JP2004173900A - Game machine - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a game machine capable of sufficiently reducing the power consumption at the time of power failure, etc. <P>SOLUTION: A power supply device 10 feeds the DC power to a main control device 30, controlled equipment control devices (a prize ball control device 20, a subordinate control device 40 and a display control device 50), and controlled equipment (a prize ball device 22, a lamp 42, a speaker 43, and a liquid crystal display device 52). The power supply device 10 has a backup power source for feeding the DC power at the time of power failure. When a power failure detection signal is outputted from a power supply state detection circuit 23, the main control device 30 and the controlled equipment control devices execute the power failure process. At the same time, switch circuits 44 and 45 and an amplifier circuit 45 are operated, and the DC power fed from the power supply device 10 to the lamp 42, the speaker 43 and a backlight 54 of the liquid crystal display device 52 is reduced. When the power is recovered from the power failure, the main control device 30 and the controlled equipment control devices execute the return process, and processes suspended by the power failure are restarted. <P>COPYRIGHT: (C)2004,JPO

Description

[0001]
TECHNICAL FIELD OF THE INVENTION
The present invention relates to a gaming machine, and more particularly, to a gaming machine capable of reducing power consumption when input power is cut off or the like.
[0002]
[Prior art]
A gaming machine, for example, a pachinko machine, is provided with various controlled devices, a controlled device control device that controls each controlled device, and a main control device that outputs a command signal to each controlled device control device. Further, a power supply device for supplying power to the main control device, the controlled device control device, the controlled device, and the like is provided. As the power supply device, for example, an AC / DC conversion circuit (power supply circuit) that converts AC power obtained by stepping down from a commercial power supply to DC power of a predetermined voltage (for example, 5 V, 12 V, 34 V, etc.) is used. .
In such a pachinko machine, when the DC power supplied from the power supply device is cut off due to a power outage of the commercial power supply while the player is playing a game, the main control device, the controlled device control device, and the controlled device are controlled. Processing is interrupted. For example, if the DC power supplied from the power supply device is cut off while the prize ball device is paying out the prize ball, the prize ball device stops during the payout of the prize ball. At this time, since the main control device and the prize ball control device also stop operating, information on the number of unpaid prize balls is also deleted.
Therefore, the system is configured to store the information at the time of the power failure and to resume from the state interrupted by the power failure when the power failure is restored. For example, when a power failure occurs, the main control device, the controlled device control device, and the like execute a power failure process (a process of storing information and the like at the time of the power failure in a volatile storage circuit). Information stored in the volatile storage circuit is held by a backup power supply for the storage circuit. When the power is restored and the power is turned on, and the voltage of the DC power supplied from the power supply device becomes equal to or higher than the operation set value at which the main control device and the controlled device control device can operate, the main control device and the controlled device are controlled. The device control device or the like reads the information stored in the volatile storage circuit when the power failure occurs, and restarts the control from the state at the time when the power failure occurred.
[0003]
By the way, it is preferable for a player or a game store that the operating state of the gaming machine can be maintained without stopping even if a power failure occurs. In particular, in the case of automatically recovering instantaneously after a power failure such as an instantaneous power failure, it is necessary for the player to be able to continue playing the game.
Therefore, when a power failure occurs, a backup power source such as a capacitor is provided in the power supply device in order to supply DC power to the main control device, the controlled device control device, the controlled device, and the like to maintain the operation state for a predetermined time. I have. When the power failure is restored while the main control device, the controlled device control device, the controlled device, and the like are operating (for example, the voltage of the DC power supplied from the power supply device is equal to or higher than the restoration set value) At that time, the main control device, the controlled device control device, and the like read the information stored in the volatile storage circuit and automatically restart the control from the state at the time when the power failure occurred.
Here, the period during which the main control device, the controlled device control device, and the controlled device can maintain the operation state from the time of the occurrence of the power failure is determined by the capacity of the backup power supply. That is, in order to extend the time during which the operating state of the gaming machine can be maintained during a power outage, it is necessary to increase the capacity of the backup power supply.
On the other hand, as the capacity of the backup power supply increases, the size and cost of the backup power supply increase. For this reason, it is preferable that the capacity of the backup power supply be small in terms of size and cost.
Therefore, a gaming machine in which the capacity of a backup power supply is reduced by operating a controlled device control device in a power saving mode at the time of a power failure has been proposed. (See Patent Document 1)
[0004]
[Patent Document 1]
JP-A-2002-292084
[0005]
FIG. 5 shows a schematic configuration diagram of this conventional pachinko machine.
The pachinko machine shown in FIG. 5 includes a power supply device 110, a main control device 120, controlled device control devices (prize ball control device 130, lamp control device 140, sound control device 150, display control device 160), and controlled device (prize). A ball device 132, a lamp 142, a speaker 152, a liquid crystal display device 162) and the like are provided.
