JP2004344576A - Game machine - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a suitable display presentation while effectively utilizing a display screen of a pattern display device in a game machine with a movable member disposed on the display screen of the pattern display device. <P>SOLUTION: A pachinko machine 10 comprises an outer frame, a body frame 12 mounted in the front of the outer frame and supported by one side of the outer frame to be opened/closed, and a front door frame 13 mounted in the front of the body frame 12 and openably/closably supported by one side of the body frame 12. When a game ball shooting handle 18 mounted in a lower part of the pachinko machine 10 is operated, a game ball in an upper tray 23 is shot toward a game area. The pachinko machine 10 has the movable member on the display screen of the pattern display device to overlap with part of the display screen at a corner. <P>COPYRIGHT: (C)2005,JPO&NCIPI

Description

[0001]
TECHNICAL FIELD OF THE INVENTION
The present invention relates to a gaming machine.
[0002]
[Prior art]
As a pachinko game machine of this type, for example, in a pachinko game machine, a game ball is launched into a game area, and when a game ball is won at various winning ports in the game area, a predetermined number of game balls are paid out accordingly. For example, a symbol display unit composed of a liquid crystal display device or the like is provided at the center of the game area, and a plurality of columns of symbols are variably displayed by the symbol display unit. Specifically, for example, three symbol rows arranged in the horizontal direction or the vertical direction are provided as the symbol display unit, and the symbols are variably displayed for each symbol row. In this case, the symbol display by the symbol display unit is started by the winning of the predetermined winning opening (start winning opening) as a trigger, and thereafter, the variable display of the symbol is stopped after the variation display by the predetermined variation pattern. Then, when the stop symbol of each symbol row is determined, if the symbol is the same symbol, the game shifts to a special game state (big hit state) and a large amount of game balls are paid out. The probability of shifting to the special game state is set at a relatively low probability, and if the game does not shift to the special game state, the normal state is maintained.
[0003]
Also, in recent years, in order to enhance the interest of the game, the display contents displayed on the display screen of the liquid crystal display device are complicated, or the display screen is enlarged to improve the power of the display image, and the like, and the symbol display is performed. Various measures have been taken for. In addition, there is another type in which another member is provided so as to be superimposed on the display screen, and the separate member is operated in accordance with the display effect of the design (for example, Patent Document 1).
[0004]
[Patent Document 1]
JP-A-2002-78904
[0005]
[Problems to be solved by the invention]
As described above, for example, in a gaming machine having a liquid crystal display device, in a configuration in which another member is provided on a display screen of the liquid crystal display device, the display screen is hidden by the separate member, and a display effect on the display screen is provided. There is a problem that hinders the visual recognition of the image.
[0006]
The present invention has been made in view of the above circumstances, and in a gaming machine in which a movable member is arranged on a display screen of a picture display device, realizes a suitable display effect while effectively using the display screen of the picture display device. The main objective is to obtain a gaming machine that can do this.
[0007]
Means for Solving the Problems and Effects of the Invention
Hereinafter, effective means for solving the above-mentioned object will be described while showing effects and the like as necessary.
[0008]
Means 1. A picture display device that fluctuates and displays pictures on a display screen;
A movable member provided so as to partially overlap the display screen of the picture display device,
A gaming machine, wherein the movable member is arranged at a corner of the display screen.
[0009]
According to the first aspect, the movable member is provided on the display screen of the picture display device so as to partially overlap the display screen, and the movable member is particularly arranged at a corner of the display screen. In this case, the corner overlapping with the movable member is hidden on the display screen, but if the display screen is hidden only at the corner, the impression that the display screen has been reduced is relatively small. Become. Therefore, a dynamic display effect can be achieved. In addition, a problem that hinders visual recognition of a display effect on the display screen hardly occurs. As a result, in a gaming machine in which the movable member is arranged on the display screen of the picture display device, a suitable display effect can be realized while effectively using the display screen of the picture display device. For example, even if a relatively large display screen is adopted, the disadvantage that the large screen is not fully utilized can be solved. It should be noted that the movable member may be overlapped on the display screen of the picture display device, or a configuration in which some gap is provided between the display screen and the movable member may be used.
[0010]
Means 2. A picture display device that fluctuates and displays pictures on a display screen;
A plurality of movable members provided on the display screen of the picture display device so as to overlap a part thereof,
A gaming machine, wherein the plurality of movable members are provided at different corners of the display screen.
[0011]
According to the means 2, a plurality of movable members are provided on the display screen of the picture display device so as to partially overlap with each other. In particular, the plurality of movable members are arranged at different corners of the display screen. ing. In this case, on the display screen, corners that are located apart from each other are hidden by the movable member. However, since the display screen is hidden only at the corners, the impression that the display screen has been reduced is relatively small. Less. Therefore, a dynamic display effect can be achieved. In addition, a problem that hinders visual recognition of a display effect on the display screen hardly occurs. As a result, in a gaming machine in which the movable member is arranged on the display screen of the picture display device, a suitable display effect can be realized while effectively using the display screen of the picture display device. For example, even if a relatively large display screen is adopted, the disadvantage that the large screen is not fully utilized can be solved.
[0012]
Means 3. A game machine according to claim 2, wherein the plurality of movable members are provided apart from each other.
[0013]
According to the means 3, since a plurality of movable members are provided apart from each other, a picture or the like can be displayed in a region between the movable members regardless of the movement or the position of the movable members. As a result, a display effect using the display screen of the picture display device can be effectively used. For example, on a display screen, a pair of left and right movable members may be provided to be separated from each other.
[0014]
Means 4. In the means 3, the gaming machine is characterized in that no member for hiding the display screen of the picture display device is provided between the plurality of movable members.
[0015]
According to the means 4, in the area between the movable members, a display area for displaying a picture or the like can always be secured.
[0016]
Means 5. A gaming machine according to any one of means 2 to 4, wherein the plurality of movable members are independently controlled.
[0017]
According to the means 5, since a plurality of movable members are independently controlled, a wide variety of effects using the movable members can be achieved.
[0018]
Means 6. A gaming machine according to any one of means 1 to 5, wherein the movable member is arranged so as to leave a display area of a longest portion in a vertical direction and a horizontal direction on a display screen of the picture display device.
[0019]
According to the means 6, even if the movable member is provided so as to overlap the display screen, the display area of the longest portion in the vertical and horizontal directions remains on the display screen without being hidden, so that the display screen is reduced. The impression is relatively small. Therefore, a suitable display effect can be realized while also effectively using the display screen of the picture display device.
[0020]
Means 7. A gaming machine according to any one of the means 1 to 5, wherein the movable member is arranged so as to leave a display area extending linearly vertically and horizontally, including a central area of the display screen.
[0021]
According to the means 7, even if the movable member is provided so as to overlap the display screen, the display area including the central area on the display screen and extending linearly vertically and horizontally remains without being hidden. The impression that it was done is relatively small. Therefore, a suitable display effect can be realized while also effectively using the display screen of the picture display device. Further, in this case, the display is not hidden by the movable member at the center of the display screen, so that it is possible to avoid hindering the visibility of the picture.
[0022]
Means 8. A gaming machine according to any one of means 1 to 7, wherein an overhanging portion is provided above the display screen and extends forward of the gaming machine, and the movable member is disposed immediately below the overhanging portion.
[0023]
When playing a game, the player often looks at the central area of the display screen and the periphery thereof, and it is thought that it is rare to carefully look at the vicinity of the outer peripheral part, especially if there is an overhanging part protruding in front of the gaming machine. However, it is considered that it becomes a hindrance and less attention is paid near the overhang. When the player looks at the display screen from obliquely above, the overhang may obstruct the view, so that the player is less likely to pay attention. Under such circumstances, according to the means 8, since the movable member is disposed immediately below the overhanging portion, the player visually recognizes or expects the movement of the movable member, and overlaps with the movable member. Much attention of the player is paid to the displayed screen area. Therefore, it is possible to realize a display effect that effectively uses a display screen on which the player is less likely to pay attention.
[0024]
In addition, since the movable member is disposed immediately below the overhang portion, for example, in a ball game machine, the possibility that the game ball collides with the movable member is extremely low, and a protective member for preventing ball interference is also installed. It becomes unnecessary. In particular, in a gaming machine in which the movable member is arranged so as to leave a display region extending vertically and horizontally linearly by including the central region of the display screen as in the means 7, the movable member is , Directly below the overhang and above the center of the display screen. Therefore, for example, in a ball game machine, occurrence of inconvenience such as collision of a game ball with a movable member can be more reliably suppressed.
[0025]
The pachinko gaming machine has a configuration in which the periphery of the display screen is surrounded by a frame member (center frame) in order to avoid collision of the game ball with the display screen, and the upper portion is the overhang portion. In such a configuration, it is preferable to provide a movable member immediately below the overhanging portion that becomes a part of the frame member.
[0026]
Means 9. A gaming machine according to any one of the means 1 to 7, wherein an overhanging portion is provided above the display screen so as to extend forward of the gaming machine, and the movable member is disposed at two locations on the left and right immediately below the projection.
[0027]
According to the means 9, since the movable members are arranged at two places on the left and right just below the overhang portion, the player can visually recognize or expect the movement of the movable member, and overlap with the movable member. Much attention of the player is paid to the displayed screen area. Therefore, it is possible to realize a display effect that effectively uses a display screen on which the player is less likely to pay attention. In addition, since the movable member is disposed immediately below the overhang portion, for example, in a ball game machine, the possibility that the game ball collides with the movable member is extremely low, and a protective member for preventing ball interference is also installed. It becomes unnecessary. In particular, in a gaming machine in which the movable member is arranged so as to leave a display region extending vertically and horizontally linearly by including the central region of the display screen as in the means 7, the movable member is , Directly below the overhang and above the center of the display screen. Therefore, for example, in a ball game machine, occurrence of inconvenience such as collision of a game ball with a movable member can be more reliably suppressed.
[0028]
Means 10. The gaming machine according to any one of means 1 to 9, wherein a state of the movable member is switched between a state in which a display screen of the picture display device is concealed as much as possible and a state in which the display screen is completely or almost not concealed. .
[0029]
According to the means 10, the state of the movable member can be switched between a state in which the display screen of the picture display device is maximally concealed and a state in which the display screen is completely or almost not concealed. A typical display area (a display area that can be visually recognized by a player) can be appropriately changed. In this case, the player can easily recognize that the substantial display area on the display screen has been greatly changed, and furthermore, the display area is changed so as to be different in size, thereby greatly increasing the interest of the game. Can be
[0030]
Means 11. In the means 10, the movable member has a plate shape or a substantially plate shape, and a state is switched between a state facing the display screen of the picture display device and a state standing upright on the display screen. Machine.
[0031]
According to the means 11, when the movable member faces the display screen, the display screen is hidden as much as possible, and when the movable member stands upright with respect to the display screen, the display screen is completely or almost not hidden. At this time, when the plate-shaped or substantially plate-shaped movable member stands upright with respect to the display screen, there is no inconvenience that the movable member hinders visual recognition of the display screen.
[0032]
Means 12. In the means 11, in the gaming machine, the movable member has a base end pivotally supported on the picture display device side.
[0033]
According to the means 12, the base end of the movable member is pivotally supported on the picture display device side, and the movable member rotates about the shaft. In this case, switching between the two states of the movable member (the state facing the display screen and the state orthogonal to the display screen) as described in the means 11 can be easily performed. The movable member is constituted by, for example, a door.
[0034]
Means 13. In the means 12, in the gaming machine, the shaft of the movable member is provided along a peripheral wall surrounding a display screen of the picture display device.
[0035]
According to the means 13, since the axis of the movable member is provided along the peripheral wall surrounding the display screen of the picture display device, the axis and the configuration accompanying the axis may hinder the visual recognition of the display screen. It will not be. Therefore, a practically preferable configuration can be realized.
[0036]
Means 14. In the means 12 or 13, a predetermined space is formed in front of a display screen of the picture display device, and the movable member rotates forward in the predetermined space.
[0037]
According to the means 14, since the movable member rotates toward the front side in the predetermined space in front of the picture display device, the movable member can be rotated by effectively using the space in front of the display screen. it can.
[0038]
Means 15. In any one of the means 12 to 14, the shaft of the movable member is connected to a solenoid via a link mechanism, and the shaft rotates in response to energization or de-energization of the solenoid, whereby the movable member is rotated. Wherein the display screen is switched between a state in which the display screen is hidden and a state in which the display screen is not hidden.
[0039]
According to the means (15), the shaft is rotated by the energized state of the solenoid, and the state where the movable member hides the display screen and the state where the display screen is not hidden are switched. In this case, the operation of the movable member can be realized with a relatively simple configuration.
[0040]
Means 16. In any one of the means 1 to 15, the display screen of the picture display device has a first display area for variably displaying the picture and a second display area for displaying an auxiliary effect. Wherein the movable member is disposed so as to overlap the second display area.
[0041]
According to the means 16, on the display screen of the picture display device, the picture is variably displayed in the first display area, and a display for an auxiliary effect is performed in the second display area. In this case, by arranging the movable member so as to overlap the second display area, it is possible to increase the variety when performing an auxiliary effect.
[0042]
Means 17. In the means 16, in the game machine, the movable member hides a part of the second display area.
[0043]
According to the means 17, a part of the second display area is hidden by the movable member. In this case, in the second display area, an area hidden by the movable member and an area not hidden by the movable member are formed, and the variety of the auxiliary effect is further enhanced by properly using these areas.
[0044]
Means 18. In the means 16 or 17, in the second display area, a sign indicating the degree of expectation to shift to a special game state is given when the pattern is changed and displayed.
[0045]
According to the means 18, in the second display area, an advance notice indicating the degree of expectation to shift to the special game state is performed, and the player increases the expectation to shift to the special game state by the advance notice, and actually increases the special game state. Even before the state occurs, the game can be sufficiently enjoyed. In particular, by combining the operations of the movable members, the degree of expectation can be variously set.
[0046]
Hereinafter, a basic configuration of various gaming machines to which the above-described units can be applied will be described.
[0047]
A gaming machine with an extended gaming area: a gaming machine body (main body frame 12 and the like) configured to be openable and closable on the left and right sides on the left and right sides, and supporting a gaming board (gaming board 30). ,
A game area partitioned into a substantially circular shape by a rail member (rail unit 50) provided on a front surface of the game board;
On the front side of the gaming machine main body, the left and right other side portions are supported so as to be openable and closable about the left and right one side portion, and a viewing window (window portion 101) through which the game area can be viewed in a closed state. With the front door (front door frame 13)
With
A long reinforcing member (bearing member 235) is provided on one of the left and right sides of the gaming machine body so as to extend in the up-down direction, and the left and right other sides of the gaming machine body include the gaming machine body and A locking device (cylinder lock 91, interlocking rod 248, etc.) for locking so as not to open the front door is provided.
The locking device includes an elongated interlocking member (interlocking rod 248) provided on the other left and right sides of the game machine main body so as to extend in the vertical direction and to be movable in the vertical direction; A key member (cylinder lock 91) that is provided at a position different from a position where the width of the game area is maximum among the left and right side portions and selectively moves the interlocking member upward or downward. A lock of the game machine body is unlocked by moving the interlocking member up and down by operating a key member, and a lock of the front door is unlocked by moving the interlocking member up and down the other,
The game board is formed so as to have a width that leaves an area for distributing and arranging the reinforcing member and the interlocking member left and right within the width of the game machine body, and the left and right sides of the game board are A concave portion (notch 38) is partially formed so as to avoid interference with the overhanging regions from both right and left sides of the gaming machine main body, and further, a position of the rail member where the maximum width of the gaming region is set, By arranging it to reach the left and right end positions of the game board,
A gaming machine characterized by expanding the gaming area.
[0048]
Ball game machine: operation means operated by the player (gaming ball firing handle 18), ball firing means (shooting motor 229, etc.) for hitting and firing a game ball based on the operation of the operating means, and the fired ball Ball path (ball guide path of the rail unit 50) for guiding the game ball to a predetermined game area, and each game component (general prize port 31, variable prize device 32, operating port 33, variable display) disposed in the game area. A gaming machine having a unit 35 and the like).
[0049]
A ball game machine equipped with a variable display device: operation means (game ball launch handle 18) operated by a player, and ball launch means (fire motor 229, etc.) for playing a game ball and firing based on the operation of the operation means ), A ball passage (ball guide passage of the rail unit 50) for guiding the launched game ball to a predetermined game area, an operation port (operation port 33) arranged in the game area, and a variable display device (first display). A symbol display device 41) and a variable prize device (variable prize device 32) are provided, and when a game ball is entered into the operating port, a symbol displayed on the variable display device is variably displayed. A gaming machine in which a variable winning device is opened in a predetermined mode when a specific symbol is present. "
Spinning-type gaming machines such as slot machines: "Symbol row consisting of multiple symbols (specifically, reels with symbols) is displayed in a variable manner (specifically, reel rotation), and then the symbol row is fixed and stopped. A variable display means (specifically, a reel unit) for displaying is provided, and the variation of the symbol is started by the operation of the starting operation means (specifically, the start lever), and the stop operation means (specifically, The change of the symbol is stopped due to the operation of the stop button) or after a lapse of a predetermined time, and a special game state (bonus game) which is advantageous to the player on condition that the fixed symbol at the time of the stop is a specific symbol is required. Etc.).
[0050]
Ball-based belt-type gaming machine: a variable display in which a symbol row composed of a plurality of symbols (specifically, reels with symbols) is displayed in a variable manner (specifically, reel rotation), and then the symbol row is determined and stopped. Means (specifically, a reel unit), a symbol change is started by operation of a starting operation means (specifically, a start lever), and a stop operation means (specifically, a stop button) The fluctuation of the symbol is stopped due to the operation or after a predetermined time has elapsed, and a special game state (such as a bonus game) advantageous to the player is generated on condition that the fixed symbol at the time of the stop is a specific symbol. And a dispensing device for dispensing game balls to the ball tray, further comprising a dispensing device for providing a ball tray (such as an upper plate) for taking in game balls from the ball tray, and a dispensing device for dispensing game balls to the ball tray. Game ball by Gaming machine constructed as the operation of the starter operation means it becomes effective by being turned.
[0051]
BEST MODE FOR CARRYING OUT THE INVENTION
Hereinafter, an embodiment of a pachinko gaming machine (hereinafter, referred to as a “pachinko machine”) that is a type of gaming machine will be described in detail with reference to the drawings. FIG. 1 is a front view of the pachinko machine 10, FIG. 2 is a perspective view showing the main structure of the pachinko machine 10 in an expanded or disassembled state, and FIG. 3 is a front view showing the front structure of a main body frame 12 constituting the pachinko machine 10. is there. 2 and 3, the configuration of the pachinko machine 10 in the game area is blank for convenience.
[0052]
As shown in FIGS. 1 to 3, the pachinko machine 10 includes an outer frame 11 forming an outer shell of the pachinko machine 10. The outer frame 11 is attached to a so-called island facility when installed in a game hall. The outer frame 11 is made by combining wooden plate members into a rectangular frame as a whole, and is configured by fixing each plate member with a detachable fastening member such as a small screw. Therefore, compared with the conventional structure in which the respective plate members are assembled using nails or rivets, the configuration members can be easily reused (reused). In the present embodiment, the outer dimension of the outer frame 11 in the vertical direction is 809 mm (inner dimension 771 mm), and the outer dimension in the left-right direction is 518 mm (inner dimension 480 mm). The outer frame 11 may be made of a synthetic resin or a metal such as aluminum.
[0053]
On one side of the outer frame 11, a body frame 12 is supported so as to be openable and closable. The opening / closing axis is set to extend vertically to the left as viewed from the front of the pachinko machine 10, and the main body frame 12 can be opened forward with the opening / closing axis as an axis. Furthermore, since the pachinko machine 10 is provided with a game ball launching handle 18 on the right side, the main body frame 12 can be opened and closed around the side opposite to the game ball launching handle 18. It can be said. The main body frame 12 is made of a synthetic resin, specifically, an ABS resin. By using the ABS resin, it is possible to obtain the main body frame 12 having relatively low cost and high impact resistance. The body frame 12 may be made of a metal such as aluminum. In this embodiment, the game machine main body is constituted by the outer frame 11 and the main body frame 12. As an alternative to the outer frame 11, an installation frame may be provided in advance in the game hall, and when the pachinko machine 10 is installed in the game hall, the main body frame 12 may be assembled to the installation frame. In such a configuration, the main body frame 12 forms the main body of the gaming machine.
[0054]
A front plate 14 is provided at a lower position on the front side of the main body frame 12. The front plate 14 is formed in a horizontally long shape, and the width thereof is configured to substantially match the width of the main body frame 12. The front plate 14 has a base portion 15 having a swelling portion 15a swelling toward the near side at a substantially central portion in the width direction, and a ball tray provided inside the swelling portion 15a of the base portion 15 and having a dish-like shape recessed downward. And a back wall panel 17 that forms a wall surface on the back side of the lower plate 16. Since the base portion 15 is fixed to the main body frame 12 by a fastening member such as a screw, the base portion 15 forms an attachment portion to the main body frame 12. A game ball firing handle 18 is provided on the base portion 15 to the right of the bulging portion 15a so as to protrude forward. The back wall panel 17 is provided with a ball discharge port 17a, and game balls discharged from the ball discharge port 17a are stored in the lower plate 16.
[0055]
A slide-type ball-pulling lever 19 is provided on the front side of the bulging portion 15a of the base portion 15. Note that the ball pulling lever 19 may be of a push type. When the ball removing lever 19 is operated, a closing plate (not shown) provided on the bottom surface of the lower plate 16 moves integrally or via a link to open a ball removing hole, and the stored balls in the lower plate 16 are removed. It is configured to be discharged downward. The ball release lever 19 is provided with a biasing member such as a coil spring for biasing the ball release lever 19 to the side that closes the ball release hole, and when the operation of the ball release lever 19 is released, the biasing force of the biasing member is provided. Thereby, the closing plate returns to the open position of the ball hole. At a position different from the ball discharge port 17a of the back wall panel 17, a speaker cover portion 17b in which a number of small holes are gathered is formed, and the output sound of the speaker 20 installed behind the panel 17 is used as a speaker cover. It is designed to be emitted forward through the portion 17b.
