical value obtained as a result of random number sampling using the initially set probability table set in the RAM 70.
[0235]
Next, a variable display game described later is executed (step S36).
When the process of step S34 or S41 is being executed, the control unit 130 (CPU 108) of the pachinko gaming terminal device 100 or 140 determines that one game ball image has been included in the winning opening image. It functions as a payout means for paying out a ball with a predetermined payout number.
[0236]
Next, it is determined whether or not the game ball has passed through the ball passage detector (step S37). This spherical passage detector is, for example, an image portion corresponding to the spherical passage detectors 55a and 55b shown in FIG. 2 described above.
[0237]
In this step S37, when it is determined that the game ball has passed through the ball passage detector, a process for variably displaying the normal symbol on the display device 52 is executed (step S38). As described above, when the variably displayed normal symbol becomes a predetermined symbol when stopped, an image that can be viewed so that the starter 44 is opened by driving the movable pieces 58a and 58b is displayed. Thus, the game ball can easily enter the start port 44.
[0238]
Next, it is determined whether or not the game has ended (step S39). Whether or not the game has ended is determined when it is detected that the player has operated the input device 102 to end the game or when a predetermined number of game balls have been fired on the game board surface. When it is done, it is determined that the game is over. If it is determined that the game has not ended, the process returns to step S32 described above.
[0239]
On the other hand, when it is determined that the game has ended, game results indicating the number of game balls fired, the number of game balls repaid, and the like, and game end information indicating that the game has ended are transmitted to the server 80 (step S40). ), This subroutine is terminated.
[0240]
FIG. 18 is a flowchart showing a subroutine for processing the variable display game that is called and executed in step S36 of the subroutine shown in FIG.
In the flowchart shown in FIG. 18, the same reference numerals are given to steps that perform the same processes as those in the flowchart shown in FIG. 10.
[0241]
First, information indicating that the subroutine is called and the execution of the variable display game is started is transmitted to the server 80 (step S61).
Next, it receives from the server 80, for example, a fluctuating symbol image that is an identification information image required in the variable display game, a background image, image data to be a character image, a control program, and the like (step S62).
Further, in step S210, which will be described later, image data and a control program, which are effect images displayed on the display unit 132 when the jackpot execution process is started and a jackpot state is generated, from the server 80 in this step S62. Receive.
Note that the image data and the control program used when the jackpot execution process is started may be received from the server 80 when the jackpot execution process is started.
[0242]
Next, an internal lottery process is executed by a calculation process of the CPU 108 of the pachinko gaming terminal device 100 or 140 (step S200). This internal lottery process is a process for predetermining a combination of symbols when symbols are fixed by stopping and displaying all symbols belonging to a plurality of sets that are variably displayed according to the results of the lottery in steps S44 to S45. As will be described later, the symbol variation display and the stop display are performed so that the symbols are stopped and displayed on the display unit 132 by the combination of symbols determined by the internal lottery process.
[0243]
In the present invention, when it is determined that the starting rate is below a predetermined value, a lottery is performed based on a probability table in which a 100% jackpot is generated in S44. Process.
[0244]
Next, the control program is executed by the CPU 108, and based on the result, the background image is selected, the screen configuration information of the background image is generated (step S201), the character image is selected, and the character image Screen configuration information is generated (step S202), and the screen configuration information of the variation symbol as identification information is generated (step S203).
[0245]
Next, it is determined whether or not it is time to stop and display symbols belonging to one group among a plurality of, for example, three groups (step S204). When it is determined that it is time to stop and display a symbol, a variation symbol image is selected in a manner in which one symbol is stopped and displayed, and screen configuration information is generated (step S205).
[0246]
Then, based on the generated screen configuration information, necessary image data is read out from the image data received in step S62 and converted into image data to be displayed on the display unit 132, and then displayed on the display unit. (Step S206).
[0247]
By repeating the processes of steps S201 to S206 described above, a normal image including a background image and a character image is displayed on the display unit 132 displayed on the display device 116.
[0248]
Next, it is determined whether or not all symbols belonging to a plurality of groups have been stopped and displayed (step S207). If it is determined that all symbols belonging to the plurality of sets are not stopped and displayed, the process returns to step S201.
On the other hand, if it is determined in step S207 that all of the symbols belonging to the plurality of sets have been stopped and displayed, whether or not the combination of the symbols of the plurality of variable symbols that have been stopped and displayed matches the combination of symbols that are in the big hit state It is determined whether or not (step S208).
