JP3568716B2 - Gaming machine - Google Patents

Description

[0001]
TECHNICAL FIELD OF THE INVENTION
BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a gaming machine that controls a game mode using a control device such as a microcomputer (hereinafter, referred to as a microcomputer), and in particular, variably displays a plurality of symbols (symbols) by a rotating body driven by a stepping motor. And a gaming machine such as a poker game machine.
[0002]
[Prior art]
2. Description of the Related Art Conventionally, in a slot machine in which a spinning unit composed of a plurality of reels is rotationally driven by a stepping motor, when the spinning unit is stopped, the stepping motor is operated by a player or in response to a stop command generated automatically. Is supplied with a predetermined excitation signal to stop the stepping motor (for example, Japanese Utility Model Publication No. 5-32145). The time until the excitation of the stop of the stepping motor is started by the supply of the excitation signal (the number of “slip” in a symbol described later) is a random number sampling performed based on a start signal generated by a player's operation at the start of the game. And the timing at which the stop command is generated.
[0003]
If the result of the determination is a prize, the control unit of the slot machine attempts to arrange the winning configuration symbols on the activated prize line as much as possible. A so-called "slip" often occurs, in which a symbol located in a position far from the timing at which the stop command is generated is also moved.
[0004]
Conversely, if the result of the determination is not a winning, it is only necessary to cause a symbol that does not constitute a winning to appear on the activated winning line. In many cases, the design of the torso is stopped as it is.
[0005]
[Problems to be solved by the invention]
Therefore, in the conventional slot machine, when the above determination result is a prize, the symbol "slip" becomes large, and when the result is not a prize, the symbol "slip" is absent. Because an extreme difference occurs, after the stop command is issued, the player pays attention to only the "slip" of the symbol, if there is "slip", it is a prize, if there is no "slip", it is "losing", The game seemed monotonous.
[0006]
In addition, since the excitation signal for stopping the stepping motor is uniform, the manner in which the excitation signal is supplied to the stepping motor and the actual rotation of the body is stopped is the same in all cases. Furthermore, if the "slip" is a difference between one symbol and four symbols, the player can clearly recognize, but since the movement time for one symbol is usually only about 35 msec, the symbol 1 The difference between the frames, that is, the difference between the symbol 0 frame and the symbol 1 frame, cannot be easily recognized by the player. Therefore, it was not possible to make the player recognize that the game is in a specific game state with a difference of “slip” of about one frame.
[0007]
An object of the present invention is to provide a gaming machine having a rotating body for variably displaying a plurality of symbols, in which not only the sliding mode of the rotating body section but also a stop mode different from the conventional one, and the stop mode. An object of the present invention is to provide a gaming machine that links a specific game state to a player to recognize that the player is in a specific game state and increases the interest of the game.
[0008]
[Means for Solving the Problems]
The present invention relates to a start control for starting a stepping motor that rotationally drives a rotating body having a plurality of symbols in response to the generation of a start signal, and to a winning determination result performed in advance in response to the generation of a stop signal. A stepping motor drive control unit that performs a stop control to stop the stepping motor based on the stepping motor drive control unit. parts, the time of performing the stepping motor stop control from among the plurality of types of excitation method determined in advance, and selects one of the excitation method in accordance with a predetermined condition, the stepping motor by the excitation signal at the excitation mode Is performed.
[0009]
The predetermined condition is, for example, the timing of starting supply of the excitation signal. The supply start timing is, for example , immediately after the generation of the stop signal. Further, as other conditions, the winning determination result, or both the supply start timing of the excitation signal and the winning determination result may be used .
[0010]
The plural types of excitation methods are, for example, all-phase excitation in which an excitation signal is transmitted to all phases of a stepping motor, and one-phase excitation in which an excitation signal is transmitted to only one phase. Alternatively, the driving frequency of the stepping motor is constant and the excitation signal is transmitted to all the phases. The excitation frequency is constant, and the driving frequency of the stepping motor is changed stepwise and the excitation signal is transmitted to all the phases . it may be.
