JP4281425B2 - Game machine - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a gaming machine such as a pachinko machine.
[0002]
[Prior art]
Conventionally, the upper part of a pachinko machine or the like communicates with a tank capable of storing game balls replenished from a replenishment path and a discharge port formed on the bottom surface of the tank, and guides the game balls to a payout device. A tank rail or the like is provided. In addition, a rectifying member called “sphere leveling” is provided for the tank rail or the like, and is configured to prevent the ball from biting in the outflow portion. Ball leveling is a method of aligning a plurality of game balls flowing on the tank rail in a vertical line, for example, hanging down toward the bottom surface of the tank rail and swingable with respect to the flow direction of the game ball The one that is pivotally supported is known. A gap with a length corresponding to the diameter of the game ball is formed between the lower end of the ball leveling and the bottom surface of the tank rail, so that the game balls flowing in piles pass below the leveling of the ball. Therefore, it is allowed to flow out in a state where it is regulated in a vertical line.
[0003]
At the time of filing this application, the applicant knows the following as a document describing the above prior art.
[Patent Literature]
JP 2000-14893
[0004]
[Problems to be solved by the invention]
However, in the pachinko machine described above, game balls are replenished to the tank, and a large amount of game balls are concentrated and flow out to the tank rail. Therefore, when the flow of game balls stops, It may be concentrated and stacked in layers. At this time, if the game balls are stacked up to the vicinity of the ball leveling shaft, the balance between the flowing game balls and the leveling of the balls is balanced, and there is a possibility that the ball will be clogged.
[0005]
Accordingly, an object of the present invention is to provide a gaming machine that eliminates the clogging of the ball in the rectifying member by breaking the balance between the game balls that are stacked and flowing and the rectifying member such as a ball smoothing.
[0006]
[Means for Solving the Problems]
Effective means for solving the above problems will be described below. In addition, the effect | action etc. are demonstrated as needed.
[0007]
Means 1: A rectifying member for aligning a plurality of game balls flowing through the passage in a vertical line, and an external force applying means for applying an external force to the rectifying member to vibrate or swing the rectifying member. Alternatively, a gaming machine characterized by transmitting a swing to the game ball.
[0008]
Here, the “passage” is not particularly limited as long as the game ball can pass therethrough, but the ball at the outflow portion such as a tank rail for guiding the game ball discharged from the tank to the payout device. Any portion that can cause biting can be suitably applied as the passage of the present invention. Further, the “rectifying member” only needs to be supported so as to be able to vibrate or swing. For example, a member that is pivotally supported, a member that is attached with play, or a combination thereof, Any aspect may be sufficient. As the “external force applying means”, a dedicated vibration device may be separately provided. However, an external force may be applied using a member that generates vibrations when operated, such as a game ball launching device. . Furthermore, an external force may be applied using an impact associated with the fall or flow of the game ball.
[0009]
According to the configuration of the means 1, even when a plurality of game balls flowing through the passages flow in a stacked state, they are aligned in a line up and down by the rectifying member when passing through the portion where the rectifying member is disposed. For this reason, it becomes possible to prevent the ball biting on the downstream side. On the other hand, an external force is applied to the rectifying member by the external force applying means, and the rectifying member itself vibrates or swings. For this reason, when a plurality of game balls flow in a stacked state, even if the balance between these game balls and the rectifying member is balanced (that is, a ball jammed state), The balance between the two is lost by the vibration or swinging. Thereby, the clogging of the ball in the rectifying member is eliminated, and the flow of the game ball can be maintained.
[0010]
Means 2: In the constitution of means 1, the external force applying means is a member constituting a gaming machine that operates during a game, and an external force generating member that generates an external force by the operation, and the external force generating member that generates the external force. A gaming machine further comprising a transmission means for transmitting an external force to the rectifying member.
[0011]
Here, the “external force generating member” is not a dedicated vibration device, but a member that is arranged in the gaming device for other purposes and generates vibrations by its operation, or an impact caused by dropping or flowing of the game ball. It is a member that can generate an external force naturally by the force of a member that moves during a game, such as a member that generates vibration. The “transmission means” is a unit that connects an external force generating member and a ball to enable transmission of the external force, and the rectifying member may be directly connected to the external force generating member, via a predetermined transmission member. You may connect.
[0012]
According to the configuration of the means 2, vibration generated during the game is transmitted as an external force to the rectifying member, and thereby the rectifying member vibrates or swings. Therefore, it is not necessary to separately provide a dedicated vibration device or the like. That is, vibration or swinging of the rectifying member can be realized with a simple configuration and at low cost. In addition, unlike the case where a dedicated vibration device is separately provided, no new vibration is generated in the gaming machine, so that it does not hinder the game or give the player unpleasant feeling. Further, it can be realized without increasing energy such as electric power.
[0013]
Means 3: In the configuration of means 2, the gaming machine is characterized in that the external force is an impact force generated by a collision of the game balls. Here, the “game ball collision” refers to a collision of a game ball flowing from the replenishment path to the tank, a collision of a prize ball to be paid out, a collision of a released game ball, and a collision of a game ball discharged from the outlet. Etc. can be illustrated.
[0014]
According to the structure of the means 3, the impact force accompanying the fall or flow of the game ball is used as an external force. An example of a falling game ball is a game ball that is replenished to a tank from a supply path outside the gaming machine, and a flowing game ball flows in a passage that communicates with a payout device or a launch device. A game ball can be exemplified. Thus, the impact force accompanying the fall or flow of the game ball is transmitted to the rectifying member, and it becomes possible to eliminate the ball clogging.
[0015]
Means 4: In the configuration of means 3, the external force generating member is a tank for storing a refilled game ball, and the external force is a game ball replenished to the tank and a game ball stored in the tank or A gaming machine characterized by an impact force generated by a collision with the tank itself.
[0016]
According to the configuration of the means 4, the game balls are replenished from the supply path into the tank based on the phenomenon caused by the operation of paying out the award balls, so that naturally a large number of game balls are already on the bottom surface of the tank or the tank. It collides with stored game balls and generates impact force. That is, since the kinetic energy of the game ball due to falling becomes an impact force, a large impact force can be generated, and the rectifying member can be vibrated or guided reliably. In particular, when the rectifying member is disposed with respect to the tank rail, the tank as the external force generating member and the rectifying member are close to each other, and the rectifying member can be directly attached to the tank. In this case, since the external force can be applied to the rectifying member without separately providing a transmission member for transmitting the external force, the entire structure is simplified.
[0017]
Means 5: A gaming machine according to the constitution of means 4, further comprising support means for supporting the tank so as to vibrate or displace.
[0018]
By the way, even if the configuration of the means 4 is adopted, when the tank is fixed to the gaming machine body, it is difficult to vibrate the tank, that is, to generate an external force, and the impact force is small. Becomes unable to vibrate or oscillate the rectifying member.
[0019]
However, according to the configuration of the means 5, since the tank is supported by the support means so as to be vibrated or displaced, it can vibrate due to the impact force accompanying the replenishment of the game ball and generate an external force on the rectifying member. . That is, the rectifying member can be vibrated or oscillated even with a relatively small impact force.
[0020]
Means 6: In the constitution of means 5, the support means comprises a shaft portion that pivotally supports one end side of the tank, and an elastic member that supports the other end side of the tank so as to be swingable in the vertical direction, The transmission means transmits the swing of the other end side of the tank to the rectifying member.
[0021]
Here, the “elastic member” is not particularly limited, but a coil spring, a leaf spring, and the like are preferable.
[0022]
According to the structure of the means 6, since one end side of the tank is pivotally supported and the other end side is supported by the elastic member so as to be swingable in the vertical direction, when the game ball is replenished, the tank is lowered with the one end side as a fulcrum. Rotate in the direction. That is, the other end side of the tank is displaced against the elastic force of the elastic member by the impact force. Further, when the supply is stopped, the impact force disappears, and the other end side of the tank is rotated upward by the elastic force of the elastic member. Thus, the other end side of the tank reciprocates in the vertical direction by replenishment of game balls. In addition, when there is variation in the supply of game balls, the impact force fluctuates as needed, and the tank vibrates accordingly. Since the movement on the other end side is transmitted to the rectifying member, the rectifying member can be vibrated. When the game ball stored in the tank is discharged, the weight of the tank is reduced, so that the other end side of the tank is displaced upward. That is, even when the game ball is discharged, an external force can be generated, and the rectifying member can be vibrated or swung. For this reason, the opportunity to vibrate or swing is increased, and it becomes possible to effectively eliminate the clogging of the balls.
[0023]
Means 7: A game machine according to the constitution of means 1, wherein the external force applying means comprises an urging mechanism for urging the rectifying member in a predetermined direction by the collision of the game balls.
[0024]
According to the configuration of the means 7, when the game ball collides with the biasing mechanism due to the fall of the game ball or the like, the biasing mechanism biases the rectifying member in a predetermined direction by using the impact force. That is, the impact force of the game ball generated by the biasing mechanism is directly transmitted to the rectifying member without passing through another external force generating member. According to this, by supporting the urging mechanism so as to be displaceable, it becomes possible to easily transmit the impact force to the rectifying member, and also the attenuation of the impact force is reduced, and even with a small impact force. The rectifying member can be reliably displaced.
[0025]
Means 8: In the constitution of means 7, the urging mechanism includes a collision part for causing the supplied game ball to collide, a rectifying member that is rotatably supported, and a transmission part for connecting the collision part. A gaming machine, wherein the collision portion of the urging mechanism is disposed inside the tank.
[0026]
According to the configuration of the means 8, when the refilled game ball collides with the collision portion arranged inside the tank, the collision portion, the transmission portion, and the rectifying member are integrally rotated by the impact force. Thereby, the rectifying member is biased in a predetermined direction. In other words, the rectifying member can be urged by effectively using the kinetic energy of the game ball falling by replenishment. Since the falling game balls collide inside the tank, even if the rebound direction of the colliding game balls is indefinite, they will not be scattered outside the tank. That is, it is possible to store game balls replenished in the same manner as conventional game machines.
[0027]
Means 9: In the configuration of means 7 or means 8, the direction in which the rectifying member is biased is upstream of the rectifying member in the passage.
[0028]
According to the configuration of the means 9, since the rectifying member is urged to the upstream side of the rectifying member by the urging mechanism, when a plurality of game balls are stacked on the upstream side of the rectifying member, they are stacked. It is energized to break the layer of game balls that are. For this reason, even if the balance between the game ball and the rectifying member is balanced and clogged, the balance can be easily broken by pressing the game ball layer from the lateral rear side.
[0029]
Means 10: In any one configuration from means 4 to means 9, a game ball detecting means disposed in the passage on the downstream side of the rectifying member and detecting the presence or absence of the game ball, and the game ball detecting means And a signal output means for outputting a request instruction signal for requesting replenishment to the tank to the outside of the gaming machine when a gaming ball is not detected by the game machine. Here, “outside the gaming machine” is an external facility connected to the gaming machine, and examples thereof include replenishing means, a striping facility, and a hall computer.
[0030]
Here, the “game ball detecting means” is for detecting whether or not there is a game ball on the downstream side of the rectifying member, such as a sensor for detecting a change in light or electromagnetic change, For example, a switch for detecting a large displacement can be exemplified.
[0031]
By the way, as one form of the gaming machine, there is a storage detection means for detecting whether or not a game ball is stored in the tank, and when the storage of the game ball is not detected by the storage detection means, that is, the game ball in the tank There is known a pachinko machine that outputs a replenishment instruction signal to replenishment means provided outside the gaming machine when it becomes low or becomes empty. According to this, since it replenishes according to the storage condition in a tank, storage of game balls and discharge of game balls can be stabilized. However, in this pachinko machine, replenishment is not performed unless the remaining amount of game balls stored is reduced. That is, it is replenished when the game balls are insufficient, but is not replenished when the game balls are sufficiently stored. On the other hand, clogging of the rectifying member is likely to occur when the flow of game balls is concentrated as described above. For this reason, there is a possibility that the situation in which ball clogging is likely to occur and the timing at which game balls are replenished do not match. That is, even if an external force is applied to the rectifying member, the external force may not be applied at an appropriate timing.
[0032]
However, according to the configuration of the means 10, if a game ball detecting means is provided in the passage on the downstream side of the rectifying member and no game ball is detected, that is, if there is a possibility that the ball is clogged in the rectifying member portion, An instruction signal is output to the outside of the gaming machine to request replenishment to the tank. For this reason, it is possible to match the timing of the occurrence of the ball clogging and the replenishment of the game ball, and it is possible to eliminate the ball clogging by the impact force due to the replenishment.
[0033]
Means 11: In any one of the constitutions from means 1 to 9, the passage located in the vicinity of the rectifying member is formed with a stepped step portion whose downstream side is lower than the upstream side. A featured gaming machine.
[0034]
Here, the “step portion” may be only one step, or a plurality of steps may be formed in a step shape.
[0035]
According to the configuration of the means 11, when the game ball flows through the passage, the game ball falls at the stepped portion, so that the passage itself vibrates due to the impact caused by the drop. For this reason, the state of the stacked game balls becomes more unstable, and the balance with the rectifying member is not balanced. That is, it is possible to suppress the occurrence of ball clogging.
[0036]
Means 12: A gaming machine according to any one of the means 1 to 11, wherein the gaming machine is a pachinko machine.
[0037]
According to the configuration of the means 12, any one of the effects from the means 1 to the means 11 can be achieved in the pachinko machine.