However, whether or not it is a big win, that is, whether or not the combination of the three variable symbols that are stopped and displayed matches the combination of the big winning symbols is the lottery process in the above-described steps S44 to S45. The result is predetermined.
[0249]
In step S208, if it is determined that the combination of the symbols of the plurality of variable symbols that are stopped and displayed matches the combination of symbols that will be in the jackpot state, the jackpot state is entered, and the jackpot execution processing subroutine shown in FIG. 18 is executed. For example, the winning prize opening image is in a state of being opened a plurality of times (step S209). On the other hand, if it is determined in step S208 that the combination of symbols of the plurality of variable symbols that are stopped and displayed does not match the combination of symbols that are in the big hit state, or if the process of step S209 is executed, variable display is performed. Information indicating that the game is over and result information of the variable display game are transmitted to the server 80 (step S64), and this subroutine is finished. Note that the game result information in the jackpot state may be transmitted to the server 80 when the jackpot execution process described later is completed.
[0250]
FIG. 19 is a flowchart showing a jackpot execution process subroutine that is called and executed in step S209 of the variable display game process routine shown in FIG. In the flowchart shown in FIG. 19, steps that perform the same processing as the steps in the flowchart shown in FIG.
In the following description, it is assumed that 15 jackpot games are provided intermittently in the jackpot state. In addition, the jackpot game is a game in which a single winning game is performed until ten game balls enter the special winning opening or until a predetermined time elapses after the big winning opening becomes open. To do. Furthermore, one big hit game is also called one round.
[0251]
In this jackpot execution processing routine, first, n, which is the number of jackpot games, is set to n = 1 (step S301). That is, the CPU 108 stores n = 1 in a table (round number storage table) that stores the number of jackpot games provided in the RAM 112.
[0252]
Next, it is determined whether or not it is the timing when the special winning opening image is in an open state (step S302).
When it is determined that it is the timing at which the winning image is in an open state, the winning image is displayed in an open state (step S303). Thereby, it becomes possible for the player to insert a game ball into the big prize opening.
On the other hand, when it is determined that it is not the timing at which the winning image is in the open state, the process returns to step S302.
[0253]
Next, it is determined whether or not the game ball image is overlapped with the special winning opening image (step S304). When it is determined that the game ball image is overlapped with the big winning opening image, the CPU 108 stores a number of gaming balls that have entered the big winning opening provided in the RAM 112 (large winning mouth gaming ball storage table). The number of game balls is stored in (Step S305).
Next, a process of paying out a predetermined number of game balls is executed according to the number of game balls that have entered the big prize opening stored in the big prize opening game ball storage table (step S306). In the process of step S306, the pachinko gaming terminal device 100 or 140 stores the number of game balls in the RAM 112 even if the number of game balls is displayed at some position on the display device 116. It is good.
[0254]
On the other hand, if it is determined that the game ball does not overlap the big winning opening image, it is next determined whether or not a predetermined number of gaming balls have entered the big winning opening (step S307). That is, the CPU 108 compares the number of game balls stored in the special winning opening game ball storage table with the predetermined number of game balls (ten balls) stored in another area of the RAM, and enters the special winning opening. It is determined whether or not there is a predetermined number (10 balls) of game balls.
[0255]
When it is determined that a predetermined number of game balls are not in the big winning opening, it is determined whether or not a predetermined time has elapsed since the big winning opening image is in an open state (step S308). That is, the CPU 108 determines whether or not the elapsed time started in step S302 has reached a predetermined time.
If it is determined that a predetermined time has not elapsed since the big prize opening image is in the open state, the process returns to step S304.
[0256]
On the other hand, when it is determined in step S307 that a predetermined number of game balls have entered the special winning opening, or when it is determined that a predetermined time has elapsed in step S308, the special winning opening image is set in a closed state. (Step S309).
In this way, the opening time of the image of the winning a prize opening is determined by either the number of game balls that have entered the winning a prize opening or the time, and if a predetermined number of gaming balls enter the winning prize opening, the predetermined time is determined. Even if the time has not been reached, the image of the big prize opening is in a closed state. On the other hand, if the number of game balls that have entered the big prize opening has not reached the predetermined value, The winning opening image is in a closed state.
[0257]
Next, 1 is added to n, which is the number of jackpot games, and n = n + 1 is set (step S310). That is, the CPU 108 stores the number of rounds stored in the RAM 112 so that n = n + 1.