[0011]
[Action and effect]
In the gaming machine of the present invention, the player can visually recognize the stop mode of the torso portion accompanying the start of the stop operation of the stepping motor, and there are a plurality of types of excitation methods for generating an excitation signal for stopping the stepping motor. Thereby, it is possible to make them recognize in different stop modes. Then, one excitation method is selected from a plurality of types of excitation methods in accordance with a predetermined condition, and thus the stop of the rotating body is controlled so that the stop process differs depending on the game state.
[0012]
The predetermined condition is, for example, a timing when the supply of the excitation signal is started after the generation of the stop signal (hereinafter, referred to as “excitation start timing”). In this case, the number of movements of the symbol after the generation of the stop signal is "0" and the other cases in accordance with the number of movements (slip) of the symbol determined by the result of the winning determination based on the generation of the stop signal. And the stop mode is different. Alternatively, the stop mode may be made different when the winning determination result is a specific winning.
[0013]
In addition, as a specific method of making the stop mode of the rotating body different, there are a case of stopping while shaking and a case of sudden stopping. Alternatively, there are a case where the vehicle is suddenly stopped and a case where the vehicle is smoothly stopped.
[0014]
According to the present invention, the stop mode of the torso portion is provided by providing a plurality of types of excitation methods for generating an excitation signal that allows the player to visually recognize the stop mode of the spine portion as described above. Can be diversified, and the monotony of the game can be eliminated to attract the player's interest. In addition, the instantaneous stop of the rotating body often performed when a prize is determined to be a loss makes it possible to visually recognize a difference in a stop mode from other cases. By associating the visually identifiable stop mode with the specific game state, the player can determine whether or not the game state is the specific game state by watching the stop mode, and the interest is further enhanced.
[0015]
【Example】
FIG. 1 is a front perspective view showing the appearance of the slot machine of the embodiment. In the center portion of the main body of the slot machine 1, reels 2, 3, and 4 constituting three spinning portions in which a symbol row including a plurality of types of symbols (hereinafter, referred to as symbols) are drawn on each outer peripheral surface, It is provided so as to be rotationally driven by stepping motors 72, 73, 74, respectively, and forms a variable display section. Three symbols on each of the reels 2, 3, and 4 can be observed through the display windows 5, 6, and 7 of the slot machine 1, respectively. On the lower right side of these display windows 5, 6, and 7, a slot 8 for a player to insert a substitute currency called a coin, a medal, or a token (hereinafter, the game medium is described as a coin) which is a game medium. Is provided.
[0016]
Below the display windows 5, 6, and 7, a BET switch 9 for betting up to three coins in one game by a push button operation, a credit / payout of coins obtained by the player (PLAY CREDIT / PAY OUT). , A credit / payment changeover switch 10 that is switched by a push button operation, a start lever 11 for starting rotation of the reels 2, 3, and 4 by lever operation, and each of the reels 2, 3, and 4 according to a player's operation. In order to stop the rotation, push-button stop switches 12, 13, and 14 are provided for each reel.
[0017]
In the lower part of the front of the slot machine 1, there is a sound transmission for outputting the sound generated from the speaker 43 housed therein for generating a sound corresponding to the sound output signal generated by the control unit 30 (FIG. 3). A hole 15 and a coin tray 17 for storing coins to be paid out from a coin payout opening 16 by switching the credit / payment changeover switch 10 are provided, while the front upper portion 18 shows how many coins are paid out for winning. Is displayed.
[0018]
The display windows 5, 6, and 7 are provided with three horizontal (center and upper and lower) and two diagonal winning lines shown by straight lines. Prior to the start of the game, when the player inserts one coin into the coin insertion slot 8, only the center pay line is activated, and when two players insert the coin, upper and lower pay lines are added thereto, and three coins are inserted. When inserted, all winning lines are activated. Such activation of the pay line is displayed to the player by turning on the activated pay line display lamps 19 arranged at both ends of each pay line.