[0038]
Means 13: The gaming machine according to any one of the means 1 to 11, wherein the gaming machine is a gaming machine in which a pachinko machine and a slot machine are fused. Here, “a gaming machine formed by combining a pachinko machine and a slot machine” is a slot machine that uses a game ball instead of a medal as a game medium.
[0039]
According to the configuration of the means 13, any one of the effects from the means 1 to the means 11 can be achieved in a gaming machine in which a pachinko machine and a slot machine are fused.
[0040]
DETAILED DESCRIPTION OF THE INVENTION
Hereinafter, an embodiment of a pachinko gaming machine (hereinafter simply referred to as “pachinko machine”) will be described in detail with reference to the drawings. FIG. 1 is a front view of the pachinko machine 10, and FIG. 2 is a perspective view showing a state in which an inner frame 12 and a front frame set 14 are opened with respect to an outer frame 11 to be described later.
[0041]
As shown in FIGS. 1 and 2, the pachinko machine 10 includes an outer frame 11 that forms an outer shell of the pachinko machine 10, and an inner frame 12 is supported on one side of the outer frame 11 so as to be openable and closable. ing. The outer frame 11 is formed in a rectangular shape as a whole by a wooden plate material, and each plate material is assembled by a detachable fastener such as a small screw. Therefore, the structure can be easily reused as compared with the conventional structure in which the plates are assembled using nails and rivets. In the present embodiment, the outer dimension of the outer frame 11 is 809 mm (inner dimension 771 mm), and the outer dimension in the left and right direction is 518 mm (inner dimension 480 mm). The inner frame 12 is made of a synthetic resin, specifically, ABS (acrylonitrile-butadiene-styrene) resin. Note that ABS resin is suitable as a material for the inner frame 12 because it is relatively inexpensive, easy to be plated, and resistant to impact. The opening / closing axis of the inner frame 12 is set so as to extend vertically to the opposite side of the handle installation position when viewed from the front of the pachinko machine 10, so that the inner frame 12 can be opened forward with the opening / closing axis as the axis. It has become. That is, the inner frame 12 can be opened without causing the inner frame 12 and the game ball launching handle 18 to interfere with each other. The outer frame 11 may be made of a light metal such as resin or aluminum.
[0042]
A lower tray unit 13 is attached to the inner frame 12 at the lowermost portion, and a front frame set 14 is attached so as to cover the inner frame 12 in a range excluding the lower tray unit 13. In particular, an annular rib protruding forward is formed on the periphery of the inner frame 12, and the front frame set 14 is fitted so as to enter the inside of the rib. For this reason, when the front frame set 14 is closed, no gap is formed between the inner frame 12 and the front frame set 14, and insertion of wires or the like due to fraud can be prevented. The lower plate unit 13 is fixed to the inner frame 12 with a fastener such as a screw. The front frame set 14 is attached to the inner frame 12 so as to be openable and closable. Like the inner frame 12, the front frame set 14 is located on the front side with an open / close axis extending vertically to the left when viewed from the front of the pachinko machine 10. It can be opened. The front frame set 14 is configured by integrally forming a glass frame portion that supports glass and the upper plate 19, and can improve the strength compared to the conventional structure that is configured as a separate member. Even when the glass frame portion is enlarged as in the pachinko machine 10 of this example, an appropriate strength can be ensured. Further, the front frame set 14 is made of ABS resin like the inner frame 12, and has a characteristic that it is relatively inexpensive, can be easily plated, and is resistant to impact. FIG. 3 is a front view showing a state in which the front frame set 14 is removed from the pachinko machine 10 (however, in FIG. 3, the structure in the game area on the game board 30 is shown as blank for convenience).
[0043]
The lower tray unit 13 is provided with a lower tray 15 as a ball receiving tray at a substantially central portion, so that game balls discharged from the outlet 16 can be stored in the lower tray 15. Most of the lower dish unit 13 is formed of ABS resin like the inner frame 12, but the surface layer forming the lower dish 15 and the front panel 22 at the back of the lower dish are particularly flame retardant. Molded with ABS resin. For this reason, this part is difficult to burn. Reference numeral 17 denotes a ball removal lever for discharging the game ball in the lower tray 15 downward. A game ball launching handle 18 is disposed on the right side of the lower plate 15 so as to protrude to the front side. Reference numeral 241 denotes a sound output port from the speaker. An ashtray 23 is provided on the left side of the lower plate 15. Note that the ashtray 23 is cantilevered on the left side surface of the lower plate 15, and can be rotated until the upper surface opening portion faces downward with an open / close axis extending in the left-right direction as an axis. In other words, it is possible to discharge the butts contained in the ashtray 23 by the turning operation.
[0044]
On the other hand, the front frame set 14 above the lower plate 15 is integrally provided with a glass frame portion for supporting glass and an upper plate 19 as a ball tray. Here, the upper tray 19 is a ball receiving tray for temporarily storing the game balls and guiding them to the game ball launching device while aligning them in a line. In a conventional pachinko machine, a front decorative frame that can be opened and closed with respect to the inner frame is provided below the glass frame, and an upper plate is provided on the front decorative frame, but the front decorative frame is omitted in the present embodiment. The upper plate 19 is provided directly to the front frame set 14. Similar to the lower plate 15, the upper plate 19 has a structure in which the surface layer is formed of flame-retardant ABS resin.
[0045]
In FIG. 3, the inner frame 12 is mainly composed of a resin base 20 whose outer shape is rectangular. A substantially circular window hole 21 is formed at the center of the resin base 20, and a substantially square wiring hole 24 is formed at the upper left side of the resin base 20. A game board 30 is detachably mounted on the rear side of the resin base 20. The game board 30 is made of a rectangular plywood and is attached in a state in which the peripheral edge thereof is in contact with the back side of the resin base 20 (inner frame 12). Accordingly, a substantially central portion of the front surface portion of the game board 30 is exposed to the front surface side of the inner frame 12 through the window hole 21 of the resin base 20. The game board 30 also has a wiring hole 24 a formed on the upper left side, and overlaps the wiring hole 24 of the resin base 20. The vertical length of the game board 30 is 476 mm, and the horizontal length is 452 mm (same size as before).
[0046]
An opening switch 25 is attached above the wiring hole 24 in the resin base 20 so as to detect that the front frame set 14 is opened. Also, a grounding metal part 26 partially protruding forward is provided on the upper right side of the resin base 20, and when the front frame set 14 is closed, the reinforcing plate 132 of the front frame set 14 (see FIG. 5). And the reinforcing plate 132 is grounded.
[0047]
Next, the configuration of the game board 30 will be described with reference to FIG. The game board 30 is provided with a general winning port 31, a variable winning device 32, a first starting port 34, a second starting port 33, a variable display unit 35 and the like arranged in a through hole formed by router processing. 30 It is attached from the front side with wood screws or the like. As is well known, a game ball enters the general winning port 31, the variable winning device 32, and the second starting port 33, and a predetermined number of prize balls enter the upper plate 19 (or the lower plate 15) by the output of a detection switch described later. Will be paid out. In addition, the game board 30 is provided with an out port 36, and game balls that have not entered the various winning devices etc. are guided through the out port 36 to a ball discharge path (not shown). It has become. The game board 30 is provided with a large number of nails for appropriately dispersing and adjusting the falling direction of the game balls, and various members (acts) such as a windmill.
[0048]
The variable display device unit 35 is provided with a first symbol display device 41 for variably displaying the first symbol and a second symbol display device 42 for variably displaying the second symbol. The first symbol display device 41 includes a first symbol display unit 43 and a holding lamp 44, and the display symbol (first symbol) by the display unit 43 varies each time the game ball passes through the first starting port 34. Let The number of times that the game ball passes through the first start opening 34 is held up to a maximum of 4 times, and the number of times of holding is lit and displayed by the hold lamp 44.
[0049]
The second symbol display device 42 is configured as a liquid crystal display device, and the display content is controlled by a display control device 45 (see FIG. 7). The second symbol display device 42 displays, for example, three symbol rows of left, middle and right. Each symbol row is constituted by a plurality of symbols, and these symbols are variably displayed on the second symbol display device 42 so as to be scrolled for each symbol row. Each time the game ball wins the second start opening 33, the display symbol (second symbol) is changed. The number of times that the game ball has passed through the second starting port 33 is held up to a maximum of 4 times, and the number of times of holding is lit and displayed by the hold lamp 46. In the present embodiment, the second symbol display device 42 (liquid crystal display device) includes an 8 inch large liquid crystal display. The variable display device unit 35 is provided with a center frame 47 so as to surround the second symbol display device 42.
[0050]
The variable winning device 32 is normally in a closed state in which a game ball cannot be won or difficult to win, and is repeatedly operated between an open state in which a game ball is easy to win and a normal closed state in the event of a big win. ing.
[0051]
The game board 30 is provided with a rail unit 50 for guiding the game ball launched from the game ball launching device to the upper part of the game board 30 and is fired as the game ball launching handle 18 is rotated. The game balls are guided to a predetermined game area through the rail unit 50. The rail unit 50 includes a rail base unit 50a having an inner rail portion 51 and an outer rail mounting portion 52 which are formed of a ring-shaped resin molded product and are integrally formed inside and outside, and on the inner side surface of the outer rail mounting portion 52. It is composed of a stainless outer rail 55 which is attached and has a long shape. The inner rail portion 51 is formed in a substantially annular shape except for about ¼ of the upper portion, and an outer rail mounting portion 52 is formed so that a part (mainly the left side portion) faces the inner rail portion 51. . In such a case, a guide rail is formed by the inner rail portion 51 and the outer rail mounting portion 52 (outer rail 55), and each of the rails 51 and 52 is formed by a portion (a portion on the left side) parallel to each other at a predetermined interval. A guide passage is formed. The ball guide passage is formed in a groove shape having a contact surface with the game board 30, that is, a groove shape in which the front side is opened. Further, the outer rail 55 is provided in order to make the flight of the game ball smoother.
[0052]
A return ball preventing member 53 is attached to the tip of the inner rail portion 51 (the upper left portion in FIG. 4). As a result, it is possible to prevent a situation in which the game ball once guided from the ball guide passage between the inner rail portion 51 and the outer rail attachment portion 52 to the upper portion of the game board 30 returns to the ball guide passage again. It has become. Further, a return rubber 54 is attached to the outer rail mounting portion 52 at a position corresponding to the maximum flying portion of the game ball (upper right portion in FIG. 4: a portion corresponding to the tip of the outer rail mounting portion 52). . Therefore, the game ball launched at a predetermined momentum or more hits the return rubber 54 and is rebounded while being braked.
[0053]
An arc-shaped flange 56 projecting outward is formed on the outer peripheral portion of the rail unit 50. The flange 56 constitutes a mounting surface for the game board 30. When the rail unit 50 is attached to the game board 30, the flange 56 is brought into contact with the game board 30, and in this state, screws or the like are inserted into a plurality of through holes formed in the flange 56. The rail unit 50 can be fastened to 30. In particular, the interval between fastening by screws or the like is narrower on the launch side, and the strength against the launch of the game ball is secured by firmly fastening to the game board 30. Furthermore, in the present embodiment, the top, bottom, left, and right end portions of the rail unit 50 are formed substantially linearly (flatly) when viewed from the front. That is, the flange 56 is cut off at each of the upper, lower, left, and right ends of the rail unit 50, so that the rail diameter can be expanded in a limited area in the pachinko machine 10, that is, the game area on the game board 30 can be expanded. ing.
[0054]
A convex portion 57 is formed at the entrance of the ball guide passage between the inner rail portion 51 and the outer rail attachment portion 52 so as to close a part of the ball guide passage. The convex portion 57 is provided in a substantially vertical direction from the inner rail portion 51 to the lower end portion of the rail unit 50, and a foul ball that flows backward in the ball guide passage without reaching the game area is a foul ball passage 63 (see FIG. 3). To lead to. Note that the lower right corner and the lower left corner of the game board 30 are spaces for directly sticking seals and plates (S1, S2 in the figure) such as certificate stamps, etc., in order to secure this attachment space. The notches 58 and 59 are formed in the flange 56.
[0055]
Next, the game area will be described. The game area is partitioned and formed in a substantially circular shape by the inner peripheral portion (inner and outer rails) of the rail unit 50. In particular, in this embodiment, the game area partitioned on the board surface of the game board 30 is far more than conventional. It is greatly configured. In the present embodiment, the distance from the uppermost point of the outer rail mounting portion 52 to the lower part of the game board 30 is 445 mm (58 mm longer than the conventional product), and the inner rail portion 51 extends from the extreme left position of the outer rail mounting portion 52. The distance to the extreme right position is 435 mm (50 mm longer than the conventional product). The distance from the extreme left position of the inner rail portion 51 to the extreme right position of the inner rail portion 51 is 418 mm.
[0056]
In the present embodiment, when the game area is viewed from the front of the pachinko machine 10, the area of the guide rail that is a parallel part of the inner and outer rails 51 and 52 among the areas surrounded by the inner rail portion 51 and the outer rail mounting portion 52. The area is excluded. Accordingly, since the game area does not include the guide rail portion, the left limit position toward the game area is specified not by the outer rail mounting portion 52 but by the inner rail portion 51. Similarly, 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. Further, the upper limit position of the game area is specified by the outer rail mounting portion 52.
