JP2021115077A5 - - Google Patents

Description

A gaming machine according to the present invention includes: a first substrate; and a third substrate mounted with LEDs and LED driving means for driving the LEDs to emit light, connected to the second substrate by a second transmission line and receiving the supply of the first power supply voltage; The LEDs and the LED driving means on the substrate are operated by the first power supply voltage, and a plurality of LEDs are connected in series to all or part of the terminals for the light emission driving current of the LED driving means. The LEDs and the LED drive means on the third substrate are operated by the first power supply voltage, and all or part of the terminals for the light emission drive current of the LED drive means are connected to a plurality of LEDs. are connected in series, the number of the LEDs mounted on the third substrate is smaller than the number of the LEDs mounted on the second substrate, and the second transmission line is connected to the first power supply voltage The number of lines used for transmission is smaller than the number of lines for supplying the first power supply voltage in the first transmission line.

Speakers 46 are provided on both sides of the upper portion of the door 6 and on the upper side of the firing operation handle 15 to produce a sound effect (sound effect). Only the two speakers 46 on the top of the door 6 are shown in FIG.
With a plurality of speakers 46, it is possible to perform so-called stereo sound reproduction and sound reproduction of a larger number of channels for sounds related to performance.

The connector CN4Q is connected to a position detection switch (not shown).
The first pin is a 12V DC voltage (DC12VB), and the second pin is a ground terminal. A third pin serves as an input terminal for the sense signal SENSv7 from the connected position detection switch.

As shown in FIG. 46, the connector CN1Q (and transmission line H30) of the relay board 800 under the board uses two lines for the 12V DC voltage (DC12VB), while the connector CN3Q (and transmission line H31) uses 6 lines for a 12V DC voltage (DC12VB).
Since the transmission line H31 on the downstream side uses a greater number of lines that use a 12V DC voltage (DC12VB) than the transmission line H30 on the upstream side, the configuration is advantageous when it is desired to downsize the connector on the downstream side. Become.

From the above, it can be seen that the connector CN3Q on the downstream side is downsized.
That is, the connector CN3Q and the transmission line H31 use 6 pins and 6 lines for the 12V DC voltage (DC12VB), thereby reducing the current burden on one pin, and as described above, the compact connector CN3Q with a small rated current. It is possible to employ Employment of a small connector is effective in increasing the layout margin on the board, improving the degree of freedom in design, or reducing the size of the board in the backside lower relay board 800 .

The connector CN3Q of the board backside lower relay board 800, which is the second board, uses a small connector as shown in FIG. Therefore, the connector CN1S of the decorative board 820 also becomes the connector shown in FIG.

Also, although the connector CN1S is a tall component on the board, a relatively low connector can be used as the connector CN1S . In the case of a movable object, it is desirable to use a substrate with as little height as possible. This is due to circumstances such as the desire to prevent obstruction during movement and the desire to place it inside the movable object as much as possible. Therefore, it is effective to use a connector having a small height size S3. In this sense, a side-type connector as shown in FIG. 53 is more desirable than a top-type connector.

However, in the case of a flexible cable, the current that can flow through one line is small.
Therefore, the 12V DC voltage (DC12VB) received by two lines from the transmission line H30 through the connector CN1Q in the relay board 800 is transferred to the decoration board 820 using six lines in the connector CN3Q and the transmission line H31. are supplying. As a result, even if a flexible cable is used, sufficient power is supplied, and appropriate LED light emission is realized in the decoration substrate 820 .
In addition, the 12V DC voltage (DC12VB) received by two lines from the transmission line H22 through the connector CN1L in the decoration board 740 is supplied to the relay board 760 using three lines in the connector CN4L and the transmission line H23. there is Similarly, the 5V DC voltage (DC5V) received through one line from the connector CN1L is supplied to the relay board 760 using three lines at the connector CN4L and the transmission line H23. As a result, even if a flexible cable is used, sufficient electric power is supplied to the relay board 760 and beyond.
As can be seen from FIGS. 43 and 44, the transmission line H23 transmits the clock signal CLK_C and the data signal DATA_C through one line. In other words, when a flexible cable is used, the number of power supply lines is increased compared to a normal harness, but clock and control data signals are supplied by one line.