[0056]
An ashtray 21 is provided on the base portion 15 to the left of the bulging portion 15a. The ashtray 21 is reversibly mounted below and near the front side so as to easily remove butts and the like accumulated inside, and faces the base portion 15 on the right side and the back side. Although not specifically shown, a support shaft for rotatably supporting the ashtray 21 is provided on the right side surface of the ashtray 21, and the ashtray 21 is upwardly mounted on the back surface as shown in the figure. A locking portion is provided which is locked to the base portion 15 at a position where the opening is formed. Most of the front plate 14 is formed of ABS resin like the main body frame 12. The front plate 14 is exposed on the front side of the pachinko machine 10, but can be plated at an appropriate position on the surface for the purpose of decoration or the like by molding with ABS resin. In addition, since the ashtray 21 is located close to the lower tray 16 and the back wall panel 17, the flame-retardant ABS resin is used for the portion constituting the lower tray 16 and the back wall panel 17, so that even if a cigarette or the like is erroneously placed, it is difficult to burn. It is preferable to configure as follows.
[0057]
A front door frame 13 as a front door is provided so as to cover the main body frame 12 in a range excluding the front plate 14 on the front side of the main body frame 12. Accordingly, the entire front side of the main body frame 12 is covered by the front plate 14 and the front door frame 13. The front door frame 13 is attached to the main body frame 12 so as to be openable and closable, and like the main body frame 12, can be opened to the front side with an open / close axis extending vertically to the left as viewed from the front of the pachinko machine 10. It has become. The front door frame 13 is formed of ABS resin, like the front plate 14. Although the front door frame 14 is exposed on the front side of the pachinko machine 10, it can be plated at an appropriate position on the surface for the purpose of decoration or the like by being molded with ABS resin.
[0058]
At a lower position of the front door frame 13, a bulging portion 22 bulging forward is provided above the lower plate 16, and an upper plate 23 opening upward is provided inside the bulging portion 22. . The upper plate 23 is a ball tray for temporarily storing game balls paid out from a payout device to be described later and guiding them toward the game ball launching device side while aligning them in a line. A ball release lever 24 for the upper plate 23 is provided on the front side of the bulging portion 22. When the ball release lever 24 is operated, a ball release passage (not shown) provided near the most downstream portion of the upper plate 23. Is opened, and the stored balls in the upper plate 23 are discharged to the lower plate 16. The upper plate 23 can be made of flame-retardant ABS resin like the lower plate 16 and the like.
[0059]
In this pachinko machine 10, a glass door frame and a front decoration frame are separately provided, these can be opened and closed with respect to a front frame (corresponding to the main body frame of the present embodiment), and an upper plate is provided on the front decoration frame. Unlike the conventional configuration, the glass door frame and the front decorative frame are integrated into one to form the front door frame 13, and the upper plate 23 is provided integrally with the front door frame 13. In this case, since the glass door frame and the front decorative frame are integrated into one to form the front door frame 13, the strength of the glass support structure in the front door frame 13 can be improved. In other words, in the present pachinko machine 10, a large glass 137 is mounted on the front door frame 13 with the aim of expanding the game area. Accordingly, the frame portion around the glass becomes narrower, and there is a concern that the strength is reduced. However, by providing a frame portion integrated with the upper plate below the glass, sufficient strength of the glass support structure can be secured. The vertical and horizontal dimensions of the glass 137 are conventionally 405 mm × 405 mm, whereas the pachinko machine 10 is 453 mm × 434 mm.
[0060]
The front door frame 13 is extended downward so as not to interfere with the game ball firing handle 18 at least when the front door frame 13 is opened and closed. Specifically, the dimension La from the lower end of the pachinko machine to the lower end of the front door frame 13 is, for example, about 201 mm in one existing model, but is about 30 mm smaller in the present pachinko machine 10 and about 172 mm. Has become. Accordingly, the dimension Lb from the lower end of the pachinko machine to the upper end of the upper plate 23 is also reduced. For example, the existing pachinko machine is about 298 mm, whereas the present pachinko machine 10 is about 261 mm. Here, by lowering the position of the upper plate 23, the distance in the up-down direction from the tip of the nozzle of the ball lending device juxtaposed to the left side of the pachinko machine 10 in the game hall is increased, and there is a concern that the lending ball may fall out. However, in the present embodiment, a rising portion 22a in which the wall surface of the bulging portion 22 is higher than the other wall surfaces is formed on the left side portion serving as the ball lending discharge portion from the nozzle. Thereby, even in the configuration in which the position of the upper plate 23 is lowered, inconveniences such as a fall of a rental ball are eliminated. It is sufficient that the height of the rising portion 22a is suitable for the lowering of the upper plate 23, and the maximum height is 25 mm in the present embodiment.
[0061]
In the front door frame 13, a swelling portion 22 for forming the upper plate is provided so as to swell greatly toward the near side, but other portions above the upper plate 23 (for example, an annular illuminated portion 102 described later, etc.) ), The bulging toward the near side is restricted to avoid interference with the nozzle of the ball rental device. Specifically, the dimension from the outer frame 11 to the near side is limited to 45 to 50 mm.
[0062]
As shown in FIG. 3, the main body frame 12 is mainly composed of a resin base 25 whose outer shape is substantially the same as the outer frame 11, and a substantially circular window hole 26 is formed in the center of the resin base 25. Is formed. A game board 30 is detachably mounted on the rear side of the resin base 25. As shown in FIG. 4, the game board 30 is made of a substantially square plywood, and is attached in a state where its peripheral edge is in contact with the back side of the resin base 25. That is, the game board 30 is attached from the back of the pachinko machine 10, and only a substantially central portion of the front face of the game board 30 is exposed to the front side of the main body frame 12 through the window 26 of the resin base 25. The game board 30 has a vertical length of 476 mm and a horizontal length of 452 mm, as in the related art.
[0063]
Next, the configuration of the game board 30 will be described with reference to FIG. The gaming board 30 is formed with a plurality of large and small openings that penetrate in the front-rear direction by being subjected to router processing. Each opening is provided with a general winning opening 31, a variable winning device 32, an operating opening 33, a through gate 34, a variable display unit 35, and the like. Actually, the general winning opening 31, the variable winning device 32, the operating opening 33, the through gate 34, and the variable display unit 35 are attached to the surface of the game board by wood screws or the like. In the present embodiment, the variable display unit 35 is disposed substantially at the center of the game board 30, the operating port 33 is disposed below the variable display unit 35, and the variable winning device 32 is further disposed below the operating port 33. Further, through gates 34 are arranged on both left and right sides of the variable display unit 35, and a plurality of general winning openings 31 are arranged on both lower sides of the game board 30. The operating port 33 is additionally provided with an electric accessory that is activated (opened) under predetermined conditions. When a game ball enters the general winning opening 31, the variable winning device 32 and the operating opening 33, it is detected by a detection switch described later, and based on the detection result, the upper plate 23 (or the lower plate 16 in some cases) is detected. A predetermined number of prize balls are paid out. In addition, an out port 36 is provided at the lowermost portion of the game board 30, so that game balls that have not entered various winning ports or the like are guided to a ball discharge path (not shown) through the out port 36. It has become. The out port 36 is formed by cutting out a substantially center of a lower end of the game board 30 in an inverted U-shape. Therefore, the formation of the out port is easier than in the conventional configuration in which the out port is formed in a hole shape (however, in FIG. 4, since the rail unit 50 is provided on the near side in an overlapping manner, the out port 36 is closed. Shown in the closed state). In addition, a large number of nails are planted on the game board 30 in order to appropriately disperse and adjust the falling direction of the game ball, and various members (accessories) such as a windmill 37 are provided.
[0064]
Notches 38 as recesses are formed at a plurality of places on both left and right sides of the game board 30 so as to avoid interference with the overhang areas from the left and right sides of the main body frame 12 to be assembled.
[0065]
As described above, in the present pachinko machine 10, the position of the upper plate 23 is lowered, and accordingly, the position of the game ball intake provided at the most downstream portion of the upper plate 23 is also lowered. In this case, in the conventional configuration in which the game ball intake is located at a relatively high position, the game ball intake and the game board 30 overlap each other, and the game board 30 is provided with a notch corresponding to the game ball intake. Although it was necessary to provide the pachinko machine 10, in the pachinko machine 10, the game ball intake is lowered so that the game ball intake and the game board 30 do not overlap each other. Formation is not required. Therefore, it is advantageous in the manufacturing process of the game board 30.
[0066]
The variable display unit 35 is provided with a first symbol display device 41 that variably displays a first symbol (special symbol) when a winning in the operation port 33 is triggered. In the variable display unit 35, a center frame 43 is provided so as to surround the first symbol display device 41. Above the center frame 43, a holding lamp 44 corresponding to the first symbol display device 41 is provided. The number of times that the game balls pass through the operation port 33 is held up to a maximum of four times, and the number of the held balls is displayed by turning on the holding lamp 44. Note that the holding lamp 44 may be configured to be variably displayed on a part of the first symbol display device 41 or the like. The first symbol display device 41 is equivalent to a “symbol display device” for variably displaying a symbol.
[0067]
In the upper center of the center frame 43, there is provided a second symbol display device 42 for variably displaying a second symbol (ordinary symbol) with the passage of the through gate 34 as a trigger. A hold lamp 46 corresponding to the second symbol display device 42 is provided below the center frame 43. The number of times the game balls have passed through the through gate 34 is held up to a maximum of four times, and the number of the held balls is displayed by turning on the holding lamp 46. The holding lamp 46 may have a configuration in which the holding lamp 46 is variably displayed on a part of the first symbol display device 41 in the same manner as the holding lamp 44.
[0068]
The first symbol display device 41 is configured as a liquid crystal display device having a relatively large 8-inch liquid crystal display, and the display content is controlled by a display control device described later. The first symbol display device 41 displays the first symbols, for example, in a line on the left, the center, and the right, and variably displays these symbols by scrolling them up and down. The first symbol display device 41 may be a device having a liquid crystal display of 10 inches or 7 inches other than 8 inches, a device having a wide size display, or a CRT, dot matrix, 7 segment, or other type. The display screen may be configured.
[0069]
The second symbol display device 42 includes a display unit 45 that displays two types of second symbols, for example, “O” and “X”. Then, each time the game ball passes through the through gate 34, the display symbol (second symbol) of the display unit 45 fluctuates, and when the variation display is stopped at a predetermined symbol (for example, “O” symbol), the operating port 33 is activated. Is configured to be in an open state for a predetermined time. As a specific variation mode, when the game ball passes through the through gate 34, each LED built in the back of the portion indicated by “O” and “X” is alternately turned on, and finally “O” Only the LED corresponding to one of "" and "X" is turned on. The display unit 45 has a configuration in which a plurality of lamps (LEDs) are alternately turned on, a variable display, and a configuration in which a part of the first symbol display device 41 (a liquid crystal display device) performs a variable display. There may be.
[0070]
The variable winning device 32 is normally in a closed state in which game balls cannot be won or hard to win, and can be switched to a predetermined open state in which game balls can be easily won in a special game state (hereinafter, a big hit). It has become. More specifically, when a game ball wins in the operating port 33, the first symbol is variably displayed on the first symbol display device 41, and if the final symbol after the stop is a predetermined combination of specific symbols, a big hit is won. appear. Then, the variable winning device 32 is configured to be in a predetermined open state, and the game balls are configured to be in a state where it is easy to win. As an opening mode of the variable winning device 32, a predetermined time (for example, 30 seconds) elapses or a predetermined number (for example, 10) of winnings is set as one round, and the following conditions are performed on condition that a winning in a continuous winning opening in the variable winning device 32 is achieved. In general, the variable prize winning device 32 is repeatedly opened up to a plurality of rounds (for example, 15 rounds) as a transition condition to a round.
[0071]
The variable display unit 35 is provided with a pair of left and right doors 171 and 172 as movable members so as to partially overlap the display screen of the first symbol display device 41. The configuration of the doors 171 and 172 will be described in detail with reference to FIGS. 5A is a front view of the variable display unit 35 viewed from the front, and FIG. 5B is a rear view of the variable display unit 35 viewed from the back with the first symbol display device 41 (liquid crystal display device) removed. It is. FIG. 6 is a drawing for explaining the configuration of the drive mechanism of the doors 171 and 172. FIG. 7 is an explanatory diagram for explaining an operation state of the door bodies 171 and 172. In the following description of the variable display unit 35, when viewed from the front of the pachinko machine 10, that is, the left and right directions are described in the state of FIG. 5A, and the right door 171 is referred to as a "right door 171". , The left door 172 is referred to as “left door 172”.
[0072]
As shown in FIG. 5A, the right door 171 and the left door 172 each have a substantially rectangular plate shape having the same size, and are located on the upper right corner of the display screen G of the first symbol display device 41. A right door 171 is provided, and a left door 172 is provided in the upper left corner. The center frame 43 has at least the upper side of the display screen G projecting forward of the pachinko machine than the gaming board 30, and the right door 171 and the left door 172 are arranged immediately below the overhanging portion (overhang). The right door 171 and the left door 172 are separated from each other by a space of substantially the same size as the doors 171 and 172. When the display screen G of the first symbol display device 41 is divided into three sections vertically and horizontally and divided into nine parts as a whole, the right door 171 and the left door 172 generally have a size corresponding to one area of the nine divisions. That is, at this time, by disposing the right door 171 and the left door 172 so as to overlap the display screen G of the first symbol display device 41, an area of about 1/9 × 2 of the display screen G is hidden. It has become.
[0073]
The driving mechanism of the right door 171 and the left door 172 will be described with reference to FIGS. Although FIG. 6 basically shows a cross section taken along the line AA of FIG. 5B, for convenience of explanation, FIG. 6 shows a state where the peripheral wall 191 surrounding the display screen G of the first symbol display device 41 is removed. I have. The right door 171 is shown in a closed state, and the left door 172 is shown in an open state. In FIG. 6, the first symbol display device 41 is mounted on a frame cover 213 behind the game board 30, and a display control device 214 described later is installed behind the first symbol display device 41.
[0074]
The right door 171 is rotatably supported by a support shaft 173 at a shaft portion 171a provided at a base end portion (a left end portion in FIG. 5B). Further, the right door 171 is provided with an arm 171b extending from the shaft 171a, and the tip of the arm 171b is connected to the link 175. The tip of the link 175 is connected to the output shaft 178 of the solenoid 177 via another link 176. The shaft portion 171a, the arm portion 171b, and the links 175 and 176 of the right door 171 are provided on the outer side along the peripheral wall 191. As a result, they are arranged so as to surround the display screen G. At this time, the output shaft 178 of the solenoid 177 is extended by the urging force of the spring 179. In such a state, the right door 171 faces the display screen G, that is, a state where the display screen G is partially hidden. Will be retained.
[0075]
The left door 172 side has the same configuration as the right door 171 side. That is, the left door 172 is rotatably supported by the support shaft 181 at the shaft 172a provided at the base end (the right end in FIG. 5B). Further, the left door 172 is provided with an arm 172b extending from the shaft 172a, and the tip of the arm 172b is connected to the link 182. The distal end of the link 182 is connected to the output shaft 185 of the solenoid 184 via another link 183. The shaft portion 172a, the arm portion 172b, and the links 182 and 183 of the left door 172 are provided on the outer side along the peripheral wall 191. As a result, they are arranged so as to surround the display screen G. At this time, the output shaft 185 of the solenoid 184 is extended by the urging force of the spring 186. In this state, the left door 172 faces the display screen G, that is, a part of the display screen G is hidden. Will be retained.
[0076]
In the right door 171 and the left door 172 having the above-described structure, as shown in FIG. Accordingly, the links 182 and 183 swing. When the left door 172 rotates about the shaft 172a, the left door 172 shifts to an upright state with respect to the display screen G (open state in the figure). Of course, the same applies to the operation of the right door 171. The first symbol display device 41 is provided at a position slightly deeper than the surface of the game board 30, and is provided between the display screen G of the first symbol display device 41 and the glass 137 on the front of the pachinko machine 10. Are sufficiently spaced. Therefore, when each of the doors 171 and 172 operates, it is possible to perform the forward rotation without any trouble.
[0077]
As shown in FIG. 5B, a relay board 188 is provided between the driving mechanisms of the right door 171 and the left door 172. A drive signal is output to the solenoids 177 and 184 of the doors 171 and 172 via the relay board 188, and the solenoids 177 and 184 are energized according to the drive signals. At this time, the right door 171 and the left door 172 are independently driven to open and close.
[0078]
The display mode (the size and shape of the image display area) on the display screen G of the first symbol display device 41 is changed by the right door 171 and the left door 172 respectively shifting from the closed state to the open state. FIG. 7 shows a display example of the display screen G of the first symbol display device 41.
[0079]
FIG. 7A illustrates a display mode in a case where both the right door 171 and the left door 172 are in the closed state. In this state, the upper right corner and the upper left corner of the display screen G of the first symbol display device 41 are hidden by the right door 171 and the left door 172, and are sandwiched between the right door 171 and the left door 172 in the upper area of the display screen G. Only the central portion is exposed. At this time, about 2/9 of the entire screen area of the first symbol display device 41 is hidden by the right door 171 and the left door 172.
[0080]
(B) illustrates a display form in a state where the right door 171 is opened and the left door 172 is closed. In this state, the upper left corner of the display screen G of the first symbol display device 41 is hidden by the left door 172, and the upper right portion of the upper part of the display screen G is exposed. (C) illustrates a display mode in a state where the right door 171 is closed and the left door 172 is opened. In this state, the upper right corner of the display screen G of the first symbol display device 41 is hidden by the right door 171, and the upper left area of the display screen G is exposed to the left-hand ２. In the states (b) and (c), about 1/9 of the entire screen area of the first symbol display device 41 is hidden by either the right door 171 or the left door 172.
[0081]
(D) illustrates a display form in a state where both the right door 171 and the left door 172 are open. In this state, since the display screen G of the first symbol display device 41 is not hidden, the image display area is maximized, and display using the entire screen area is possible.
[0082]
As described above, the display form of the display screen G of the first symbol display device 41 is changed according to the open / closed state of the right door 171 and the left door 172. In any of the display forms, the vertical direction of the display screen G is changed. And the longest display area in the horizontal direction remains. 7, a central portion sandwiched between the right door 171 and the left door 172 remains as a display area without being hidden, as shown in FIG. In this case, even if the right door 171 and the left door 172 are provided so as to overlap the display screen G, the impression that the display screen G is reduced is relatively small. Therefore, a suitable display effect can be achieved while effectively using the display screen G of the first symbol display device 41.
[0083]
Returning to the description of FIG. 4, the game board 30 is provided with a rail unit 50 as a rail member for guiding the game balls fired from the game ball launching device to the upper part of the game board 30, and a game ball firing handle. The game balls fired in accordance with the turning operation of 18 are guided to a predetermined game area through the rail unit 50. The rail unit 50 is formed of a ring-shaped resin molded product, and more specifically, a fluorine-containing polycarbonate resin is used to reduce frictional resistance. The rail unit 50 has an inner rail portion 51 and an outer rail portion 52 that are provided double inward and outward. The inner rail portion 51 is formed in a substantially annular shape except for about 1/4 of the upper portion, and the outer rail portion 52 surrounds the upper open area of the inner rail portion 51 and is parallel to the left side portion of the inner rail 51. Are formed in a substantially semi-annular shape.
[0084]
The inner rail portion 51 is formed integrally with another resin portion, and is provided substantially upright on the surface of the game board 30. The outer rail portion 52 is integrally formed with another resin portion similarly to the inner rail portion 51, and has a support portion 52a which is provided to stand substantially vertically on the surface of the game board 30. A sliding plate 52b is attached to the inner surface of 52a to make the flying of the game ball smoother. The sliding plate 52b is made of a long metal band made of stainless steel, and is supported by the support portion 52a at a plurality of locations. In such a case, a guide rail is constituted by the inner rail portion 51 and the outer rail portion 52, and a ball guide passage is formed by a portion where the respective rail portions 51 and 52 face each other at a predetermined interval. In addition, at the portion where the inner and outer rail portions 51 and 52 face each other, the respective rail portions 51 and 52 are connected by a contact portion 53 with the game board 30, and the ball guide passage is formed in a groove shape opened to the front side. Have been.
[0085]
In the rail unit 50, a return ball preventing member 54 is attached to a portion (upper left portion of FIG. 4) where the game ball protrudes from the ball guide passage, and a portion corresponding to the maximum flight portion of the protruded game ball (FIG. 4). A rubber back 55 is attached to the upper right part of the upper part of FIG. The return ball preventing member 54 prevents a situation in which a game ball once jumped out of the ball guide passage to the upper part of the game board 30 returns to the ball guide passage. A game ball fired at a predetermined momentum or more hits the return rubber 55 and is rebounded toward the center of the game area.
[0086]
An arc-shaped flange 56 that protrudes outward is formed on the outer peripheral portion of the rail unit 50. The flange 56 forms a mounting surface for the game board 30. When the rail unit 50 is mounted on the game board 30, the flange 56 abuts on the game board 30, and in this state, screws and the like are inserted through a plurality of through holes formed in the flange 56, and the game board is Fastening of the rail unit 50 to 30 is performed. Here, the upper, lower, left and right ends of the rail unit 50 are formed in a substantially linear shape. That is, the flange 56 is cut off at each of the upper and lower ends and the left and right ends of the rail unit 50 so that the rail diameter can be expanded in a limited area of the pachinko machine 10, that is, the game area on the game board 30 can be expanded. Has become. The rail unit 50 is disposed such that the position of the maximum width of the game area on the game board 30 reaches the left and right end positions of the game board 30. In addition, among the portions corresponding to the ball guide passages of the rail unit 50, particularly with respect to the receiving portion of the game ball, in order to stably attach the rail unit 50 and stabilize the flying of the game ball, the corresponding flange 56 is more than other. There are many places (three places in the present embodiment, and two places in other places).