[0019]
In the slot machine 1, a coin inserted into the coin slot 8 is detected by a coin sensor 88 (FIG. 3) installed inside the slot 8. When a coin is bet by inserting the coin or operating the BET switch 9, the line display lamp 19 lights up as described above to indicate that the winning line is activated.
[0020]
In this embodiment, after the player inserts a coin into the coin insertion slot 8, the three reels 2, 3, and 4 rotate simultaneously by operating the start lever 11 installed at the front left end. Then, when these rotations reach a certain speed, the operation of the stop switches 12, 13, and 14 provided corresponding to the respective reels is validated. , The rotation of the corresponding reel can be stopped. At this time, if the combination of symbols stopped on the pay line activated as described above corresponds to a predetermined winning combination, the number of coins corresponding to the type of the winning is paid out to the receiving tray 17.
[0021]
In the slot machine 1, display lamps 82, 83, and 84 for producing three jackpots are arranged at the upper end of the front upper portion 18 in order from the left, while being spaced vertically at the right end in the center of the front. A credit number display unit 21 for displaying the number of coins currently credited and a payout display unit 22 for displaying the number of coins to be paid out to the player at the time of winning are arranged. Of 7-segment LEDs according to the number of digits.
[0022]
On each of the reels 2, 3, and 4, 21 symbols of a plurality of types are arranged as shown in FIG. Each symbol is assigned a code number of “1 to 21” and stored in a ROM 32 (FIG. 3) described later as a data table. Each of the reels 2, 3, and 4 is driven to rotate so that the symbol row moves in the direction of the arrow in the figure.
[0023]
In FIG. 2, three code number 1 "7" stands for "red", net of lines, such as the right side "7" of the code number 14 represents a "blue". Therefore, in the symbol string of FIG. 2, "7" has two types, red and blue. And, "red 7-red 7-red 7" and "blue 7-blue 7-blue 7" and is aligned big hit occurs, the code number 4 on the right side of the reel "bell" are aligned and of eight coins A winning mode is determined by a predetermined symbol combination such that a small win that can be acquired is generated.
[0024]
FIG. 3 shows a configuration of the game control unit in the slot machine 1.
[0025]
This game control section is mainly composed of a control section 30 composed of a microcomputer, and is further provided with a circuit for random number sampling. The control unit 30 includes a CPU 31 that performs a control operation according to a preset program, a ROM 32 and a RAM 33 that are storage means, and the CPU 31 has a clock pulse generation circuit 34 and a frequency divider 35 for generating a reference clock pulse. A random number generator 36 and a random number sampling circuit 37 for generating random numbers sampled as described above are connected to an I / O port 38 for transmitting and receiving signals to and from peripheral devices. The ROM 32 has a storage section partitioned to store a winning probability table, a symbol table, a winning symbol combination table, a stop symbol table, an excitation signal table, and a sequence program. The contents of tables and the like stored in these storage units will be described later.
[0026]
In the circuit of FIG. 3, the main peripheral devices whose operations are controlled by a control signal from the control unit 30 include stepping motors 72, 73, and 74 for rotating the reels 2, 3, and 4, respectively. The pay line display lamp 19, the reel lamp 41 for illuminating the reel symbol from the inside, the display lamps 82, 83, 84, the credit number display unit 21, the payout display unit 22, and a hopper for storing coins (including a driving unit for paying out). ) 40 and a speaker 43, which are respectively a control circuit 44a for instructing the forward rotation, reverse rotation and speed of the stepping motor, a switching circuit 44b for switching the phase for exciting the coil by a pulse signal, and an actual Motor driving circuit 44, comprising a signal generation circuit 44c for driving the stepping motor, Road 45, a display unit driving circuit (for example, consist of the counter for counting the number of coins) 46, a hopper driving circuit 47 and a speaker driving circuit 48, driven. These drive circuits are connected to the CPU 31 via the I / O port 38 of the control unit 30.