[0057]
Therefore, in the present embodiment, the width of the game area (maximum width in the left-right direction) is 418 mm, and the height of the game area (maximum width in the vertical direction) is 445 mm. Here, the width of the gaming area is preferably at least 380 mm. More preferably, it is 390 mm or more, 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 460 mm or more. Of course, it may be 470 mm or more. That is, the width of the game area is preferably as large as possible from the viewpoint of expanding the game area. The height of the game area is preferably at least 400 mm. 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 is good also as 470 mm or more, 480 mm or more, and 490 mm or more. That is, the width of the game area is preferably as large as possible from the viewpoint of expanding the game area. In addition, about the combination of the said width | variety and height, it is good also as what combined the said numerical value arbitrarily.
[0058]
In the present embodiment, the ratio of the area of the game area to the surface of the game board 30 is about 70%, which is a much larger area ratio than before. Note that the area ratio of the game area to the surface of the game board 30 is only about 50% in the past, so it can be said that the game area is considerably expanded on the premise that the game board 30 is shared. It should be noted that the external shape of the pachinko machine 10 is almost uniform among manufacturers for the convenience of installation in the game hall, and in the situation where the size of the game board 30 must be the same, the surface of the game board 30 as described above. Increasing the ratio of the area of the gaming area to about 20% is very significant from the viewpoint of expanding the gaming area. Here, the ratio is preferably at least 60% or more. More preferably, it is 65% or more, More preferably, it is 70% or more. Further, if it is 75% or more exceeding the case of this embodiment, it is more desirable. Furthermore, it may be 80% or more.
[0059]
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 a much larger area ratio than in the past. The area ratio of the game area to the area on the front side of the entire pachinko machine 10 is desirably 35% or more. Of course, it may be 40% or more, 45% or more, or 50% or more.
[0060]
In addition, the 1st starting port 34 located in the both sides of the variable display apparatus unit 35 has a guide mechanism in which the game ball which passed this 1st starting port 34 is approached toward the center. Thereby, even when the game area is expanded in the left-right direction, the game ball can be guided toward the center second starting port 33 and the variable winning device 32, and the game area is expanded. As a result, a decrease in interest due to the difficulty of winning the game ball is suppressed. Furthermore, by extending the game area in the left-right direction, a windmill, a first start port 34, a plurality of nails (guide nails for guiding a game ball to the center), and other accessories are arranged. Thus, the behavior of the game ball in the game areas on the left and right sides of the variable display device unit 35 can be made more interesting. Further, since the game area is also expanded in the vertical direction, it is possible to arrange various windmills, the first start port 34, a plurality of nails, and other accessories, and the game in the vertical direction in the game area. The behavior of the sphere can be made even more interesting.
[0061]
Returning to the description of FIG. 3, in the resin base 20, below the window hole 21 (game board 30), a launch rail 61 for guiding the game ball immediately after being launched from the game ball launcher is attached. Yes. The launch rail 61 is fixedly attached to the resin base 20 via a metal plate 62 behind the launch rail 61, and is configured to extend linearly at a predetermined launch angle (launch angle). In particular, in the pachinko machine 10 of this example, since the game board 30 is larger than the conventional one, the launch position of the launch rail 61 is reduced while lowering the launch position of the game ball so as to match the curvature of the rail unit 50. To make it longer. The launch rail 61 is formed in a substantially M-shaped cross section with a wide width, and stabilizes the launch of the game ball. Accordingly, the game ball that is launched in accordance with the turning operation of the game ball launching handle 18 is first launched obliquely upward along the launch rail 61, and thereafter, into the predetermined game area through the ball guide path of the rail unit 50 as described above. Guided.
[0062]
In the case of this pachinko machine 10, it has already been described that the game area is greatly expanded as compared with the prior art, but under such a configuration, the curvature of the guide rail must be reduced, so that the launch ball is stabilized. Need some ingenuity. Therefore, in the present embodiment, the launch position of the game ball is lowered, and the inclination angle (launch angle) of the launch rail 61 is made somewhat larger than the existing one (that is, the launch rail 61 is raised) to further launch. The length of the rail 61 is made longer than that of the existing one so as to ensure a sufficiently long ball guiding distance. Thereby, the game ball launched from the game ball launching device can be guided to the guide rail in a more stable state. Particularly in this case, the launch rail 61 is formed so as to extend from the launch position of the game ball launcher to a position beyond the center position (out port 36) of the game area.
[0063]
Further, there is a gap of a predetermined interval between the firing rail 61 and the rail unit 50 (guidance rail), and a foul ball passage 63 is formed below the gap. Therefore, if the game ball fired from the game ball launching device does not reach the return ball prevention member 53 and returns to the inside of the guide rail as a foul ball, the foul ball passes through the foul ball passage 63 to the lower plate 15. To be discharged. Incidentally, in the case of the present embodiment, the length of the firing rail 61 is about 240 mm, and the length of the gap at the tip of the firing rail (the length on the extension line of the firing rail 61) is about 40 mm.
[0064]
When the foul sphere flows backward in the guide rail, most of the foul sphere flows along the outer rail mounting portion 52 and drops downward when reaching the lower end of the outer rail mounting portion 52. May be ramped in the guide rail and jump to the inner rail 51 side. At this time, the splashed foul ball hits the convex portion 57 at the entrance of the ball guide passage and is guided to the foul ball passage 63. Thereby, all of the foul balls are surely guided to the foul ball passage 63. This suppresses interference between the foul ball and the next game ball to be launched.
[0065]
Although detailed disclosure of the drawings is omitted, one game ball is supplied to the game ball launching device one by one from the ball outlet on the front frame set 14 side (ball outlet leading from the most downstream portion of the upper plate 19). At this time, since the launch position of the game ball is lowered in the present embodiment, the drop from the exit of the ball on the front frame set 14 side to the launch position becomes large, but in the vicinity of the base end portion of the launch rail 61, its right side and Guide members 65 and 66 were installed on the front side. Thereby, the game ball supplied from the ball exit on the front frame set 14 side is always set at a predetermined launch position, and a stable launch operation can be realized. In addition, the game ball launcher is provided with a hitting ball basket, and the game ball is shot with the rotation of the hit ball bowl around the shaft portion. Therefore, while aiming to reduce the weight of the hitting ball by changing the material to light metal such as aluminum and reducing the size of the shaft, the head portion of the hitting ball (on the side opposite to the shaft) is secured to ensure sufficient firing force. A weight is provided at the end. Thereby, sufficient and stable launch of the game ball can be realized. By providing the weight portion of the hitting ball projecting upward, it is possible to easily pick or hit the hitting ball, and it is easy to adjust the hitting strength of the hitting tip.
[0066]
In addition, the code | symbol 67 in FIG. 3 is the discharge port connected to the upper plate 19, and a game ball is discharged to the upper plate 19 through this discharge port 67. FIG. An opening / closing shutter 68 having an opening / closing shaft extending in the left-right direction on the lower side is attached to the discharge port 67, and the shutter 68 is supported so as to be opened forward with the opening / closing shaft as an axis. Further, the shutter 68 is biased to the closed side by an elastic body such as a spring and presses the upper side against the biasing force of the elastic body to be in a substantially horizontal state and opens the discharge port 67. That is, in the state where the front frame set 14 is opened (the state shown in FIG. 3), the shutter 68 closes the discharge port 67 by the urging force of the elastic body, thereby preventing the game ball from being discharged. On the other hand, in a state where the front frame set 14 is closed, the shutter 68 is pushed open by the ball passage rod 69 (see FIG. 2) protruding from the back surface of the front frame set 14, and the game ball can be discharged. Accordingly, in the present pachinko machine 10 in which the front decorative frame is omitted and the upper plate 19 is directly provided to the front frame set 14, the game balls in the payout passage and the like are spilled off when the front frame set 14 is opened. Inconvenience can be prevented.
[0067]
The resin base 20 is provided with a substantially rectangular small window 71 at the lower right portion of the window hole 21. Accordingly, a seal or the like (S1 in FIG. 4) stretched at the lower right corner of the game board 30 can be viewed through the small window 71. Further, a sticker or the like can be attached from the small window 71.
[0068]
Further, support metal fittings 81 and 82 are attached to the left end portion of the inner frame 12 in FIG. 3 as a support mechanism for the front frame set 14. The upper support fitting 81 is provided with a support hole 83 having a notch on the front side of the figure, and the lower support fitting 82 is provided with a protruding shaft 84 protruding in the vertical direction.
[0069]
Next, the front frame set 14 will be described with reference to FIGS. FIG. 5 is a rear view of the front frame set 14. The front frame set 14 is formed with a substantially elliptical window 101 so that most of the game area can be viewed from the outside. Specifically, the window portion 101 has a shape in which a substantially central portion on the left and right sides is curved relatively gently as compared with the upper and lower sides. The substantially central portion may be linear. In the present embodiment, the distance between the upper end of the window portion 101 (the uppermost portion of the outer rail mounting portion 52 and the upper end of the game area) and the upper end of the front frame set 14 (the so-called upper and lower width of the upper frame portion) is 61 mm. It is significantly shorter than the prior art with an upper frame width of about 85 mm to 95 mm. As a result, the upper area of the game area can be easily secured, and the large variable display device unit 35 can also be arranged relatively upward. The distance between the upper end of the front frame set 14 is desirably 80 mm or less, more desirably 70 mm or less, and further desirably 60 mm or less. Of course, as long as a predetermined strength can be ensured, it may be 50 mm or less.
[0070]
Further, the shortest distance between the left end of the window portion 101 and the left end of the front frame set 14 when viewed from the front of the pachinko machine 10 (the left-right width of the so-called left side frame portion: shown on the right side in FIG. 5), The frame width on the opening / closing axis side is set to be relatively large in order to increase the strength and support strength of the front frame set 14 itself. In this case, as apparent from comparison between FIGS. 1 and 3, not only the left end portion of the outer rail mounting portion 52 but also the left end portion of the inner rail portion 51 is not limited to the left side in the state where the front frame set 14 is closed. Covered by the part frame part. That is, at least a part of the guide rail overlaps and is covered with the left frame portion of the front frame set 14 when viewed from the front of the pachinko machine 10. Even if it becomes difficult to visually recognize the game ball in this way, it is only a passing point where the game ball is guided to the game area, and it is difficult to see the game ball in the game area where the player mainly enjoys the game. It doesn't mean. Therefore, there is no trouble in actual game. Moreover, while such a trouble does not arise, sufficient intensity | strength and support strength of the front frame set 14 are securable. Incidentally, the distance in the left-right direction between the left end position of the outer rail mounting portion 52 and the left end position of the outer frame 11 when viewed from the front of the pachinko machine 10 is 21 mm, the right end position of the game area (the right end position of the inner rail portion 51) and the outside The distance in the left-right direction from the right end position of the frame 11 is 44 mm.
[0071]
In addition, the front frame set 14 is provided with light emitting means such as various lamps in the periphery (for example, corner portion). These light emitting means play a role of enhancing the effect of the game during the game by changing and controlling the light emission mode such as lighting and blinking according to the change of the game state at the time of big hit or predetermined reach. For example, at the periphery of the window portion 101, an annular illumination portion 102 containing a light emitting means such as an LED is provided symmetrically, and at the center of the annular illumination portion 102 and at the top of the pachinko machine 10, Similarly, a central illumination unit 103 having a built-in light emitting means such as an LED is provided. In the pachinko machine 10, the central illumination unit 103 functions as a jackpot lamp, and lights and blinks when the jackpot is informed that the jackpot is being hit. Further, an upper plate illumination part 104 that also includes a light emitting means such as an LED is provided around the upper plate 19. In addition, on the left and right sides of the central illumination unit 103, there are provided a prize ball lamp 105 that is lit during the payout of a prize ball and an error display lamp 106 that is lit when a predetermined error occurs. In addition, a transparent resin is attached so that a portion of the inner frame 12 surface, the surface of the game board 30 and the like, in particular, the stamp S1 directly attached to the game board 30 can be visually recognized so as to be adjacent to the lower end of the annular illumination part 102. A small window 107 is provided. Note that the surface of the transparent resin in the small window 107 has a planar shape so that the certificate paper S1 can be recognized from the outside by a reading device.
[0072]
Further, a ball lending operation unit 120 is disposed below the window unit 101, and the ball lending operation unit 120 is provided with a ball lending button 121, a return button 122, and a frequency display unit 123. If the ball lending operation unit 120 is operated in a state where a bill or a card is inserted into a card unit (ball lending unit) arranged on the side of the pachinko machine 10, a game ball is lent according to the operation. . 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 supplied to the upper plate 19 as long as there is a remaining amount on the card or the like. Is done. The return button 122 is operated when requesting the return of a card or the like inserted into the card unit. The frequency display unit 123 displays remaining amount information such as a card. Note that the ball lending operation unit 120 is not necessary for a pachinko machine in which game balls are lent directly to the upper plate 19 from a ball lending device or the like without using a card unit, that is, a so-called cash machine. Therefore, a decorative seal or the like is attached to the installation portion of the ball rental operation unit 120. Thereby, the common use of the lending operation unit of the pachinko machine using the card unit and the cash machine can be achieved.
[0073]
Various reinforcing members made of metal are provided on the back side of the front frame set 14 so as to surround the window portion 101. Specifically, as shown in FIG. 5, reinforcing plates 131, 132, 133, and 134 are respectively attached to the back side of the front frame set 14 and on the top, bottom, left, and right sides of the window portion 101. These reinforcing plates 131 to 134 are connected in contact with each other, but resin parts 135 for avoiding direct contact are interposed at the connecting portions of the left and upper reinforcing plates 132 and 133 in the drawing. Thereby, the reinforcement board 132 and the reinforcement board 133 are electrically insulated, a conductor does not become loop shape, and generation | occurrence | production of the noise by a magnetic field is suppressed. The right reinforcing plate 131 in FIG. 5 is provided with an engaging claw 131a having a hook shape at an intermediate position thereof. The engaging claw 131a is a hole portion of the inner frame 12 with the front frame set 14 closed. It is comprised so that it may be engaged with 12a (refer FIG. 3). With this configuration, the front frame set 14 is configured to include the upper plate 19, and even if the upper and lower pivot support positions are extended, the front frame set 14 can be prevented from being lifted at the intermediate position. Therefore, an illegal act or the like floating the front frame set 14 is suppressed.