[0087]
A convex portion 57 is formed at the entrance of the ball guide passage between the inner rail portion 51 and the outer rail portion 52 so as to partially close the ball guide passage. The convex portion 57 is formed so as to extend downward from the outer peripheral portion of the inner rail portion 51, and functions to guide a foul ball flowing backward in the ball guide passage to the foul ball passage 76 (see FIG. 3) without reaching the game area. Having. The lower right corner and the lower left corner of the game board 30 are spaces (Sa and Sb in the figure) for sticking a seal such as a stamp or a plate, and a flange 56 for securing the sticking space. Are formed with notches 58a, 58b. By adopting a configuration in which a seal such as a stamp is directly attached to the game board 30, it is difficult to illegally reattach the stamp or the like.
[0088]
In the game board 30, a relay terminal hole 59 penetrating front and rear is provided at an upper left portion outside the rail unit 50, and through this relay terminal hole 59, a connection connector of a relay terminal plate installed on the back of the game board is provided. 60 is exposed on the front side of the pachinko machine 10.
[0089]
Next, the game area will be described. The board surface of the game board 30 is divided into inner and outer areas by rail units 50 (inner and outer rail portions 51 and 52), and an inner area divided into a substantially circular shape is a game area. Particularly, in the present embodiment, a game area defined on the board surface of the game board 30 is configured to be much larger than before. In the present embodiment, the distance from the uppermost point of the outer rail portion 52 to the lower portion of the game board 30 is 445 mm (58 mm longer than the conventional product), from the far left position of the outer rail portion 52 to the far right position of the inner rail portion 51. Is 435 mm (50 mm longer than the conventional product). The distance between the extreme left position of the inner rail 51 and the extreme right position of the inner rail 51 is 418 mm.
[0090]
In the present embodiment, the game area is a ball guide passage area which is an opposing portion of the inner and outer rail sections 51 and 52 among the area surrounded by the inner rail section 51 and the outer rail section 52 when viewed from the front of the pachinko machine 10. This will be described as an area excluding. That is, since the game area does not include the ball guide path portion, the left limit position toward the game area is specified not by the outer rail section 52 but by the inner rail section 51. Further, the right limit position toward the game area is specified by the inner rail portion 51, the lower limit position of the game area is specified by the lower end position of the game board 30 having the out opening 36, and the upper limit position of the game area. Is specified by the outer rail portion 52. Therefore, in the present embodiment, the width of the game area (maximum width in the horizontal direction) is 418 mm, and the height of the game area (maximum width in the vertical direction) is 445 mm.
[0091]
Here, the width of the game area is desirably at least 380 mm or more. More preferably, it is 400 mm or more, 410 mm or more, 420 mm or more, 430 mm or more, 440 mm or more, 450 mm or more, and further preferably 460 mm or more. That is, it is preferable that the width of the game area is larger from the viewpoint of expanding the game area. It is desirable that the height of the game area is at least 400 mm or more. More preferably, it is 410 mm or more, 420 mm or more, 430 mm or more, 440 mm or more, 450 mm or more, and more preferably 460 mm or more. Of course, it may be 470 mm or more or 480 mm or more. That is, it is preferable that the height of the game area is larger from the viewpoint of expanding the game area. In addition, about the combination of the said width | variety and height, it can be set as what combined the said numerical value arbitrarily. When the width or height of the game area is equal to or more than a certain value, a part of the game area may exceed the board surface of the game board 30. It may be supplemented by providing.
[0092]
In the present embodiment, the ratio of the area of the game area to the game board 30 is about 70%, which is much larger than the conventional area. In addition, since the area ratio of the game area to the game board 30 is only about 50% in the related art, it is assumed that the game board 30 having the same size as the conventional one is used as in the present embodiment. It can be said that the game area is considerably expanded. It should be noted that the pachinko machine 10 has a substantially uniform outer shape between manufacturers for convenience of installation in a game hall, and in a situation where the size of the game board 30 must be the same, as described above, The fact that the ratio of the area of the game area to the game area is increased by about 20% is very significant from the viewpoint of expanding the game area. Here, the ratio is desirably at least 60% or more. It is still more preferably at least 65%, more preferably at least 70%. Further, it is more desirable that it is 75% or more beyond the case of the present embodiment. Further, it may be 80% or more. In order to secure 80% or more, it is difficult to make the shape of the game area substantially circular. Therefore, it is preferable that the shape of the corner (for example, the lower right corner or the upper right corner) be expanded. .
[0093]
Further, the ratio of the area of the game area to the area of the front side of the entire pachinko machine 10 is about 40%, which is much larger than the conventional area. In addition, it is desirable that the area ratio of the game area to the area on the front side of the entire pachinko machine 10 is 35% or more. Of course, it may be 40% or more, 45% or more, or 50% or more.
[0094]
In connection with the expansion of the game area, the through gates 34 located on both sides of the variable display unit 35 have a guide mechanism so that game balls passing through the gate 34 can be moved toward the center. Thereby, even when the game area is extended in the left-right direction, the game ball can be guided toward the central operating port 33 and the variable winning device 32, and the game area is extended. As a result, a decrease in amusement due to difficulty in winning a game ball is suppressed. Further, since the game area is expanded in the left-right direction, even if a relatively large variable display unit 35 is provided at the center of the game area, the through gate 34, the windmill 37, and the plurality of nails are provided on the left and right sides of the variable display unit 35. (Guiding nails such as a triangular nail for guiding the game ball to the center) and other accessories can be arranged with a margin, and the flow of the game ball in the game area on both the left and right sides of the variable display unit 35 is reduced. It is not monotonous, and the behavior of the game ball can be fully enjoyed.
[0095]
Notches 38 are formed on both left and right sides of the game board 30 to avoid interference with the overhang areas from the left and right sides of the main body frame 12, and the maximum width of the game area on the game board 30 in the rail unit 50 12 has already been described as extending to the left and right end positions of the game board 30, but as will be described later, reinforcing members (bearing fittings 235: FIG. The game board 30 is attached to the main body frame 12 so as to have a width leaving an area for disposing the locking device (base frame 247, interlocking rod 248, etc .: see FIG. 12). From these facts, the game area is expanded.
[0096]
Returning to the description of FIG. 3, a firing rail 61 for guiding a game ball immediately after being fired from a game ball firing device is attached below the window hole 26 (game board 30) in the resin base 25. I have. The firing rail 61 is attached and fixed to the resin base 25 via a metal plate 62 at the rear thereof, and is configured to extend linearly at a predetermined firing angle (launch angle). Therefore, the game ball fired by the turning operation of the game ball firing handle 18 is firstly launched diagonally upward along the firing rail 61, and then guided to the game area through the ball guide passage. As described above, the curvature of the ball guide passage is reduced due to the game area being greatly expanded as compared with the conventional art, so that a device for stabilizing the launched ball is required. Therefore, in the present embodiment, the firing position of the game ball is lowered, the inclination angle (firing angle) of the firing rail 61 is made somewhat larger than that of the existing one (that is, the firing rail 61 is raised), and By forming the firing rail 61 so as to extend from the firing position of the game ball firing device to a position beyond the center position (out port 36) of the game area, the length of the firing rail 61 is made longer than the existing one, and is sufficiently long. We try to secure the ball guidance distance. Thereby, the game balls fired from the game ball firing device can be guided to the ball guide path in a more stable state. In order to further stabilize the launch ball, the size of the metal plate 62 on which the firing rail 61 is installed is increased, and the metal plate 62 is screwed at many positions (15 to 20 positions in the present embodiment). As a result, the firing rail 61 is firmly positioned with respect to the game board 30.
[0097]
There is a gap at a predetermined interval between the firing rail 61 and the ball guide passage, and a foul ball passage 76 is provided below the gap. Therefore, if the game ball fired from the game ball launching device does not reach the return ball preventing member 54 and returns in the ball guide passage as a foul ball, the foul ball is transferred to the lower plate 16 via the foul ball passage 76. Is discharged. By the way, in the case of the present embodiment, the length of the firing rail 61 is about 240 mm, and the length of the gap (length on the extension of the firing rail 61) leading to the far ball passage 76 at the tip of the firing rail is about 40 mm. .
[0098]
When the foul ball flows backward in the ball guide passage, most of the foul ball flows along the outer rail portion 52 and falls downward when it reaches the lower end portion of the outer rail portion 52. In some cases, a rampage occurs in the ball guide passage, and the ball jumps up to the inner rail portion 51 side. At this time, the bounced foul ball hits the convex portion 57 at the ball guide passage entrance, and is guided to the foul ball passage 76. As a result, all the foul balls are reliably guided to the foul ball passage 76, and interference between the foul balls and the game balls to be fired next is suppressed.
[0099]
Although detailed drawings are omitted, game balls are supplied to the game ball launching device one by one from a ball outlet on the front door frame 13 side (a ball outlet that communicates with the lowermost portion of the upper plate 23). At this time, in the present embodiment, since the launch position of the game ball is lowered, a drop from the ball exit on the front door frame 13 side to the launch position becomes large, but the right side is located near the launch base end of the launch rail 61. Guide members 63 and 64 are installed on the front side, respectively. Thereby, the game ball supplied from the ball exit on the front door frame 13 side is always set at a predetermined firing position, and a stable firing operation can be realized. In addition, the game ball launching device is provided with a hitting ball that is rotatably supported around a base end portion, and a game ball is fired with the turning of the hitting ball. It is rare. Therefore, while reducing the weight of the hammer by changing the material to light metal such as aluminum and reducing the size of the hammer shaft, the head of the hammer (opposite to the base end) is required to ensure sufficient firing force. (A front end on the side). Thereby, a sufficient and stable launch of the game ball can be realized. By providing the weight portion of the hitting hammer so as to protrude upward, the hitting hammer can be easily picked or hooked, and the effect of easily adjusting the hitting strength at the tip of the hammer can be obtained.
[0100]
A pair of left and right outlets 66 and 67 are formed on the left side of the firing rail 61 on the front surface of the main body frame 12, and game balls discharged from the outlets 66 and 67 are provided in front of the pair of outlets 66 and 67. A game ball guiding unit 70 for guiding to any of the lower plates 16 is attached. For convenience, in the following description, the outlet 66 is also referred to as a first outlet, and the outlet 67 is also referred to as a second outlet. These outlets 66 and 67 communicate with a game ball distribution unit 245 (see FIG. 13) provided on the back of the main body frame 12, and the game balls are basically discharged from the first outlet 66. When the path to the upper plate 23 including the first discharge port 66 is full of game balls, the game balls are discharged from the second discharge port 67 instead of the first discharge port 66.
[0101]
The game ball guide unit 70 is made of a transparent resin material such as polycarbonate resin so that the inside can be visually recognized, and is provided between the main body frame 12 and the front door frame 13 with the front door frame 13 closed with respect to the main body frame 12. It is formed so as to have a relatively small thickness so as to fit in. The above-mentioned foul ball passage 76 is formed integrally with the game ball guide unit 70. In the game ball guide unit 70, a ball discharge passage 71 for communicating the discharge ports 66 and 67 with the lower plate 16 is formed. A communication port 72 communicating with the upper plate 23 is formed in the game ball guide unit 70 in front of the first discharge port 66 of the main body frame 12, and an opening / closing plate 73 is attached so as to close the communication port 72. ing. The opening / closing plate 73 is rotatably supported by a support shaft 74 and is constantly urged to a position where the communication port 72 is closed by a spring 75 as urging means.
[0102]
According to the above configuration of the game ball guide unit 70, when the front door frame 13 is opened, the opening / closing plate 73 rises as shown in the figure by the urging force of the spring 75, and closes the communication port 72. In this state, the game ball discharged from the first discharge port 66 is guided to the lower plate 16 through the ball discharge passage 71. Therefore, when the front door frame 13 is opened in a state where game balls are stored upstream of the communication port 72, the stored balls do not fall down from the communication port 72 and flow down to the lower plate 16 through the ball discharge passage 71. I do. In other words, even in the pachinko machine 10 in which the front decorative frame is omitted and the upper plate 23 is directly provided on the front door frame 13, the game located upstream of the communication port 72 when the front door frame 13 is opened. The inconvenience of the ball falling down can be prevented. On the other hand, when the front door frame 13 is closed, the open / close plate 73 is pushed open by the ball passage gutter 138 (see FIG. 2) provided on the back surface of the front door frame 13 against the urging force of the spring 75. . In this state, the game ball discharged from the first discharge port 66 is guided to the upper plate 23 through the communication port 72. Therefore, game balls upstream of the communication port 72 are paid out to the upper plate 23. A lower plate full switch for detecting that the game balls discharged to the lower plate 16 are full (full) is attached to the downstream side of the ball discharge passage 71 of the game ball guide unit 70.
[0103]
The resin base 25 is provided with a substantially rectangular small window 78 at the lower right of the window hole 26. Therefore, a stamp or the like affixed to the lower right corner space (Sa in FIG. 4) of the game board 30 can be visually recognized through the small window 78. It is also possible to attach a certificate stamp or the like directly from the small window 78 onto the game board 30.
[0104]
A small window 79 is also provided in the resin base 25 at the upper left of the window hole 26. The small window 79 is provided at a position corresponding to the relay terminal hole 59 of the game board 30 described with reference to FIG. 4 and has substantially the same shape as that of the relay terminal hole 59, and the relay installed on the back of the game board through the relay terminal hole 59 and the small window 79. The connection connector 60 of the terminal board is exposed on the front side of the body frame 12. In this configuration, various lamps provided on the front door frame 13 side are electrically connected via the connection connector 60 exposed from the small window 79 of the main body frame 12 (resin base 25). On the upper part of the resin base 25, a front door frame opening switch 27 for detecting the open state of the front door frame 13 is provided. The front door frame opening switch 27 has a pin that can be protruded and retracted on the front surface of the resin base 25. When the front door frame 13 is closed with respect to the main body frame 12, the pin is pushed in and the front door frame 13 is closed. When the front door frame 13 is opened with respect to the main body frame 12, the pin returns to the projecting position, and the opening of the front door frame 13 is detected. When the front door frame 13 is closed with respect to the main body frame 12, the left and right portions of the resin base 25 contact metal fittings (reinforcement plates 131 to 134 shown in FIG. 8) on the back of the front door frame 13, and Metal pieces 28a and 28b for attaching the metal fittings to the main body frame 12 and grounding them are attached. Therefore, the metal fittings on the rear surface of the front door frame 13 are conducted to the locking device and the hinge metal fitting on the main body frame 12 through the metal pieces 28a and 28b, and are grounded together with the locking device and the hinge metal fitting.
[0105]
On the left end side (opening / closing axis side) of the main body frame 12, a pair of upper and lower support brackets 81 and 82 is attached as a support mechanism for supporting the front door frame 13 so as to be able to open and close. The upper support member 81 is provided with a support hole 83 having a notch on the near side, and the lower support member 82 is provided with a projection shaft 84 projecting upward. The specific configuration of the front door frame 13 supported by the support fittings 81 and 82 will be described later. Further, a pair of upper and lower hooks 155, 156 (see FIG. 2) provided on the open end side on the back side of the front door frame 13 is inserted into the right end side (opposite to the opening / closing axis) of the main body frame 12. Insertion holes 87 and 88 are provided respectively. The pachinko machine 10 has a configuration in which a locking device for locking the main body frame 12 and the front door frame 13 is hidden behind the main body frame 12. Therefore, the front door frame 13 is locked to the main body frame 12 so that it cannot be opened by locking the hooks 155 and 156 to the locking device through the insertion holes 87 and 88.
[0106]
A cylinder lock 91 as a key member for locking and unlocking the main frame 12 with respect to the outer frame 11 and locking and unlocking the front door frame 13 with respect to the main frame 12 is provided at the lower right corner of the main frame 12. Have been. The cylinder lock 91 is integrated with the locking device, and only the cylinder lock 91 of the locking device is provided so as to protrude forward of the main body frame 12. In this case, the cylinder lock 91 is provided at a position different from the position where the maximum width of the game area is obtained. The cylinder lock 91 has a function of covering both the locking and unlocking of the main body frame 12 and the locking and unlocking of the front door frame 13. When the key inserted into the keyhole is turned to the left (counterclockwise direction), the cylinder lock 91 is rotated. When the key is unlocked and the key is turned clockwise (clockwise), the front door frame 13 is unlocked.
[0107]
As shown in FIG. 2, a vertically long cover member 92 is attached to the main body frame 12 so as to surround the cylinder lock 91. Although not shown in detail, the cover member 92 is formed with locking portions (hooks) at its upper end and lower end. Accordingly, the cover member 92 is attached to the main body frame 12 by locking the upper locking portion to the main body frame 12 and sandwiching the lower locking portion between the main body frame 12 and the front plate 14. . A cutout 145 is formed in the front door frame 13 according to the shape of the cover member 92. When the front door frame 13 is closed, the cover member 92 and the front door frame 13 together form a pachinko machine front part. . When the front door frame 13 is closed, the flange formed on the cover member 92 is pressed by the front door frame 13 to prevent the cover member 92 from rattling.
[0108]
Next, the front door frame 13 will be described with reference to FIGS. FIG. 8 is a rear view of the front door frame 13.
[0109]
The front door frame 13 is formed with a window portion 101 as a viewing window so that almost the entire game area can be viewed from the front. The window 101 has a substantially elliptical shape close to a circle, and more specifically, a substantially central portion on the left and right sides has a shape that is more gently curved than the upper and lower sides. The shape may be such that the substantially central portion is linear. Above the window 101 of the front door frame 13, the frame width of the narrowest part is about 61 mm. The frame width dimension in the present embodiment is approximately equal to the distance between the uppermost portion (upper end of the game area) of the outer rail portion 52 and the upper end of the main body frame 12 in the main body frame 12, and is 85 mm or more. It is significantly shorter than the conventional model having the above-mentioned frame width of about 95 mm. This makes it easier to ensure the visibility of the upper area in the game area, and also allows the large variable display unit 35 to be disposed relatively above. The dimension of the frame width (the narrowest part) above the window 101 is desirably 80 mm or less, more desirably 70 mm or less, and further desirably 60 mm or less. Of course, as long as the predetermined strength can be secured, it may be 50 mm or less.
[0110]
The left and right frame portions of the front door frame 13 are limited to reduce the frame width, and need to have a width dimension sufficient to secure the strength of the front door frame 13 itself and the glass supporting strength. In the present embodiment, the frame width of the narrowest part in each of the left and right frame portions is about 44 mm. In this case, in the pachinko machine 10, since the game area has been greatly expanded, the frame width of the front door frame 13 is about 44 mm on the left side when viewed from the front of the pachinko machine 10, that is, on the opening / closing axis side as described above. On the other hand, the distance between the left end position of the outer rail portion 52 of the rail unit 50 and the left end position of the main body frame 12 is about 21 mm, and the size of the latter is considerably small. That is, in the present configuration, in a state where the front door frame 13 is closed, a part of the ball guide passage overlaps with the left frame portion of the front door frame 13 and is covered. However, even if the game ball is temporarily difficult to be visually recognized in the ball guide path, such a ball guide path is merely a passage area until the game ball is guided to the game area, and the player mainly enjoys the game. It does not mean that the game balls are difficult to see in the area. Therefore, there is no hindrance in the actual game. As described above, it is possible to expand the game area without affecting the game at all, while securing sufficient strength and glass supporting strength of the front door frame 13.
[0111]
Small windows 107 to which a transparent resin is attached are provided on both left and right sides of the lower end portion of the front door frame 13 so that a part of the surface of the main body frame 12 and the surface of the game board 30 (including a certificate stamp or the like) can be visually recognized. The transparent resin attached to the small window 107 is formed in a flat shape so that the internal stamp or the like can be easily machine-readable at a factory or the like. However, it is also possible to provide a magnifying lens portion in the small window 107 so that a hall worker or the like can easily see the internal stamp or the like.
[0112]
Light emitting means such as various lamps is provided around the front door frame 13 (for example, at a corner). These light-emitting means play a role of enhancing the effect during the game by changing and controlling the light-emitting mode such as lighting and blinking according to a change in the game state at the time of a big hit or a predetermined reach. For example, along the periphery of the window 101, an annular illuminated portion 102 having a built-in light-emitting means such as an LED is provided symmetrically. The central illumination section 103 incorporating the light emitting means is provided. In the present pachinko machine 10, the central illuminated part 103 functions as a big hit lamp, and turns on or blinks in the big hit state to notify that the big hit is being made. Around the upper plate 23, there is also provided an upper plate illuminating unit 104 in which a light emitting means such as an LED is incorporated. In addition, on the left and right sides of the central illumination unit 103, there are provided a prize ball lamp 105 which is lit during payout of a prize ball and an error display lamp 106 which is lit when a predetermined error occurs. In addition, the annular illumination part 102 is composed of a double inner and outer resin cover layer and a light emitting body (LED) with a firing plate accommodated inside the resin cover layer, and each layer intersects the inner surface of the resin cover layer vertically and horizontally. Protrusions (or wavy projections) are provided in the direction in which they are formed. The outer resin cover layer is transparent, and the inner resin cover layer is colored. Therefore, if the ring-shaped illumination unit 102 emits light, illumination in a state of being dispersed in a large number or in a state with a three-dimensional effect can be realized. A resin material containing glass powder is preferably used for the resin cover layer. Such a configuration of the resin cover layer can be applied to other illuminated portions (for example, the central illuminated portion 103 and the prize ball lamp 105).
[0113]
On the front door frame 13, a ball lending operation unit 120 is disposed below the window 101. The ball lending operation unit 120 is provided with a ball lending button 121, a return button 122, and a frequency display unit 123. With bills, cards, and the like inserted into a card unit (ball lending unit) arranged on the side of the pachinko machine 10, the ball lending operation unit 120 can perform ball lending operation, card return operation, and confirmation of the card frequency. it can. That is, the ball lending button 121 is operated to obtain a lending ball based on information recorded on a card or the like (recording medium), and the lending ball is paid out as long as there is a remaining amount on the card or the like. The return button 122 is operated when requesting the return of a card or the like inserted in the card unit. The frequency display unit 123 displays remaining amount information such as cards. In a pachinko machine (a so-called cash machine) in which game balls are directly lent to the upper plate from a ball rental device or the like without a card unit, the ball-lending operation unit 120 is unnecessary. A decorative seal or the like is attached to the installation portion of the device 120. Thus, in the configuration of the present pachinko machine 10 provided with the ball lending operation unit 120, it becomes possible to share a cash machine with a pachinko machine (so-called CR machine) using a card unit.