[0027]
The main input signal generating means for generating an input signal necessary for the control unit 30 to generate a control signal includes a coin sensor 88 for detecting a coin inserted into the coin insertion slot 8 and an operation of the start lever 11. A start switch 89 for detection, built in the stepping motor, or provided with a projection provided on the reel itself at a position on the reel unit where the projection can be detected, a pulse every time each of the reels 2, 3, 4 rotates once. , And a pulse symbol from the reel rotation detection sensor can be used to identify the current symbol at the reference position of each of the reels 2, 3, and 4. Further, there are a stop switch signal generating circuit 50 for generating a stop operation signal corresponding to the pressing of the above-mentioned stop switches 12, 13, and 14, and a coin detecting section 51 for counting the number of coins paid out from the hopper 40. These are also connected to the CPU 31 via the I / O port 38.
[0028]
The stepping motor drive circuit 44 drives each of the stepping motors 72, 73, 74 according to a drive control signal output from the control unit 30 in response to input signals from the start switch 89 and the stop switch signal generation circuit 50. Note that, when a predetermined time has elapsed without the stop switches 12, 13, and 14 being pressed, a stop signal is automatically generated.
[0029]
In FIG. 3, a random number generator 36 generates random numbers belonging to a certain numerical range, and a random number sampling circuit 37 samples one random number at an appropriate timing after the start lever 11 is operated. In the winning probability table stored in the ROM 32, it is determined to which winning group the random numbers sampled in this manner belong.
[0030]
Next, the ROM 32 and the RAM 33 will be described. After the rotation of the reels 2, 3 and 4 is started, the number of drive pulses supplied to each of the stepping motors 72, 73 and 74 is counted. Is written in a predetermined area. The count value of the drive pulse counted in the RAM 33 is cleared to “0” by the reset pulse obtained for each rotation from the reels 2, 3, and 4. As a result, the count value corresponding to the rotation position within the range of one rotation for each of the reels 2, 3, and 4 is stored in the RAM 33.
[0031]
A symbol table is stored in the ROM 32 for associating the rotation positions of the reels 2, 3, and 4 with the symbols. In this symbol table, a code number sequentially assigned to each reel at a constant rotation pitch based on the rotation position at which the above-described reset pulse is generated, and a symbol code indicating a symbol provided for each code number. Is associated with.
[0032]
In the ROM 32, a winning symbol combination table is stored. In the winning symbol combination table, a winning symbol combination, a winning coin payout number, and a winning determination code representing the winning are associated with each other. The winning symbol combination table is referred to at the time of stop control of the first reel 2, the second reel 3, and the third reel 4 and at the time of confirming a winning after stopping all the reels.
[0033]
Further, the winning determination code is associated with the generation timing of the stop signal, and a stop symbol table for determining a stop symbol is also stored in the ROM 32. The stop symbol table is provided for each winning group, and a code number indicating a symbol position of a reel at the time of generation of a stop signal and a code number of a symbol to be stopped corresponding to the code number are stored as data for each reel. Such a table may be provided, or a table in which the number of symbol movements from the time of generation of the stop signal is provided as data corresponding to the generation of the stop signal may be used.
[0034]
Since the number of movements of the symbol can be known from the generation time of the stop signal from the above table, an excitation signal table including a plurality of types of excitation signals for the stepping motor corresponding to the number of movements is also stored in the ROM 32. A signal selected from the excitation signal table is input to the stepping motor drive circuit 44, and becomes a specific excitation signal to control the stop of the stepping motor.
[0035]
Further, the ROM 32 stores a program (sequence program) for executing a game in this slot machine.