The power supply device 110 is provided with an AC / DC conversion circuit (power supply circuit) 111 that converts AC power into DC power of a predetermined voltage for the main control device 120 and the controlled device control device and the controlled device. In addition, the power supply device 110 is provided with a power failure detection circuit 112 that detects that a power failure has occurred, outputs a power failure detection signal, detects that the power failure has been recovered, and outputs a recovery detection signal.
The main control device 120 sends a command signal to each controlled device control device based on an input signal (a winning signal, a start signal, and the like) and various information (a control program and the like) stored in a storage circuit (not shown). Is output. Each controlled device control device controls a corresponding controlled device based on a command signal output from main control device 120. Further, the power supply device 110 is provided with a capacitor that supplies DC power to the main control device, the controlled device control device, the controlled device, and the like at the time of a power failure as a backup power supply.
[0006]
In the conventional gaming machine shown in FIG. 5, when a power failure occurs, a power failure detection signal is output from power failure detection circuit 112 to main controller 120.
When the power failure detection signal output from the power failure detection circuit 112 is input, the main control device 120 performs a power failure process and controls each controlled device (the prize ball control device 130, the lamp control device 140, the sound control device). 150, and outputs a power saving mode command signal to the display controller 160).
When the power saving mode command signal output from the main control device 120 is input, each controlled device control device performs a power failure process and maintains an operation state in a power saving mode (low power consumption mode).
This reduces power consumption during a power failure and suppresses a decrease in the remaining capacity of the backup power supply, so that the capacity of the backup power supply can be reduced.
[0007]
[Problems to be solved by the invention]
In a conventional gaming machine, when a power failure occurs, first, a power failure detection signal is output from the power failure detection circuit 112 to the main control device 120, and then a power saving mode command signal is transmitted from the main control device 120 to each controlled device control device. By being output, each controlled device control device operates in the low power consumption mode. That is, after a power failure detection signal is output from the power failure detection circuit 112, the main control device 120 (CPU 121) receives and determines the signal, and the controlled device control devices (CPU 131, 141, 151, 161) enter the power saving mode. After the process of notifying the transition is completed, each controlled device control device receives and determines the transition notification to the power saving mode, and starts the low power consumption mode. Thus, in the conventional gaming machine, the low power consumption of the controlled device control device corresponds to the process of notifying the shift to the power saving mode from the main control device 120 and the process of receiving the notification of the shift in each controlled device control device. Since the mode start timing is delayed, power consumption at the time of a power failure cannot be sufficiently reduced.
The present invention has been made in view of such a point, and an object of the present invention is to provide a gaming machine capable of sufficiently reducing power consumption when a power supply device enters a predetermined state.
[0008]
[Means for Solving the Problems]
A first invention of the present invention for solving the above-mentioned problem is a gaming machine as set forth in claim 1.
In the gaming machine according to the first aspect, a power state detection circuit that detects that the power supply device is in a predetermined state and outputs a state detection signal, and a state detection signal output from the power state detection circuit are input. And an adjustment circuit for reducing the power supplied to the controlled device. In the present invention, a state detection signal such as a power failure is output to an adjustment circuit provided between a power supply device and a controlled device without passing through a main control device or a controlled device control device as in a conventional gaming machine. Therefore, the processing time of the main control device and the controlled device control device is not required until the power consumption of the controlled device decreases after the output of the state detection signal. As a result, the time from when the state detection signal is output to when the power consumption of the controlled device decreases can be shortened, and the power consumption at the time of a power failure or the like can be sufficiently reduced. Further, since the main control device and the controlled device control device do not require a process for operating the controlled device in the low power consumption mode, the processing load is reduced.
Note that the state of the power supply includes, for example, the state of a circuit configuring the power supply, the state of input power and output power of the power supply, and the like.
[0009]
BEST MODE FOR CARRYING OUT THE INVENTION
Embodiments of the present invention will be described below with reference to the drawings.
FIG. 1 is a schematic configuration diagram of one embodiment of a gaming machine of the present invention. In the present embodiment, the present invention is configured as a pachinko machine.
In the present embodiment, a power supply device 10, a main control device 30, a controlled device control device (a prize ball control device 20, a sub control device 40, a display control device 50, etc.), a controlled device (a prize ball device 22, a lamp 42). , Speaker 43, liquid crystal display device 52, etc.). The sub control device 40 and the display control device 50 are connected to the main control device 30 in series. Here, the sub controller 40 is arranged on the upstream side (closer to the main controller 30 that outputs the command signal), and the display controller 50 is arranged on the downstream side (farther from the main controller 30).
The power supply device 10 converts AC power obtained by stepping down from a commercial power supply into DC power of a predetermined voltage (for example, 5 V, 12 V, 34 V, etc.) for the main control device 30, the controlled device control device and the controlled device. An AC / DC conversion circuit (power supply circuit) 11 is provided, and the AC / DC conversion circuit 11 and the like are usually configured as a power supply board arranged on the board. The DC power converted by the AC / DC conversion circuit 11 is supplied to the main control device 30, the controlled device control device, the controlled device, and the like via a relay circuit (relay board) and the like.