[0114]
Various reinforcing members made of metal are provided on the back side of the front door frame 13 so as to surround the window 101. Specifically, as shown in FIG. 8, reinforcing plates 131, 132, 133, and 134 are respectively attached to the back side of the front door frame 13 and to the left and right and up and down outside of the window 101. The reinforcing plates 131 to 134 are connected to each other in contact with each other, but a resin part 135 for avoiding direct contact is interposed at the connecting portion between the reinforcing plates 132 and 133 on the left and upper sides in the drawing. As a result, the closed loop of the electric path formed by the reinforcing plates 131 to 134 is cut, and the generation of a magnetic field that causes noise is prevented.
[0115]
At the upper and lower ends of the reinforcing plate 131 on the opening / closing axis side on the right side in FIG. 8, mounting brackets 151 and 152 are mounted as mounting mechanisms for the main body frame 12. The mounting brackets 151 and 152 on the front door frame 13 side are attached to the supporting brackets 81 and 82 (see FIG. 3) on the main body frame 12 side. That is, the lower mounting bracket 152 is formed with a shaft hole that opens on the lower surface, and the projection shaft 84 of the lower support bracket 82 is inserted into the shaft hole, while the upper mounting bracket 151 has The front door frame 13 is openably and closably supported by the main body frame 12 by inserting the shaft into the support hole 83 of the upper support bracket 81. Further, the reinforcing plate 131 is provided with a hook-shaped engaging claw 131a at an intermediate position thereof, and the engaging claw 131a is provided in the hole 12a of the main body frame 12 with the front door frame 13 closed. (See FIG. 3). Thereby, the front door frame 13 is configured to include the upper plate 23, and even in the pachinko machine 10 in which the vertical support interval is long, the front door frame 13 can be prevented from floating at the intermediate position. Therefore, fraudulent acts or the like by floating the front door frame 13 are suppressed.
[0116]
A pair of upper and lower hooks 155, 156 having a hook shape are attached to the reinforcing plate 132 on the opposite side to the opening / closing axis on the left side in FIG. These hooks 155, 156 extend rearward and are provided so as to correspond to the insertion holes 87, 88 (see FIG. 3) provided in the main body frame 12. When the front door frame 13 is closed with respect to the main frame 12, the hooks 155 and 156 are inserted into the insertion holes 87 and 88 on the main frame 12, and are locked by the locking device.
[0117]
A resin case 136 is attached to the lower reinforcing plate 134 at a position facing the firing rail 61. The resin case 136 houses a circuit board for the ball lending operation unit 120. The back surface (the surface visible in FIG. 8) of the resin case 136 is flat, and forms the side wall of the firing rail 61 when the front door frame 13 is closed. Therefore, the game ball is prevented from spilling forward from the firing rail 61.
[0118]
A ball passage gutter 138 is provided in a part of the lower reinforcing plate 134 that is partially cut away toward the rear of the pachinko machine 10, and at least above the ball passage gutter 138, similarly to the rear of the pachinko machine 10. An eaves (eave) portion 139 extending toward is provided. In this case, when the front door frame 13 is closed on the body frame 12 side, a ridge extending along the upper side of the communication port 72 on the body frame 12 side enters between the ball passage gutter 138 and the eaves 139. Placed. Therefore, even if a wire, a film, or the like is intruded from the ball passage gutter 138 to perform an illegal act, it is extremely difficult to cause the wire, the film, or the like to penetrate into the game area. As a result, it is possible to prevent fraudulent acts performed using wires, films, and the like.
[0119]
The above-mentioned reinforcing plates 131 to 134 also have a function as a glass frame for supporting glass, and the inside of the reinforcing plates 131 to 134 is folded back to form a glass holding groove. The glass holding grooves are formed in two rows in front and back, and a pair of front and rear glasses 137 forming a rectangular shape are held in each glass holding groove. As a result, the two glasses 137 are attached at predetermined intervals in front and rear.
[0120]
As described above, in the pachinko machine 10 of the present embodiment, since the game area is expanded, the ball guide formed between the inner and outer rails 51 and 52 when the front door frame 13 is closed. A part of the passage is covered by the front door frame 13. Therefore, in the ball guide passage, there is a portion where the open portion on the front side cannot be covered with the glass 137. In such a case, for example, when the game ball fired from the game ball launching device returns without reaching the return ball prevention member 54, the game ball jumps out of the ball guide passage or the gap between the outer rail portion 52 and the glass 137. There is a risk of being caught in a gap that can be formed. Therefore, in the present embodiment, a rail cover 140 for covering the front opening of the ball guide passage is attached to the front door frame 13. The rail cover 140 is a plate having a substantially arc shape, and is formed of a transparent resin. The arc shape of the rail cover 140 corresponds to the shape of the ball guide passage, and covers the section from the base end to the vicinity of the tip end of the ball guide passage along the periphery of the window 101. ing. In particular, the dimensions and shape of the inner side of the rail cover 140 substantially match those of the inner rail portion 51. Also, at the right end of the rail cover 140 (that is, at the right end in the state of FIG. 8 in which the rail cover 140 is attached to the front door frame 13), a portion where the ball guide passage protrudes from the side edge of the glass 137. Is provided. With the configuration of the rail cover 140 described above, when the front door frame 13 is closed, the back surface of the rail cover 140 covers almost the entire area of the ball guide passage, and the game ball may jump out of the ball guide passage. In addition, it is possible to prevent the occurrence of a problem such as being caught in a gap formed between the outer rail portion 52 and the glass 137.
[0121]
A projecting ridge 142 extending in an arc shape along the inner edge of the rail cover 140 and projecting rearward is formed on the lower back side of the rail cover 140. The ridge 142 is disposed so as to overlap with the inner rail portion 51 in a state where the ridge 142 enters the ball guide passage when the front door frame 13 is closed. Therefore, for example, even if wire or film is intruded from the gap between the front door frame 13 and the main body frame 12 to perform an illegal act, the wire or film is invaded into the game area inside the ball guide passage. Becomes very difficult. As a result, it is possible to prevent fraudulent acts using wires, films, and the like. Note that the protrusions 142 may be formed in a wider range, for example, along the entire inner edge of the rail cover 140. According to such a configuration, it becomes difficult for wires, films, and the like to penetrate in a wider range, It is possible to more reliably prevent fraudulent acts performed using wires, films, and the like.
[0122]
Next, the configuration of the back of the pachinko machine 10 will be described. FIG. 9 is a rear view of the pachinko machine 10, and FIG. 10 is an exploded perspective view showing the rear configuration of the pachinko machine 10 by disassembling main components.
[0123]
First, an overall outline of the back configuration of the pachinko machine 10 will be described. On the back side of the pachinko machine 10, various control devices (various control boards) are arranged so as to be arranged vertically and horizontally or to be stacked back and forth, and a game ball supply device for supplying game balls. (Dispensing mechanism), a protective cover made of resin, and the like. In the present embodiment, various control devices are separately mounted on two mounts to form two control board units, and these control board units are individually mounted on the back of the main body frame 12 or the game board 30. ing. In this case, the main control device 271 (main board) and the sound lamp control device 272 (sound lamp control board) are mounted on one of the mounts to form a unit, and the payout control device 311 (payout control board) and the emission control A device 312 (emission control board) and a power supply device 313 (power supply board) are mounted on the other mount to form a unit. Hereinafter, for convenience, the former unit will be referred to as “first control board unit 201”, and the latter unit will be referred to as “second control board unit 202”. Further, the dispensing mechanism and the protective cover are also integrated as one unit, and the resin portion is generally referred to as a back pack. Therefore, the unit is herein referred to as a “back pack unit 203”. The detailed configuration of each of the units 201 to 203 will be described later.
[0124]
The first control board unit 201, the second control board unit 202, and the back pack unit 203 are configured so that they can be attached and detached without using any tool or the like in a unit unit, and a support shaft part is provided in a part to form the main body frame 12 Alternatively, the configuration can be developed on the back surface of the game board 30. This is also a device for making it possible to easily confirm a hidden part when the units 201 to 203 and other components are arranged one on top of the other. Actually, as shown in the schematic diagram of FIG. 11, the first control board unit 201 having a substantially L shape is arranged substantially at the center of the pachinko machine 10, and the second control board unit 202 is arranged below the first control board unit 201. I have. In addition, a back pack unit 203 is arranged in an area partially overlapping the first control board unit 201.
[0125]
The first control board unit 201 is provided with a support shaft M1 at the left end when viewed from the back of the pachinko machine 10, and the first control board unit 201 can rotate about an axis A by the support shaft M1. ing. Further, the first control board unit 201 is provided with a fastening portion M2 made of Nylatch (registered trademark) or the like at a right end portion thereof, that is, at an open end side opposite to the support shaft portion M1, and has a locking claw at an upper end portion. A portion M3 is provided, and the first control board unit 201 is held along the back surface of the pachinko machine 10 by the fastening portion M2 and the locking claw portion M3. The second control board unit 202 is provided with a spindle M4 at the right end when viewed from the back of the pachinko machine 10, and the second control board unit 202 is rotatable about an axis B formed by the spindle M4. It has become. Further, the second control board unit 202 is provided with a fastening portion M5 made of a nip latch or the like at the left end, that is, at the open end opposite to the support shaft portion M4. The board unit 202 is held along the back surface of the pachinko machine 10. Further, the back pack unit 203 is provided with a spindle M6 at the right end as viewed from the back of the pachinko machine 10, and the back pack unit 203 is rotatable about an axis C formed by the spindle M6. . Further, the back pack unit 203 is provided with a fastening portion M7 made of a nip latch or the like at the left end portion, that is, at the open end side opposite to the support shaft portion M6, and at the upper end portion and the lower end portion, respectively, are rotatable engagement members. Stop portions M8 and M9 are provided, and the back pack unit 203 is held along the back surface of the pachinko machine 10 by the fastening portions M7 and the locking portions M8 and M9.
[0126]
The support shafts M1, M4, and M6 that rotatably support the units 201 to 203 have a hinge structure that allows the units 201 to 203 to be easily removed with the units 201 to 203 opened from the back surface of the pachinko machine 10. Briefly, with respect to the first control board unit 201, the fastening of the fastening portion M2 and the locking of the locking claw portion M3 are released, and the unit 201 is rotated around the axis A and deployed. Lift in state. As a result, the first control board unit 201 can be removed if there is no back pack unit 203. In addition, the second control board unit 202 releases the fastening of the fastening portion M5, rotates the unit 202 about the axis B, expands it, and lifts up in that state. Thereby, the second control board unit 202 can be removed. Further, with regard to the back pack unit 203, the fastening of the fastening portion M7 and the locking of the locking portions M8 and M9 are released, and the unit 203 is rotated around the axis C, deployed, and lifted in that state. Thereby, the back pack unit 203 can be removed.
[0127]
Here, the unfolding directions of the units 201 to 203 are not the same, and the first control board unit 201 opens leftward when viewed from the back of the pachinko machine 10, whereas the second control board unit 202 and the back pack unit 203 is configured to open to the right. In this case, since the first control board unit 201 is provided to partially overlap the back pack unit 203, it is impossible to remove the first control board unit 201 without opening the back pack unit 203, More specifically, since the first control board unit 201 and the back pack unit 203 are configured to be deployed in the opposite directions, the back pack unit 203 must be opened widely beyond a predetermined angle or the unit 203 must be removed. For example, the first control board unit 201 cannot be removed. Therefore, if attention is paid to removing the first control board unit 201, the configuration is more difficult to remove than the other units 202 and 203. Further, the back pack unit 203 cannot be opened unless the main frame 12 is opened with respect to the outer frame 11 by operating the locking device with a key, so that the first control board unit 201 is further removed. Is difficult. A more specific configuration will be described later.
[0128]
Next, the back surface configuration of the main body frame 12 and the game board 30 will be described. 12 is a rear view showing a configuration in which the game board 30 is assembled to the main body frame 12 and the units 201 to 203 and the like are removed, FIG. 13 is a perspective view of the main body frame 12 viewed from the rear, FIG. 14 is a perspective view of the game board 30 as viewed from the rear.
[0129]
The game board 30 is installed from the back side in a square frame-shaped installation area surrounded by the resin base 25, and a plurality of (four in this embodiment) locking fixtures 211, 212 provided on the main body frame 12. It is fixed so that it does not fall backward. The locking fixtures 211 and 212 can be manually rotated, and can be switched between a fixed position (lock position) and a fixed release position (unlock position). FIG. 12 shows a locked state. The left and right locking fixtures 211 are L-shaped metal fittings formed by bending metal pieces, and are configured not to protrude outside the main body frame 12 when the game board 30 is fixed. The locking fixture 212 at the lower portion is an I-shaped fastener made of synthetic resin.
[0130]
The variable display unit 35 disposed at the center of the game board 30 is provided with a synthetic resin frame cover 213 projecting rearward from the back to cover the center frame 43 (see FIG. 4). At the rear end, a first symbol display device 41 and a display control device 214 as display control means are detachably attached in a state where they are superimposed on each other. In the frame cover 213, an LED control board and the like for driving LEDs and the like built in the center frame 43 are provided.
[0131]
A collective plate unit 215 is provided on the back surface of the game board 30 so as to surround the variable display unit 35. The collective plate unit 215 has a base formed of a synthetic resin such as an ABS resin as a thin plate-shaped frame, and is attached such that the base surface thereof is in contact with the back surface of the game board 30. The collecting plate unit 215 is provided with a game ball collection mechanism for collecting game balls that have won various winning ports, a winning detection mechanism for detecting winning of game balls to various winning ports, and the like. .
[0132]
A description will be given of the game ball collecting mechanism. Below the collecting plate unit 215, a collecting passage corresponding to the game board opening of the general winning opening 31, the variable winning device 32, and the operating opening 33 and gathering at one location on the downstream side. 216 are formed. A discharge passage board 217 made of a synthetic resin such as a polycarbonate resin is attached to the main body frame 12 below the game board 30. The discharge passage board 217 holds a discharge ball outside the pachinko machine 10, for example, in a game hall. A discharge passage 218 for guiding to island facilities or the like is formed. Accordingly, as exemplified by virtual lines in FIG. 12, all game balls that have won the general winning opening 31 and the like gather through the collection passage 216 of the collecting plate unit 215 and further form the discharge passage 218 of the discharge passage board 217. The pachinko machine 10 is discharged through the pachinko machine 10. The out port 36 also communicates with the discharge path 218, and game balls that have not won any of the winning ports are discharged to the outside of the pachinko machine 10 through the discharge path 218. In the above configuration, the collecting plate unit 215 (collection passage 216) is provided above and the discharge passage board 217 (discharge passage 218) is provided below with the lower end surface of the game board 30 as a boundary. It does not overlap with the game board 30 in the front-back direction. Therefore, when removing the game board 30 from the main body frame 12, there is no inconvenience that the discharge passage board 17 hinders removal of the game board.
[0133]
The discharge passage board 217 is disposed behind the upper plate 23 in front of the pachinko machine 10, and a wire, a film, or the like is inserted through a ball discharge port (ball passage gutter 138 in FIG. 2) reaching the upper plate 23. It is conceivable that the wire, the film, and the like enter the game area through a gap between the main body frame 12 and the discharge passage board 217. Therefore, in the present pachinko machine 10, as shown in FIG. 13, the discharge passage board 217 is positioned at a height position corresponding to the upper position of the ball passage gutter 138 so as to overlap with the main body frame 12 and forward of the pachinko machine 10. An extending plate 219 was provided. Therefore, even if an attempt is made to penetrate a wire, a film, or the like from the gap between the main body frame 12 and the discharge passage board 217, the wire, the film, or the like is impeded by the plate 219, and it is extremely difficult to penetrate the wire, the film, or the like into the game area. Become. As a result, it is possible to prevent fraudulent acts such as forcibly opening the variable winning device 32 by using a wire or a film.
[0134]
The winning detection mechanism will be described. The winning plate switch 221 is provided on the collecting board unit 215 at a position corresponding to the general winning opening 31 on the front side of the game board 30, and the specific area switch 222 and the specific area switch 222 are provided at positions corresponding to the variable winning device 32. A count switch 223 is provided. The specific area switch 222 is a switch that determines that the game ball that has won the variable prize device 32 during the big hit has entered the specific area. The specific area is an area for determining whether or not a round can be updated, and is also called a V zone. The count switch 223 is a switch that counts the number of gaming balls that have won the variable winning device 32. An operating port switch 224 is provided at a position corresponding to the operating port 33 to detect a prize of a game ball to the operating port 33, and at a position corresponding to the through gate 34, a passing of the game ball through the through gate 34 is detected. A gate switch 225 is provided. The winning opening switch 221 and the gate switch 225 are connected to the board relay board 226 through electrical wiring, and the specific area switch 222 and the count switch 223 are connected to the special winning opening relay board 227. The board relay board 226 and the winning port relay board 227 are connected to the main controller 271. The operation port switch 224 is directly connected to the main controller 271 without passing through the relay board. Although not shown, the variable winning device 32 drives a special winning opening solenoid for opening the opening and closing door of the special winning opening, and a distribution plate for distributing the winning prize ball to a specific area or another area. A winning ball distribution plate solenoid is provided, and the operating port 33 is provided with an operating port solenoid for opening an associated electric accessory.
[0135]
The detection results respectively detected by the winning detection mechanism are taken into the main control device 271, and a payout command (payout number of game balls) corresponding to a prize situation at each time is sent from the main control device 271 to the payout control device 311. Sent. The payout of a predetermined number of game balls is executed by the output of the payout control device 311. Here, in the conventional so-called proof ball method, game balls winning in various winning ports are once collected in a winning ball processing device, and the payout is performed after the winning ball processing device checks the existence of the winning balls one by one in order. However, in the pachinko machine 10 of the present embodiment, since the winning of the game ball is electrically detected for each winning port and the payout is immediately performed, a large amount of the game ball is paid out. In this case, the payout can be promptly performed, and the prize ball processing device becomes unnecessary.
[0136]
The board external terminal board 230 is provided in the upper right part of the assembly board unit 215. An output terminal for outputting a signal each time the change of the first symbol is stopped (confirmed), and an output terminal for outputting a signal during the big hit or during the shortening of the change time of the first symbol are provided on the external terminal board 230 for the board. And an output terminal for outputting a signal during the jackpot. Through these output terminals, signals relating to the game (the state of the game board 30) are output to the management control device on the game hall side. The board external terminal board 230 is attached to the collective board unit 215 in an easily removable state. As shown in FIG. 12, a set handle 228 having a ball-hitting hammer and the like and a firing motor 229 are provided in the lower left portion on the back side of the main body frame 12.
[0137]
The assembly plate unit 215 is provided with an attachment mechanism for attaching the first control board unit 201. Specifically, as this attachment mechanism, a bearing 231 extending in the vertical direction is provided at the lower left corner when viewed from the back of the game board 30, and the bearing 231 has a pair of upper and lower bearing holes 231a on the same axis. Is formed. In the game board 30, a pair of upper and lower holes to be fastened (specifically, mounting holes for the nylac) 232 are provided on the right side of the bearing fitting 231, and a locking claw piece 233 is provided above the bearing fitting 231. Have been.
[0138]
An attachment mechanism for attaching the second control board unit 202 and the back pack unit 203 is provided on the back surface of the main body frame 12. Specifically, a long bearing fitting 235 is attached to the right end of the main body frame 12. The bearing 235 also functions as a reinforcing member. As shown in FIG. 15, the bearing fitting 235 has a long plate-like fitting main body 236 extending downward from the game board 30, and is raised rearward from the fitting main body 236 so as to be second at two lower positions. A bearing portion 237 for the control board unit 202 is formed, and a bearing portion 238 for the back pack unit 203 is formed at two upper positions. Each of the bearing portions 237 and 238 has a coaxial bearing hole. In addition, the bearing 237 for the second control board unit 202 and the bearing 238 for the back pack unit 203 can be configured by individual bearings. In addition, as a mounting mechanism for the second control board unit 202, the main body frame 12 has a pair of upper and lower fastening holes (specifically, mounting holes for a nilac) 239 at the left end below the game board 30 installation area. Is provided. In addition, as a mounting mechanism for the back pack unit 203, the main body frame 12 is provided with a pair of upper and lower fastening holes (specifically, mounting holes for a nail latch) 240 at the left end of the game board 30 installation area. . At the upper left, upper right and lower right positions of the game board 30 in the main body frame 12, pivotable fixing members 241, 242, for sandwiching and supporting the back pack unit 203 between the game board 30 and the game board 30. 243 are provided, respectively. In addition, since the back pack unit 203 stores a large amount of game balls in the upper part, it is preferable that the fixtures 241 and 242 for supporting the upper part of the back pack unit 203 have a structure having particularly sufficient strength. Desirably, in the present embodiment, a rotating fixture is used.
[0139]
As described above, the left and right side portions (the right side in FIG. 12) of the main body frame 12 are provided with the elongated bearings 235, while the other left and right sides (the left side in FIG. 12) of the main body frame 12 are locked. A device is provided. The locking device includes a base frame 247 extending in the up-down direction and fixed to the main body frame 12, and a long interlocking rod 248 movably mounted on the base frame 247 in the up-down direction. The cylinder lock 91 is integrated with the lower part of the cylinder lock. The interlocking rod 248 is moved in either the up or down direction by operating the cylinder lock 91. The interlocking rod 248 is provided with a pair of upper and lower hooks 249 having a hook shape. When the main frame 12 is closed with respect to the outer frame 11, the hook 249 is supported by the support fitting ( (Not shown), and is locked by a locking device. In this case, when the linkage rod 248 moves upward by the operation of the cylinder lock 91, the locking of the main body frame 12 with respect to the outer frame 11 is released. Conversely, when the interlocking rod 248 moves downward by operating the cylinder lock 91, the locking of the front door frame 13 with respect to the main body frame 12 is released.