[0036]
Here, the outline of the game operation of the slot machine of the present invention will be described. As described above, when the coin sensor 88 detects a predetermined number of valid coins and the start lever 11 is operated, a start switch for detecting the operation is provided. In response to the signal from 89, the CPU 31 sends a drive signal to the stepping motor drive circuit 44 to start rotation of the reels 2, 3, and 4 by the reel drive mechanisms 72, 73, and 74.
[0037]
Thereafter, the processing procedure for determining the stepping motor excitation signal shown in FIG. 4 is performed. That is, when there is an input from the start switch 89, the CPU 31 samples a random number from the random number generator 36, and performs a winning determination on the random number in the winning probability table in the ROM 32 (ST01). As a result, if it is a winning, a stop symbol table provided for each winning group is determined (ST02). As described above, this stop symbol table is a table in which a code number indicating a symbol position of a reel at the time of generation of a stop signal and a code number of a symbol to be stopped corresponding to the code number are provided as data for each reel. Alternatively, in response to the generation of the stop signal, a table in which the number of symbol movements from the generation of the stop signal is provided as data may be used. When the result of the winning determination is a non-winning, the stop symbol table for the loss is used (ST03).
[0038]
Thereafter, it waits for the stop switch to be pressed or for the generation of a stop signal after a lapse of a predetermined time (ST04). When a stop signal is generated, its generation timing is specified by the code number (ST05), collated with a stop symbol table (ST06), and the number of movements of the symbol corresponding to the code number when the stop signal is generated (so-called slip number). Is determined (ST07). This means that the excitation start time has been determined. At this time, the symbols to be stopped are also determined.
[0039]
Then, it is determined whether or not the number of movements of the symbol is “0”, that is, whether the excitation start time for stopping the stepping motor is immediately after the generation of the stop signal (ST08). An excitation signal for one-phase excitation is sent (ST09). Note that the excitation signal in the present embodiment means a signal for stopping the stepping motor, not only the excitation method of the motor coil but also a signal for changing the rotation speed by changing the frequency. Including.
[0040]
If the determination in ST08 is "NO", that is, if "1", "2", "3", or "4" frames other than "0" frames, a four-phase excitation signal is sent as the stepping motor excitation signal. (ST10) The stop control of the stepping motor is controlled according to the excitation signal (ST11).
[0041]
The processing after the stop is executed so that a predetermined number of coins are discharged from the hopper 40 to the player when the symbols forming the winning are arranged on the activated winning line, as in the conventional slot machine.
[0042]
FIG. 5 shows a stepping motor stop process executed according to the above flowchart.
[0043]
FIG. 5A shows the case where the number of symbol movements is “0” and a one-phase excitation signal is given. The vertical axis represents speed, the horizontal axis represents time, and the speed when the stepping motor stops. The change is shown. In FIG. 5A, since excitation for stopping is performed from the time of generation of the stop signal, the excitation start timing as a condition for selecting one from a plurality of types of excitation signals is based on the stop signal. This is the time point indicated by “0” immediately after the occurrence.
[0044]
Further, when a pulse is supplied to only one phase of the stepping motor of the 1-2 phase excitation method as in the present embodiment to stop the motor, as shown in the time chart, the rotation is lost due to the inertia of the rotation. It stops while swinging in the forward and forward directions.
[0045]
Next, FIG. 5B shows a case where the number of symbol movements is “1” and a signal for all-phase excitation is given. Excitation start time of this case is when the time that symbol has moved one frame as shown in the time chart has elapsed. Actually, after a lapse of the time required for the symbol to move by one frame, the signal of all-phase excitation is supplied to the stepping motor and stopped. In this case, since the pulses are supplied to all the phases at once, it appears to the player to be suddenly stopped.
[0046]
Similarly, in FIG. 5 (C), the excitation start time is after the lapse of two symbols, in (D), the excitation start time is after the lapse of three symbols, and in (E), the excitation start time is after the lapse of four symbols. ing.