[0074]
The lower reinforcing plate 134 is provided with a resin rail side wall member 136 at a position facing the firing rail 61 (see FIG. 3). The rail side wall member 136 becomes the side wall of the firing rail 61 when the front frame set 14 is closed. Therefore, the game ball is prevented from spilling from the launch rail 61.
[0075]
The reinforcing plates 131 to 134 described above also have a function as a metal frame for supporting the glass, and a part 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 on the front and rear sides, and a pair of front and rear glasses 137 having a rectangular shape are held in each glass holding groove. Thereby, the two glass 137 is attached to the front and back at a predetermined interval.
[0076]
As described above, in the pachinko machine 10 according to the present embodiment, the game area is expanded. Therefore, when the front frame set 14 is closed, one of the guide rails configured by the inner and outer rails 52 and 53 is used. The part is covered with the front frame set 14. Therefore, in the guide rail, a portion where the open side on the front side cannot be covered with the glass 137 is formed. In such a case, for example, when the game ball launched from the game ball launching device returns without reaching the return ball prevention member 53, the game ball spills out (jumps out) from the guide rail, and the outer rail mounting portion 52 There is a risk of being caught between the glass 137 and the like. Therefore, in the present embodiment, a rail cover 140 for covering the front side open portion of the guide rail is attached to the front frame set 14.
[0077]
The rail cover 140 is a substantially flat plate having a substantially arc shape, and is formed of a transparent resin. The rail cover 140 has an arc shape corresponding to the shape of the guide rail, and covers the section from the base end portion of the guide rail to the vicinity of the tip end portion along the peripheral edge of the window portion 101. It is attached to the back side of the set 14. In particular, the size and shape of the rail cover 140 on the inner diameter side substantially match those of the inner rail portion 51. When the rail cover 140 is attached, the surface side of the rail cover 140 is in contact with the glass 137. In a state where the front frame set 14 is closed, the back surface of the rail cover 140 covers almost the entire area of the guide rail. Thereby, the collision of the game ball with the glass 137 can be prevented in most sections of the guide rail. Therefore, adverse effects such as breakage due to contact with the glass 137 can be suppressed.
[0078]
Further, a portion where the guide rail protrudes from the side edge portion of the glass 137 is provided at the right end portion of the rail cover 140 (that is, the portion which becomes the right end in the state of FIG. 5 where the rail cover 140 is attached to the front frame set 14). A covering portion 141 for covering is provided. Thereby, it is possible to prevent the occurrence of problems such that the game ball spills out of the guide rail (jumps out) or gets caught between the outer rail mounting portion 52 and the glass 137.
[0079]
Further, on the back side of the rail cover 140, a ridge 142 is formed that extends in an arc along the inner edge of the rail cover 140 and protrudes toward the front side of FIG. The ridge 142 is configured to overlap the inner rail 52 almost integrally with the rim 142 in a state of entering the guide rail when the front frame set 14 is closed. Therefore, for example, even if a wire or the like is invaded through the gap between the front frame set 14 and the inner frame 12 to perform a fraudulent act, it is very difficult to infiltrate the wire or the like into the game area inside the guide rail. Become. As a result, fraudulent acts performed using a wire or the like can be prevented. In addition, it is good also as a structure which forms the protrusion 142 in a wider range, for example along the whole region of the inner edge of the rail cover 140. According to this structure, it becomes difficult to infiltrate a wire etc. in a wider range, a wire etc. It is possible to more reliably prevent fraud performed using
[0080]
Further, support metal fittings 151 and 152 are attached to the right end portion of the front frame set 14 in FIG. 5 (left end portion when viewed from the front of the pachinko machine 10) as a support mechanism for the inner frame 12. Therefore, the front frame set 14 can be opened and closed with respect to the inner frame 12 by assembling the support brackets 151 and 152 on the front frame set 14 side to the support brackets 81 and 82 (see FIG. 3) on the inner frame 12 side. It comes to be installed. In particular, the upper support fitting 81 is provided with a support hole 83 having a notch opened forward, and the lower support fitting 82 is provided with a protruding shaft 84 protruding in the vertical direction. In a state where the front frame set 14 is opened so as to be in a vertical state with respect to 12, the engagement state between the projection shaft 84 and the support bracket 152 is released by lifting the front frame set 14 once, and further, from this state, By pulling the frame set 14 forward, the engagement state between the support hole 83 and the support fitting 153 is released. That is, the front frame set 14 can be removed from the inner frame 12 by the above operation.
[0081]
Incidentally, as shown in FIG. 10, the inner frame 12 is provided with a key unit 27 that is unlocked by a key. The inner frame 12 and the front frame set 14, and the front frame set 14 and the outer frame 11 Can be locked to each other. Specifically, as shown in FIG. 2, a hook-like locked portion 271 that protrudes rearward is provided at the right end of the back surface of the front frame set 14 so as to be lined up and down. When the inner frame 12 and the inner frame 12 are overlapped, each locked portion 271 is inserted into a locking portion through-hole 272 formed at the right end of the inner frame 12. On the other hand, the key unit 27 is inserted through the first hook member 273 and the second hook member 274 that are locked and detached from the locked portion 271 and the key hole 275 provided in the lower portion of the inner frame 12. The key operation is transmitted to the first hook member 273 and the second hook member 274 in response to an unlocking operation of the key (for example, a counterclockwise rotation operation), and these are engaged portions 271 of the front frame set 14. And a first key unlocking transmission mechanism 276 for disengaging from the first key unlocking mechanism.
[0082]
On the other hand, on the right side surface of the inner periphery of the outer frame 11, a quadrangular locked portion (not shown) protruding inward is provided side by side. On the other hand, the third hook member 279 and the fourth hook member 280 that extend toward the locked portion 278 and are locked and detached from the locked portion 278 are different from the above. The operation of the key is transmitted to the third hook member 279 and the fourth hook member 280 in accordance with the unlocking operation of the key (for example, the clockwise rotation operation), and these are detached from the locked portion 278 of the outer frame 11. A second key unlocking transmission mechanism 281 is provided. That is, since the key unit 27 is provided with the first key unlocking transmission mechanism 276 and the second key unlocking transmission mechanism 281, when the key is rotated counterclockwise, the right end of the front frame set 14 becomes the inner frame. 12, and only the front frame set 14 can be opened with the support mechanism as an axis. Further, when the key is rotated in the clockwise direction, the inner frame 12 can be rotated about the support fitting 282 as an axis. The first hook member 273 and the second hook member 274, and the third hook member 279 and the fourth hook member 280 are connected by the first key unlocking transmission mechanism 276 and the second key unlocking transmission mechanism 281 respectively. However, even if an unauthorized unlocking operation is performed on any one of the collar members, it is configured not to be transmitted to the other collar member that has not been unlocked. In other words, if an unauthorized unlocking operation is performed on one of the collar members by using a wire rod or the like without using a key, the collar member may be detached from the locked portion. Since the signal is not transmitted to the other hook member that is not present, the hook member continues to be locked to the locked portion. That is, the front frame set 14 or the inner frame 12 is prevented from being opened by an unauthorized unlocking operation.
[0083]
Next, the configuration of the back surface of the pachinko machine 10 will be described in detail. FIG. 6 is a rear view of the pachinko machine 10, and FIG. 7 is an exploded perspective view showing the rear structure of the pachinko machine 10 for each major part.
[0084]
First, an overall outline of the rear configuration of the pachinko machine 10 will be described. In the pachinko machine 10, various control boards are arranged on the back side (actually the back side of the inner frame 12 and the game board 30) so as to be arranged vertically or horizontally, or to be stacked in front and back, A game ball supply device (payout mechanism) for supplying game balls, a protective cover made of resin, and the like are attached. In this embodiment, various control boards are divided into two mounting bases to form two control board units, and these control board units are individually attached to the inner frame 12 or the back of the game board 30. ing. In this case, the main board and the sound lamp control board are mounted on one mounting base to form a unit, and the dispensing control board, launch control board, and power supply board are mounted on the other mounting base to form a unit. Here, for convenience, the former unit is referred to as “first control board unit 201”, and the latter unit is referred to as “second control board unit 202”.
[0085]
In addition, since the dispensing mechanism and the protective cover are integrated as one unit, and the resin portion is generally referred to as a back pack, the unit is referred to as a “back pack unit 203”. The detailed configuration of each unit 201 to 203 will be described later. In addition, an external relay terminal board 230 for outputting various signals relating to the gaming state such as a “hit signal” to the inner frame 12 is detachably attached by attaching means such as screws and locking claws. It has been. Here, when a simple attachment means such as locking by a locking claw is adopted, the external relay terminal board 230 can be easily attached and detached, and operations such as maintenance can be performed smoothly.
[0086]
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 tools or the like in units of units. It is provided and can be opened and closed with respect to the inner frame 12 or the back surface of the game board 30. This is also a device for making it possible to easily check a hidden configuration or the like even if the units 201 to 203 and other configurations are arranged one behind the other.
[0087]
Actually, the units 201 to 203 are arranged and attached as shown in the schematic diagram of FIG. In FIG. 8, the first control board unit 201 having a substantially L shape is arranged in the approximate center of the pachinko machine 10, and the second control board unit 202 is arranged therebelow. Further, the back pack unit 203 is arranged in a region partially overlapping the first control board unit 201.
[0088]
Specifically, the first control board unit 201 is provided with a support shaft part M1 at the left end portion when viewed from the back of the pachinko machine 10, and the first control board unit 201 is centered on the axis A by the support shaft part M1. It can be opened and closed. Further, the first control board unit 201 is provided with a fastening portion M2 made of a ny latch or the like at the right end portion thereof (that is, the side opposite to the support shaft portion, more specifically, the open end side), and the locking claw portion M3 at the upper end portion. The first control board unit 201 is fixed and held to the main body of the pachinko machine by the fastening part M2 and the locking claw part M3.
[0089]
Further, the second control board unit 202 is provided with a support shaft part M4 at the right end when viewed from the back of the pachinko machine 10, and the second control board unit 202 opens and closes around the axis B by the support shaft part M4. It is possible. Further, the second control board unit 202 is provided with a fastening portion M5 made of a ny latch or the like at the left end portion thereof (that is, the side opposite to the support shaft portion, more specifically, the open end side). 2 The control board unit 202 is fixedly held to the pachinko machine body.
[0090]
Further, the back pack unit 203 is provided with a support shaft portion M6 at the right end when viewed from the back of the pachinko machine 10, and the back pack unit 203 can be opened and closed around the axis C by the support shaft portion M6. Yes. Further, the back pack unit 203 is provided with a fastening portion M7 made of a ny latch or the like on the left end portion thereof (that is, on the side opposite to the support shaft portion, more specifically, on the open end side), and at the upper end portion and the lower end portion, respectively. The backpack unit 203 is fixedly held to the main body of the pachinko machine by the fastening part M7 and the locking parts M8, M9. In particular, the locking portion M8 located in the vicinity of the tank 355 is subjected to a relatively large load by the game ball stored in the tank 355, and here, the I-type locking piece is rotated and locked. A structure that is stronger than the ny latch, such as a structure, is used.
[0091]
In this case, the development directions of the units 201 to 203 are not the same, and the first control board unit 201 opens to the left 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.
[0092]
On the other hand, FIG. 9 is a rear view showing the configuration in a state where the game board 30 is assembled to the inner frame 12. FIG. 10 is a perspective view of the inner frame 12 as viewed from the rear, and FIG. 11 is a perspective view of the game board 30 as viewed from the rear. Here, the back side structure of the inner frame 12 and the game board 30 will be described with reference to FIGS.
[0093]
The game board 30 is installed in a square frame-shaped installation area surrounded by the resin base 20 and does not fall off by a plurality of (four in this embodiment) locking fixtures 211 and 212 provided on the inner frame 12. So that it is fixed. 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. 9 shows a locked state. The locking fixtures 211 at the three left and right sides of the game board 30 are L-shaped fittings formed by bending metal pieces, and are configured not to protrude outward from the inner frame 12 when the game board 30 is fixed. Note that the locking fixture 212 at one lower portion of the game board 30 is an I-shaped fastener made of resin.
[0094]
A variable display device unit 35 is disposed in the center of the game board 30. In the variable display device unit 35, a frame cover 213 made of resin (for example, made of ABS) that covers the center frame 47 (see FIG. 4) from behind is provided to protrude rearward, and at the rear end of the frame cover 213, A second symbol display device 42 as a liquid crystal display device and a display control device 45 are detachably attached in a state where they are overlapped in the front-rear direction. In the frame cover 213, an LED control board for driving LEDs and the like built in the center frame 47 are disposed.