[0140]
In the above-described configuration in which the bearing 235 and the locking device (the base frame 247, the interlocking rod 248, etc.) are distributed to the left and right sides of the main body frame 12, these bearings 235 and the locking device (the base frame 247, the interlocking rod 248, etc.) The game board 30 is attached to the main body frame 12 so as to have a width leaving an area for placing the game board 30). As described above, the game area is also expanded.
[0141]
In the lower right part of the game board 30 on the back of the main body frame 12, a game ball distribution unit 245 for distributing game balls to be paid out from a payout mechanism described later to any of the upper plate 23, the lower plate 16, and the discharge passage 218 is provided. Has been. The game ball distributing section 245 has a left opening 245a communicating with the upper plate 23 via the first outlet 66, a central opening 245b communicating with the lower plate 16 via the second outlet 67, and a right opening. Each passage is formed such that the portion 245c communicates with the discharge passage 218. The game ball distribution unit 245 is firmly attached to the main body frame 12 with screws or the like. Therefore, floating at the installation site of the game ball distribution unit 245 is prevented, and illegal acts caused by intrusion of wires, films, and the like from gaps can be prevented. A speaker box 246 made of synthetic resin is attached to the lower end of the main body frame 12 so as to surround the back of the speaker 20 installed on the back side of the back wall panel 17. The sound quality of the low range is improved by functioning so as not to be missed.
[0142]
Next, the configuration of the first control board unit 201 will be described with reference to FIGS. 16 is a front view of the first control board unit 201, FIG. 17 is a perspective view of the same unit 201, FIG. 18 is an exploded perspective view of the same unit 201, and FIG. 19 is an exploded perspective view of the same unit 201 viewed from the back. .
[0143]
The first control board unit 201 has a substantially L-shaped mount 251 on which a main controller 271 and an audio lamp controller 272 are mounted. The main control device 271 includes a CPU that controls the main control, a ROM that stores a game program, a RAM that stores necessary data according to the progress of the game, a port that communicates with various devices, and a random number used in various lotteries. A main board including a generator, a clock pulse generation circuit used for time counting and synchronization, and the like are provided. The main board is housed in a board box 273 as a wrapping means made of a transparent resin material or the like. It is configured. The board box 273 includes a substantially rectangular parallelepiped box base and a box cover that covers an opening of the box base. The box base and the box cover are non-openably connected by a sealing unit 274 as a sealing means, whereby the substrate box 273 is sealed.
[0144]
As the sealing unit 274, any configuration can be applied as long as the configuration is such that the box base and the box cover are connected so as not to be opened. Here, as shown in FIG. 17 and the like, the configuration is such that five sealing members are connected. The box base and the box cover are connected so as not to be opened by inserting a locking claw into the long hole of the sealing member. The sealing process by the sealing unit 274 prevents an unauthorized opening after the sealing, and makes it possible to detect such a situation early and easily even if the unauthorized opening is performed. It is possible to perform the sealing process again even after the sealing. That is, the sealing process is performed by inserting the locking claw into the long hole of at least one of the five sealing members constituting the sealing unit 274. When the board box 273 is opened, for example, when a failure occurs in the accommodated main board or when the main board is inspected, the connection between the sealing member in which the locking claws are inserted and another sealing member is disconnected. Thereafter, when the sealing process is performed again, the locking claws are inserted into the long holes of the other sealing members. If a history indicating that the board box 273 has been opened is left in the board box 273, the fact that unauthorized opening has been performed can be easily found by looking at the board box 273.
[0145]
The sound lamp control device 272 includes, for example, a CPU that controls sound and lamp display according to an instruction from the main control device 271 or the display control device 214, and also includes a sound lamp control board including ROM, RAM, various ports, and the like. The sound lamp control board is accommodated in a board box 275 made of a transparent resin material or the like. A power relay board 276 is mounted on the audio lamp control device 272, and power of the power supply device 313 is supplied to the display control device 214 and the audio lamp control device 272 via the power relay substrate 276, respectively. I have. That is, power is supplied to the display control device 214 and the sound lamp control device 272 independently of each other.
[0146]
The mounting base 251 is made of a synthetic resin such as a polycarbonate resin, and is colored, for example, green or blue and opaque. However, the mounting base 251 may be colorless and transparent or translucent. On the surface of the mounting base 251, two flat board mounting surfaces 252 and 253 are provided. These board mounting surfaces 252 and 253 extend in directions perpendicular to each other vertically and horizontally, and are formed with a step in the front-rear direction. An upright portion 254 that rises from the substrate mounting surface 252 is integrally formed with each of the upper edge and the lower edge of the substrate mounting surface 252. The main controller 271 is arranged on the horizontally long board mounting surface 252, and the audio lamp control device 272 is arranged on the vertically long board mounting surface 253. At this time, the upper and lower sides of main controller 271 are supported by upright portions 254. The sound lamp control device 172 is fixed to the board mounting surface 253 at a plurality of locations by screws or the like.
[0147]
Here, as shown in FIGS. 18 and 19, horizontally long through-holes 256 are formed on the substrate mounting surface 252 at two places on the left and right. On the other hand, the board box 273 of the main control device 271 is provided with pivotally operated fixing members 277 at two positions on the left and right sides on the back surface. When mounting main controller 271 on board mounting surface 252, main control board 271 is placed so that fixture 277 is inserted into through hole 256 of board mounting surface 252, and in that state, fixture 277 is mounted. By rotating, main controller 271 is locked. Accordingly, the main controller 271 cannot be removed from the back surface side of the first control board unit 201 unless the fixture 277 is unlocked, so that a deterrent effect such as board removal can be obtained.
[0148]
In addition, on the mounting base 251, below the board mounting surface 252 for the main board, a shielding portion 257 for shielding an opening communicating with the space on the back surface of the board mounting surface 252 is provided. Therefore, insertion of a hand or the like into the back surface of the mounting table 251 from below the board mounting surface 252 is prevented, so that the locked state of the fixing tool 277 cannot be illegally released. When the first control board unit 201 is mounted on the back of the pachinko machine 10, the upper part of the unit 201 is covered by the back pack unit 203, which also prevents a hand or the like from being inserted on the back of the mounting base 251. The lock state of the fixing member 277 cannot be illegally released.
[0149]
As described above, the first control board unit 201 cannot be removed unless the back pack unit 203 is widely opened at a predetermined angle or more or the unit 203 is removed, and the locking device is not properly installed. The back pack unit 203 cannot be opened unless the main frame 12 is opened with respect to the outer frame 11 by operating a key. That is, if the main frame 12 cannot be opened, the first control board unit 201 cannot be rotated or removed as a result, and the main control device 271 cannot be removed. Therefore, unauthorized replacement or theft of main controller 271 can be effectively prevented.
[0150]
The main control device 271 is arranged on the near side when viewed from the back of the pachinko machine 10, and the sound lamp control device 272 is arranged on the back side. In this case, since the board mounting surfaces 252 and 253 are formed with a step in the front-rear direction, each of the control devices 271 and 272 in a state where the main control device 271 and the sound lamp control device 272 are mounted on the board mounting surfaces 252 and 253. Are arranged such that a part thereof is overlapped in front and back. That is, as can be seen in FIG. 17 and the like, main controller 271 is arranged with a part thereof (about ３ in the present embodiment) floating. Therefore, it is possible to extend the sound ramp control device 272 to a region overlapping the main control device 271, and from another point of view, it is possible to extend the main control device 271 to a region overlapping the sound lamp control device 272. Even within the limited size of the pachinko machine 10, the control boards 271 and 272 can be satisfactorily coped with an increase in the size of the control boards 271 and 272, and the control devices 271 and 272 can be installed efficiently. When the first control board unit 201 is mounted on the game board 30, a space is secured behind the board mounting surface 252, so that the variable winning device 32 and its electric wiring can be easily installed. Note that a grid-like rib 258 is provided on the back surface of the board mounting surface 252, and the support strength of the main control board 271 is increased.
[0151]
A pair of upper and lower locking pins 261 are provided on the left end surface of the mounting base 251. By mounting the locking pins 261 to the bearing bracket 231, the first control board unit 201 rotates with respect to the game board 30. Movable cantilevered. A pair of upper and lower nip latches 262 are provided at the right end of the mounting base 251 as fasteners to be fitted in the holes 232 to be fastened. An elongated hole 263 in which the locking claw piece 233 is locked is provided at the upper end of the mounting base 251. Therefore, the first control board unit 201 is fixed to the game board 30 by fitting the nail latch 262 into the fastening hole 232 and locking the locking claw 233 in the elongated hole 263. In addition, a bearing 231 and a latching pin 261 are provided on the support shaft M1, a fastening hole 232 and a ny latch 262 are provided on the fastening portion M2, a locking claw 233 and a long hole 263 are provided on the locking claw M3. Each corresponds.
[0152]
Next, the configuration of the second control board unit 202 will be described with reference to FIGS. 20 is a front view of the second control board unit 202, FIG. 21 is a perspective view of the same unit 202, and FIG. 22 is an exploded perspective view of the same unit 202.
[0153]
The second control board unit 202 has a horizontally long mounting base 301 on which a payout control device 311, a firing control device 312, a power supply device 313, and a card unit connection substrate 314 are mounted. The payout control device 311 and the launch control device 312 are equipped with a CPU which is a central control unit, and a control board including a ROM, a RAM, various ports, and the like. The payout control board of the payout control device 311 controls the payout of the prize ball and the loaned ball. The firing control board of the firing control device 312 controls the firing motor 229 in accordance with the operation of the game ball firing handle 18 by the player. Further, a predetermined power supply voltage required by various control devices and the like is generated and output by the power supply board of the power supply device 313. The card unit connection board 314 is electrically connected to the ball lending operation unit 120 on the front of the pachinko machine and a card unit (not shown), and mainly takes in a ball lending operation command by the player and outputs it to the payout control device 311. It is. In a cash machine in which game balls are directly rented to the upper plate from a ball rental device or the like without using a card unit, the card unit connection board 314 is unnecessary.
[0154]
The payout control device 311, the firing control device 312, the power supply device 313, and the card unit connection board 314 are respectively housed in board boxes 315, 316, 317, 318 made of a transparent resin material or the like. In particular, in the payout control device 311, similarly to the main control device 271, the substrate box 315 constituting the enclosing means includes a box base and a box cover, and these are unopenably connected by a sealing unit 319 as sealing means. Thereby, the substrate box 315 is sealed. The payout control device 311 is provided with a state return switch 321. For example, when the state return switch 321 is pressed at the time of a payout error such as a payout motor ball clogging described below, the payout motor rotates forward and reverse to eliminate the ball clogging (return to a normal state). It has become. The power supply device 313 is provided with a RAM erase switch 323. The pachinko machine 10 has a backup function of various data, and retains the state at the time of power failure even in the event of a power failure, and returns to the state at the time of power failure when returning from power failure (power recovery) I can do it. Therefore, for example, when the power is turned off in the normal procedure as in the case of closing the game hall, the state before the power is turned off is stored and held. However, when the power is turned on while pressing the RAM erase switch 323, the RAM data is initialized. It has become.
[0155]
The mounting table 301 is made of, for example, a colorless and transparent resin molded product, and has a flat board mounting surface 302 on its surface. On the board mounting surface 302, a launch control device 312, a power supply device 313, and a card unit connection board 314 are mounted in a side-by-side state, and are fixed with screws or the like. A substantially flat pedestal plate 303 is placed on the substrate box 317 of the power supply device 313, and a payout control device 311 is mounted on the pedestal plate 303 and fixed with screws or the like. Since the pedestal plate 303 is interposed between the dispensing control device 311 and the power supply device 313, for example, a metal plate or the like for removing noise may be installed on the pedestal plate 303, and noise countermeasures are simple. Can be realized.
[0156]
The mounting base 301 is provided with a pair of upper and lower locking pins 305 at the right end when viewed from the back of the pachinko machine 10, and the second control board unit is inserted by inserting the locking pins 305 into the bearing portion 237 from above. A cantilever 202 is rotatably supported on the main body frame 12. A pair of upper and lower nail latches 306 are provided as fasteners at the left end of the mounting base 301, and the second control board unit 202 is fixed to the main body frame 12 by fitting the nail latches 306 into the holes 239 to be fastened. The bearing portion 237 and the retaining pin 305 correspond to the support shaft portion M4, and the fastening hole 239 and the nail latch 306 correspond to the fastening portion M5.
[0157]
Next, the configuration of the back pack unit 203 will be described with reference to FIGS. FIG. 23 is a front view of the back pack unit 203, and FIG. 24 is an exploded perspective view of the back pack unit 203. FIG. 25 is an exploded perspective view of the tank rail.
[0158]
The back pack unit 203 is configured by integrating a back pack 351 and a payout mechanism 352 for game balls. The back pack 351 is integrally formed of, for example, a synthetic resin such as an ABS resin, and has a substantially flat base portion 353 and a protective cover portion 354 that projects to the rear of the pachinko machine 10 and has a substantially rectangular parallelepiped shape. The protection cover portion 354 has a shape in which the left and right side surfaces and the upper surface are closed and only the lower surface is opened, and has a size sufficient to surround at least the variable display unit 35. However, in the present embodiment, the sound lamp control device 272 described above is also enclosed. A large number of ventilation holes 354a are provided on the back surface of the protective cover 354. The ventilation holes 354a each have a long hole shape, and are provided so that the ventilation holes 354a are adjacent to each other at a relatively close position. Therefore, by cutting the resin part between the adjacent ventilation holes 354a, the back surface of the back pack 351 can be easily opened. That is, by cutting the resin portion between the ventilation holes 354a and exposing the display control device 214 and the like inside the resin portion, a predetermined test or the like can be easily performed.
[0159]
A dispensing mechanism 352 is provided on the base 353 of the back pack 351 so as to bypass the protective cover 354. That is, a tank 355 that opens upward is provided at the top of the back pack 351, and game balls supplied from island facilities in the game hall are sequentially supplied to the tank 355. Below the tank 355, a tank rail 356 having, for example, two rows (two rows) of ball passages and gradually sloping toward the downstream side is connected, and extends vertically on the downstream side of the tank rail 356. The case rail 357 is connected. The payout device 358 is provided at the most downstream portion of the case rail 357, and the payout motor 358a is driven by the control of the payout control device 311 to pay out a required number of game balls as appropriate. The game balls paid out from the payout device 358 are supplied to the upper plate 23 and the like through the payout passage 359 and the like. Although not shown, a tank-ball-less sensor for detecting the presence or absence of a game ball supplied from the tank 355 or the tank rail 356 is provided upstream of the case rail 357. The payout device 358 is provided with a payout rotation sensor that detects the rotation of the payout motor 358a, and a payout count switch that counts the number of game balls to be paid out.
[0160]
A vibrator 360 for applying vibration to the tank rail 356 is attached to the tank rail 356. The vibrator 360 is unitized by a vibrator motor and a synthetic resin case accommodating the vibrator motor, and is attached to the tank rail 356 by two legs 360a. Therefore, if a ball jam occurs near the tank rail 356, the ball jam is eliminated by driving the vibrator 360.
[0161]
The tank rail 356 will be described in detail with reference to FIG. 25. The tank rail 356 has a long gutter-shaped rail body 361 opened upward. A spherical ball receiving portion 362 is formed at an upstream portion of the rail main body 361, and the game ball dropped from the tank 355 is smoothly taken into the rail main body 361 by the ball receiving portion 362. The rail main body 361 is provided with a partition wall 363 extending in the longitudinal direction, so that the game ball is divided into two hands by the partition wall 363. The two ball passages partitioned by the partition wall 363 are slightly wider than the diameter of the game ball. On the bottom surface of each ball passage partitioned by the partition wall 363, one or two protrusions 364 are provided, and an opening 365 for dropping dust is provided beside the protrusions 364. I have. A rectifying plate 367 is provided on the rail main body 361 so as to cover about half of the ceiling on the downstream side. The current plate 367 has an arcuate shape so as to limit the height of the ball passage in the tank rail 356 toward the downstream side, and a convex portion 368 extending in the longitudinal direction is formed on the lower surface thereof. Thereby, each game ball flowing in the tank rail 356 finally flows out downstream without being stacked vertically. Therefore, even if a large amount of game balls flow into the tank rail 356, the game balls are prevented from being caught and ball clogging in the tank rail 356 is less likely to occur. The rail main body 361 is formed of a black conductive polycarbonate resin to prevent static electricity, whereas the rectifying plate 367 is formed of a transparent polycarbonate resin so that clogging of a ball or the like can be visually confirmed. The current plate 367 is detachably provided, and maintenance inside the tank rail 356 can be easily performed by removing the current plate 367. A manual stopper 369 for preventing the game balls from flowing down is attached to the current plate 367.
[0162]
Returning to the description of FIGS. 23 and 24, a payout relay board 381 that relays a signal of a payout command from the payout control device 311 to the payout device 358 is installed in the payout mechanism unit 352, and a main power supply is taken in from outside. Power switch board 382 is installed. A main power of, for example, 24 volts AC is supplied to the power switch board 382 via a voltage converter, and the power is turned on or off by a switching operation of the power switch 382a.
[0163]
The dispensing mechanism 352 from the tank 355 to the dispensing passage 359 is formed of a synthetic resin material having conductivity, for example, a conductive polycarbonate resin, and a part thereof is grounded. As a result, generation of noise due to charging of the game balls is suppressed.
[0164]
The back pack 351 is provided with a frame external terminal plate 390 in the upper right part. The frame external terminal plate 390 has an output terminal for outputting a signal when a shortage of game balls occurs in the tank 355 or the tank rail 356, an output terminal for outputting a signal each time a predetermined number of prize balls are paid out, An output terminal for outputting a signal each time the number of game balls is lent, an output terminal for outputting a signal when the main body frame 12 is opened, and an output terminal for outputting a signal when the front door frame 13 is opened are provided. . Then, through these output terminals, a signal relating to the state of the frame side is output to the management control device of the game hall side. Note that an output terminal for outputting a signal every time a predetermined number of game balls are lent is unnecessary in a so-called cash machine.
[0165]
The back pack 351 is provided with a substantially square window 391 adjacent to the frame external terminal plate 390. Therefore, when the back pack unit 103 is attached to the main body frame 12, the board external terminal board 230 on the back of the game board 30 is exposed through the window 391, and the board external terminal board 230 is mounted with the back pack unit 103 attached. Operation can be performed. As described above, since the board external terminal board 230 is attached to the collective board unit 215 in an easily removable state, the board external terminal board 230 is connected to the board via the window 391 while the wiring of the board external terminal board 230 is connected. The external terminal board 230 can be taken out. A body frame opening switch 392 for detecting an open state of the body frame 12 is provided at an upper right portion of the back pack 351. When the body frame 12 is closed with respect to the outer frame 11, the metal of the switch 392 is provided. The contacts are closed and the closing of the body frame 12 is detected. When the body frame 12 is opened with respect to the outer frame 11, the metal contacts are opened and the opening of the body frame 12 is detected.
[0166]
The back pack 351 is provided with a pair of upper and lower locking pins 385 at the right end as viewed from the back of the pachinko machine 10. By inserting the locking pins 385 into the bearing portion 238 from above, the back pack unit 203 is formed. The cantilever is supported rotatably with respect to the main body frame 12. The back pack 351 is provided with a pair of upper and lower nip latches 386 as fasteners at the left end, and is provided with a locking hole 387 at the upper end. The back pack unit 203 is fixed to the main body frame 12 by rotating the fixing tool 242 after inserting the fixing tool 242 into the 387. The back pack unit 203 is also fixed to the main body frame 12 by the fixing tools 241 and 243. Note that the bearing portion 238 and the latch pin 385 correspond to the support shaft portion M6, the fastening hole 240 and the nail latch 386 correspond to the fastening portion M7, and the fixing tool 242 and the locking hole 387 correspond to the locking portion M8. I do. The fixing tool 243 corresponds to the locking portion M9.
[0167]
Next, an electrical configuration of the pachinko machine 10 will be described based on a block diagram of FIG.
[0168]
The main controller 271 is equipped with a CPU 501 as a one-chip microcomputer which is an arithmetic unit. The CPU 501 includes a ROM 502 storing various control programs executed by the CPU 501 and fixed value data, and a memory for temporarily storing various data when executing the control programs stored in the ROM 502. A certain RAM 503 and various circuits such as an interrupt circuit, a timer circuit, and a data transmission / reception circuit are built therein.
[0169]
The RAM 503 has a configuration in which a backup voltage is supplied from the power supply device 313 and data can be retained (backed up) even after the power of the pachinko machine 10 is cut off, and the RAM 503 temporarily stores various data and the like. A backup area 503a is provided in addition to the memory and the area for the backup.
[0170]
The backup area 503a stores the values of the stack pointer, registers, I / O, and the like when the power is cut off (including when a power failure occurs; the same applies hereinafter) when the power is cut off due to the occurrence of a power failure or the like. When the power is turned on (including turning on the power by turning off the power, and the same applies hereinafter), the state of the pachinko machine 10 can be returned to the state before the power was turned off based on the information in the backup area 503a. I have. Writing to the backup area 503a is executed when power is turned off by NMI interrupt processing (see FIG. 38), and restoration of each value written to the backup area 503a is executed in main processing when power is turned on (see FIG. 31). The NMI terminal (non-maskable interrupt terminal) of the CPU 501 is configured to receive a power failure signal SG1 from the power failure monitoring circuit 542 when the power is shut down due to the occurrence of a power failure or the like. The NMI interrupt process as a process is immediately executed.
[0171]
An input / output port 505 is connected to the CPU 501 of the main controller 271 via a bus line 504 including an address bus and a data bus. The input / output port 505 is connected to a RAM erasure switch circuit 543, a payout control device 311, a display control device 214, and other switches (not shown).
[0172]
The payout control device 311 controls the payout of prize balls and loaned balls by the payout motor 358a. The CPU 511 as an arithmetic unit includes a ROM 512 storing a control program executed by the CPU 511, fixed value data, and the like, and a RAM 513 used as a work memory or the like.