Then, it is determined whether or not the number n of jackpot games is 15 or less (step S311). That is, the CPU 108 first reads the number of jackpot games stored in the round number storage table, compares this number with data of n = 15 stored in another area of the RAM, and determines the number of jackpot games n. It is determined whether or not n ≦ 15. When it is determined that the number n of jackpot games is n ≦ 15, the process returns to step S302. Therefore, in this subroutine, the big hit game is repeatedly performed until n exceeds 15.
On the other hand, when it is determined that n, which is the number of jackpot games, exceeds 15, this subroutine is terminated.
[0258]
While the jackpot execution processing routine described above is being executed, the display unit 132 displays an effect image for making the player recognize that a jackpot state has occurred and for exciting the game.
[0259]
FIG. 20 is a flowchart showing a subroutine executed in the server 80 in response to a terminal-side processing routine executed in the pachinko gaming terminal device 100 or 140 as shown in FIG. The server 80 is activated in advance, and the subroutine shown in FIG. 20 is called from a main routine that is executed in advance and executed.
[0260]
First, it is determined whether or not information indicating that the variable display game is started is received in the pachinko gaming terminal device 100 or 140 (step S71). If it is determined that the information indicating that the variable display game has been started has not been received, this subroutine is immediately terminated.
[0261]
On the other hand, when it is determined that the information indicating that the variable display game has been started has been received, the image of the variable symbol, which is an identification information image required in the variable display game, the background image, and the character image And a control program etc. are transmitted to the terminal device 100 or 140 for pachinko games (step S72). This step S72 corresponds to the process of step S62 shown in FIG.
[0262]
Next, it is determined whether or not information indicating that the variable display game has ended is received (step S75). The process in step S75 is a process corresponding to the process in step S64 in FIG. If it is determined in step S75 that information indicating that the variable display game has ended is not received, the process returns to step S75. On the other hand, when it is determined that the information indicating that the variable display game is ended is received, this subroutine is ended.
[0263]
In the case of the above-described configuration, when the starting rate obtained by the starting rate calculating means is equal to or less than a predetermined value, a lottery is performed based on a probability table in which 100% jackpot occurs. In addition, the server 80 transmits to the pachinko gaming terminal device 100 or 140 the image of the fluctuation pattern that is the identification information image, the background image, the image data that becomes the character image, the control program, and the like. The pachinko gaming terminal device 100 or 140 is controlled.
[0264]
In the present invention, as described with reference to FIGS. 16 to 19, the program for controlling the pachinko game, the program for calculating the ball-out rate, and the calculated ball-out rate are below a predetermined value. A program for performing a lottery based on a probability table in which a 100% jackpot is generated, forcibly generating a jackpot without a lottery, a program for performing a variable display game and a jackpot execution process Can be stored in advance in the ROM 110 of the pachinko gaming terminal device 100 or 140, and only various image data and sound data required as the pachinko game progresses can be appropriately transmitted from the server 80. However, in the present invention, various programs stored in a storage medium such as the hard disk drive 88 of the server 80 are used. The beam supplied server 80 pachinko gaming terminal apparatus 100 or 140 can be configured to execute the program supplied in the pachinko gaming terminal apparatus 100 or 140.
[0265]
In the case of the configuration as described above, a program for executing the pachinko game and various image data are always transmitted from the server 80 before the game is started in the pachinko game terminal device 100 or 140. When the program or image data is updated in the server 80, the player can always enjoy the latest game.
[0266]
In such a configuration, when the starting rate obtained by the starting rate calculating means is equal to or less than a predetermined value, a lottery is performed based on a probability table in which 100% jackpot occurs. Various kinds of image data necessary for executing the program and the game are stored in a computer-readable storage medium such as the hard disk drive 88 of the server 80.
[0267]
In the present invention, only the game program for controlling the pachinko game and the program for executing the variable display game are transmitted from the server 80, and the image data and the sound data are stored in the ROM 110 of the pachinko game terminal device 100 or 140. It is also possible to adopt a configuration in which necessary image data and sound data are stored in advance and read out from the ROM 110 as appropriate.
[0268]
In such a configuration, when the starting rate obtained by the starting rate calculating means is equal to or less than a predetermined value, a lottery is performed based on a probability table in which 100% jackpot occurs. The program is stored in a computer-readable storage medium such as the hard disk drive 88 of the server 80.