[0010]
The main control device 30 has a CPU (main control circuit) 31 and a storage circuit (not shown), and is usually configured as a main control board on which the CPU 31, the storage circuit, and the like are arranged.
The storage circuit of the main control device 30 includes a hit determination random number generation program for generating a hit determination random number for determining a lottery result, a variation pattern random number generation program for generating a variation pattern random number for determining a variation pattern, and a stop symbol. Is stored, for example, a stop symbol random number generating program for generating a stop symbol random number for determining the stop symbol. The main control device 30 (main control circuit 31) is stored in an input signal (a winning signal indicating that the game ball has won the winning opening, a start signal indicating that the game ball has passed the starting opening, and the like) and a storage circuit. It outputs a command signal or the like to each controlled device control device based on the program or the like. For example, a command signal to the award ball control device 20 is sent to the award ball control device 20 (award ball control circuit 21), and a command signal to the sub-control device 40 and a command signal to the display control device 50 are sent to the sub-control device 40 (the sub-control device 40). Output to the control circuit 41).
Although not shown, the main control device 30 can output a command signal to various controlled devices other than the prize ball control device 20, the sub control device 40, and the display control device 50. For example, an opening control signal or a closing control signal (command signal) of the opening / closing member is output to a driving device (controlled device) that opens and closes the opening / closing member of the special winning port that generates a special gaming state advantageous to the player.
[0011]
The prize ball control device 20 has a CPU (prize ball control circuit) 21, a storage circuit (not shown), a power failure detection circuit 23, and the like. Usually, the prize ball control circuit 21, the storage circuit, and the like are arranged on a substrate. As a winning ball control board.
The prize ball control device 20 (prize ball control circuit 21) controls the prize ball device 22 based on, for example, a payout command signal output from the main control device 30 (main control circuit 31). For example, the prize ball control device 20 adds the number of prize balls included in the payout command signal output from the main control device 30 to the remaining prize ball number stored in the prize ball storage device, and The number of game balls paid out from the device 22 is subtracted from the number of remaining prize balls stored in the storage device for prize balls. Then, the prize ball device 22 is controlled so that the prize ball remaining number stored in the prize ball storage circuit becomes “0”.
[0012]
The sub-control device 40 includes a CPU (sub-control circuit) 41, a storage circuit (not shown), and the like. Usually, the sub-control device 40 is configured as a sub-control board in which the prize ball control circuit 41, the storage circuit, and the like are arranged on a board. Is done.
The sub-control device 40 (sub-control circuit 41) reads, for example, a lamp control signal and a sound control signal corresponding to the fluctuation pattern command signal output from the main control device 30 (main control circuit 31) from the storage circuit. A lamp (light emitting means) 42 such as an LED and a speaker (sound generating means) 43 are controlled based on the lamp control signal and the sound control signal.
When the command signal output from the main control device 30 is a command signal to the display control device 50 arranged on the downstream side, the sub control device 40 outputs the command signal to the downstream side ( (See the dotted arrow in FIG. 1).
Note that the sub-control device 40 may be configured as a lamp control device that controls the lamp 42 and a sound control device that controls the speaker 43. In this case, the lamp control device and the sound control device may be directly connected to the main control device, or may be connected in series to the main control device 30 together with the display control device 50.
[0013]
The display control device 50 includes a CPU (display control circuit) 51, a storage circuit (not shown), and the like. Usually, the display control device 50 is configured as a display control board on which the display control circuit 51, the storage circuit, and the like are arranged. You.
The liquid crystal display device 52 includes a liquid crystal display unit 53, a backlight 54, an inverter 55 for controlling the voltage of DC power supplied to the backlight 54, and the like.
The liquid crystal display unit 53 has a symbol display unit that displays a lottery result and the like based on the hit determination random number read when the start signal is input to the main control device 30. The symbol display unit includes, for example, a left symbol display unit, a middle symbol display unit, and a right symbol display unit. The display control device 50 (display control circuit 51) receives, for example, a variation pattern command signal output from the main control device 30 (main control circuit 31) input via the sub control device 40 (sub control circuit 41). The corresponding variation pattern and the stop symbols corresponding to the left, middle and right stop symbol command signals are read from the storage circuit and displayed on each symbol display section.
[0014]
In addition, a backup power supply that supplies DC power to the main control device 30, the controlled device control device, and the controlled device when a power failure occurs in the AC power supply or the like is provided.