[0095]
A back frame set 215 is attached to the back surface of the game board 30 so as to surround the variable display device unit 35. The back frame set 215 is a thin resin-molded product (for example, made of ABS) provided so as to stick to the back surface of the game board 30, and a game ball collecting mechanism for collecting game balls won in various winning openings. Is formed. Specifically, below the back frame set 215, there is one place on the downstream side corresponding to the game board opening of the general prize opening 31, the variable prize winning device 32, and the second start opening 33 (see FIG. 3 respectively) described above. A collection passage 216 that gathers at the same position is formed. Also, below the game board 30, a discharge passage board 217 made of resin (for example, made of polycarbonate resin) is also attached to the inner frame 12, and a discharge ball is sent to the outside of the pachinko machine 10 in the discharge passage board 217. A discharge passage 218 for guiding is formed. Therefore, as illustrated in phantom lines in FIG. 9, all the game balls won in the general winning opening 31 etc. gather through the collection passage 216 of the back frame set 215, and further, the discharge passage 218 of the discharge passage board 217 is formed. Through the pachinko machine 10. In addition, the out port 36 (see FIG. 3) similarly communicates with the discharge passage 218, and the game balls that have not won any prize opening are discharged to the outside of the pachinko machine 10 through the discharge passage 218.
[0096]
In the above configuration, with the lower end surface of the game board 30 as a boundary, a back frame set 215 (collection passage 216) is provided on the upper side, and a discharge passage board 217 (discharge passage 218) is provided on the lower side. The game board 30 is provided without overlapping (overlapping) in the front-rear direction. Therefore, when the game board 30 is removed from the inner frame 12, there is no inconvenience that the discharge passage board 217 prevents the game board 30 from being removed.
[0097]
The discharge passage board 217 is provided just behind the upper plate 19 on the front surface of the pachinko machine 10, and a wire or the like is inserted from a ball discharge port (ball passage rod 69 in FIG. 2) leading to the upper plate 19. Further, an illegal act of causing the wire or the like to enter the game area side through a gap between the inner frame 12 and the discharge passage board 217 can be considered. Therefore, in the pachinko machine 10, a plate 219 that extends in front of the pachinko machine 10 so as to almost integrally overlap the inner frame 12 is provided just behind the upper plate 19 of the discharge passage board 217. Therefore, even if a wire or the like tries to enter from the gap between the inner frame 12 and the discharge passage board 217, the wire or the like is obstructed by the plate 219, and it is very difficult to make the wire or the like enter the game area. As a result, it is possible to prevent an illegal act such as forcibly opening the variable winning device 32 (large winning opening) using a wire or the like.
[0098]
In addition, on the back surface of the game board 30, a winning detection mechanism for detecting the passage of game balls such as various winning holes is provided. Specifically, a prize opening switch 221 is provided at a position corresponding to the general prize opening 31 on the front side of the game board 30, and a specific area switch 222 and a count switch 223 are provided in the variable prize winning device 32. The specific area switch 222 is a switch that determines that a game ball that has won the variable winning device 32 in the big hit state has entered a specific area (an area for determining whether or not to continue the big hit state), and the count switch 223 displays the winning ball. It is a switch to count. Further, an operation port switch 224 is provided at a position corresponding to the second start port 33, and a gate switch 225 is provided at a position corresponding to the first start port 34.
[0099]
The prize opening switch 221 and the gate switch 225 are connected to a board relay board 226 through electric wiring (not shown), and this board relay board 226 is connected to a main board (main control device) described later. Further, the specific area switch 222 and the count switch 223 are connected to the special winning opening relay board 227, and the special winning opening relay board 227 is also connected to the main board. On the other hand, the operation port switch 224 is directly connected to the main board without passing through the relay board.
[0100]
Although not shown in the drawings, the variable prize winning device 32 is provided with a big prize opening solenoid for opening the big prize opening and a winning ball sorting plate solenoid for guiding the winning ball to a specific area. The port 33 is provided with an operating port solenoid for opening the electric accessory. In FIG. 9, reference numeral 228 denotes a set handle having a hitting ball and the like, and reference numeral 229 denotes a firing motor.
[0101]
The detection results detected by the winning detection mechanism are taken into a main board, which will be described later, and a payout command (the number of game balls to be paid out) corresponding to the winning situation is transmitted from the main board to the payout control board. The Then, a predetermined number of game balls are paid out by the output of the payout control board. In such a case, a conventional method (so-called evidence ball method) in which game balls won in various winning openings are once collected in a winning ball processing device and paid out after the winning ball processing device confirms the presence of winning balls one by one in order. Unlike the above, in the pachinko machine 10 according to the present embodiment, the winning of a game ball is electrically detected for each winning opening and the payout is immediately made (that is, the winning ball processing apparatus is abolished in the pachinko machine 10). is doing). Therefore, even if there are a lot of game balls to be paid out, the payout can be carried out quickly.
[0102]
The back frame set 215 is provided with an attachment mechanism for attaching the first control board unit 201. Specifically, as this attachment mechanism, a support bracket 231 extending in the vertical direction is provided at the lower left corner portion when viewed from the back surface of the game board 30, and a pair of upper and lower support holes 231a on the same axis is provided in the support bracket 231. Is formed. In addition, in the lower right part of the game board 30, reference numeral 232 is a pair of upper and lower fastening holes (ny latch holes), and in the upper left part, reference numeral 233 is a locking claw piece.
[0103]
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 inner frame 12. Specifically, a long support fitting 235 is attached to the right end of the inner frame 12, and the configuration is shown in FIG. As shown in FIG. 12, the support metal fitting 235 has a long plate-like metal fitting body 236, and the support hole 237 for the second control board unit is formed at two lower positions so as to stand up from the metal fitting body 236. At the same time, support hole portions 238 for the back pack unit are formed at two upper positions. Coaxial support holes are formed in the support hole portions 237 and 238, respectively. In addition, as an attachment mechanism for the second control board unit, the inner frame 12 is provided with a pair of upper and lower fastening holes (ny latch holes) 239 at the left end below the game board installation area. In addition, as an attachment mechanism for the back pack unit, the inner frame 12 is provided with a pair of upper and lower fastening holes (ny latch holes) 240 at the left end portion of the game board installation area. However, the support bracket for the second control board unit and the support bracket for the back pack unit can be provided as separate members. Reference numerals 241, 242, and 243 denote rotational fixtures for sandwiching and supporting the back pack unit 203 with the game board 30.
[0104]
In addition, in the rear configuration of the inner frame 12, a game ball for distributing a game ball paid out from a payout mechanism, which will be described later, to either the upper plate 19, the lower plate 15, or the discharge passage 218, at the lower right portion of the game board 30. A distribution unit 245 is provided. That is, the opening 245 a of the game ball distribution unit 245 communicates with the upper plate 19, the opening 245 b communicates with the lower plate 15, and the opening 245 c communicates with the discharge passage 218. The game ball distribution unit 245 is configured as a separate member with respect to the back pack unit 203 and is directly fixed to the inner frame 12. That is, even if there is an illegal act on the back pack unit 203, the game ball distributing unit 245 is prevented from being lifted.
[0105]
Also, a resin speaker box 246 is attached to the lower end portion of the inner frame 12 to surround the back of the speaker installed on the lower plate 15, and this speaker box 246 improves the sound quality in the low frequency range. ing.
[0106]
Next, the first control board unit 201 will be described with reference to FIGS. 13 is a front view of the first control board unit 201, FIG. 14 is a perspective view of the unit 201, FIG. 15 is an exploded perspective view of the unit 201, and FIG. 16 is an exploded perspective view of the unit 201 viewed from the back. .
[0107]
The first control board unit 201 has a mounting base 251 having a substantially L shape, and the main control device 261 and the sound lamp control device 262 are mounted on the mounting base 251. Here, the main control device 261 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 various lotteries. It has a main board including a random number generator used, a clock pulse generation circuit used for time counting and synchronization, and the main board is accommodated in a board box 263 made of a transparent resin material or the like. It is configured. The substrate box 263 includes a substantially rectangular parallelepiped box base and a box cover that covers the opening of the box base. The box base and the box cover are connected to each other by a sealing unit 264 so that they cannot be opened, and thereby the substrate box 263 is sealed.
[0108]
As long as the sealing unit 264 is configured to connect the box base and the box cover so that they cannot be unsealed, any configuration can be applied. Here, as shown in FIG. 14 and the like, 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 264 prevents 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 opening / sealing process again even after the operation. That is, the sealing process is performed by inserting the locking claw into the long hole of at least one sealing member among the five sealing members constituting the sealing unit 264. And when opening the board | substrate box 263 by the malfunction of the accommodated main board | substrate etc., the connection of the sealing member in which the latching claw was inserted, and another sealing member is cut | disconnected. Thereafter, when the sealing process is performed again, the locking claws are inserted into the long holes of the other sealing members. If the history of opening the substrate box 263 is left in the substrate box 263, it can be easily found that the unauthorized opening has been performed by looking at the substrate box 263.
[0109]
The voice lamp control device 262 is a voice lamp including, for example, a CPU that controls voice and lamp display in accordance with instructions from the main control device 261 (main board) or the display control device 45, and other ROM, RAM, various ports, and the like. The audio lamp control board is housed in a board box 265 made of a transparent resin material or the like. A power relay board 266 is mounted on the sound lamp control device 262, and power supplied from a power board described later is output to the display control device 45 and the sound lamp control device 262 via the power relay board 266. It is like that.
[0110]
The mounting base 251 is formed of a colored (for example, green, blue, etc.) resin material (for example, made of polycarbonate resin), and has two substrate mounting surfaces 252 and 253 that are flat on the surface. These substrate mounting surfaces 252 and 253 extend in a direction orthogonal to each other and are formed with a step in the front-rear direction. However, the mounting base 251 may be a colorless transparent or translucent resin molded product.
[0111]
The main control device 261 (main substrate) is arranged in a landscape orientation on one substrate mounting surface 252 and the audio lamp control device 262 (audio lamp control substrate) is arranged in a portrait orientation on the other substrate mounting surface 253. It is arranged in the direction. In particular, the main control device 261 is disposed on the near side as viewed from the back of the pachinko machine 10, and the sound lamp control device 262 is disposed on the back side. In this case, since the substrate mounting surfaces 252 and 253 are formed with steps in the front-rear direction, the control devices 261 and 262 are mounted in a state where the main controller 261 and the sound lamp controller 262 are mounted on the substrate mounting surfaces 252 and 253. Are arranged with a part of them stacked one after the other. That is, as can be seen in FIG. 14 and the like, the main controller 261 is arranged in a state where a part (about 1/3 in the present embodiment) is floated. Therefore, the sound lamp control device 262 can be extended to an area overlapping with the main control device 261, and the enlargement of the control board can be dealt with satisfactorily. Also, each control device can be installed efficiently. Further, in a state where the first control board unit 201 is mounted on the game board 30, a space is secured behind the board mounting surface 252, and the variable winning device 32 and its electric wiring can be installed without difficulty.
[0112]
As shown in FIGS. 15 and 16, the board mounting surface 252 for the main board has horizontally elongated through holes 254 at two positions on the left and right. Correspondingly, the substrate box 263 of the main control device 261 is provided with rotating fixtures 267 at two places on the left and right sides of the back surface thereof. When the main controller 261 is mounted on the board mounting surface 252, the fixing tool 267 is passed through the through hole 254 of the board mounting surface 252, and the fixing tool 267 is rotated in this state to lock the main control apparatus 261. The Therefore, even if the main control device 261 is arranged in a state where it floats as described above, inconveniences such as dropping off of the main control device 261 can be avoided. Further, since the main control device 261 cannot be removed unless the fixture 267 is unlocked from the back side of the first control board unit 201 (board mounting surface 252), it is expected to have a deterrent effect against illegal acts such as board removal. it can. A grid-like rib 255 is provided on the back surface of the substrate mounting surface 252 for the main substrate.
[0113]
The mounting base 251 is provided with a pair of upper and lower support shafts 256 on the left end surface of FIG. 14 and the like. By attaching the support shafts 256 to the support fitting 231 shown in FIG. The game board 30 is supported to be openable and closable. Further, the mounting base 251 is provided with a pair of upper and lower nai latches 257 as fasteners at the right end portion and a long hole 258 at the upper end portion, and the nai latch 257 is fitted into the fastening hole 232 shown in FIG. The first control board unit 201 is fixed to the game board 30 by locking the locking claw pieces 233 shown in FIG. The support fitting 231 and the support shaft 256 are in the support shaft portion M1 of FIG. 8, the fastening hole 232 and the ny latch 257 are in the fastening portion M2, the locking claw piece 233 and the long hole 258 are in the locking claw portion M3, Each corresponds.
[0114]
Incidentally, as shown in FIG. 8, the first control board unit 201 is attached to the back surface of the game board 30 so that the back pack unit 203 is partially covered. Specifically, the back pack unit 203 covers each of a part of the fastening portion M <b> 2 (the nail latch 257) and the first control board unit 201 of the first control board unit 201. Therefore, if the back pack unit 203 is not removed, all the fastening portions M2 cannot be operated, and the first control board unit 201 cannot be opened and closed with respect to the game board 30. The main controller 261 cannot be removed by an operation from the back side of the substrate unit 201. Therefore, also from this configuration, it is possible to expect a deterrent effect against fraudulent acts such as substrate removal. In addition, not only the back pack unit 203 but also a member that is attached to the game board 30 separately from the first control board unit 201, such as a cover that covers an appropriate unit, at least a part of the first control board unit 201 is provided. The same effect can be expected from the coating.
[0115]
Next, the second control board unit 202 will be described with reference to FIGS. 17 is a front view of the second control board unit 202, FIG. 18 is a perspective view of the unit 202, and FIG. 19 is an exploded perspective view of the unit 202.