[0173]
Like the RAM 503 of the main control device 271, the RAM 513 of the payout control device 311 has a configuration in which a backup voltage is supplied from the power supply device 313 and data can be retained (backed up) even after the power of the pachinko machine 10 is cut off. The RAM 513 is provided with a backup area 513a in addition to a memory and an area for temporarily storing various data and the like.
[0174]
The backup area 513a is an area for storing the values of the stack pointer, registers, I / O, and the like when the power is turned off when the power is cut off due to the occurrence of a power failure. Based on the information in the backup area 513a, the state of the pachinko machine 10 can be returned to the state before power-off. Writing to the backup area 513a is executed when the power is turned off by the NMI interrupt process, and restoration of each value written to the backup area 513a is executed in the main process when the power is turned on. Note that, similarly to the CPU 501 of the main control device 271, the NMI terminal of the CPU 511 is configured to receive the power failure signal SG1 from the power failure monitoring circuit 542 when the power is cut off due to the occurrence of a power failure or the like. The NMI interrupt process is immediately executed.
[0175]
An input / output port 515 is connected to the CPU 511 of the payout control device 311 via a bus line 514 including an address bus and a data bus. The I / O port 515 is connected to the RAM erasure switch circuit 543, the main controller 271, the firing controller 312, the payout motor 358a, and the like.
[0176]
The firing control device 312 permits or prohibits the firing of the game ball by the firing motor 229, and the driving of the firing motor 229 is permitted when a predetermined condition is satisfied. Specifically, that the firing control signal is output from the payout control device 311, that the player is touching the game ball firing handle 18 by the sensor signal is detected, and that the firing for stopping the firing is performed. On condition that the stop switch is not operated, the firing motor 229 is driven, and the game ball is fired with a strength corresponding to the operation amount of the game ball firing handle 18.
[0177]
The display control device 214 changes the first symbol (special symbol) on the first symbol display device 41 based on the symbol display command transmitted from the main control device 271 and the second symbol (special symbol) on the second symbol display device 42. It controls the variable display of the normal symbol. However, the configuration of the display control device 214 relating to the display control of the first symbol will be described later. In addition, the display control device 214 transmits a control command to the sound lamp control device 272, and the sound lamp control device 272 controls various lamps and speakers according to the control command received from the display control device 214, The driving of the right door 171 and the left door 172 provided on the display screen of the one symbol display device 41 is controlled.
[0178]
The power supply device 313 includes a power supply unit 541 for supplying power to each unit of the pachinko machine 10, a power failure monitoring circuit 542 for monitoring power interruption due to a power failure or the like, and a RAM erase switch circuit 543 connected to the RAM erase switch 323. And The power supply unit 541 supplies necessary operation power to the main control device 271 and the payout control device 311 via a power supply path (not shown). As an outline, the power supply unit 541 takes in an AC 24 volt power supply supplied from the outside and generates a +12 V power supply for driving various switches and motors, a +5 V power supply for logic, a backup power supply for RAM backup, and the like. Then, the + 12V power supply, the + 5V power supply, and the backup power supply are supplied to the main controller 271 and the payout controller 311. The firing control device 312 is supplied with operating power (+12 V power, +5 V power, etc.) via the payout control device 311.
[0179]
The power failure monitoring circuit 542 is a circuit for outputting a power failure signal SG1 to each of the NMI terminals of the CPU 501 of the main control device 271 and the CPU 511 of the payout control device 311 when the power is cut off due to a power failure or the like. The power failure monitoring circuit 542 monitors a DC stable voltage of 24 volts, which is the maximum voltage output from the power supply unit 541, and determines that a power failure (power interruption) has occurred if this voltage falls below 22 volts. The power outage signal SG1 is output to the main control device 271 and the payout control device 311. Based on the output of the power failure signal SG1, the main control device 271 and the payout control device 311 recognize the occurrence of the power failure and execute the NMI interruption process. In addition, even after the DC stable voltage of 24 volts becomes less than 22 volts, the power supply unit 541 keeps the output of the control system drive voltage of 5 volts at the normal value for a time sufficient for executing the NMI interrupt processing. It is configured to maintain. Therefore, the main control device 271 and the payout control device 311 can normally execute and complete the NMI interrupt processing.
[0180]
The RAM erasure switch circuit 543 receives a switch signal of the RAM erasure switch 323 and outputs a RAM erasure signal SG2 for clearing backup data of the main controller 271 and the payout controller 311 according to the state of the switch 323. It is. When the RAM erase switch 323 is pressed, the RAM erase switch circuit 543 outputs a RAM erase signal SG2 to the main controller 271 and the payout controller 311. Thus, when the power of the pachinko machine 10 is turned on while the RAM erase switch 323 is pressed, the data in the backup areas 503a and 513a are cleared in the main controller 271 and the payout controller 311.
[0181]
Next, the configuration of the display control device 214 related to the display control of the first symbol (special symbol) will be described with reference to FIG.
[0182]
As shown in FIG. 27, the display control device 214 includes a CPU 521, a program ROM 522, a work RAM 523, a video display processor (VDP) 524, a video RAM 525, a character ROM 526, and an input port 527. The CPU 521 of the display control device 214 receives the symbol display command (stop symbol command, variation pattern command, fixed command, etc.) transmitted from the main controller 271 via the input port 527, and analyzes the received command or The VDP 524 is controlled (specifically, an internal command is generated for the VDP 524) by performing a predetermined operation based on the received command. The program ROM 522 is a memory for storing various control programs executed by the CPU 521 and fixed value data, and also stores and holds JPEG format image data for a background image. The work RAM 523 is a memory for temporarily storing work data, flags, and the like used when the CPU 521 executes various programs.
[0183]
The VDP 524 is a kind of drawing circuit that directly operates an LCD driver (liquid crystal driving circuit) incorporated in the first symbol display device 41. Since the VDP 524 is formed as an IC chip, it is also called a “drawing chip”, and its substance can be called a microcomputer chip having firmware dedicated to drawing processing. The VDP 524 adjusts respective timings of the CPU 521, the video RAM 525, and the like to intervene in reading and writing of data, and reads display data stored in the video RAM 525 from the character ROM 526 at a predetermined timing and sends the display data to the first symbol display device 41. Display.
[0184]
The video RAM 525 is a memory for storing display data displayed on the first symbol display device 41. The display content of the first symbol display device 41 is changed by rewriting the content of the video RAM 525. The character ROM 526 plays a role as an image data library for storing character data such as symbols displayed on the first symbol display device 41. The character ROM 526 stores bitmap image data of various display symbols, a color pallet table to be referred to when determining the expression color of each dot of the bitmap image, and the like. In particular, a symbol code (symbol number) is assigned to each of the symbol image data in the bitmap format, and at the command level, each symbol image can be managed only by the symbol code. It is also possible to provide a plurality of character ROMs 526 and share image data and the like in each character ROM 526. It is also possible to adopt a configuration in which JPEG format image data for a background image stored in the program ROM 522 is stored in the character ROM 526.
[0185]
Here, the first symbol displayed on the first symbol display device 41 and the display content on the display screen of the first symbol display device 41 will be described with reference to FIGS. FIG. 28 is a drawing individually showing a plurality of symbols as the first symbol. FIGS. 29A and 29B are diagrams showing a display screen G of the first symbol display device 41. FIG. 29A shows an area division setting and an effective line setting in the display screen G, and FIG. Indicates the display content.
[0186]
As shown in (a) to (k) of FIG. 28, the first symbol is one type of ten types of main symbols each having a number of “0” to “9” and a petal-shaped symbol. It is composed of sub-designs. In detail, in each main symbol, numbers “0” to “9” are given on the rear symbol made of a wooden box, and among the main symbols of odd numbers (1, 3, 5, 7, 9), Nearly the front side of the wooden box is almost fully numbered. On the other hand, in the main pattern of the even number (0, 2, 4, 6, 8), each of the talismans, furoshiki, helmet, plane, kettle, etc. drawn on the front side of the wooden box is almost full. Numerical numbers are relatively small. In this case, the main symbols with odd numbers (1,3,5,7,9) correspond to "high-probability symbols", and when the high-probability symbols are aligned, the player enters the special jackpot state, which is a special gaming state. After that, the state shifts to the state at the high probability. Also, the main symbols with even numbers (0, 2, 4, 6, 8) correspond to “low-probability symbols”, and when the low-probability symbols are aligned, the state shifts to the jackpot state. Does not transition to the state of high probability. The high probability time is a state in which the combination of the first symbol is a jackpot due to the combination of the predetermined probability variation symbols and the subsequent jackpot probability is increased as added value, that is, a so-called probable change, and a normal time (low). "Probability time" means a time when the state is not such a probable change state.
[0187]
The player plays the game with the expectation that the first symbol is aligned with the high-probability symbol, that is, the number assigned to the main symbol at the time of the stop of the change of the first symbol is the high-probability number (odd number). In the high-probability symbol, the numeric symbol is drawn large and the high probability is emphasized, so that the interest of the game is enhanced.
[0188]
Next, the display screen G of the first symbol display device 41 will be described. As shown in (a) of FIG. 29, the display screen G of the first symbol display device 41 is largely divided into upper and lower portions, and a lower 2/3 is a main display region Rm in which the first symbol is variably displayed. (Upper 1/3) is a sub-display area Rs for displaying a notice effect and a character. The main display area Rm corresponds to a “first display area”, and the sub display area Rs corresponds to a “second display area”.
[0189]
In the main display area Rm, three symbol rows Z1, Z2, Z3 of left, middle, and right are set, and the first symbol described above is displayed in a prescribed order for each symbol row Z1 to Z3. . That is, in each of the symbol rows Z1 to Z3, the main symbols are arranged in the ascending or descending order of the numbers, and one sub symbol is arranged between the main symbols. At this time, in each of the symbol rows Z1 to Z3, a total of 20 first symbols of 10 main symbols and 10 sub symbols are set. Then, in the main display area Rm, 20 first symbols are displayed in a variable manner so as to scroll from top to bottom with periodicity in each of the symbol rows Z1 to Z3. In particular, the numbers of the main symbols appear in descending order in the left symbol row Z1, and the numbers of the main symbols appear in ascending order in the middle symbol row Z2 and the right symbol row Z3. Also, in the main display area Rm, the first symbols are displayed in three rows of upper, middle, and lower for each symbol row Z1 to Z3, and as a result, a total of nine first symbols of 3 rows × 3 rows are displayed. It is supposed to be.
[0190]
In the main display area Rm, five effective lines, that is, an upper line L1, a middle line L2, a lower line L3, a rising line L4, and a rising line L5 are set. Then, at the time of each game, the fluctuation display of the first symbol is stopped in the order of the left symbol row Z1 → the right symbol row Z3 → the middle symbol row Z2, and when the symbol is fixed, the first symbol hits any of the activated lines. If a combination of symbols (in the present embodiment, a combination of the same main symbols) is arranged, a big hit video is displayed as a big hit.
[0191]
The sub-display area Rs is provided horizontally above the main display area Rm, and is equally divided into three areas. In this case, of the three sub-display regions Rs, the right region is the first notice region Rs1, the left region is the second notice region Rs2, and the central region is the third notice region Rs3. The first notice area Rs1 and the second notice area Rs2 are areas overlapping the right door 171 and the left door 172 (see FIG. 5) described above, and the first notice area Rs1 and the second notice area Rs2 are in the state where the right door 171 and the left door 172 are arranged. The first notice area Rs1 is hidden by the right door 171 and the second notice area Rs2 is hidden by the left door 172. On the other hand, the third notice area Rs3 is a display area that does not overlap with the right door 171 and the left door 172 and is always visible to the player.
[0192]
On the actual display screen, as shown in FIG. 29B, a total of nine main symbols and one sub symbol of the first symbol are displayed in the main display area Rm. The figure shows an arbitrary display state. In the sub display area Rs, when the right door 171 and the left door 172 are provided, the first notice area Rs1 and the second notice area Rs2 are hidden, and the display contents thereof cannot be visually recognized. When the right door 171 is opened, the first notice area Rs1 appears, and a predetermined notice effect is performed in the first notice area Rs1. Further, when the left door 172 is opened, the second notice area Rs2 appears, and a predetermined notice effect is performed in the second notice area Rs2. In the third notice area Rs3, a display is usually performed such that a predetermined character (a boy character with a beeper in the figure) performs a predetermined operation. Then, a preview effect is performed by the character or the like as necessary.
[0193]
As described above, the display screen G of the first symbol display device 41 is divided into the main display region Rm and the sub display region Rs in principle, but the display screen G straddles each of the display regions Rm and Rs, or A display effect can also be performed by integrating the main display region Rm and at least a part of the sub-display region Rs into one. For example, after the occurrence of the predetermined reach, the area division between the main display area Rm and the sub display area Rs is eliminated, and the display areas Rm and Rs are combined into one display area, and a display effect using the display area is performed. Done. However, the display mode after the occurrence of the reach will be described later in detail.
[0194]
Incidentally, in the present embodiment, the right door 171 and the left door 172 have a configuration in which the back thereof cannot be seen through. However, for example, the right door 171 and the left door 172 are formed of a translucent material, and the right door 171 and the left The image behind it may be made faint or faint through the door 172. In this case, the display effect is performed in the first notice area Rs1 and the second notice area Rs2 even in the state hidden by the right door 171 and the left door 172. Then, even if the first notice area Rs1 and the second notice area Rs2 are concealed by the right door 171 and the left door 172, the effect behind the first notice area Rs1 and the second notice area Rs2 can be slightly seen through, and the player is expected to shift to the jackpot state. Can be given.
[0195]
Next, the operation of the pachinko machine 10 configured as described above will be described.
[0196]
In the present embodiment, the CPU 501 in the main control device 271 performs a jackpot lottery, a setting of the symbol display of the first symbol display device 41, and the like using various kinds of counter information at the time of the game. As shown in FIG. 30, the jackpot random number counter C1 used for the jackpot lottery, the jackpot symbol counter C2 used for selecting the jackpot symbol of the first symbol display device 41, and when the first symbol display device 41 deviates and fluctuates. , A random number initial value counter CINI used to set an initial value of the jackpot random number counter C1, a fluctuation type counter CS1, CS2 used to select a fluctuation pattern of the first symbol display device 41, , Left, middle and right missing symbol counters CL, CM and CR used for setting each of the missing symbols in the left, middle and right columns. It is set to be there.
[0197]
Among them, the counters C1 to C3, CINI, CS1, and CS2 are loop counters in which 1 is added to the previous value every time the counter is updated, and returns to 0 after reaching the maximum value. In addition, the out-of-design symbol counters CL, CM, and CR have a configuration in which register values are added using an R register (refresh register) in the CPU 501, and as a result, numerical values change randomly. Each counter is updated at short time intervals, and the updated value is appropriately stored in a counter buffer set in a predetermined area of the RAM 503. The RAM 503 is provided with a reserved ball storage area composed of one execution area and four reserved areas (reserved first to fourth areas). In each of these areas, a game ball to the operating port 33 is provided. The values of the big hit random number counter C1, the big hit symbol counter C2, and the reach random number counter C3 are stored in chronological order in accordance with the winning history.
[0198]
More specifically, the jackpot random number counter C1 is configured to add one by one in the range of, for example, 0 to 676, and return to 0 after reaching the maximum value (that is, 676). In particular, when the jackpot random number counter C1 makes one round, the value of the random number initial value counter CINI at that time is read as the initial value of the jackpot random number counter C1. The random number initial value counter CINI is a loop counter similar to the jackpot random number counter C1 (value = 0 to 676), and is updated once for each timer interrupt and repeatedly within the remaining time of the normal processing. The jackpot random number counter C1 is periodically updated (once for each timer interrupt in the present embodiment), and is stored in the reserved ball storage area of the RAM 503 at the timing when the game ball wins the operation port 33. The number of random hit values at the time of low probability and high probability is set in two types. The number of random number values at the time of low probability is two, and the value is “337,673”. Yes, the number of random number values that will be a jackpot at the time of high probability is 10, and the values are “67, 131, 199, 269, 337, 401, 463, 523, 601, 661”.
[0199]
The big hit symbol counter C2 determines a symbol when the fluctuation of the first symbol display device 41 is stopped at the time of a big hit. In the present embodiment, the first symbol display device 41 has five effective lines, Since 10 specific symbols (main symbols) are set, 50 (0 to 49) counter values are prepared. That is, the jackpot symbol counter C2 is configured to be incremented by one in order within the range of 0 to 49, and to return to 0 after reaching the maximum value (that is, 49). The big hit symbol counter C2 is updated periodically (once every timer interrupt in the present embodiment), and is stored in the reserved ball storage area of the RAM 503 at the timing when the game ball wins the operation port 33.
[0200]
The reach random number counter C3 is configured to be incremented by one, for example, in the range of 0 to 238 and return to 0 after reaching the maximum value (that is, 238). In the present embodiment, the reach random number counter C3 causes the final stop symbol to be shifted one position before and after the reach symbol and stops after the reach has occurred. "Leach other than front and rear departures" that stops before and after and "complete departure" where no reach occurs are determined by lottery. For example, C3 = 0, 1 corresponds to the front and rear departure reach, and C3 = 2 to 21 The reach other than the front and rear deviation corresponds to the reach, and C3 = 22 to 238 corresponds to the complete deviation. The reach lottery may be individually set according to the state of the lottery probability of the first symbol display device 41, the number of active balls at the start of the change, and the like. The reach random number counter C3 is updated periodically (once for each timer interrupt in the present embodiment), and is stored in the reserved ball storage area of the RAM 503 at the timing when the game ball wins the operation port 33.
[0201]
Of the two variation type counters CS1 and CS2, one variation type counter CS1 is configured to be incremented by one, for example, in the range of 0 to 198, and return to 0 after reaching the maximum value (that is, 198). The other variation type counter CS2 is configured to be incremented by one in order within a range of, for example, 0 to 240, and to return to 0 after reaching the maximum value (that is, 240). In the following description, CS1 is also referred to as “first variation type counter” and CS2 is also referred to as “second variation type counter”. The first variation type counter CS1 determines the reach type of the first symbol such as so-called normal reach, super reach, premium reach, and other rough symbol variations, and the second variation type counter CS2 determines the final stop symbol after the occurrence of the reach. In the present embodiment, a finer pattern variation mode such as the elapsed time until the middle symbol (the middle symbol) stops (in other words, the number of variable symbols) is determined. Therefore, by combining these variation type counters CS1 and CS2, a variety of variation patterns can be easily realized. Further, it is also possible to determine the symbol variation mode only by the first variation type counter CS1, or to determine the symbol variation mode similarly by a combination of the first variation type counter CS1 and the stop symbol. The fluctuation type counters CS1 and CS2 are updated once each time the normal processing described later is executed once, and are repeatedly updated even within the remaining time in the normal processing. Then, when the first symbol display device 41 determines the variation pattern at the start of the variation of the first symbol, the buffer values of the variation type counters CS1 and CS2 are acquired.
[0202]
The left / middle / right missing symbol counters CL, CM, and CR are used to determine a left symbol first symbol, a middle column first symbol, and a right column first symbol when the jackpot lottery is lost. In each column, any one of the 20 first symbols is displayed together with the main symbol and the sub symbol, so that 20 (0 to 19) counter values are prepared for each symbol. The upper symbol, upper, middle, and lower symbols of the left symbol row are determined by the off symbol counter CL, the upper, middle, and lower symbols of the middle symbol row are determined by the off symbol counter CM, and the right symbol row is determined by the off symbol counter CR. The upper, middle, and lower symbols are determined.
[0203]
In this embodiment, the values of the counters CL, CM, and CR are updated at random by using the value of the R register built in the CPU 501. That is, at the time of updating each of the missing symbol counters CL, CM, and CR, the value of the lower three bits of the R register is added to the previous value, and if the addition result exceeds the maximum value, 20 is subtracted to determine the current value. You. Each of the missing symbol counters CL, CM, CR is updated in the normal processing so that the update timings do not overlap, and the combination of these missing symbol counters CL, CM, CR is determined by the reach symbol buffer, the reach other than the forward / rear missing symbol buffer of the RAM 503. It is stored in either the symbol buffer or the completely off symbol buffer. Then, when determining the variation pattern at the start of the variation of the first symbol, one of the buffer values of the out-of-order reach symbol buffer, the reach symbol buffer other than the out-of-order loss, and the completely-off symbol buffer is obtained in accordance with the value of the reach random number counter C3. You.
[0204]
Note that the size and range of each counter are merely examples, and can be arbitrarily changed. However, if emphasis is placed on irregularities, it is desirable that the sizes of the jackpot random number counter C1, the reach random number counter C3, and the variation type counters CS1 and CS2 are all different prime numbers, and that they are numerical values that are not synchronized in any case. Although not shown, a second symbol random number counter C4 is used for the lottery of the second symbol display device 42. The second symbol random number counter C4 is configured as, for example, a loop counter that is sequentially incremented by 1 within a range of 0 to 250 and returns to 0 after reaching the maximum value (that is, 250). The second symbol random number counter C4 is updated periodically (once every timer interrupt in the present embodiment), and is acquired when it is detected that the game ball has passed through the right or left through gate 34. The number of random number values to be won is 149, and the range is “5 to 153”.
[0205]
Next, each control process executed by the CPU 501 in the main control device 271 will be described with reference to the flowcharts in FIGS. The processing of the CPU 501 is roughly divided into a main processing started when the power is turned on, a timer interrupt processing started periodically (in a cycle of 2 msec in this embodiment), and a power failure to an NMI terminal (non-maskable terminal). There is an NMI interrupt process activated by input of a signal. For convenience of explanation, first, a timer interrupt process and an NMI interrupt process will be described, and then a main process will be described.
[0206]
FIG. 36 is a flowchart showing the timer interrupt process. This process is executed by the CPU 501 of the main control device 271 every 2 msec, for example.
[0207]
In FIG. 36, in step S601, various winning switches are read. That is, the state of various switches (excluding the RAM erase switch 323) connected to the main controller 271 is read, and the state of the switch is determined to store detection information (winning detection information).