In the present embodiment, a capacitor is used as a backup power supply and is provided in the power supply device 10. The capacitor for the backup power supply is provided, for example, in a DC circuit between a rectifier circuit and a DC / DC conversion circuit (inverter) configuring the AC / DC conversion circuit 11 of the power supply device 10, as shown in FIG. In this case, when the voltage of the DC power rectified by the rectifier circuit becomes lower than the terminal voltage of the capacitor for the backup power supply due to the interruption of the AC power supply, the main control from the backup power supply capacitor via the DC / DC conversion circuit. DC power is supplied to the device 30, the controlled device control device, the controlled device, and the like, and the main control device 30, the controlled device control device, and the controlled device remain operating.
The configuration and arrangement position of the backup power supply can be variously changed as long as DC power can be supplied to the main control device, the controlled device control device, the controlled device, and the like when the AC power supply fails. For example, a backup power supply can be provided for each of the main control device, the controlled device control device, and the controlled device. Further, it can be provided on the DC power supply side of the AC / DC conversion circuit 11 of the power supply device 10 (the output side of the DC / DC conversion circuit in FIG. 2).
[0015]
In addition, when supplying DC power from the backup power supply, the power supplied to the controlled device between the controlled device and the power supply device 10 in order to reduce the power consumption and suppress the degree of decrease in the remaining capacity of the backup power source. There is provided an adjustment circuit capable of adjusting the threshold value.
In the present embodiment, the lamp 42, the speaker 43, and the backlight 54 of the liquid crystal display device 52 are selected as controlled devices that reduce power consumption during a power outage or the like. A switch circuit 44 between the power supply device 10 and the lamp 42 and an amplifier circuit (amplifier) 45 between the power supply device 10 and the speaker 43 control the voltage of the DC power supplied to the power supply device 10 and the backlight 54. A switch circuit 56 is provided between the inverters 55 as an adjustment circuit.
As the switch circuits 44 and 56 and the amplifier circuit 46, various known switch circuits and amplifier circuits can be used.
[0016]
Further, a power state detection circuit 23 for detecting that the power supply device is in a predetermined state and outputting a state detection signal is provided. The power supply state detection circuit 23 is, for example, in a state where DC power is supplied from the backup power supply due to a power failure or the like, or in a state where there is a possibility of being supplied (for example, “DC power is supplied from the backup power supply”). To be supplied ").
In the present embodiment, a voltage detection circuit that detects the voltage of the DC power supplied from the power supply device 10 is provided in the prize ball control device 20 as the power supply state detection circuit 23. The power state detection circuit 23 detects that the voltage of the DC power supplied from the power supply device 10 has fallen below a power failure set value (<predetermined voltage), and outputs a power failure detection signal (for example, the output signal is set to a high level). State). The power failure detection circuit 23 detects that the voltage of the DC power supplied from the power supply device 10 has risen to a recovery set value (<predetermined voltage) or more, and outputs a recovery detection signal (for example, when the output signal is low). Level state).
Note that the power failure set value and the restoration set value can be appropriately set in consideration of the time required for the power failure processing and the restoration processing. The same setting value can be used as the power failure setting value and the restoration setting value. Further, a configuration may be such that a power failure detection signal is output when the state in which the voltage of the DC power supplied from the power supply device 10 is lower than the power failure set value has continued for a predetermined time or more, A configuration may be such that a recovery detection signal is output when the state continues for a predetermined time. This configuration is also included in the concept of outputting a power failure detection signal when the DC power voltage falls below the power failure set value or the concept of outputting a recovery detection signal when the DC power voltage rises above the recovery power set value.
[0017]
In the present embodiment, the switch circuits 44 and 56 and the amplifier circuit 45 correspond to the adjusting circuit of the present invention, and the power state detecting circuit 23 corresponds to the power state detecting circuit of the present invention. The power failure detection signal corresponds to the state detection signal of the present invention.
[0018]
Next, the operation of the present embodiment will be described.
The main control device 30, the prize ball control device 20, the sub-control device 20 when the DC power is normally supplied from the power supply device 10 without a power failure or the like (for example, when the DC power voltage is higher than the power failure set value). Since the operations of the control device 40 and the display control device 50 are as described above, hereinafter, when a power failure or the like occurs and the power supply device is in a predetermined state (for example, the voltage of the DC power supplied from the power supply device 10). Will be described below). When the DC power is normally supplied from the power supply device 10, since the power failure detection signal is not output from the power supply state detection circuit 23, the switch circuits 44 and 56 are in the ON state, and the The amplification degree is set to a normal amplification degree.
[0019]
When a power outage or the like of the AC power supply occurs, the power supply device 10 converts DC power from the backup power supply into DC power of a predetermined voltage and supplies the DC power. Then, when the voltage of the DC power supplied from the power supply device 10 falls below the power failure set value due to a decrease in the remaining capacity of the backup power supply, the power failure detection signal is output from the power status detection circuit 23.