[0047]
As described above, FIGS. 4 and 5 show a process of making the stop mode different only when the excitation start time, that is, the number of symbol movements (slip number) after the stop switch is turned “ON”. .
[0048]
As another embodiment, a description will be given of a process in which when the winning determination result is determined to be a specific winning, the stop mode is made different from the other cases.
[0049]
FIG. 6 shows a stepping motor excitation signal determination process in the case of a specific winning. This is basically the same as the flowchart in FIG. 4, and common steps are denoted by the same reference numerals. FIG. 6 differs from FIG. 4 in that the random number value used in the first winning determination (ST01) after the symbol movement number (slip number) is determined to be “0” frames (ST08) is a normal number. It is determined whether or not a specific win other than the win (for example, a big hit with “Red 7-Red 7-Red 7” and “Blue 7-Blue 7-Blue 7”) (ST08 ′), and “YES” If so, a one-phase excitation signal is sent to the stepping motor (ST09), and the stepping motor is stopped according to the excitation signal (ST11). On the other hand, if it is not a specific winning, a signal of all-phase excitation is sent to the stepping motor (ST10).
[0050]
As described above, in FIG. 6, the stop control based on the one-phase excitation signal is performed and the stop mode is visually recognized only when the result of the winning determination is that the specific winning is achieved and the symbol movement number is “0” frames. We make it as different as possible.
[0051]
Such a stop control is not limited to the case of the specific prize, but can be applied to other prize modes.
[0052]
In the above-described embodiment, the excitation method is such that the one-phase excitation pulse is sent to the stepping motor and the all-phase excitation pulse is sent to the stepping motor. The method of transmitting the one-phase excitation pulse may be changed to a method of stepwise changing the drive frequency of the stepping motor and transmitting an excitation signal to all phases as shown in FIG.
[0053]
FIG. 7 is a time chart showing the stopping process of the stepping motor as in FIG. 5, in which the vertical axis indicates speed and the horizontal axis indicates time. In this figure, the frequency of the excitation signal to be sent to the stepping motor is changed so that the speed of the stepping motor gradually changes to a low speed and stops smoothly. Therefore, by changing FIG. 5 (A) as shown in FIG. 7, when the number of symbol movements is determined to be “0”, the stop process smoothly stops. By doing so, it is possible to make the player recognize the stop process differently so as to be visually recognizable.
[Brief description of the drawings]
FIG. 1 is a front perspective view showing the appearance of a slot machine according to an embodiment of the present invention.
FIG. 2 is a schematic diagram showing an example of symbol arrays arranged on three reels.
FIG. 3 is a block diagram showing a configuration of a game control unit in the slot machine of the embodiment.
FIG. 4 is a flowchart showing a process for determining a stepping motor excitation signal based on an excitation start timing.
FIG. 5 is a time chart showing a speed change when the stepping motor stops.
FIG. 6 is a flowchart showing a process of determining a stepping motor excitation signal on the condition of a specific winning.
FIG. 7 is a time chart showing another example of a speed change when the stepping motor stops.
[Explanation of symbols]
DESCRIPTION OF SYMBOLS 1 ... Slot machine, 2, 3, 4 ... Reel, 5, 6, 7 ... Display window, 11 ... Start lever, 12, 13, 14 ... Stop switch, 19 ... Activation winning line display lamp, 21 ... Credit number display Part, 22 ... payout display part, 30 ... control part, 31 ... CPU, 32 ... ROM, 33 ... RAM, 34 ... clock pulse generation circuit, 35 ... frequency divider, 36 ... random number generator, 37 ... random number sampling circuit, 38: main body control unit I / O port, 41: reel lamp, 44: stepping motor drive circuit, 50: stop switch signal generation circuit, 72, 73, 74: stepping motor, 82, 83, 84: display lamp.