[0269]
In addition, when the variable display game is started, a control program for executing the variable display game is always downloaded, so that the player can enjoy the latest variable display game and download image data and sound data. Therefore, it is possible to promptly display the effect image on the display device 116 of the pachinko gaming terminal device 100 or 140, and it is possible to quickly output the sound according to the game situation from the speaker 118. .
[0270]
Further, in the present invention, the server 80 stores programs such as a program for controlling a pachinko game and a program for executing a variable display game, and image data required for the pachinko game and the variable display game is stored in the pachinko game. It is also possible to adopt a configuration in which the ROM 110 of the terminal device 100 or 140 for use is stored.
At this time, the progress of the pachinko game is performed by the server 80, the pachinko game terminal device 100 or 140 selects an image according to the control signal or control information transmitted according to the progress of the pachinko game performed in the server 80, The selected image is displayed on the display device 116.
[0271]
In such a configuration, when the starting rate obtained by the starting rate calculating means is equal to or less than a predetermined value, a lottery is performed based on a probability table in which 100% jackpot occurs. As described above, the server 80 controls the pachinko gaming terminal device 100 or 140.
[0272]
In the embodiment shown in FIG. 15 to FIG. 20 described above, only the display part 132 displayed on the image of the pachinko gaming machine imitating the pachinko gaming machine displayed on the display device 116 is the image of the changing symbol. Although the background image and the character image are displayed, it is also possible to display the image of the changing pattern, the background image, and the character image on the entire surface of the display device 116.
[0273]
【The invention's effect】
According to the first aspect of the present invention, when the numerical value relating to the number of game media is equal to or less than a predetermined value, a lottery is performed based on a probability table in which a 100% jackpot is generated. As a result, since a large amount of game media is paid out immediately, the numerical value relating to the number of gaming media immediately rises, and a situation in which the numerical value relating to the number of gaming media falls below a predetermined value can be avoided. Therefore, it is possible to omit the inspection of the ball exit rate performed in the test organization, and for example, it can be handled only by the spot inspection.
[0274]
In addition, when a lottery is performed based on a probability table in which 100% jackpots are generated, each time a predetermined condition is satisfied, a jackpot will be generated, so a large number of jackpots will be generated continuously. A case where a predetermined upper limit is exceeded is also conceivable. Therefore, it is usually necessary to determine the number of times that a jackpot is generated, and to return the probability table to the initial one when a predetermined number of jackpots has occurred. The above-defined value is not particularly limited. For example, the lower limit value of the pitching rate and the lower limit value are set as reference values, which are slightly higher than the reference values (hereinafter referred to as lower limit vicinity values). ) Etc. In the present invention, the determined value is preferably the lower limit vicinity value. This is because if the above-described processing is performed when the lower limit value is reached, the lower limit value can be prevented.
Further, for example, in a pachinko machine, even when the inclination of a plurality of nails planted on the game board is adjusted, as described above, the exit rate is equal to or less than a predetermined value. Since a large amount of game balls are paid out immediately, a situation in which the numerical value related to the number of game media falls below a predetermined value can be avoided, and a healthy game can be provided to the player. it can.
[0275]
According to the second aspect of the present invention, when the numerical value relating to the number of game media exceeds a predetermined value, it is not particularly necessary to adjust the numerical value relating to the number of game media. However, when the numerical value related to the number of game media falls below a predetermined value, a lottery is not performed, and a big hit is forced, so a big hit will always occur every time a predetermined condition is met. A large amount of game media is paid out immediately. For this reason, it is possible to avoid a situation in which the numerical value related to the number of game media suddenly increases and the numerical value related to the number of game media falls below a predetermined value. Therefore, it is possible to omit the inspection of the ball exit rate performed in the test organization, and for example, it can be handled only by the spot inspection.
Further, for example, in a pachinko machine, even when the inclination of a plurality of nails planted on the game board is adjusted, as described above, the exit rate is equal to or less than a predetermined value. Since a large amount of game balls are paid out immediately, a situation in which the numerical value related to the number of game media falls below a predetermined value can be avoided, and a healthy game can be provided to the player. it can.
[0276]
In addition, according to the pachinko gaming machine according to the first aspect of the present invention as described above, when the starting rate falls below a predetermined value, a lottery is performed based on a probability table in which 100% jackpot occurs. Therefore, a big hit always occurs when a game ball enters the start opening. As a result, a large amount of game balls are paid out immediately, so that it is possible to avoid a situation in which the starting rate suddenly increases and the starting rate falls below a predetermined value. Therefore, it is possible to omit the inspection of the ball exit rate performed at the test site, and for example, it is possible to cope with only the spot inspection.