The main control device 30, the prize ball control device 20, the sub control device 40, and the display control device 50 perform a power failure process when the power failure detection signal output from the power state detection circuit 23 is input. In the power outage process, when the power outage is restored, a process necessary to restart the process interrupted by the power outage is performed. For example, the main controller 30 and the prize ball controller 20 store the information stored in the work area of the storage circuit such as the RAM in the save area at the time when the power failure detection signal is input. The storage circuit stores and holds information for a predetermined period of time after a power failure or the like occurs due to DC power supplied from a backup power supply (not shown) for the storage circuit. The sub control device 40 and the display control device 50 continue the processing as it is.
[0020]
When the power failure detection signal output from the power supply state detection circuit 23 is input, the switch circuits 44 and 56 are turned off. As a result, the DC power supplied from the power supply device 10 to the lamp 42 and the inverter 55 is cut off, and the power consumption of the lamp 43 and the backlight of the liquid crystal display device 52 is reduced.
When the power failure detection signal output from the power supply state detection circuit 23 is input, the amplification circuit 45 sets the amplification degree to “0” (mute state). Thereby, the DC power supplied from the power supply device 10 to the speaker 43 is cut off, and the power consumption in the speaker 43 is reduced.
[0021]
When the power failure is restored in a state where the main control device 30, the controlled device control device, and the controlled device maintain the operating state, and the voltage of the DC power supplied from the power supply device 10 becomes equal to or higher than the restoration set value, the power supply The detection circuit 23 outputs a recovery detection signal.
The main control device 30, the prize ball control device 20, the sub control device 40, and the display control device 50 perform a recovery process when the recovery detection signal output from the power state detection circuit 23 is input. In the restoration process, the main control device 30 and the prize ball control device 20 restore the information stored in the save area of the storage circuit when a power failure detection signal is input (when a power failure occurs), perform an error check, and then perform a power failure. Restart the process interrupted by the occurrence. In the present embodiment, the sub control device 40 and the display control device 40 do not perform the process of storing the information stored in the work area of the storage circuit in the save area when the power failure detection signal is input. Is controlled based on the command signal output from the controller.
The sub control device 40 and the display control device 50 store the information stored in the work area of the storage circuit in the save area during the power failure processing, and restore the information stored in the save area when the power failure occurs during the recovery processing. Then, control may be resumed from a state interrupted by the occurrence of a power failure.
Further, when a recovery detection signal is output from the power supply state detection circuit 23, the switch circuits 44 and 56 are turned on, and the amplification circuit 45 is set to a normal amplification degree. Thus, the power consumption of the lamp 42, the speaker 43, and the liquid crystal display device 52 is in the normal state.
[0022]
On the other hand, the power failure is not restored, the remaining capacity of the backup power supply is reduced, and the voltage of the DC power supplied from the power supply device 10 can maintain the operation state of the main control device 30, the controlled device control device, the controlled device, or the like. When it becomes equal to or less than the operation maintaining set value, the main controller 30, the controlled device control device, or the controlled device stops operating.
When the power failure is restored and the voltage of the DC power supplied from the power supply device 10 becomes equal to or higher than the operation set value at which the main control device 30 and the like can operate, the main control device 30, the prize ball control device 20, the sub control device 40 The display control device 50 performs a startup process (initialization process). In the start-up process, the above-described restoration process is performed.
[0023]
As described above, in the present embodiment, when the DC power from the backup power supply is supplied to the main control device 30, the controlled device control device, the controlled device, and the like, such as at the time of a power failure of the AC power source, The power can be reduced. In particular, in the present embodiment, the power failure detection signal is output (directly) to the adjustment circuit without passing through the main control device or the controlled device control device. Time until power consumption decreases can be shortened, and power consumption can be sufficiently reduced. Thus, the capacity of the backup power supply can be sufficiently reduced. In other words, if the backup power supplies have the same capacity, the time during which the operating state of the gaming machine can be maintained can be extended.
[0024]
In addition, although the voltage detection circuit which detects the voltage of the DC power supplied from the power supply device 10 and outputs the power failure detection signal is used as the power supply state detection circuit 23, the power supply state detection circuit 23 may include various other circuits. A detection circuit can be used. For example, a waveform detection circuit that detects a lack of a waveform of the AC power supplied to the power supply device 10 and outputs a power failure detection signal can be used. The waveform detection circuit outputs a power failure detection signal when, for example, a state where the waveform of the AC power is lost continues for a predetermined time or when a waveform of the AC power is continuously lost for a predetermined number. A power outage in a short time is ensured by directly detecting the lack of the waveform of the commercial power supply located upstream or the AC power supply obtained by stepping down the commercial power supply before converting to the DC voltage required by various devices of the gaming machine Can be detected.
[0025]
In the above description, the power failure process is performed and the adjustment circuit is operated according to the output of the power failure detection signal. However, the adjustment circuit may be activated before the power failure process is performed. An embodiment in which the power failure detection signal is output from the power supply state detection circuit will be described below.