In the case of this (configuration C1), the following corresponding example (specific example 3) is assumed.
(Specific example 3)
・First board: frame LED relay board 840
・Second board: Inner frame LED relay board 400
・Third board: front frame LED connection board 500
・First transmission line: transmission line H7
・Second transmission line: transmission line H8
・First connector: connector CN1B
・Second connector: connector CN2B

The connectors CN1B and CN2B in this case are shown in FIGS. 49 and 50, and their specifications are also as described above, and different types are used. In particular, the connector CN2B connecting the downstream side is made smaller than the connector CN1B connecting the upstream side.
That is, in the frame LED relay board 840 , the inner frame LED relay board 400, and the front frame LED connection board 500, which are electrically connected from upstream to downstream, the inner frame LED relay board 400 has the connector CN1B on the upstream side and the connector CN1B on the downstream side. Since the types of CN2B are different, it is possible to reduce the size of the substrate on the downstream side, which is advantageous for arranging components such as substrates on the downstream side.

A harness as a transmission line H9 connected to the connector CN3C of the front frame LED connection board 500 arranged at the lower left of the door 6 is directed upward along the left side of the door 6 and directed right near the upper end. It is a path that reaches the connector CN1D of the relay board 550 .
The harness as the transmission line H10 connected to the connector CN2D of the relay board 550 is a path extending from the upper end of the door 6 along the upper right corner to reach the connector CN1E of the upper right LED board 600 of the side unit attached to the side unit 10. be.
The harness as the transmission line H12 connected to the connector CN2E of the upper right LED board 600 of the side unit goes back along the path of the transmission line H10 and reaches the connector CN1T of the upper LED board 630 of the side unit.

The side unit upper right LED board 600 to which signals are transmitted from the relay board 550 is the most upstream of the boards in the side unit 10 . For example, the side unit upper LED board 630 and the side unit lower right LED board 620 exist downstream.
Further, on the side unit upper right LED board 600, the side unit lower right movable object motor 104 connected to the connector CN4E, the side unit upper right movable object solenoid 105 connected to the connector CN5E, the blower 106 connected to the connector CN6E, There are sensors, etc. in the side unit device 101 that are connected to the connector CN7E.

This is because the side unit upper right LED board 600 (or the downstream board other than the side unit upper LED board 630), which is the second board, has a motor driver, while the side unit upper LED board 630, which is the third board, has a motor driver. It means you don't have the driver.
A relatively large current is used to drive the motor. In addition, a large number of lines are required depending on the circumstances of motor drive such as three-phase drive and four-phase drive. If the LED board 630 on the side unit is mounted with a motor driver or is a board that relays individual motors, a large number of lines are required for transmission of 12 V DC voltage (DC12 VB) in the transmission line H12. become.
In this example, no motor drive control signal is transmitted to the LED board 630 on the side unit. In other words, the side unit upper LED board 630 is not provided with a motor driving function. This realizes simplification of the circuit and miniaturization of the connector in the side unit upper LED board 630, and promotes miniaturization of the side unit upper LED board 630 arranged at the most downstream and relatively forward.

Claims (1)

a first substrate;
a second substrate mounted with LEDs and LED driving means for driving the LEDs to emit light, connected to the first substrate by a first transmission line and receiving a supply of a first power supply voltage;
a third substrate mounted with LEDs and LED driving means for driving the LEDs to emit light, connected to the second substrate by a second transmission line and receiving the supply of the first power supply voltage;
with
The LEDs on the second substrate and the LED drive means are operated by the first power supply voltage, and a plurality of LEDs are connected in series to all or part of the terminals for the light emission drive current of the LED drive means. is connected and
The LEDs on the third substrate and the LED drive means are operated by the first power supply voltage, and a plurality of LEDs are connected in series to all or part of the terminals for the light emission drive current of the LED drive means. is connected and
the number of the LEDs mounted on the third substrate is less than the number of the LEDs mounted on the second substrate;
A gaming machine, wherein the number of lines used for transmitting the first power supply voltage in the second transmission lines is smaller than the number of lines for supplying the first power supply voltage in the first transmission lines.

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