JP2018015129A5 - - Google Patents

Description

(Means 1) The gaming machine according to the present invention operates electrical components (for example, a plurality of light emitters constituting the light emitter units 71 to 74, the top frame LED 9a, the left frame LED 9b, the right frame LED 9c, and the movable members 51 to 54). Control means (for example, the production control microcomputer 120) for controlling the operation motors 60A to 60C) and the specification for driving the electrical component in accordance with the control signal by the serial communication method from the control means Output means (for example, light emitter driver 411, motor drive driver 412, light emitter drivers 413a to 413c) for outputting signals (for example, output signals from the drive output terminals Q0 to Q23, Q0 to Q11) and output The means outputs the output state when the input control signal is output to the other output means. An output state (for example, a normal slew rate output state (see FIG. 14 (1))) and a second output state (for example, a low slew rate output) in which the waveform rises more slowly than the first output state. (For example, if the S terminal is set to L (low), a normal slew rate output is set, and the S terminal is set to H). If set to (high), the output is set to a low slew rate (see FIG. 13)), and other output means are provided in the same substrate as the output means (for example, as shown in FIG. A plurality of light emitter drivers are mounted on the light emitter control board 16C, and control signals are sequentially transmitted between the light emitter drivers on the same light emitter control board 16C), and the output means is set to the second output state. are (e.g., FIG. 1 As shown in, it mounted on the light emitting element control board 16C light emitting element driver 411 in S terminal H has been set (high) is set to the output state of the low slew rate), output means, a control signal Has a stop function (for example, time-out function) that stops the output of a specific signal after the elapse of a predetermined period (for example, 1 second) after input (for example, the time-out function is effective by setting the T terminal to H (high)) (See FIG. 13) . According to such a configuration, it is possible to increase noise resistance of the control signal for preventing malfunction. In addition, it is possible to avoid an operation failure due to a wiring failure or the like, and to control the electrical component stably.

(Means 2) Another aspect of the gaming machine according to the present invention is an electrical component (for example, a plurality of light emitters constituting the light emitter units 71 to 74, a top frame LED 9a, a left frame LED 9b, a right frame LED 9c, a movable member 51 to The control means (for example, the production control microcomputer 120) for controlling the operation motors 60 </ b> A to 60 </ b> C for operating 54, and the electric components are driven in accordance with the control signal by the serial communication system from the control means. Output means (for example, light emitter driver 411, motor drive driver 412, light emitter drivers 413a to 413c) for outputting specific signals (for example, output signals from drive output terminals Q0 to Q23, Q0 to Q11) The output means has an output state when the input control signal is output to the other output means in a predetermined manner. A first output state that rises (for example, a normal slew rate output state (see FIG. 14 (1))) and a second output state in which the waveform rises more slowly than the first output state (for example, low slew rate). The output state can be set to any one of the output states of the rate (see FIG. 14 (2)) (for example, if the S terminal is set to L (low), the normal slew rate output is set). If the terminal is set to H (high), the output is set to a low slew rate (see FIG. 13)), and via the substrate on which the output means is provided and a wiring member (for example, flexible cable, wire harness) Other output means are provided on other connected boards (for example, as shown in FIG. 11 (2), the light emitter drivers 413a to 413c are provided on different light emitter control boards 16D to 16F, respectively. The output means are sequentially transmitted between the light emitter drivers 413a to 413c mounted on the different light emitter control boards 16D to 16F, and the output means is set to the first output state (for example, As shown in FIG. 19, in the light emitter drivers 413a to 413c mounted on the light emitter control boards 16D to 16F, the S terminal is set to L (low) and set to the normal slew rate output state) . The output means has a stop function (for example, a time-out function) for stopping the output of the specific signal after a predetermined period (for example, 1 second) has elapsed from the input of the control signal (for example, the T terminal is set to H (high)) By doing so, the time-out function is set to an effective state (see FIG. 13) . According to such a configuration, it is possible to increase noise resistance of the control signal for preventing malfunction. In addition, it is possible to avoid an operation failure due to a wiring failure or the like, and to control the electrical component stably.

(Means 5 ) Control signal continuation means for continuously outputting the control signal in any one of means 1 to means 4 (for example, the production control microcomputer 120 performs production control process processing (see step S65). In the above, by repeatedly outputting a control signal at least every predetermined period (1 second in this example), the plurality of light emitters constituting the light emitter units 71 to 74, the top frame LED 9a, the left frame LED 9b, and the right frame LED 9c The lighting control may be continuously performed or the drive control of the operation motors 60A to 60C may be continuously performed). According to such a configuration, it is possible to realize control corresponding to the stop function of the output means.

(Means 6 ) In any one of the means 1 to 5 , the output means can set the stop function to valid or invalid (for example, the timeout function is invalidated by setting the T terminal to L (low)). And the time-out function is set to the valid state by setting the T terminal to H (high) (see FIG. 13). According to such a configuration, it is possible to change the setting of the stopping function of the output means according to the application, and it is possible to reduce the cost by sharing parts.

(Means 7 ) In any one of the means 1 to 6 , the control means includes a movable member (for example, the movable members 51 to 54) that is provided on the first substrate (for example, the effect control substrate 12) and performs an operation. The control means includes a detection means (for example, the movable member position sensor 61) capable of detecting the state of the movable member when the first substrate and a second substrate different from the first substrate are connected. Based on this signal, it is possible to notify the abnormality of the movable member (see, for example, steps S58 to S60 in the production control main process), the first board, and the second board (eg, the production control relay board 16A). May be configured not to perform abnormality notification of the movable member (see, for example, step S57 of the effect control main process). According to such a configuration, the work efficiency in the manufacturing stage and the development stage can be improved.

Claims (2)

Control means for controlling electrical components;
Output means for outputting a specific signal for driving an electrical component in response to a control signal by the serial communication method from the control means;
The output means outputs an output state when the input control signal is output to another output means, a first output state in which the waveform rises in a predetermined manner, and a waveform rises in a mode that changes more slowly than the first output state. The output state can be set to any one of the second output states,
The other output means is provided in the same substrate as the output means,
The output means is set to the second output state ;
The game machine according to claim 1, wherein the output means has a stop function of stopping the output of the specific signal after a predetermined period of time has passed since the control signal was input . Control means for controlling electrical components;
Output means for outputting a specific signal for driving an electrical component in response to a control signal by the serial communication method from the control means;
The output means outputs an output state when the input control signal is output to another output means, a first output state in which the waveform rises in a predetermined manner, and a waveform rises in a mode that changes more slowly than the first output state. The output state can be set to any one of the second output states,
The other output means is provided on the other board connected via the wiring member to the board on which the output means is provided,
The output means is set to the first output state ;
The game machine according to claim 1, wherein the output means has a stop function of stopping the output of the specific signal after a predetermined period of time has passed since the control signal was input .