In the present embodiment, as the power supply state detection circuit 23, for example, a waveform detection circuit that detects a lack of a waveform of a commercial power supply or an AC power supply obtained by stepping down the commercial power supply and outputs a power failure notice signal is provided. Note that the power supply state detection circuit 23 may be provided in the power supply device 10.
The operation of the present embodiment is shown in FIGS. FIG. 3 shows an operation in a case where the waveform of the AC power supply is restored to normal within a predetermined period (power failure determination period T) after the waveform of the AC power supply is lost. FIG. 4 shows an operation in a case where the state where the waveform of the AC power supply is missing continues for a predetermined period or more. As the power outage determination period T, for example, a period in which a predetermined number (for example, four) of waveforms of the AC power supply are missing is used.
[0026]
When the waveform of the AC power supply is missing, a power failure notice signal is output from the power supply state detection circuit 23 (for example, the output signal of the power supply state detection circuit 23 becomes a high level state).
When the power failure notice signal output from the power supply state detection circuit 23 is input, the adjustment circuit described above operates so as to reduce the power consumption of the controlled device from the normal time.
When the power failure notice signal output from the power supply state detection circuit 23 is input, the main control device 30, the prize ball control device 20, the sub control device 40, and the display control device 50 measure the period during which the AC power supply lacks the waveform. To start.
When the power failure notice signal is output, the main control device 30, the prize ball control device 20, the sub-control device 40, and the display control device 50 may be configured to perform a standby process for the power failure process. For example, main controller 30 may be configured to perform only the process of transmitting a prepared command signal and the process of taking an input signal and storing it in a storage circuit. The prize ball control device 20 outputs the determined prize ball payout process and the command signal output from the main control device 20 and the prize ball detection circuit that detects the game ball paid out from the prize ball device 22. The configuration may be such that only the process of taking in the winning prize ball detection signal and storing it in the storage circuit is performed. The sub control device 40 and the display control device 50 may be configured to perform the same processing.
[0027]
When the power failure is restored before the waveform loss period of the AC power supply reaches the power failure determination period T and a restoration detection signal is output from the power supply state detection circuit 23 (for example, the output signal of the power supply state detection circuit 23 becomes low level) ), The adjustment circuit returns the power consumption of the controlled device to the normal state (see FIG. 3). When the main control device 30, the prize ball control device 20, the sub control device 40, and the display control device 50 are performing standby processing, the standby processing is stopped and normal processing is performed.
On the other hand, when the waveform loss period of the AC power supply reaches the power failure determination period T, the main control device 30, the prize ball control device 20, the sub-control device 40, and the display control device 50 perform the above-described power failure processing by the voltage detection circuit 23. (See FIG. 4).
When the power failure recovers after performing the power failure processing, the above-described recovery processing is performed. Note that as the power supply state detection circuit 23, various detection circuits other than the waveform detection circuit can be used. For example, it is possible to use a voltage detection circuit that detects that the voltage of the DC power supplied from the power supply device 10 has dropped below the power failure notice set value and outputs a power failure notice signal.
[0028]
In the present embodiment, the power supply state detection circuit 23 corresponds to the power supply state detection circuit of the present invention, and the power failure notice signal output from the power supply state detection circuit corresponds to the state detection signal of the present invention.
[0029]
In the present embodiment, when a power failure is detected, a power failure notice signal is first output to reduce the power consumption of the controlled device, so that the capacity of the backup power supply can be reduced. In particular, in the case where the lack of the waveform of the AC power supply is detected and the power failure notice detection signal is output, the occurrence of the power failure can be reliably detected in a short time, so that the capacity of the backup power supply can be further reduced. .
Further, when the standby process is performed when the power failure notification signal is output, the process is facilitated because it is not necessary to perform the recovery process when the power failure is recovered before the power failure process is performed. Furthermore, since only necessary processing is performed in the standby processing, the power outage processing can be performed with a short time margin.
In addition, it is possible to easily determine whether or not the waveform loss period of the AC power has reached the power failure determination period T by software. Further, the power outage determination period T can be easily changed.
[0030]
In the above description, only the power failure notice signal is output from the power supply state detection circuit 23. However, the power supply state detection circuit 23 may be configured to output a power failure notice signal and a power failure detection signal.
For example, when a waveform detection circuit that detects the waveform of the AC power supplied to the power supply device 10 is used as the power status detection circuit 23, the power status detection circuit 23 lacks the AC power waveform (for example, one). Then, a power failure notice signal is output when the power failure is detected, and a power failure detection signal is output when a predetermined number of (for example, four) AC power waveforms are continuously lost. Alternatively, when a voltage detection circuit that detects the voltage of the DC power supplied from the power supply device 10 is used as the power state detection circuit 23, the power state detection circuit 23 determines that the DC power voltage has dropped below the power failure notice set value. Then, a power failure notice signal is output when the power failure is detected, and a power failure detection signal is output when the power failure notice value is detected to be lower than the power failure set value.