[0116]
The second control board unit 202 has a horizontally long mounting base 301 on which a payout control device 311, a base plate 303, a firing control device 312, a power supply device 313 and a card unit connection board 314 are mounted. Yes. The payout control device 311, the launch control device 312, and the power supply device 313 are equipped with a control board including a central control CPU, ROM, RAM, various ports and the like as is well known. With the substrate, the payout of prize balls and rental balls is controlled. The launch control board of the launch control apparatus 312 controls the launch motor 229 in accordance with the operation of the game ball launch handle 18 by the player, and the power supply board of the power supply apparatus 313 provides a predetermined power supply voltage required by various control apparatuses. Is generated and output. The card unit connection board 314 is electrically connected to the ball lending operation unit 120 on the front surface of the pachinko machine and a card unit (not shown). The card unit connection board 314 takes a ball lending operation command from the player and outputs it to the payout control device 311. is there. Note that the card unit connection board 314 is not necessary in a cash machine in which game balls are lent directly to the upper plate from a ball lending device or the like without using a card unit.
[0117]
The payout control device 311, the firing control device 312, the power supply device 313, and the card unit connection substrate 314 are respectively configured to be accommodated in substrate boxes 315, 316, 317, and 318 made of a transparent resin material or the like. In particular, in the dispensing control device 311, similarly to the main control device 261 described above, the box base and the box cover constituting the substrate box 315 are connected to each other by the sealing unit 319 so that the substrate box 315 is sealed. .
[0118]
The payout control device 311 is provided with a state return switch 321. For example, when the state return switch 321 is pressed when a payout error occurs, such as a ball clogged in the payout motor unit, the payout motor is rotated forward and reverse so that the ball clogging is eliminated (return to the normal state). It has become.
[0119]
The power supply device 313 is provided with a RAM erase switch 323. This pachinko machine 10 has a backup function, so that even if a power failure occurs, it maintains the state at the time of a power failure, and can be restored to the state at the time of a power failure when returning from a power failure (power recovery) It has become. Therefore, if the power is turned off in the normal procedure (for example, when the hall is closed), the state before the power is turned off is stored. If you want to return to the initial state when the power is turned on, turn on the power while holding down the RAM erase switch 323. We are going to throw it in.
[0120]
The mounting base 301 is made of, for example, a colorless and transparent resin molded product, and a flat board mounting surface 302 is provided on the surface thereof. In this case, the launch control device 312, the power supply device 313 and the card unit connection board 314 are directly mounted side by side on the board mounting surface 302 of the mounting base 301, and the payout control apparatus 311 is mounted on the board box 317 of the power supply apparatus 313. Has been.
[0121]
Further, the mounting base 301 is provided with a pair of upper and lower support shafts 305 at the right end in FIG. 17 and the like. By inserting these support shafts 305 into the support hole 237 shown in FIG. 2 The control board unit 202 is supported to be openable and closable with respect to the inner frame 12. In addition, the mounting base 301 is provided with a pair of upper and lower nai latches 306 as fasteners at the left end, and the second control board unit 202 is fitted into the fastening hole 239 shown in FIG. It is fixed to the frame 12 so that it cannot be opened and closed. The support hole 237 and the support shaft 305 correspond to the support shaft portion M4 in FIG. 8, and the fastened hole 239 and the ny latch 306 correspond to the fastening portion M5, respectively.
[0122]
Next, the configuration of the back pack unit 203 will be described. The back pack unit 203 is formed by integrating a back pack 351 made of resin and a payout mechanism portion 352 for a game ball. FIG. 20 is a rear view of the pachinko machine 10 viewed from the back, and FIG. It shows in FIG.
[0123]
The back pack 351 is integrally formed of, for example, ABS resin, and includes a substantially flat base portion 353 and a protective cover portion 354 that protrudes rearward of the pachinko machine and has a horizontally long substantially rectangular parallelepiped shape. The protective 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 device unit 35 (however, in the present embodiment, the sound The lamp control device 262 is also enclosed. A large number of ventilation holes 354 a are provided on the back surface of the protective cover portion 354. Each of the air holes 354a has a long hole shape, and the air holes 354a are adjacent to each other at a relatively close position. Therefore, the back surface of the back pack 351 can be easily opened by cutting the resin portion between the adjacent vent holes 354a. That is, a predetermined test or the like can be easily performed by cutting the resin portion between the vent holes 354a to expose the display control device 45 and the like inside.
[0124]
In addition, a payout mechanism portion 352 is disposed on the base portion 353 so as to bypass the protective cover portion 354. That is, a tank 355 opened upward is provided at the uppermost portion of the back pack 351, and game balls supplied from the island facilities of the game hall are sequentially supplied to the tank 355. Below the tank 355, for example, a tank rail 356 that has two rows (two rows) of ball passages in the horizontal direction and that is gently inclined toward the downstream side is connected. Further, the tank rail 356 is arranged vertically on the downstream side of the tank rail 356. A case rail 357 is connected. The payout device 358 is provided at the most downstream portion of the case rail 357, and a required number of game balls are paid out appropriately according to a predetermined electrical configuration such as a payout motor. The game balls paid out from the payout device 358 are supplied to the upper plate 19 through the payout passage 359 and the like shown in FIG.
[0125]
A vibrator 360 for applying vibration to the tank rail 356 is attached to the tank rail 356. Therefore, if a clogged ball occurs near the tank rail 356, the clogged ball is eliminated by driving the vibrator 360.
[0126]
Here, the vibrator 360 is formed as a unit in which a vibration generator such as a vibration motor is built in a casing, and is attached to the side surface of the tank rail 356 using a female screw. The vibrator 360 may be attached to the tank rail with the entire casing in close contact with the tank rail 356. In this example, the vibrator 360 is attached to the tank rail 356 via an elongated attachment leg. Thereby, the whole vibrator 360 formed as a unit vibrates well, and this vibration is smoothly transmitted to the tank rail 356. The mounting legs are integrally projected from the side surface of the tank rail 356, but may be integrally projected from the vibrator 360, or the tank rail 356 and the vibrator 360 may be May be formed individually and interposed between the tank rail 356 and the vibrator 360.
[0127]
The configuration of the tank rail 356 will be described in detail. As shown in FIG. 22, the tank rail 356 has a rail body 361 having a long bowl shape opened upward, and a spherical ball is formed at the start end of the rail body 361. A receiving part 362 is provided. By this ball receiving portion 362, the game ball that has dropped from the tank 355 is smoothly taken into the rail body 361. Further, the rail body 361 is provided with a partition wall 363 extending in the longitudinal direction, and the game balls are 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. One or two ridges 364 are provided on the bottom surface of each spherical passage partitioned by the partition wall 363, and an opening 365 is provided on the side of the ridge 364.
[0128]
In addition, a rectifying plate 367 is disposed on the rail body 361 so as to cover the ceiling portion of the downstream half. The rectifying plate 367 has a bowed 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 up and down. Therefore, even if a large group of game balls flow into the tank rail 356, the game balls are prevented from being bitten and the ball clogging in the tank rail 356 is eliminated. The rail body 367 is formed of a black conductive polycarbonate resin, whereas the rectifying plate 367 is formed of a transparent polycarbonate resin. The rectifying plate 367 is detachably provided, and by removing the rectifying plate 367, maintenance in the tank rail 356 can be easily performed.
[0129]
In the above example, the height of the passage in the tank rail 356 is limited by forming an arcuate convex portion 368 extending in the longitudinal direction so that the game balls can be aligned in a vertical line in the tank rail 356. However, as shown in FIG. 38 and FIG. 39, by providing a ball leveling device 600 that is suspended toward the tank rail 356 and supported so as to be swingable with respect to the flow direction of the game ball K, It becomes possible to align the game balls K in a vertical line. Here, the ball leveling 600 corresponds to the rectifying member of the present invention.
[0130]
By the way, at this time, when the payout motor is stopped and the flow of the upstream game ball is stopped, a large amount of the game balls flowing on the tank rail 356 are concentrated toward the downstream side. May stack up. If the balls are stacked up to the vicinity of the rotation axis 616 of the ball leveling 600, the balance between the stacked game balls K and the ball leveling 600 is balanced, and there is a possibility that a ball clogging may occur at the portion of the ball leveling 600.
[0131]
Therefore, in this example, by applying an external force to the ball leveling 600, the ball leveling 600 is forced to vibrate, and the balance between the game ball K and the ball leveling 600 is broken. Here, means for applying an external force (corresponding to the external force applying means of the present invention) is not particularly limited, but in this example, an impact generated when the refilled game ball K collides with the tank 355. Power is used as an external force. That is, the tank 355 corresponds to the external force generating member of the present invention, and the tank rail 356 corresponds to the passage of the present invention.
[0132]
The configuration will be specifically described. The casing 601 constituting the outline of the tank 355 is pivotally supported at one end side (left end side) by a shaft portion 605 and supported at the other end side (right end side) so as to be vertically movable. Specifically, a support portion 602 extending in the horizontal direction is formed at the right end of the casing 601, and is attached to a predetermined attachment portion 603 fixed to the main body of the pachinko machine 10 via a coil spring 604. For this reason, the casing 601 rotates clockwise against the elastic force of the coil spring 604 when a downward pressing force is applied. On the other hand, when the pressing force disappears, the casing 601 rotates counterclockwise due to the elastic force of the coil spring 604. Rotate (return). Here, the coil spring 604 corresponds to the elastic member of the present invention, and the combination of the coil spring 604 and the shaft portion 605 corresponds to the support means of the present invention.
[0133]
On the other hand, on the bottom surface of the tank 355, storage detection means 606 for detecting the remaining amount of the game ball K stored in the tank 355 is disposed, and the detection result is output to the signal output means 610. The signal output means 610 is provided outside the pachinko machine 10, for example, in an island facility of the game hall when the remaining amount of the game ball K detected by the storage detection means 606 is reduced (or when the game ball is no longer detected). A request instruction signal for requesting replenishment is output to the replenishing means 607. As a result, every time the remaining amount of game balls K stored in the tank 355 decreases, an appropriate amount of game balls is supplied from the supply means 607 via the supply path 608. That is, the game ball K can be stably supplied to the payout device 358.
[0134]
As described above, when the game ball K is supplied from the supply path 608 to the tank 355, the falling game ball K collides with the bottom surface of the tank 355 or the already stored game ball K, and enters the casing 601 of the tank 355. Generate impact force. That is, the kinetic energy of the game ball K accompanying the fall is converted into an impact force (pressing force), and the casing 601 is displaced downward. In particular, the game balls K to be replenished fall to some extent but are replenished fluidly, so that the impact force fluctuates due to variations in the replenishment amount, and accordingly the casing 601 vibrates in the vertical direction. When the supply is stopped, the impact force disappears, and the casing 601 is displaced upward by the elastic force of the coil spring 604. In addition, when the game ball K stored in the tank 355 is discharged to the tank rail 356, the weight of the casing 601 including the game ball K is gradually reduced, so that the casing 601 is further displaced upward by the elastic force of the coil spring 604. To do.
[0135]
A pair of ball leveling 600 arranged in parallel in the front-rear direction (left-right direction in FIG. 39) is attached to the lower right portion of the casing 601. Each sphere leveling 600 has a substantially rectangular parallelepiped shape, and is suspended from a lower portion of the casing 601 toward the tank rail 356. Specifically, a pivot shaft 616 fixed to the tank rail 356 is inserted into a support hole 617 drilled in the upper part of the ball leveling 600, so that the shaft can be supported in a swingable state in the left-right direction. Has been. A gap having a length corresponding to the diameter of the game ball K is formed between the lower end of the ball leveling 600 and the bottom surface of the tank rail 356. For this reason, the game balls K that flow in a stacked manner can be caused to flow out in a state where they are regulated in a vertical row by passing below the ball leveling 600. In particular, since the ball smoothing 600 is supported so as to be able to swing, it can abut on the surface of the stacked game balls K so as to lick and smoothly align without preventing the flow of the game balls K. it can.
[0136]
Since the ball leveling 600 configured as described above is attached to the casing 601 of the tank 355, the vibration of the casing 601 is applied to the ball leveling 600 as an external force. In other words, the ball leveling 600 vibrates in the vertical direction together with the tank 355. Due to this vibration, the balance between the game ball K and the ball leveling 600 is lost, and it becomes possible to eliminate the clogging of the game ball K. Here, a combination of the rotation shaft 616 and the support hole 617 corresponds to the transmission means of the present invention.
[0137]
Note that a stepped step portion 613 having a downstream side lower than an upstream side is formed on the bottom surface 612 of the tank rail 356, particularly in the vicinity of the lower portion of the ball leveling 600. According to this, since the game ball falls at the stepped portion 613, the tank rail 356 itself receives an impact due to the drop and vibrates. For this reason, the balance between the stacked game balls K and the ball leveling 600 becomes difficult to balance, and clogging of the balls can be suppressed.
[0138]
By the way, the ball jamming in the ball leveling 600 is likely to occur when the flow of the game ball K is concentrated, but the situation in which the ball jam easily occurs and the timing at which the game ball K is replenished do not match. In such a case, the clogging of the balls cannot be quickly resolved.
[0139]
Therefore, in this example, the game ball detecting means 614 is disposed in the passage downstream of the ball leveling 600. The signal output means 610 also outputs a request instruction signal when it is determined that the game ball K is not detected based on the game ball detection means 614, that is, when there is a possibility that a ball clogging may occur in the ball leveling portion 600. Output. According to this, the timing of occurrence of the ball clogging and the timing of the replenishment of the game ball K can be matched, and the ball clogging can be quickly eliminated by the impact force due to the replenishment.