[0277]
In addition, even when the inclination of a plurality of nails planted on the game board is adjusted, as described above, when the ball-out rate falls below a predetermined value, a large amount of games Since the ball is paid out, it is possible to avoid a situation in which the ball-out rate falls below a predetermined value, and a healthy game can be provided to the player.
[0278]
In addition, according to the pachinko gaming machine according to the second aspect of the present invention as described above, when the starting rate exceeds a predetermined value, it is not particularly necessary to adjust the starting rate. Based on the fact that lottery is performed and the ball-out rate falls below a predetermined value, the lottery is not performed and the game is forced to a big hit. As a result, a large amount of game balls are paid out immediately. For this reason, it is possible to avoid a situation in which the turnout rate starts to rise at a stretch, and the turnout rate falls below a predetermined value, and the inspection of the turnout rate performed at the test site can be omitted. It can be made possible only by spot inspection. In addition, even when the inclinations of a plurality of nails implanted on the game board are adjusted, when a ball-out rate falls below a predetermined value, a large amount of game balls are paid out immediately. Therefore, it is possible to avoid a situation in which the pitching rate falls below a predetermined value, and it is possible to provide a healthy game to the player.
[Brief description of the drawings]
FIG. 1 is a front view schematically showing a pachinko gaming machine according to the present invention.
FIG. 2 is an enlarged front view schematically showing a gaming board surface of a pachinko gaming machine according to the present invention.
FIG. 3 is an explanatory diagram for explaining fire ball detection and return ball detection in a pachinko gaming machine according to the present invention.
FIG. 4 is a block diagram showing a control circuit of a pachinko gaming machine that is an embodiment according to the present invention.
FIG. 5 is a flowchart showing a subroutine of a process for measuring the number of game balls hit.
FIG. 6 is a flowchart showing a subroutine of a process for measuring the number of paid out game balls.
FIG. 7 is a flowchart showing a subroutine of a process for calculating a pitching rate executed in a pachinko gaming machine.
FIG. 8 is a flowchart showing a subroutine of processing for detecting a game ball executed in a pachinko gaming machine.
FIG. 9 is a flowchart showing another example of a subroutine of processing for detecting a game ball executed in a pachinko gaming machine.
10 is a flowchart showing a subroutine of variable display game processing that is called and executed in step S14 of the flowcharts shown in FIGS. 8 and 9. FIG.
FIG. 11 is a flowchart showing a jackpot processing routine in a subroutine of variable display game processing.
FIG. 12 is an overview showing an example of a terminal for pachinko gaming.
FIG. 13 is an overview diagram showing another example of a pachinko gaming terminal.
FIG. 14 is a block diagram showing a control circuit of a pachinko gaming terminal device according to an embodiment of the present invention.
FIG. 15 is a block diagram illustrating a server control circuit according to an embodiment of the present invention.
FIG. 16 is a flowchart showing a subroutine for performing a pitching rate calculation process executed in the pachinko gaming terminal device 100 or 140;
FIG. 17 is a flowchart showing a subroutine executed in the pachinko gaming terminal device 100 or 140;
FIG. 18 is a flowchart showing a subroutine for performing variable display game processing executed in the pachinko gaming terminal device 100 or 140;
FIG. 19 is a flowchart showing a subroutine for performing a jackpot process executed in the pachinko gaming terminal device 100 or 140;
FIG. 20 is a flowchart showing a subroutine executed in the server 80 according to the embodiment of the present invention.