When the power failure detection signal is output from the power supply state detection circuit 23, the adjustment circuit described above operates so as to reduce the power consumption of the controlled device from the normal time. When the power failure notice signal is output, the main control device 30, the prize ball control device 20, the sub control device 40, and the display control device 50 may perform the above-described standby processing.
When the power failure detection signal is output from the power supply state detection circuit 23, the main control device 30, the prize ball control device 20, the sub control device 40, and the display control device 50 perform the above-described power failure processing.
The operation when the power failure is restored before the power failure detection signal is output from the power detection circuit 23 or after the power failure detection signal is output is the same as the operation described above.
In the present embodiment, since a power failure notice signal and a power failure detection signal are output from the power supply state detection 23, the main control device 30, the prize ball control device 20, the sub control device 40, and the display control device 50 perform a power failure process. It is necessary to perform a process of determining the timing (for example, a process of determining whether or not the power failure determination period has elapsed since the waveform of the AC power has been lost or the voltage of the DC power has dropped below the preset power failure notification set value). Absent.
[0031]
In the present embodiment, the power supply state detection circuit 23 corresponds to the power supply state detection circuit of the present invention, and the power failure notice signal output from the power supply state detection circuit corresponds to the state detection signal of the present invention.
[0032]
The present invention is not limited to the configuration described in the embodiment, and various changes, additions, and deletions are possible.
For example, the power supply state detection circuit 23 is provided in the prize ball control device 20, but the power supply state detection circuit 23 may be provided in another device such as the power supply device 10, or may be provided alone. Further, another device, for example, the prize ball control circuit 21 of the prize ball control device 20 can have the function of the power supply state detection circuit 23. In this case, the prize ball control circuit 21 corresponds to the power supply state detection circuit 23.
Although the occurrence of a power failure and the recovery from the power failure are detected by the power supply state detection circuit 23, the power supply state detection circuit 23 needs to reduce the power consumption of the power supply device 10 in a predetermined state, for example, the power consumption of the controlled device or the like. It is only necessary that the state can be detected. For example, a power supply state detection circuit that detects that DC power is being supplied from a backup power supply or that the DC power is likely to occur can be used.
Further, the power failure set value, the restoration set value, the operation maintenance set value, the operation set value, and the like can be changed as appropriate.
Although the switch circuits 44 and 56 and the amplifier circuit 45 are used as the adjustment circuit, various adjustment circuits can be used as the adjustment circuit as long as the power consumption of the controlled device or the like can be adjusted. Furthermore, as a method for adjusting the power consumption of the controlled device at the time of a power failure, various adjustment methods can be used as long as the power consumption of the controlled device can be reduced from the normal time.
In addition, although the power consumption of the lamp 43, the speaker 43, and the backlight 54 of the liquid crystal display device 52 has been reduced, a controlled device that reduces the power consumption can be appropriately selected. Further, the power consumption of the main control device and the controlled device control device may be reduced (operating in the low power consumption mode).
Also, a pachinko machine in which a plurality of controlled device control devices (sub-control device 40 and display control device 50) are connected in series to main control device 30 has been described, but the present invention is applied to a pachinko machine having various other configurations. Can be configured.
Although the case where the liquid crystal display device is used has been described, various display devices other than the liquid crystal display device can be used as the display device.
Also, the pachinko machine has been described, but the present invention can be configured as various game machines other than the pachinko machine.
[0033]
Note that the present invention can be configured as the following gaming machine.
For example, it can be configured as "the power supply device has a backup power supply, and the power supply state detection circuit detects a state in which power is supplied from the backup power supply."
Thus, power consumption when power is supplied from the backup power supply due to a power failure or the like can be sufficiently reduced, and the capacity of the backup power supply can be reduced.
The state in which power is supplied from the backup power supply is detected based on, for example, the waveform of AC power supplied to the power supply device, the voltage of DC power supplied from the power supply device, the state of the backup power supply, and the like. be able to. In addition, the description "in a state in which power is supplied from the backup power supply" means not only a state in which power is supplied from the backup power supply but also a state in which power may be supplied from the backup power supply. Means.
Also, "a plurality of controlled device control devices are connected in series to the main control device, and the main control device sends a command signal to the downstream controlled device control device on the upstream controlled device control device. And the upstream controlled device control device outputs the command signal to the downstream controlled device control device when a command signal is input to the downstream controlled device control device. " Can be.
A plurality of controlled equipment control devices are connected in series to the main control device, and the downstream controlled equipment control device receives a command signal from the main control device via the upstream controlled equipment control device. In such a gaming machine, it takes time for the command signal output from the main control device to the downstream controlled device control device to be input to the downstream controlled device control device. For this reason, when the method used in the conventional gaming machine is used for such a gaming machine, the time from when the state detection signal is output to when the power consumption of the downstream controlled device control device decreases is reduced. It takes time, and the timing to start reducing the power consumption of the controlled device is delayed. On the other hand, in the present invention, since the state detection signal is output to the adjustment circuit without passing through the main control device or the controlled device control device, the power consumption of the controlled device decreases after the state detection signal is output. The time to complete is reduced.