[0140]
Returning to the description of FIGS. 20 and 21, the payout mechanism unit 352 is provided with a payout relay board 381 that relays a payout command signal from the payout control device 311 to the payout device 358, and takes in the main power from outside. The power switch board 382 is installed. The power switch board 382 is supplied with, for example, AC 24V main power via a voltage converter, and is turned on or off by switching the power switch 382a.
[0141]
All of the dispensing mechanism 352 from the tank 355 to the dispensing passage 359 is formed of a conductive resin material (for example, conductive polycarbonate resin) and grounded at a part thereof. Thereby, generation | occurrence | production of the noise by charging of a game ball is suppressed.
[0142]
Further, the back pack 351 is provided with a pair of upper and lower support shafts 385 at the right end portion in FIG. 20 and the like. By inserting the support shafts 385 into the support hole portion 238 shown in FIG. The pack unit 203 is supported so as to be openable and closable with respect to the inner frame 12. In addition, the back pack 351 is provided with a pair of upper and lower nai latches 386 as fasteners at the left end portion, and is provided with a locking hole 387 at the upper end portion. 9 and the locking member 242 shown in FIG. At this time, the back pack unit 203 is also fixed to the inner frame 12 by the fixtures 241 and 243 shown in FIG. The support hole 238 and the support shaft 385 are in the support shaft portion M6 in FIG. 8, the fastened hole 240 and the ny latch 386 are in the fastening portion M7, and the fixture 242 and the lock hole 387 are in the lock portion M8, respectively. Equivalent to. Further, the fixture 243 corresponds to the locking portion M9.
[0143]
FIG. 23 is a block diagram showing an electrical configuration of the pachinko machine 10. The main control device 261 of the pachinko machine 10 is equipped with a CPU 501 as a one-chip microcomputer that is an arithmetic device. The CPU 501 includes a ROM 502 that stores various control programs executed by the CPU 501 and fixed value data, and a memory that temporarily stores various data when the control program stored in the ROM 502 is executed. A RAM 503 and various circuits such as an interrupt circuit, a timer circuit, and a data transmission circuit are incorporated.
[0144]
The RAM 503 has a configuration in which data can be retained (backed up) by being supplied with a backup voltage from the power supply device 313 even after the pachinko machine 10 is turned off. The RAM 503 temporarily stores various data and the like. A backup area 503a is provided in addition to the memory and the area.
[0145]
In the backup area 503a, when the power is cut off due to a power failure or the like, the power of the pachinko machine 10 is restored to the state before the power is turned off when the power is turned on again. This is an area for storing stack points, registers, I / O values, etc. Writing to the backup area 503a is executed when the power is turned off by NMI interrupt processing (see FIG. 33). Conversely, returning of each value written to the backup area 503a includes turning on the power (including turning on the power due to power failure cancellation). The same applies to a power recovery process (see FIG. 26). The N501 terminal (non-maskable interrupt terminal) of the CPU 501 is configured to receive a power failure signal S1 output from a power failure monitoring circuit 542, which will be described later, when a power failure occurs due to the occurrence of a power failure or the like. Due to the occurrence, the power failure process (NMI interrupt process) of FIG. 33 is immediately executed.
[0146]
An input / output port 505 is connected to the CPU 501 incorporating the ROM 502 and RAM 503 via a bus line 504 including an address bus and a data bus. A RAM erase switch circuit 543, a payout control device 311, a display control device 45, and other switch groups (not shown) are connected to the input / output port 505.
[0147]
The payout control device 311 controls payout of prize balls and rental balls by a payout motor. The CPU 511 that is an arithmetic unit includes a ROM 512 that stores a control program executed by the CPU 511, fixed value data, and the like, and a RAM 513 that is used as a work memory or the like.
[0148]
The RAM 513 of the payout control device 311 is configured to hold (backup) data by supplying a backup voltage from the power supply device 313 even after the pachinko machine 10 is turned off, like the RAM 503 of the main control device 261 described above. The RAM 513 is provided with a backup area 513a in addition to a memory and an area for temporarily storing various data.
[0149]
The backup area 513a has a stack point at the time of power-off, each register, and the like in order to restore the state of the pachinko machine 10 to the state before the power-off when the power is turned off when the power is cut off due to a power failure or the like This is an area for storing values such as I / O. The writing to the backup area 513a is executed when the power is turned off by the NMI interrupt process (see FIG. 33), and the return of each value written to the backup area 513a is executed in the power recovery process when the power is turned on. .
[0150]
An input / output port 515 is connected to the CPU 511 having the ROM 512 and the RAM 513 through a bus line 514 including an address bus and a data bus. A RAM erase switch circuit 543, a main control device 261, a firing control device 312, a payout motor 358a, and the like are connected to the input / output port 515, respectively.
[0151]
The launch control device 312 permits or prohibits the launch of the game ball by the launch motor 229, and the launch motor 229 is permitted to drive when a predetermined condition is met. Specifically, it is detected by a sensor signal that a firing permission signal is output from the payout control device 311, that the player is touching the game ball launch handle 18, and the launch is stopped. On the condition that the firing stop switch is not operated, the firing motor 229 is driven, and the game ball is fired at an intensity corresponding to the operation amount of the game ball launch handle 18.
[0152]
The display control device 45 controls the second symbol variation display on the second symbol display device 42 and the first symbol variation display on the first symbol display device 41. The display control device 45 includes a CPU 521, a ROM (program ROM) 522, a work RAM 523, a video RAM 524, a character ROM 525, an image controller 526, an input port 527, two output ports 528 and 529, and a bus. Lines 530 and 531 are provided. The output of the main controller 261 is connected to the input of the input port 527, and the CPU 521, ROM 522, work RAM 523, and image controller 526 are connected to the output of the input port 527 and one output port is connected via the bus line 530. 528 is connected. A first symbol display device 41 (display unit 43) and an audio lamp control device 262 are connected to the output of the output port 528. Further, an output port 529 is connected to the image controller 626 through a bus line 531, and a second symbol display device 42 which is a liquid crystal display device is connected to an output of the output port 529.
[0153]
The CPU 521 of the display control device 45 controls the display of the second symbol display device 42 and the first symbol display device 41 based on the display command transmitted from the main control device 261. The ROM 522 is a memory for storing various control programs executed by the CPU 521 and fixed value data, and the work RAM 523 temporarily stores work data and flags used when the CPU 521 executes various programs. It is a memory for.
[0154]
The video RAM 524 is a memory for storing display data displayed on the second symbol display device 42, and the display content of the second symbol display device 42 is changed by rewriting the contents of the video RAM 524. The character ROM 525 is a memory for storing character data such as symbols displayed on the second symbol display device 42. The image controller 526 adjusts the timings of the CPU 521, the video RAM 524, and the output port 529 to intervene in reading and writing data, and reads display data stored in the video RAM 524 from the character ROM 525 at a predetermined timing. It is displayed on the symbol display device 42.
[0155]
The power supply unit 313 includes a power supply unit 541 for supplying power to each part of the pachinko machine 10, a power failure monitoring circuit 542 for monitoring power interruption due to a power failure, and a RAM erase switch connected to the RAM erase switch 323. A circuit 543. The power supply unit 541 supplies necessary operation power to the main control device 261, the payout control device 311 and the like through a power supply path (not shown). As its outline, the power supply unit 541 takes in an AC 24 volt power supply supplied from the outside, and generates a + 12V power supply for driving various switches and motors, a + 5V power supply for logic, a backup power supply for RAM backup, and the like. Then, these + 12V power supply, + 5V power supply and backup power supply are supplied to the main control device 261, the payout control device 311 and the like. Note that operation power (+12 V power, +5 V power, etc.) is supplied to the launch control device 312 via the payout control device 311.
[0156]
The power failure monitoring circuit 542 is a circuit for outputting a power failure signal S1 to each NMI terminal of the CPU 501 of the main control device 261 and the CPU 511 of the payout control device 311 when the power is cut off due to the occurrence of a power failure or the like. The power failure monitoring circuit 542 monitors the 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 failure) has occurred when this voltage is less than 22 volts. The power failure signal S1 is output to the main controller 261 and the payout controller 311. Based on the output of the power failure signal S1, the main control device 261 and the payout control device 311 recognize the occurrence of the power failure and execute the power failure processing (NMI interrupt processing in FIG. 33).
[0157]
The power supply unit 541 normally outputs an output of 5 volts, which is a drive voltage of the control system, for a time sufficient to execute the process at the time of a power failure even after the DC stable voltage of 24 volts becomes less than 22 volts. Configured to maintain the value. Therefore, the main control device 261 and the payout control device 311 can normally execute and complete the power failure process.
[0158]
The RAM erase switch circuit 543 is a circuit for taking in the switch signal of the RAM erase switch 323 and clearing backup data in the RAM 503 of the main controller 261 and the RAM 513 of the payout controller 311 in accordance with the state of the switch 323. When the RAM erase switch 323 is pressed, the RAM erase switch circuit 543 outputs a RAM erase signal S2 to the main controller 261 and the payout controller 311. When the power of the pachinko machine 10 is turned on while the RAM erase switch 323 is pressed (including power-on due to power failure cancellation), the data in the respective RAMs 503 and 513 are cleared in the main controller 261 and the payout controller 311. The
[0159]
By the way, as shown in FIG. 24, the second symbol display device (liquid crystal display device) 42 has three symbol rows of left, middle, and right, and the upper symbol, the middle symbol, the lower symbol for each symbol row. Three symbols (second symbol) of symbols are displayed in a variable manner. In the present embodiment, the series of symbols is composed of a main symbol with numbers “0” to “9” and a sub-pattern consisting of rhombus-shaped symbols, in ascending or descending order of the numbers. A main symbol is displayed and a sub symbol is arranged between each main symbol to form a series of symbol sequences. The main symbol and the sub symbol are variably displayed from top to bottom with periodicity.
[0160]
In such a case, in the left symbol row and the right symbol row, the series of symbols is displayed in descending order (that is, in order of increasing the number of the main symbols), and in the middle symbol row, the series of symbols is also in ascending order (that is, (In order of decreasing main symbol number). Then, the variable display stops in the order of left symbol row → right symbol row → middle symbol row, and at the time of the stop, five effective lines on the second symbol display device 42, that is, upper line L1, middle line L2, lower line L3, A special game video is displayed as a jackpot if the main symbol is aligned with a jackpot symbol combination (in this embodiment, the same main symbol combination) in either the right-up line L4 or the left-upline L5. Yes.
[0161]
Next, the operation of the pachinko machine 10 configured as described above will be described.
[0162]
In the present embodiment, the CPU 501 in the main control device 261 performs lottery (big hit lottery) of the second symbol display device 42, setting of symbol display, and the like using various counter information during the game. Specifically, 25, the jackpot random number counter C1 used for the jackpot lottery of the second symbol display device 42, the jackpot symbol counter C2 used for the selection of the jackpot symbol of the second symbol display device 42, and the second Reach random number counter C3 used for reach lottery when the symbol display device 42 fluctuates and changes, random number initial value counter CINI used for initial value setting of the jackpot random number counter C1, and variation pattern selection of the second symbol display device 42 Fluctuation type counters CS1 and CS2 to be used, and left, middle and right outliers used for setting left out, middle and right outliers Counter CL, CM, has been with the use of the CR.
[0163]
Among these, the counters C1 to C3, CINI, CS1, and CS2 are loop counters that each add 1 to the previous value and return to 0 after reaching the maximum value. Further, the out symbol counters CL, CM, CR are configured such that 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 periodically updated, and the updated value is appropriately stored in a counter buffer set in a predetermined area of the RAM 503. In addition, the RAM 503 is provided with a holding ball storage area composed of one execution area and four holding areas (holding first to fourth areas). Each value of the jackpot random number counter C1, the jackpot symbol counter C2 and the reach random number counter C3 is stored in time series in accordance with the winning history of the game balls.
[0164]
For details of each counter, the jackpot random number counter C1 is configured such that, for example, 1 is sequentially added within a range of 0 to 676, and after reaching the maximum value (that is, 676), it returns to 0. 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 interruption and is repeatedly updated within the remaining time of normal processing. The jackpot random number counter C1 is updated periodically (once every timer interruption in the present embodiment), and stored in the reserved ball storage area of the RAM 503 at the timing when the game ball wins the second start port 33. The number of random number values that are jackpots is set at low probability and high probability, and the number of random numbers that are jackpots at low probability is 2, and the value is “337,673”. Yes, the value of the random number that becomes a big hit at a high probability is 10, and the value is “67, 131, 199, 269, 337, 401, 463, 523, 601, 661”. The high probability means a state where the jackpot is won by a predetermined probability variation pattern and the subsequent jackpot probability is increased as added value, that is, the time of so-called probability change, and the normal time (low probability) is such When not in a certain state.
[0165]
The jackpot symbol counter C2 determines a symbol when the fluctuation of the second symbol display device 42 is stopped at the time of a jackpot. In the present embodiment, the second symbol display device 42 has five effective lines. Since ten specific symbols (main symbols) are set, 50 counter values (0 to 49) are prepared. In other words, the jackpot symbol counter C2 is configured so that one by one is added in order within the range of 0 to 49, and after reaching the maximum value (that is, 49), it returns to 0. The jackpot symbol counter C2 is updated periodically (once every timer interruption in the present embodiment), and stored in the reserved ball storage area of the RAM 503 at the timing when the game ball wins the second start port 33.