[Explanation of symbols]
10 Pachinko machines
32 Display device (display unit)
53 Dispensing ball detection sensor
60 Control circuit
61 Launching ball passage detector
65 Return ball detection switch
66 CPU (control unit)
64 I / O bus
68 ROM
70 RAM
80 servers
100 Pachinko game terminal device (terminal)
132 Display section
140 Pachinko gaming terminal device (terminal)

Claims (9)

A jackpot lottery means for performing a jackpot lottery for determining whether or not to generate a jackpot based on a probability table stored in the storage means in response to the predetermined condition being satisfied,
The number of input game media for obtaining the number of game media used in the game, the number of payout game media for obtaining the number of game media to be paid out, and a numerical value relating to the number of game media from these numbers A gaming machine comprising a calculating means for calculating,
The jackpot lottery means performs a jackpot lottery based on the probability table in which a 100% jackpot is generated when the numerical value obtained by the calculating means is equal to or less than a predetermined numerical value. A jackpot lottery means for performing a jackpot lottery for determining whether or not to generate a jackpot based on a probability table stored in the storage means in response to the predetermined condition being satisfied,
The number of input game media for obtaining the number of game media used in the game, the number of payout game media for obtaining the number of game media to be paid out, and a numerical value relating to the number of game media from these numbers A gaming machine comprising a calculating means for calculating,
The jackpot lottery means performs a jackpot lottery based on a probability table when the numerical value obtained by the calculating means exceeds a predetermined numerical value,
On the other hand, when the numerical value is equal to or less than a predetermined value, the jackpot lottery is not performed and the jackpot is forcibly generated. The calculation means calculates a difference between the number of game media used for the game and the number of game media paid out from the numbers obtained by the number of input game media and the number of payout game media. The gaming machine according to claim 1 or 2 to be calculated. The calculation means calculates a ratio of the number of game media paid out to the number of game media used in the game from the numbers obtained by the number of input game media and the number of payout game media. The gaming machine according to claim 1 or 2. A prize opening provided on the game board, and when a game ball enters, a predetermined number of game balls are paid out;
And a starter for performing a lottery to determine whether or not to generate a jackpot based on the probability table stored in the storage means by entering the game ball,
Launched game ball measuring means for obtaining the number of game balls that have been launched, paid-out game ball measuring means for obtaining the number of game balls that have been paid out, and the exit rate for calculating the launch rate from these numbers A gaming machine comprising a calculating means,
When the exit rate obtained by the exit rate calculating means is not more than a predetermined value,
A gaming machine, wherein a lottery is performed based on the probability table in which a 100% jackpot is generated. A prize opening provided on the game board, and when a game ball enters, a predetermined number of game balls are paid out;
And a starter for performing a lottery to determine whether or not to generate a jackpot based on the probability table stored in the storage means by entering the game ball,
Launched game ball measuring means for obtaining the number of game balls that have been launched, paid-out game ball measuring means for obtaining the number of game balls that have been paid out, and the exit rate for calculating the launch rate from these numbers A gaming machine comprising a calculating means,
When the exit rate obtained by the exit rate calculating means exceeds a predetermined value, a lottery is performed based on the probability table,
On the other hand, the game machine is characterized in that the lottery is not performed and the jackpot is forcibly generated when the pitching rate becomes equal to or less than a predetermined value. The gaming machine according to claim 5 or 6, wherein the predetermined value of the pitching rate is 33%. A control program for causing a terminal to display a moving image, a still image, or an image obtained by combining these as appropriate according to at least the gaming situation of the gaming machine,
When the game board image, the game ball image corresponding to the game ball, and the game ball image overlap with the image, it is determined that the game ball image is included in the image, and a predetermined number of game balls are paid out. Whether or not to generate a jackpot based on the probability table stored in the storage means when it is determined that the game ball image is included in the image when the game ball image overlaps the image A start opening image is displayed that allows a lottery to be determined.
The terminal has a launch game ball measurement means for obtaining the number of game balls that have been launched, a payout game ball measurement means for obtaining the number of game balls that have been dispensed, and a launch rate from these numbers. Function as a means to calculate the starting rate to calculate,
When the starting rate obtained by the starting rate calculating means is equal to or less than a predetermined value, the lottery is performed based on the probability table in which 100% jackpot is generated. A featured program. A server that controls each terminal to display at least an image indicating the gaming state of the gaming machine,
When the game board image, the game ball image corresponding to the game ball, and the game ball image overlap with the image, it is determined that the game ball image is included in the image, and a predetermined number of game balls are paid out. Whether or not to generate a jackpot based on the probability table stored in the storage means when it is determined that the game ball image is included in the image when the game ball image overlaps the image A start opening image is displayed that allows a lottery to be determined.
The terminal has a launch game ball measurement means for obtaining the number of game balls that have been launched, a payout game ball measurement means for obtaining the number of game balls that have been dispensed, and a launch rate from these numbers. The terminal is controlled to function as an exit rate calculating means for calculating, and further,
When the starting rate obtained by the starting rate calculating means becomes equal to or less than a predetermined value, the terminal is controlled to perform a lottery based on the probability table in which 100% jackpot is generated. A server characterized by that.

Images