[0208]
After that, in step S602, the random number initial value counter CINI is updated. Specifically, the random number initial value counter CINI is incremented by one, and is cleared to 0 when the counter value reaches a maximum value (676 in the present embodiment). Then, the updated value of the random number initial value counter CINI is stored in a corresponding buffer area of the RAM 503. In the following step S603, the big hit random number counter C1, the big hit symbol counter C2, and the reach random number counter C3 are updated. Specifically, the jackpot random number counter C1, the jackpot symbol counter C2, and the reach random number counter C3 are each incremented by one, and their counter values have reached the maximum values (in the present embodiment, 676, 49, and 238, respectively). Clear to 0 each time. Then, the updated values of the counters C1 to C3 are stored in the corresponding buffer areas of the RAM 503.
[0209]
After that, in step S604, a start winning process is executed in accordance with the winning of the operation port 33. This start winning process will be described with reference to the flowchart of FIG. 37. In step S701, it is determined whether or not a game ball has won the operating port 33 (start winning) based on the detection information of the operating port switch 224. When it is determined that the game ball has won the operating port 33, in a succeeding step S702, it is determined whether or not the number N of the operation pending balls of the first symbol display device 41 is less than an upper limit value (4 in the present embodiment). Determine. The process proceeds to step S703 on condition that there is a prize in the operation port 33 and the number N of pending operation balls is smaller than 4, and the number N of pending operation balls is incremented by one. In the following step S704, the values of the jackpot random number counter C1, the jackpot symbol counter C2, and the reach random number counter C3 updated in step S603 are stored in the first of the free storage areas of the reserved ball storage area of the RAM 503. Then, after the start winning process, the CPU 501 once ends the timer interrupt process.
[0210]
In addition, when a game ball wins in the operating port 33 (start winning), the first symbol display device 41 starts to display the change of the first symbol accordingly, but after the start winning, the first symbol fluctuates. There is a restriction that a predetermined time (for example, 5 seconds) must elapse before the symbol stops. Therefore, in the start winning process, when a start winning is confirmed, a timer for measuring an elapsed time after the start winning is set after the storing process of each counter value (step S704). Specifically, since the above-mentioned start winning process is executed in a cycle of 2 msec, for example, to measure the elapsed time of 5 seconds, a numerical value “2500” is set in the timer, and the timer value is incremented by one each time the start winning process is performed. Subtract. This timer value is stored and managed in the reserved ball storage area of the RAM 503 together with the values of the respective counters C1 to C3 at that time. When setting a variation pattern of the first symbol, which will be described later, the timer value is referred to, and a variation pattern is set according to the remaining time (so that the symbol variation is stopped after a predetermined time has elapsed). .
[0211]
FIG. 38 is a flowchart showing the NMI interrupt process. This process is executed by the CPU 501 of the main control device 271 when the power of the pachinko machine 10 is cut off due to a power failure or the like. By the NMI interrupt, the state of main controller 271 at the time of power shutdown is stored in backup area 503a of RAM 503. That is, when the power of the pachinko machine 10 is cut off due to the occurrence of a power failure or the like, the power failure signal SG1 is output from the power failure monitoring circuit 542 to the NMI terminal of the CPU 501 in the main control device 271 and the CPU 501 interrupts the control being executed. To start NMI interrupt processing. 38 is stored in the ROM 502 of the main controller 271. For a predetermined time after the power failure signal SG1 is output, power is supplied from the power supply unit 541 so that the processing of the main control device 271 can be executed, and the NMI interrupt process is executed within this predetermined time.
[0212]
In the NMI interrupt processing, the used registers are saved in the backup area 503a of the RAM 503 in step S801, and the value of the stack pointer is stored in the backup area 503a in step S802. Further, in step S803, information on the occurrence of power shutdown is set in the backup area 503a, and in step S804, a power shutdown notification command indicating that power has been shut down is transmitted to another control device. In step S805, a RAM determination value is calculated and stored in the backup area 503a. The RAM determination value is, for example, a checksum value at a work area address of the RAM 503. In step S806, RAM access is prohibited. After that, an infinite loop is entered in preparation for the case where the power supply is completely cut off and processing cannot be executed.
[0213]
Note that the above-described NMI interrupt processing is similarly executed in the payout control device 311, and the state of the payout control device 311 at the time of power shutdown due to the occurrence of a power failure or the like is stored in the backup area 513 a of the RAM 513 by the NMI interrupt. Similarly, power is supplied from the power supply unit 541 so that the processing of the payout control device 311 can be executed for a predetermined time after the power failure signal SG1 is output. That is, when the power of the pachinko machine 10 is cut off due to the occurrence of a power failure or the like, the power failure signal SG1 is output from the power failure monitoring circuit 542 to the NMI terminal of the CPU 511 in the payout control device 311 and the CPU 511 suspends the control being executed. 38 to start the NMI interrupt process of FIG. The contents are the same as those described above except that the power shutdown notification command is not transmitted in step S804.
[0214]
FIG. 31 is a flowchart showing an example of a main process executed by the CPU 501 in the main control device 271. This main process is started by a reset when the power is turned on.
[0215]
In the main process, in a step S101, an initial setting process accompanying power-on is executed. Specifically, in order to set a predetermined value to the stack pointer and wait for the sub-side control device (the sound lamp control device 272, the payout control device 311 and the like) to become operable, for example, The wait process is executed for about one second. In step S102, a payout permission command is transmitted to the payout control device 311. In subsequent step S103, RAM access is permitted.
[0216]
After that, a data backup process is executed for the RAM 503 in the CPU 501. That is, in step S104, it is determined whether or not the RAM erase switch 323 provided in the power supply device 313 is pressed, and in subsequent step S105, it is determined whether or not the power-off occurrence information is set in the backup area 503a of the RAM 503. I do. In step S106, a RAM determination value is calculated, and in the following step S107, it is determined whether or not the RAM determination value matches the RAM determination value stored when the power is turned off, that is, the validity of the backup is determined. The RAM determination value is, for example, a checksum value at a work area address of the RAM 503. The validity of the backup can be determined based on whether the keyword written in a predetermined area of the RAM 503 is correctly stored.
[0219]
As described above, in the pachinko machine 10, when the RAM data is initialized when the power is turned on, for example, when the hall is opened, the power is turned on while pressing the RAM erase switch 323. Therefore, if the RAM erase switch 323 is pressed, the process proceeds to the RAM initialization processing (steps S114 to S116). Similarly, when the power-off information is not set, or when a backup abnormality is confirmed by the RAM determination value (checksum value or the like), the process similarly shifts to the initialization processing of the RAM 503 (steps S114 to S116). . That is, in step S114, the used area of the RAM 503 is cleared to 0, and in step S115, initialization processing of the RAM 503 is executed. Also, in step S116, interrupt permission is set, and the routine proceeds to normal processing described later.
[0218]
On the other hand, when the RAM erasure switch 323 is not pressed, the power recovery occurrence information is set, and the RAM determination value (checksum value, etc.) is normal, and the power recovery Execute processing (processing at the time of power-off recovery). That is, in step S108, the stack pointer before the power shutdown is restored, and in step S109, the power shutdown occurrence information is cleared. In step S110, a command for returning the control device on the sub side to the gaming state at the time of power-off is transmitted, and in step S111, the used register is returned from the backup area 503a of the RAM 503. In steps S112 and S113, the interrupt permission / non-permission is restored to the state before the power shut-off, and then the process returns to the address before the power shut-off.
[0219]
Next, the flow of the normal processing will be described with reference to the flowchart of FIG. In this normal processing, main processing of the game is executed. As an outline, the processing in steps S201 to S207 is executed as a periodic processing with a period of 4 msec, and the counter updating processing in steps S209 and S210 is executed in the remaining time.
[0220]
In the normal processing, in step S201, the output data such as the command updated in the previous processing is transmitted to each control device on the sub side. Specifically, the presence / absence of prize detection information is determined, and if there is prize detection information, a prize ball payout command corresponding to the acquired number of game balls is transmitted to the payout control device 311. In addition, when the first symbol display device 41 displays the variation of the first symbol, a display command such as a stop symbol command, a variation pattern command, and a confirmation command is transmitted to the display control device 214. After the start of the change of the first symbol, one at a time of the normal processing in the order of the variation pattern command → the stop symbol command of the left symbol column → the stop symbol command of the middle symbol column → the stop symbol command of the right symbol column (ie, (One for every 4 msec), and a fixed command is transmitted at the timing when the variation time elapses.
[0221]
Next, in a step S202, the variation type counters CS1 and CS2 are updated. Specifically, the variation type counters CS1 and CS2 are incremented by one, and are cleared to 0 when their counter values reach the maximum values (198 and 240 in the present embodiment). Then, the updated values of the variation type counters CS1 and CS2 are stored in the corresponding buffer area of the RAM 503. In the following step S203, the left symbol row, the middle symbol row, and the right symbol row are updated with respective out-of-position symbol counters CL, CM, and CR.
[0222]
The update process of each of the missing symbol counters CL, CM, and CR will be described. As shown in FIG. 33, in step S301, it is determined whether or not it is time to update the missing symbol counter CL in the left symbol row. It is determined whether it is time to update the symbol counter CM out of the symbol row. If the left symbol row is updated (YES in step S301), the process proceeds to step S303 to update the left symbol row out-of-design counter CL. If it is time to update the middle symbol row (YES in step S302), the process proceeds to step S304 to update the out-of-center symbol row symbol counter CM. Further, if the right symbol row is updated (NO in steps S301 and S302), the process proceeds to step S305 to update the right symbol row out-of-design symbol counter CR. In updating the out-of-design symbol counters CL, CM, and CR in steps S303 to S305, the value of the lower 3 bits of the R register is added to the previous counter value, and 20 is subtracted when the addition result exceeds the maximum value. The calculation result is set as the current value of the off symbol counters CL, CM, and CR. According to the updating process of the CL, CM, and CR, the out-of-design symbol counters CL, CM, and CR of the left symbol column, the middle symbol column, and the right symbol column are sequentially updated one by one in one normal process. The values are not updated at the same time. Thus, every time the normal processing is performed three times, the set of the symbol counters CL, CM, and CR is updated.
[0223]
Thereafter, in step S306, it is determined whether or not the updated combination of the out-of-place symbol counters CL, CM, and CR is a combination of the big hit symbols. If the combination is a big hit symbol combination, the process ends. If it is not a combination of jackpot symbols, it is determined in step S307 whether or not it is a combination of reach symbols. If it is a combination of reach symbols, in step S308, it is determined whether or not it is a reach out of front and rear. I do. If the out-of-design symbol counters CL, CM, and CR are combinations of out-of-front and out-of-reach reach, the process proceeds to step S309, and the combination of the out-of-design symbol counters CL, CM, and CR at that time is stored in the out-of-front out-of-reach reach symbol buffer of the RAM 503. If the missing symbol counters CL, CM, and CR are combinations of reach other than the front and rear deviation, the process proceeds to step S310, and the combination of the missing symbol counters CL, CM, and CR at that time is stored in the reach symbol buffer of the RAM 503 other than the front and rear deviation. . When the combination of the off symbol counters CL, CM, and CR is not the combination of the big hit symbols and the combination of the reach symbols (when both steps S306 and S307 are NO), this is the combination of the off symbol counters CL, CM, and CR. Corresponds to a combination of missing symbols. In such a case, the process proceeds to step S311, and the combination of the missing symbol counters CL, CM, and CR at that time is stored in the completely missing symbol buffer of the RAM 503.
[0224]
After the update process of the off symbol counters CL, CM, and CR, in step S204 of FIG. 32, the winning ball counting signal and the abnormal payout signal received from the payout control device 311 are read. After that, in step S205, the first symbol display device 41 executes a first symbol variation process for performing the variation display of the first symbol. By the first symbol variation process, a jackpot determination, a variation pattern setting of the first symbol, and the like are performed. However, the details of the first symbol change process will be described later.
[0225]
Thereafter, in step S206, a special winning opening opening / closing process for opening or closing the special winning opening of the variable winning device 35 in the case of the jackpot state is executed. In other words, the special winning opening is opened for each round of the jackpot state, and it is determined whether the maximum opening time of the special winning opening has elapsed or whether a predetermined number of game balls have won the special winning opening. When any of these conditions is satisfied, the special winning opening is closed. At this time, the continuous opening of the special winning opening is allowed on condition that the game ball has passed through the specific area, and this is repeatedly executed a predetermined number of rounds.
[0226]
In step S207, display control of a second symbol (for example, a normal symbol of “○” or “X”) by the second symbol display device 42 is executed. In brief, on the condition that the game ball has passed through the through gate 34, the value of the second symbol random number counter C4 is acquired each time, and the second symbol is displayed on the display unit 45 of the second symbol display device 42. Is displayed. Then, the lottery of the second symbol is performed based on the value of the second symbol random number counter C4, and when the second symbol hits, the electric accessory attached to the operating port 33 is opened for a predetermined time. Although not described, the second symbol random number counter C4 is also updated by the timer interrupt process shown in FIG. 36, similarly to the jackpot random number counter C1, the jackpot symbol counter C2, and the reach random number counter C3.
[0227]
Thereafter, in step S208, it is determined whether or not the execution timing of the next normal process has been reached, that is, whether or not a predetermined time (4 msec in the present embodiment) has elapsed from the start of the previous normal process. Then, the update of the random number initial value counter CINI and the variation type counters CS1 and CS2 are repeatedly executed within the remaining time until the next normal processing execution timing (steps S209 and S210). That is, in step S209, the random number initial value counter CINI is updated. Specifically, the random number initial value counter CINI is incremented by one, and is cleared to 0 when the counter value reaches a maximum value (676 in the present embodiment). Then, the updated value of the random number initial value counter CINI is stored in a corresponding buffer area of the RAM 503. In step S210, the update of the variation type counters CS1 and CS2 is executed. Specifically, the variation type counters CS1 and CS2 are incremented by one, and are cleared to 0 when their counter values reach the maximum values (198 and 240 in the present embodiment). Then, the updated values of the variation type counters CS1 and CS2 are stored in the corresponding buffer area of the RAM 503.
[0228]
Here, since the execution time of each processing of steps S201 to S207 changes according to the state of the game, the remaining time until the execution timing of the next normal processing is not constant but fluctuates. Therefore, by repeatedly executing the update of the random number initial value counter CINI using the remaining time, the random number initial value counter CINI (that is, the initial value of the jackpot random number counter C1) can be updated at random. The variation type counters CS1 and CS2 can also be updated at random.
[0229]
Next, the first symbol change process in step S205 will be described with reference to the flowcharts in FIGS.
[0230]
In the first symbol variation process, in step S401, it is determined whether or not a big hit is currently occurring. Note that the big hit includes a big hit game displayed on the first symbol display device 41 at the time of the big hit and a predetermined time after the big hit game ends. In a succeeding step S402, it is determined whether or not the first symbol display device 41 is performing the variable display of the first symbol. If it is not during the big hit or the fluctuating display of the first symbol, the process proceeds to step S403, and it is determined whether or not the number N of pending balls of the first symbol display device 41 is larger than zero. Then, if the big hit is in progress or the number N of operation-reserved balls is 0, the present process is terminated as it is.
[0231]
If it is not during the big hit or during the fluctuation display of the first symbol, and if the number of operation-reserved balls N> 0, the process proceeds to step S404. In step S404, the number N of operation-reserved balls is decremented by one. In step S405, a process of shifting the data stored in the reserved ball storage area is performed. This data shift process is a process of sequentially shifting data stored in the reserved first to fourth areas of the reserved sphere storage area to the execution area side. The first reserved area → the execution area, the second reserved area → The data in each area is shifted in such a manner as a reserved first area, a reserved third area → a reserved second area, a reserved fourth area → a reserved third area, and so on.
[0232]
After that, in step S406, a first symbol change start process is executed. Here, the details of the change start process will be described with reference to the flowchart of FIG. 35. In step S501, it is determined whether or not a big hit is based on the value of the big hit random number counter C1 stored in the execution area of the reserved ball storage area. I do. Whether or not a big hit is determined based on the relationship between the big hit random number counter value and the mode at each time. As described above, “337,673” is the hit value among the numerical values 0 to 676 of the jackpot random number counter C1 at the time of normal low probability, and “67,131,199,269,337,401,463,523,” at the time of high probability. “601, 661” is the winning value.
[0233]
If it is determined that the jackpot is a jackpot, in step S502, a symbol corresponding to the value of the jackpot symbol counter C2 stored in the execution area of the reserved ball storage area, that is, a table not showing the jackpot symbol (the value of the jackpot symbol counter C2) And a symbol representing the correspondence between the symbols and the symbols, and the symbol is set as a stop symbol command. At this time, the numbers 0 to 49 of the jackpot symbol counter C2 correspond to any of the 50 jackpot symbols on all five activated lines, and any of the 50 jackpot symbols is set in the stop symbol command. Is done. If these jackpot symbols are aligned with a predetermined specific symbol, the state shifts to the probable change state thereafter, but if the symbols are aligned with non-specific symbols (non-specific symbols), the state does not shift to the probable change state.
[0234]
Next, in step S503, a variation pattern of the first symbol until the stop at the big hit symbol is determined, and the variation pattern is set as a variation pattern command. At this time, the values of the variation type counters CS1 and CS2 stored in the counter buffer of the RAM 503 are checked, and based on the value of the first variation type counter CS1, reach types such as normal reach, super reach, premium reach, and other rough types are set. Elapsed time (in other words, the number of changing symbols) until the final stop symbol (in the present embodiment, the middle symbol) stops after the occurrence of the reach based on the value of the second variation type counter CS2 while determining the simple symbol variation mode. For example, a finer pattern variation mode is determined. The relationship between the value of the first variation type counter CS1 and the reach pattern, and the relationship between the value of the second variation type counter CS2 and the stop symbol time are respectively defined in advance by a table or the like. However, the variation pattern can be set using only the value of the first variation type counter CS1 without using the value of the second variation type counter CS2. Whether to set or to set a pattern with both values of both the variation type counters CS1 and CS2 is determined as appropriate according to the value of the first variation type counter CS1 and the game condition each time. The same applies to the setting of the fluctuation pattern in the case of performing the out-of-front-reach display, the reach display other than the out-of-front-rear display, and the completely out-of-range display described later.
[0235]
If it is determined in step S501 that it is not a jackpot, in step S504, it is determined whether or not reach has occurred based on the value of the reach random number counter C3 stored in the execution area of the reserved ball storage area. In step S505, it is further determined in step S505 based on the value of the reach random number counter C3 whether or not the reach is out of order. In the present embodiment, the value of the reach random number counter C3 is any one of 0 to 238, of which “0, 1” corresponds to the out-of-order reach, “2 to 21” corresponds to the reach other than the out-of-order reach, “22 to 238” corresponds to no reach (completely out of reach).
[0236]
In the case of occurrence of the out-of-front / rear-off reach, the process proceeds to step S506, and the respective values of the left / middle / right out-of-offset symbol counters CL, CM and CR stored in the front / rear off-reach symbol buffer of the RAM 503 are set in the stop symbol command. In step S507, a variation pattern for out-of-order reach display is determined, and the variation pattern is set as a variation pattern command. At this time, as in step S503, the values of the variation type counters CS1 and CS2 stored in the counter buffer of the RAM 503 are checked, and based on the value of the first variation type counter CS1, normal reach, super reach, and premium reach are performed. In addition to determining the reach type and other rough design variation modes such as the above, the elapsed time until the final stop symbol (the middle symbol in the present embodiment) stops after the occurrence of reach based on the value of the second variation type counter CS2 ( In other words, a finer symbol variation mode such as the number of variable symbols is determined.
[0237]
In the case of occurrence of reach other than front and rear deviation, the process proceeds to step S508, and the respective values of the left, middle, and right deviation symbol counters CL, CM, and CR stored in the RAM 503 non-back and front deviation reach symbol buffer are set as stop symbol commands. I do. Further, in step S509, a variation pattern for reach display other than front and rear deviation is determined, and the variation pattern is set as a variation pattern command. At this time, the variation pattern is determined based on the values of the variation type counters CS1 and CS2 stored in the counter buffer of the RAM 503 as in step S503 and the like.
[0238]
If it is neither a jackpot nor a reach, the process proceeds to step S510, and the respective values of the left, middle, and right missing symbol counters CL, CM, and CR stored in the completely missing symbol buffer of the RAM 503 are set as stop symbol commands. In step S511, a variation pattern for completely deviating display is determined, and the variation pattern is set as a variation pattern command. At this time, the variation pattern is determined based on the values of the variation type counters CS1 and CS2 stored in the counter buffer of the RAM 503 as in step S503 and the like. As described above, when the setting of the symbol stop command and the variation pattern command is completed at any of the time of the big hit, the time of the reach, and the time of the non-reach, the process is ended.
[0239]
Returning to the description of FIG. 34, if step S402 is YES, that is, if the first symbol is being displayed in a fluctuating manner, the process proceeds to step S407 to determine whether or not the fluctuating time has elapsed. At this time, the variation time of the first symbol is determined according to the variation pattern of the first symbol, and when this variation time has elapsed, the affirmative determination is made in step S407. Then, in step S408, a determination command set for determining the stop symbol is set, and then the present process is terminated.
[0240]
Next, the payout control executed by the CPU 511 in the payout control device 311 will be described. FIG. 39 is a flowchart showing the main processing of the payout control device 311. This main processing is started by a reset at the time of power-on.
[0241]
First, in step S901, an initial setting process is performed when the power is turned on. Specifically, a predetermined value is set in the stack pointer, and an interrupt mode is set. In step S902, the process waits until a payout permission command transmitted from main controller 271 is received. When the payout permission command is received, the process proceeds to step S903 to permit RAM access, and sets an external interrupt vector in step S904.