Claims (3)

A stepping motor that rotationally drives a plurality of body parts on which a plurality of types of designs are drawn ,
A stepping motor drive control unit for starting the stepping motor in response to generation of a start signal from a start switch for detecting that a start lever has been operated by a player and rotating the plurality of torso parts ; ,
A prize determination performed on a random number sampled from a random number generator on condition that the start signal is input , in response to generation of a stop signal from a stop switch signal generation circuit that detects that a stop switch has been operated by a player. Performing stop control to stop the stepping motor based on the result of the stepping motor drive control unit,
If the combination of symbols of the plurality of reel-section was stopped enabled on line corresponds to a predetermined winning combination, the gaming machine pays out coins corresponding to the type of the winning,
The stepping motor drive control unit, when performing the stop control of the stepping motor, the turning cylinder from the generation of the stop signal determined from the range of 0 to 4 based on the result of the winning determination until the start of deceleration. The number of movements of the symbol of the part, after rotating the rotating body at a constant speed, based on the number of movements of the design of the rotating body from the generation of the stop signal until the start of deceleration, the stepping motor The stepping motor is controlled to stop by the excitation signal according to one excitation method selected from a plurality of predetermined excitation methods including a single-phase excitation method that transmits an excitation signal to only one phase, and the rotating body is stopped. A gaming machine characterized by that: A stepping motor that rotationally drives a plurality of body parts on which a plurality of types of designs are drawn ,
A stepping motor drive control unit for starting the stepping motor in response to generation of a start signal from a start switch for detecting that a start lever has been operated by a player and rotating the plurality of torso parts ; ,
A prize determination performed on a random number sampled from a random number generator on condition that the start signal is input , in response to generation of a stop signal from a stop switch signal generation circuit that detects that a stop switch has been operated by a player. Performing stop control to stop the stepping motor based on the result of the stepping motor drive control unit,
If the combination of symbols of the plurality of reel-section was stopped enabled on line corresponds to a predetermined winning combination, the gaming machine pays out coins corresponding to the type of the winning,
The stepping motor drive control unit, when performing the stop control of the stepping motor, the turning cylinder from the generation of the stop signal determined from the range of 0 to 4 based on the result of the winning determination until the start of deceleration. The number of movements of the symbol of the part, after rotating the rotating body at a constant speed, based on the number of movements of the design of the rotating body from the generation of the stop signal until the start of deceleration, the stepping motor The stepping motor is controlled to stop by an excitation signal of one of an all-phase excitation method of transmitting an excitation signal to all phases or a single-phase excitation method of transmitting an excitation signal to only one phase of the stepping motor, and A gaming machine characterized by stopping a part . A stepping motor that rotationally drives a plurality of body parts on which a plurality of types of designs are drawn ,
A stepping motor drive control unit for starting the stepping motor in response to generation of a start signal from a start switch for detecting that a start lever has been operated by a player and rotating the plurality of torso parts ; ,
A prize determination performed on a random number sampled from a random number generator on condition that the start signal is input , in response to generation of a stop signal from a stop switch signal generation circuit that detects that a stop switch has been operated by a player. Performing stop control to stop the stepping motor based on the result of the stepping motor drive control unit,
If the combination of symbols of the plurality of reel-section was stopped enabled on line corresponds to a predetermined winning combination, the gaming machine pays out coins corresponding to the type of the winning,
The stepping motor drive control unit, when performing the stop control of the stepping motor, the turning cylinder from the generation of the stop signal determined from the range of 0 to 4 based on the result of the winning determination until the start of deceleration. After rotating the torso at a constant speed for the number of movements of the symbol of the part,
When the number of movements of the symbol of the winding body portion from the generation of the stop signal to the start of deceleration is 0, the stepping is performed by an excitation signal according to a single-phase excitation method that sends an excitation signal to only one phase of the stepping motor. Stop control of the motor, when the number of movements of the symbol of the rotating body portion is other than 0, stop control of the stepping motor with an excitation signal by an all-phase excitation system that sends an excitation signal to all phases of the stepping motor. A gaming machine characterized in that the torso is stopped .

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