The upstream or downstream controlled device control device is disposed on a side closer to the main control device or farther from the main control device among a plurality of controlled device control devices connected in series to the main control device. 1 shows a controlled device control device.
Also, "at least one of a backlight, a lamp, and a speaker of the liquid crystal display device is used as the controlled device, and the adjustment circuit is provided between the power supply device and at least one of the backlight, the lamp, and the speaker of the liquid crystal display device. Gaming machine. "
In a gaming machine, since the power consumption of the backlight, lamp, and speaker of the liquid crystal display device is large, the power consumption of at least one controlled device that consumes a large amount of power in a normal state is reduced to reduce power consumption during a power failure. Can be efficiently reduced.
In addition, `` a main control device that outputs a command signal for controlling the operation of the gaming machine to the controlled device control device, a controlled device control device that controls the controlled device based on the input command signal, and a power supply device A gaming machine provided between a power supply device and a controlled device, an adjustment circuit that can adjust power supplied to the controlled device, and a state detection signal that detects that the power supply device is in a predetermined state. The power supply state detection circuit outputs the power to the controlled circuit when the state detection signal output from the power supply state detection circuit is input. May be configured to perform a power failure process when a state in which the state detection signal output from the power state detection circuit is input continues for a predetermined period. "
Thus, when it is detected that power is supplied from the backup power supply due to the occurrence of a power failure or the like, the power consumption of the controlled device is first reduced. Thus, the capacity of the backup power supply can be reduced. Furthermore, when the controlled device control device performs the standby process, the process is facilitated, and the power failure process can be performed with a margin in a short time. Also, the predetermined period can be easily set or changed on the controlled device control device side.
Further, the power supply state detection circuit can be configured as a gaming machine that detects a lack of a waveform of AC power supplied to a power supply device and outputs a state detection signal.
This makes it possible to reliably detect the state in which power is supplied from the backup power supply in a short time, so that the capacity of the backup power supply can be further reduced.
In addition, `` a main control device that outputs a command signal for controlling the operation of the gaming machine to the controlled device control device, a controlled device control device that controls the controlled device based on the input command signal, and a power supply device A gaming machine provided between a power supply device and a controlled device, the adjusting circuit being capable of adjusting power supplied to the controlled device; and a first circuit detecting that the power supply device is in a first state. The power supply state detection circuit detects that the state detection signal is in the second state and outputs a second state detection signal, and the adjustment circuit detects the first state detection signal output from the power state detection circuit. When the signal is input, the power supplied to the controlled device is reduced, and the controlled device control device performs a power failure process when the second state detection signal output from the power state detection circuit is input. Machine. " Kill.
Thereby, the above-described effect is obtained. The first state detection signal is output, for example, when it is detected that the waveform of the AC power supply has been lost or the voltage of the DC power supply has dropped below a predetermined value. It is output when it is detected that the state where the waveform is missing or the state where the DC power voltage is lower than the predetermined value has continued for a predetermined period.
[0034]
【The invention's effect】
As described above, by using the gaming machine according to the first aspect, it is possible to sufficiently reduce power consumption at the time of a power failure or the like.
[Brief description of the drawings]
FIG. 1 is a schematic configuration diagram of an embodiment of a gaming machine according to the present invention.
FIG. 2 is a diagram illustrating an example of a power supply device.
FIG. 3 is a diagram illustrating the operation of another embodiment of the gaming machine of the present invention.
FIG. 4 is a diagram illustrating the operation of another embodiment of the gaming machine of the present invention.
FIG. 5 is a schematic configuration diagram of a conventional game.
[Explanation of symbols]
10,110 Power supply unit
11,111 AC / DC conversion circuit
20, 130 Prize ball control device
21, 31, 41, 51, 121, 131, 141, 151, 161 CPU (control circuit)
22, 132 Prize ball device
23 Power supply state detection circuit
30, 120 main controller
40 Sub-control device
42, 141 lamp
43, 152 Speaker
44 switch
45 Amplification circuit (amplifier)
50, 160 display control device
52,162 Liquid crystal display device
53 LCD display
54 Backlight
55 inverter
112 Power failure detection circuit
140 Lamp control device
150 Sound control device

Claims (1)

A main control device for outputting a command signal for controlling the operation of a gaming machine to a controlled device control device, a controlled device control device for controlling a controlled device based on the input command signal, and a gaming machine including a power supply device And
An adjustment circuit that is provided between the power supply device and the controlled device and that can adjust power supplied to the controlled device;
A power supply state detection circuit that detects that the power supply device is in a predetermined state and outputs a state detection signal to the adjustment circuit;
When the state detection signal output from the power state detection circuit is input, the adjustment circuit reduces the power supplied to the controlled device.
Gaming machine.

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