[0242]
After that, data backup processing is executed for the RAM 513 in the CPU 511. That is, in step S905, it is determined whether or not the RAM erase switch 323 provided in the power supply device 313 has been pressed, and in the following step S906, it is determined whether or not power-off occurrence information is set in the backup area 513a of the RAM 513. I do. In step S907, a RAM determination value is calculated, and in the following step S908, it is determined whether the RAM determination value matches the RAM determination value stored when the power is turned off, that is, the validity of the backup is determined. The RAM determination value is, for example, a checksum value at a work area address of the RAM 513. The validity of the backup can be determined based on whether or not the keyword written in a predetermined area of the RAM 513 is correctly stored.
[0243]
If the RAM erase switch 323 has been pressed, the process proceeds to RAM initialization processing (steps S915 to S918). Similarly, when the power-off occurrence information is not set, or when the abnormality of the backup is confirmed by the RAM determination value (checksum value or the like), the process similarly shifts to the initialization processing of the RAM 513 (steps S915 to S918). . That is, in step S915, the entire area of the RAM 513 is cleared to 0, and in subsequent step S916, the RAM 513 is initialized. In step S917, the CPU peripheral devices are initialized, and in step S918, interruption permission is set, and the flow advances to a payout control process described later.
[0244]
On the other hand, when the RAM erasure switch 323 is not pressed, the power recovery occurrence information is set, and the RAM determination value (checksum value, etc.) is normal, and the power recovery Execute processing (processing at the time of power-off recovery). That is, in step S909, the stack pointer before the power shutdown is restored, and in step S910, the power shutdown occurrence information is cleared. In step S911, the CPU peripheral device is initialized, and in step S912, the used registers are restored from the backup area 513a of the RAM 513. Further, in steps S913 and S914, the permission / non-permission of the interrupt is returned to the state before the power was turned off, and then the address returns to the address before the power was turned off.
[0245]
Next, the flow of the payout control process will be described with reference to the flowchart of FIG.
[0246]
In FIG. 40, in step S1001, a command from the main control device 271 is acquired, and the total number of winning balls is stored. In step S1002, the launch control is set for the launch control device 312. In step S1003, the state return switch 321 is checked, and if it is determined that the state return operation has started, the state return operation is executed.
[0247]
After that, in step S1004, the setting of the lower plate full state or the lower plate full release state is executed according to the change of the state of the lower plate 16. That is, the full state of the lower plate 16 is determined by the detection signal of the lower plate full switch, and when the lower plate is full, the setting of the lower plate full state is executed. Then, the lower plate full state release state is set. In step S1005, setting of a tank ball absence state or a tank ball absence release state is executed according to a change in the state of the tank ball. That is, the tank ball absence state is determined based on the detection signal of the tank ball absence switch, and when the tank ball is not present, the setting of the tank ball absence state is executed. Execute the settings.
[0248]
Thereafter, in step S1006, it is determined whether or not there is a state to be notified. If there is a state to be notified, the state is notified by a 7-segment LED provided in the payout control device 311.
[0249]
In steps S1007 to S1009, a prize ball payout process is executed. In this case, if the prize ball is not in the dispensable state and the total number of prize balls stored in step S1001 is not 0 (NO in steps S1007 and S1008), the process proceeds to step S1009, and the prize shown in FIG. The ball control process starts. If the prize ball cannot be paid out or the total number of prize balls is 0 (either step S1007 or S1008 is YES), the process proceeds to the ball lending payout process in steps S1010 to S1012.
[0250]
In the ball lending payout process, if the ball lending is not in a state where the ball lending cannot be paid out and a ball lending payout request has been received from the card unit (step S1010: NO, S1011: YES), the process proceeds to step S1012 and shown in FIG. The later-described ball lending control process is started. In addition, if the ball cannot be paid out or the request to pay out the ball has not been received (YES in step S1010 or NO in S1011), a subsequent ball-pulling process is executed.
[0251]
In step S1013, the state return switch 321 is checked to determine that the ball is not in the ball-pulling disabled state and that the ball-pulling operation is not started, and the payout motor 358a is driven to execute the ball-pulling process. In the following step S1014, control of vibrator 360 (vibrator motor control) is executed on condition that the ball is clogged. Thereafter, the process returns to the top of the main payout control process.
[0252]
Here, in the prize ball control process shown in FIG. 41, in step S1101, the payout motor 358a is driven to execute the prize ball payout. In the following step S1102, whether the rotation of the payout motor 358a is normal or not is determined based on the detection result of the payout rotation sensor. If the rotation of the payout motor 358a is not normal, the process proceeds to step S1103, in which the payout motor 358a is driven to execute a retry process, a process of stopping the payout motor 358a is performed, and thereafter, the process returns to the payout control process of FIG.
[0253]
If the rotation of the payout motor 358a is normal, the process proceeds to step S1104, and it is determined whether or not the counting of the game balls is performed normally based on the detection result of the payout count switch. If the count of the game balls is not normal, the process proceeds to step S1105, in which the payout motor 358a is driven to execute the retry process, the payout motor 358a is stopped, and thereafter, the process returns to the payout control process of FIG.
[0254]
If the count of the game balls is normal, the process proceeds to step S1106, and it is determined whether or not the count of the game balls by the payout count switch has reached the total number of prize balls and the payout is completed. If the payout is completed, a stop process of the payout motor 358a is executed in step S1107, and thereafter, the process returns to the payout control process of FIG.
[0255]
In the ball lending control process shown in FIG. 42, in step S1201, the payout motor 358a is driven to execute the payout of the ball for rental. In the following step S1202, it is determined whether or not the rotation of the payout motor 358a is normal based on the detection result of the payout rotation sensor. If the rotation of the payout motor 358a is not normal, the process proceeds to step S1203, in which the payout motor 358a is driven to execute a retry process, a stop process of the payout motor 358a is executed, and thereafter, the process returns to the payout control process of FIG.
[0256]
If the rotation of the payout motor 358a is normal, the process proceeds to step S1204, and it is determined whether or not the game balls are normally counted based on the detection result of the payout count switch. If the count of the game balls is not normal, the process proceeds to step S1205, in which the payout motor 358a is driven to execute the retry process, the payout motor 358a is stopped, and thereafter, the process returns to the payout control process of FIG.
[0257]
Further, if the count of the game balls is normal, the process proceeds to step S1206, and it is determined whether or not the count of the game balls by the payout count switch has reached a predetermined number of rental balls (25) and the payout is completed. If the payout is completed, a stop process of the payout motor 358a is executed in step S1207, and thereafter, the process returns to the payout control process of FIG.
[0258]
Next, a specific procedure of display control by the display control device 214 will be outlined. FIG. 43 is a flowchart showing a display control process executed by the CPU 521 in the display control device 214. The CPU 521 executes display control of the first symbol display device 41 while processing various commands provided from the main control device 271 according to the procedure shown in FIG.
[0259]
In FIG. 43, first, in step S1301, it is determined whether a display command has been received from main controller 271. If step S1301 is NO, the process waits until any command is received. Upon receiving the display command, the process advances to step S1302 to store the contents of the display command in the work RAM 523. Subsequently, in step S1303, various arithmetic processes such as generating an internal command for the VDP 524 are started based on the information stored in the work RAM 523. As a result, the VDP 524 performs the drawing process in accordance with the command (internal command) from the CPU 521, and starts the symbol variation display on the first symbol display device 41. At this time, the CPU 521 also transmits a control command for driving voices and lamps and a control command for operating the right door 171 and the left door 172 while synchronizing with the display effect at each time. Send to Accordingly, the sound lamp control device 272 drives the right door 171 and the left door 172 in addition to the sounds and lamps according to the control command from the CPU 521. It should be noted that once the display command is received, the variation display of the symbol is continued in cooperation with the CPU 521 and the VDP 524 until the determination command is received thereafter. During that time, the CPU 521 performs the control of the VDP 524 and the command receiving process shown in FIG. 43 in parallel. The same applies to the control in the audio lamp control device 272.
[0260]
Thereafter, in step S1304, it is determined whether a confirmation command has been received from main controller 271. Then, the process proceeds to step S1305 on condition that the confirmation command is received, and instructs the VDP 524 to perform the confirmation display with the stop symbol. As a result, the VDP 524 displays the fluctuating symbol as a stopped symbol. In this way, one round of display processing from the start of the change of the symbol to the stop of the change (confirmation display) is performed. The display control device 214 is controlled by the main control device 271 at the time of starting and stopping the change of the symbol. Regarding the continuous change of the symbol during that time, the CPU 521 and the VDP 524 in the display control device 214 perform the autonomous image control. Secured by control.
[0261]
Next, in the display control by the display control device 214, what kind of display is actually performed at the time of reach occurrence and how the right door 171 and the left door 172 on the display screen operate will be described with a specific example. explain. 44 to 49 show display examples showing the display screen of the first symbol display device 41 in various reach patterns. Here, six types of reach patterns from pattern 1 to pattern 6 are illustrated, of which pattern 1 is a reach pattern called normal reach, and pattern 2 to pattern 6 is a reach pattern called super reach. is there.
[0262]
In the pattern 1 shown in FIG. 44, the right door 171 and the left door 172 are both closed, and the main display area Rm and the sub display area Rs are still divided into two areas. In this case, the background screen in the main display area Rm is not changed from the normal screen, and the variable display of the final stop symbol (the symbol in the middle symbol column) is performed in substantially the same manner as in the normal mode.
[0263]
In the pattern 2 shown in FIG. 45, both the right door 171 and the left door 172 remain closed, but the area division of the main display area Rm and the sub display area Rs is removed, and the center of the main display area Rm and the sub display area Rs is removed. A reach effect is performed using the region (the third notice region Rs3 described in FIG. 29). In this case, the background screen is changed to the one different from the normal one, and a character for reach effect (a girl character with petals in the figure) appears, and the final stop symbol (the symbol in the middle symbol column) appears in the display state. ) Is displayed. The final stop symbol fluctuates while repeating expansion and contraction.
[0264]
In the pattern 3 shown in FIG. 46, the right door 171 is opened and the left door 172 is closed. Further, the main display region Rm and the sub display region Rs are separated from each other, and the right region and the center region of the main display region Rm and the sub display region Rs (the first and third notice regions Rs1 and Rs3 described with reference to FIG. 29). Reach production is performed using. In this case, the background screen is changed to the one different from the normal one, and a character for reach effect (in the figure, a boy character on a crane truck) appears, and the final stop symbol (the symbol in the middle symbol column) is displayed. ) Is displayed. The final stop symbol fluctuates while being lifted by a crane or the like.
[0265]
In the pattern 4 shown in FIG. 47, the right door 171 is closed and the left door 172 is open. Also, the main display region Rm and the sub display region Rs are separated from each other, and the left and center regions of the main display region Rm and the sub display region Rs (the second and third notice regions Rs2 and Rs3 described with reference to FIG. 29). Reach production is performed using. In this case, the background screen is changed to the one different from the normal one, and a character for reach effect (a boy character operating the conveyor in the figure) appears, and in the display state, the final stop symbol (the symbol in the middle symbol column) Is displayed. The final stop symbol fluctuates while moving on the conveyor in the left region and the central region (the second and third notice regions Rs2 and Rs3 described with reference to FIG. 29) of the original sub display region Rs while moving in the horizontal direction.
[0266]
In the pattern 5 shown in FIG. 48, the right door 171 and the left door 172 are both opened. Further, the area division of the main display area Rm and the sub display area Rs is removed, and a reach effect is performed using the main display area Rm and the entire sub display area Rs. In this case, the background screen is changed to the one different from the normal one, and a character for reach effect (a boy character with a mallet and a girl character staring at it in the figure) appears, and the final stop pattern is displayed in that display state. (The symbol in the middle symbol row) is displayed in a variable manner. The final stop symbol moves from top to bottom and fluctuates one at a time while being hit with a mallet.
[0267]
Finally, in the pattern 6 shown in FIG. 49, the right door 171 and the left door 172 are both opened. Further, the area division of the main display area Rm and the sub display area Rs is removed, and a reach effect is performed using the main display area Rm and the entire sub display area Rs. In this case, the background screen is changed to the one different from the normal state, and a character for reach effect (a boy character with a mallet in the figure) appears, and the final stop symbol (the symbol in the middle symbol column) is displayed. ) Is displayed. In particular, in the pattern 6, the number of effective lines is increased from the normal number of five lines, and the expectation of shifting to the big hit state is increased. The final stop symbol moves from top to bottom and fluctuates one at a time while being hit with a mallet.
[0268]
According to the present embodiment described in detail above, the following excellent effects can be obtained.
[0269]
In the variable display unit 35, the operation of the right door 171 and the left door 172 provided on the display screen G of the first symbol display device 41 is controlled by an audio lamp control device 272 having a power supply system different from that of the display control device 214. When the design of the right door 171 and the left door 172 is changed due to a model change or the like, the design of the power supply system of the right door 171 and the left door 172 may be changed on the sound lamp control device 272 side. Is not imposed on the display control device 214 side. That is, the display control device 214 may change the control specifications of the display effect. As a result, it is possible to reduce the design man-hours of the display control device 214 when the model is changed in the pachinko machine 10 in which the attraction of the game is improved by performing the auxiliary effect. Further, as described above, the power supply system is configured differently, so that even if a power supply voltage fluctuation, noise, or the like occurs on the audio lamp control device 272 side that controls the right door 171 and the left door 172, the display control device 214 side. Can be suppressed.
[0270]
Also, when the display control device 214 controls the variable display of the first symbol, the control of the right door 171 and the left door 172 is left to the audio lamp control device 272 different from the display control device 214, An increase in the processing load on the display control device 214 can be prevented.
[0271]
The right door 171 and the left door 172 are spaced apart from each other at the corners of the display screen G, and at that time, the longest display areas in the vertical and horizontal directions on the display screen G are left. I have. Therefore, even if the movable member is provided over the display screen G, the impression that the display screen G is reduced is relatively small. Therefore, even when the display effect of the first symbol is performed by combining the operations of the right door 171 and the left door 172, a suitable display effect can be realized while effectively using the display screen G. For example, even if a relatively large display screen is adopted as the first symbol display device 41, the inconvenience that the large screen is not sufficiently utilized can be solved.
[0272]
It should be noted that the present invention is not limited to the content described in the above embodiment, and may be implemented as follows, for example.
[0273]
(A) In the above embodiment, the variable display unit 35 is configured such that the right door 171 and the left door 172 are rotated left and right around the left or right end shaft portions 171a and 172a (FIG. 5). , FIG. 6), and the shafts of the doors 171 and 172 may be provided at the upper ends thereof and rotated vertically. Further, the doors 171 and 172 may be configured to slide on the display screen G of the first symbol display device 41.
[0274]
(B) In the above embodiment, in the variable display unit 35, the right door 171 and the left door 172 are each provided with a driving mechanism and driven independently of each other. The door 172 may be driven by a common drive mechanism. That is, the plurality of movable members are configured to be drivable by the common drive mechanism. In this case, the configuration can be simplified.
[0275]
(C) In the above embodiment, in the variable display unit 35, two right and left rectangular doors 171 and 172 as movable members are provided on the display screen G, but this configuration is changed. FIG. 50 shows a modification. In FIG. 50, in FIG. 50A, the movable member 195 formed of, for example, a plate-like door body is not a square but another polygon (pentagon in the figure). In (b), the movable member 196 has a shape having an arc. In (c), movable members 197 are provided at four corners of the display screen G, respectively. In (d), the movable member 198 is integrally provided so as to extend along the upper side portion of the display screen G, and a central portion of the movable member 198 is provided as a display area extension section to reduce a portion that hides the display screen G. Is provided with a notch 198a. In the case of (d), if the movable member 198 is formed of a door, it is preferable to provide a shaft at the upper end thereof and to rotate vertically. In addition to the above (a) to (d), it is also possible to adopt a configuration in which a plurality of movable members provided left and right or up and down are asymmetric, a configuration in which three-dimensional undulations, projections, and the like are provided on the surface of the movable member, and the like. It is.
[0276]
(D) In the above embodiment, the audio lamp control device 272 is provided subordinate to the display control device 214, and the control is performed according to the control command from the display control device 214. However, the configuration is changed. For example, the audio lamp control device 272 is provided not for the display control device 214 but for the main control device 271. That is, the sound lamp control device 272 controls according to the control command from the main control device 271. In this case, control of voices and lamps and movements of the right door 171 and the left door 172 are directly managed by the main control device 271.
[0277]
(E) The lamps (light emitters) and the voices are controlled by different systems, and among them, the movement of the right door 171 and the left door 172 is controlled by a control device for lamp control for controlling the lamps. It is good also as composition. Auxiliary effects using lamps are often changed in design in response to changes in pachinko machine models. This can be said even when compared with the sound effects. In this configuration, in the control device for lamp control, since the design change of the right door 171 and the left door 172 is performed together with the lamps, it is possible to minimize the control device to be changed in design. .
[0278]
(F) The operation of the right door 171 and the left door 172 as movable members may be controlled by another control device, provided that the operation is different from the display control device 214. A configuration in which a dedicated device (dedicated chip) for controlling the operation of the movable member is also possible.
[0279]
(G) In the above embodiment, a pair of front and rear glasses 137 are attached to the front door frame 13, but any material having a predetermined transparency may be used. For example, a “resin plate” may be used instead of “glass”.
[0280]
(H) In the above-described embodiment, the pachinko machine 10 having a relatively large game area compared to the related art has been described. However, the present invention is not limited to this, and a game machine such as a conventional pachinko machine having a game area, a window, and the like is provided. Also applicable to Further, the present invention can be applied to another type of ball-and-ball game machine different from the above-described embodiment, for example, a game machine such as a pachinko machine, an arrangement ball machine, and a sparrow ball provided with another accessory. In addition, the present invention can be applied to a spinning-type gaming machine such as a slot machine and a ball-using belt-type gaming machine using a game ball such as a pachinko ball as a game medium.
[Brief description of the drawings]
FIG. 1 is a front view showing a pachinko machine according to one embodiment.
FIG. 2 is a perspective view showing a main configuration of the pachinko machine in a developed or disassembled state.
FIG. 3 is a front view showing a front configuration of a main frame constituting the pachinko machine;
FIG. 4 is a front view showing the configuration of the game board.
FIG. 5 is a front view and a rear view showing the configuration of the variable display unit.
FIG. 6 is a configuration diagram showing a driving mechanism of a door body.
FIG. 7 is an explanatory diagram for explaining an operation state of a door body.
FIG. 8 is a rear view showing the configuration of the front door frame.
FIG. 9 is a rear view showing the configuration of the pachinko machine.
FIG. 10 is an exploded perspective view showing a rear configuration of the pachinko machine in an exploded manner for each main part.
FIG. 11 is a schematic diagram showing an arrangement of a first control board unit, a second control board unit, and a back pack unit on the back of the pachinko machine.
FIG. 12 is a rear view showing the configuration of the main body frame and the game board.
FIG. 13 is a perspective view showing a rear configuration of the main body frame.
FIG. 14 is a perspective view showing a rear configuration of the game board.
FIG. 15 is a perspective view showing a configuration of a bearing.
FIG. 16 is a front view illustrating a configuration of a first control board unit.
FIG. 17 is a perspective view illustrating a configuration of a first control board unit.
FIG. 18 is an exploded perspective view of the first control board unit.
FIG. 19 is an exploded perspective view showing a rear configuration of the first control board unit.
FIG. 20 is a front view illustrating a configuration of a second control board unit.
FIG. 21 is a perspective view illustrating a configuration of a second control board unit.
FIG. 22 is an exploded perspective view of a second control board unit.
FIG. 23 is a front view showing the configuration of the back pack unit.
FIG. 24 is an exploded perspective view of the back pack unit.
FIG. 25 is an exploded perspective view of a tank rail.
FIG. 26 is a block diagram showing an electrical configuration of the pachinko machine.
FIG. 27 is a block diagram illustrating a configuration related to display control of a display control device.
FIG. 28 is a view individually showing a first symbol.
FIG. 29 is a drawing showing a display screen of the first symbol display device.
FIG. 30 is an explanatory diagram showing an outline of various counters used for game control.
FIG. 31 is a flowchart showing main processing by the main control device.
FIG. 32 is a flowchart showing a normal process.
FIG. 33 is a flowchart showing a process of updating a missing symbol counter.
FIG. 34 is a flowchart showing a first symbol change process.
FIG. 35 is a flowchart showing a change start process.
FIG. 36 is a flowchart showing a timer interrupt process.
FIG. 37 is a flowchart showing start winning processing.
FIG. 38 is a flowchart showing NMI interrupt processing.
FIG. 39 is a flowchart showing main processing by the payout control device.
FIG. 40 is a flowchart showing a payout control process.
FIG. 41 is a flowchart showing a prize ball control process.
FIG. 42 is a flowchart showing a ball lending control process.
FIG. 43 is a flowchart showing a display control process.
FIG. 44 is a diagram illustrating a display example of a reach pattern.
FIG. 45 is a diagram illustrating a display example of a reach pattern.
FIG. 46 is a diagram illustrating a display example of a reach pattern.
FIG. 47 is a diagram showing a display example of a reach pattern.
FIG. 48 is a diagram illustrating a display example of a reach pattern.
FIG. 49 is a diagram illustrating a display example of a reach pattern.
FIG. 50 is a view showing a modification of the movable member.
[Explanation of symbols]
DESCRIPTION OF SYMBOLS 10 ... Pachinko machine as a game machine, 11 ... Outer frame, 12 ... Main body frame, 13 ... Front door frame, 30 ... Game board, 35 ... Variable display unit, 38 ... Notch, 41 ... First symbol display device, 50 ... Rail unit, 91 ... Cylinder lock, 101 ... Window, 171 ... Right door, 171a ... Shaft, 172 ... Left door, 172a ... Shaft, 175,176 ... Link, 177 ... Solenoid, 191 ... Surrounding wall, 195-195 198: movable member, 198a: notch, 201: first control board unit, 202: second control board unit, 203: back pack unit, 214: display control device, 248: interlocking rod, 271: main control device, 272 ... voice lamp control device, G: display screen, Rm: main display area, Rs: sub-display area.

Claims (1)

A picture display device that fluctuates and displays pictures on a display screen;
A movable member provided so as to partially overlap the display screen of the picture display device,
A gaming machine, wherein the movable member is arranged at a corner of the display screen.

Images