[0166]
Further, the reach random number counter C3 is configured to increment one by one within a range of 0 to 238, for example, and returns to 0 after reaching the maximum value (that is, 238). In this state, the reach random number counter C3 causes the last stop symbol to stop after the reach has occurred by shifting the last stop symbol by one before and after the reach symbol, and the last stop symbol after the reach has also occurred. “Reach other than front / rear off” that stops other than before and “completely out” that does not generate reach, for example, C3 = 0, 1 corresponds to front / rear reach, and C3 = 2-21 It corresponds to reach other than front / rear detachment, and C3 = 22 to 238 corresponds to complete detachment. The reach lottery may be set individually according to the state of the lottery probability of the second symbol display device 42, the number of suspended balls at the start of change, and the like. The reach random number counter C3 is updated periodically (once every timer interruption in the present embodiment) and stored in the reserved ball storage area of the RAM 503 at the timing when the game ball wins the second start port 33.
[0167]
In addition, one of the two variation type counters CS1 and CS2 is incremented one by one within a range of 0 to 198, for example, and reaches a maximum value (that is, 198) and then returns to 0. For example, the other variation type counter CS2 is incremented one by one within a range of 0 to 240, for example, and reaches the maximum value (that is, 240) and then returns to 0. 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 second symbol such as so-called normal reach, super reach, premium reach, and other rough symbol variation modes, and the second variation type counter CS2 determines the final stop symbol ( In the present embodiment, a more detailed symbol variation mode such as an elapsed time (in other words, the number of variation symbols) until the middle symbol) stops is determined. Therefore, a variety of variation patterns can be easily realized by combining these variation type counters CS1 and CS2. 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 combining the first variation type counter CS1 and the stop symbol.
[0168]
The variation type counters CS1 and CS2 are updated once every time a normal process to be described later is executed once, and are repeatedly updated even within the remaining time in the normal process. Then, the buffer values of CS1 and CS2 are acquired when the second symbol display device 42 determines the variation pattern at the start of variation of the second symbol.
[0169]
The left, middle, and right out symbol counters CL, CM, and CR are displayed in the left column second symbol, the middle column second symbol, and the right column second symbol when the big symbol lottery of the second symbol display device 42 is lost. This is for determining stop symbols (out-of-band symbols). Since each column displays either 20 main symbols or 20 secondary symbols, 20 (0 to 19) each. Counter values are provided. The left, upper, middle and lower symbols are determined by the out symbol counter CL, the upper, middle and lower symbols are determined by the out symbol counter CM, and the right symbol column is determined by the out symbol counter CR. The top, middle and bottom symbols are determined.
[0170]
In this embodiment, the value of each counter CL, CM, CR is updated at random by using the value of the built-in R register in the CPU 501. That is, when each outlier symbol counter CL, CM, CR is updated, the lower 3 bits of the R register are added to the previous value, and when the addition result exceeds the maximum value, 20 is subtracted to determine the current value. The Each outlier symbol counter CL, CM, CR is updated within the normal processing so that the update times do not overlap, and the combination of these outlier symbol counters CL, CM, CR is the reach of the RAM 503 front / rear out symbol buffer, reach other than front / rear out It is stored in either the symbol buffer or the completely off symbol buffer. Then, when determining the variation pattern at the start of variation of the second symbol, the buffer value of any one of the front and rear outreach symbol buffer, the non-front and rear outreach symbol buffer, and the complete out symbol symbol buffer is acquired according to the value of the reach random number counter C3. The
[0171]
The size and range of each counter is only an example and can be arbitrarily changed. However, it is desirable that the big hit random number counter C1, the reach random number counter C3, and the variation type counters CS1 and CS2 are all different prime numbers and are not synchronized in any case.
[0172]
Although not shown, the first symbol random number counter C4 is used for the lottery of the first symbol display device 41. The first symbol random number counter C4 is configured as a loop counter that is incremented one by one within a range of, for example, 0 to 250 and returns to 0 after reaching the maximum value (that is, 250). The first symbol random number counter C4 is updated periodically (once every timer interruption in the present embodiment), and is acquired when the game ball passes through the first starting port 34 on either the left or right side. The number of random number values to be won is 149, and the range is “5 to 153”.
[0173]
Next, each control device executed by the CPU 501 in the main control device 261 will be described with reference to the flowcharts of FIGS. The processing of the CPU 501 is broadly divided into main processing that is started when the power is turned on, timer interrupt processing that is started periodically (in this embodiment, at a cycle of 2 msec), and power failure to the NMI terminal (non-maskable terminal). There is an NMI interrupt process activated by the input of a signal. For convenience of explanation, the timer interrupt process and the NMI interrupt process are described first, and then the main process is described.
[0174]
FIG. 31 is a flowchart showing the timer interrupt process. This process is executed by the CPU 501 of the main controller 261 every 2 msec, for example.
[0175]
In FIG. 31, first, in step S601, reading processing of various winning switches is executed. That is, the state of various switches (except for the RAM erase switch 323) connected to the main controller 261 is read, and the state of the switch is determined and the detection information (winning detection information) is stored.
[0176]
Thereafter, in step S602, the random number initial value counter CINI is updated. Specifically, the random number initial value counter CINI is incremented by 1 and cleared to 0 when the counter value reaches the maximum value (676 in this embodiment). Then, the random number initial value counter CINI update value is stored in the corresponding buffer area of the RAM 503. Alternatively, in the subsequent 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 1 and their counter values reach the maximum values (in this embodiment, 676, 49, and 238, respectively). Each time it is cleared to 0. Then, the updated values of the counters C1 to C3 are stored in the corresponding buffer area of the RAM 503.
[0177]
Thereafter, in step S604, a start winning process associated with winning in the second starting port 33 is executed. The start winning process will be described with reference to the flowchart of FIG. 32. In step S701, whether or not the game ball has won the second start opening 33 is determined based on the detection information of the operation opening switch 224. If it is determined that the game ball has won the second start opening 33, in the subsequent step S702, whether or not the number N of the operation reserved balls of the second symbol display device 42 is less than the upper limit value (4 in the present embodiment). Is determined. The process proceeds to step S703 on the condition that there is a winning at the second start port 33 and the number N of actuated balls is <4, and the number N of actuated balls is incremented by one.
[0178]
In subsequent step S704, a random number related to the winning of the second symbol is acquired. Specifically, 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 area of the free storage area 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.
[0179]
FIG. 33 is a flowchart showing the NMI interrupt process, and this process is executed by the CPU 501 of the main controller 261 when the power of the pachinko machine 10 is cut off due to the occurrence of a power failure or the like. By this NMI interruption, the state of the main controller 261 at the time of power-off is stored in the backup area 503a of the RAM 503.
[0180]
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 S2 is output from the power failure monitoring circuit 542 to the NMI terminal of the CPU 501 in the main controller 261. Then, the CPU 501 interrupts the control being executed and starts the NMI interrupt process of FIG. 33 is stored in the ROM 502 of the main controller 261. For a predetermined time after the power failure signal S1 is output, power is supplied from the power supply unit 541 so that the processing of the main controller 261 can be executed, and the NMI interrupt processing is executed within the predetermined time.
[0181]
In the NMI interrupt processing of FIG. 33, first, in step S801, the used registers are saved in the backup area 503a of the RAM 503, and in the subsequent step S802, the value of the stack pointer is stored in the backup area 503a. Further, in step S803, the information on occurrence of power interruption is set in the backup area 503a, and in step S804, a power interruption notification command indicating that the power has been interrupted is transmitted to another control device.
[0182]
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 the 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 shut down and processing cannot be executed.
[0183]
The NMI interrupt process is also executed in the payout control device 311 in the same manner, and the state of the payout control device 311 when the power is cut off due to the occurrence of a power failure or the like is stored in the backup area 513a of the RAM 513. Similarly, the 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 S1 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 S1 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 interrupts the control being executed. The NMI interrupt process of FIG. 33 is started. The contents are as described with reference to FIG. 33 (however, the transmission of the power-off notification command in step S804 is excluded).
[0184]
FIG. 26 is a flowchart showing an example of a main process executed by the CPU 501 in the main control device 261. This main process is started upon reset when power is turned on.
[0185]
First, in step S101, an initial setting process associated with power-on is executed. Specifically, in order to set a predetermined value in the stack pointer and wait for the sub-side control devices (such as the sound lamp control device 262 and the payout control device 311) to become operable, for example, Wait processing is performed for about 1 second. In step S102, a payout permission command is transmitted to the payout control device 311. In subsequent step S103, RAM access is permitted.
[0186]
Thereafter, data backup processing 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 (ON). In subsequent step S105, the information on occurrence of power interruption is set in the backup area 503a of the RAM 503. It is determined whether or not. In step S106, a RAM determination value is calculated. In subsequent 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. The RAM determination value is a checksum value at a work area address of the RAM 503, for example. Note that it is possible to determine the effectiveness of backup based on whether or not the keywords written in a predetermined area of the RAM 503 are correctly stored.
[0187]
As described above, the pachinko machine 10 is turned on while pressing the RAM erase switch 323 when it is desired to return to the initial state when the power is turned on, for example, when the hall starts business. Therefore, if the RAM erase switch 323 is ON, the process proceeds to a RAM initialization process (step S114, etc.). Similarly, when the information on occurrence of power interruption is not set, or when a backup abnormality is confirmed by a RAM determination value (checksum value or the like), the process proceeds to initialization processing of the RAM 503 (step S114 or the like). That is, in step S114, the used area of the RAM 503 is cleared to 0, and in the subsequent step S115, initialization processing of the RAM 503 is executed. In step S116, interrupt permission is set, and the process proceeds to normal processing described later.
[0188]
On the other hand, if the RAM erase switch 323 has not been pressed, the power-off occurrence information is set, and the RAM judgment value (checksum value, etc.) is normal. Execute the process (process when power is restored). That is, in step S108, the stack pointer before the power interruption is restored, and in step S109, the information on occurrence of power interruption is cleared. In step S110, a command for returning the sub-side control device 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. Further, in steps S112 and S113, the interrupt permission / non-permission is returned to the state before power-off, and then the address before power-off is returned.
[0189]
Next, the flow of normal processing will be described with reference to the flowchart of FIG. In this normal process, the main process of the game is executed. As an outline, the processing of steps S201 to S207 is executed as a periodic processing with a period of 4 msec, and the counter update processing of steps S209 and S210 is executed with the remaining time.
[0190]
In FIG. 27, first, in step S201, output data such as a command updated in the previous process is transmitted to each control device on the sub side. Specifically, the presence / absence of winning detection information is determined, and if there is winning detection information, a winning ball payout command corresponding to the number of acquired game balls is transmitted to the payout control device 311. Further, a stop symbol command, a variation pattern command, a confirmation command, etc. are transmitted to the display control device 45 when the second symbol display device 42 displays the variation of the second symbol. In addition, after the start of the second symbol variation, each time normal processing is performed in the order of variation pattern command-> left symbol sequence stop symbol command-> right symbol sequence stop symbol command-> middle symbol sequence stop symbol command. The command is sent once every 4 msec), and the confirmation command is sent when the fluctuation time elapses.
[0191]
Next, in step S202, the variation type counters CS1 and CS2 are updated. Specifically, the variation type counters CS1 and CS2 are incremented by 1, and are cleared to 0 when the counter values reach the maximum values (198 and 240 in this embodiment). Then, the update values of the variation type counters CS1 and CS2 are stored in the corresponding buffer area of the RAM 503. In subsequent step S203, updating of each outlier symbol counter CL, CM, CR of the left symbol row, the middle symbol row, and the right symbol row is executed.
[0192]
The update process of each out symbol counter CL, CM, CR will be described in detail. As shown in FIG. 28, in step S301, it is determined whether or not it is time to update the out symbol counter CL in the left symbol row. In step S302, It is determined whether or not it is time to update the middle symbol row out of symbol counter CM. If the update timing of the left symbol row (YES in step S301), the process proceeds to step S303, and the outlier symbol counter CL of the left symbol row is updated. Further, if the update timing of the middle symbol row (YES in step S302), the process proceeds to step S304, and the out-of-middle symbol counter CM is updated. Further, if the update timing of the right symbol sequence (both NO in steps S301 and S302), the process proceeds to step S305, and the outlier symbol counter CR of the right symbol sequence is updated. In updating the outlier symbol counters CL, CM, 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 result of the calculation is out of sync and is used as the current value of the symbol counters CL, CM, CR.
[0193]
According to the CL, CM, and CR update processing, the left symbol row, middle symbol row, and right symbol row outlier symbol counters CL, CM, and CR are sequentially updated one by one in one normal process. The update times of the values do not overlap. As a result, every time the normal process is executed three times, one set of the off symbol counters CL, CM, CR is updated.
[0194]
Thereafter, in step S306, it is determined whether or not the combination of the updated outlier symbol counters CL, CM, CR is a combination of jackpot symbols. If the combination is a jackpot symbol combination, the processing of steps S307 to S312 is performed. Skip and end this process. On the other hand, if the combination of the off symbol counters CL, CM, and CR is not a jackpot symbol combination, the process proceeds to step S307.
[0195]
In step S307, it is determined whether or not the combination of the updated out symbol counters CL, CM, and CR is a reach symbol combination. It is determined whether or not. If the off symbol counters CL, CM, and CR are combinations of front and rear outreach, the process proceeds to step S309, and the combination of out symbol symbols CL, CM, and CR at that time is stored in the front and rear outreach symbol buffer of the RAM 503. If the out symbol counters CL, CM, CR are a combination of reach other than front / back off, the process proceeds to step S310, and the combination of the out symbol counters CL, CM, CR at that time is stored in the reach symbol buffer other than front / back out of RAM 503. .
[0196]
If the combination is other than the reach symbol, in step S311, it is determined whether or not the combination of the out symbol counters CL, CM, CR is a combination of out symbols, and if it is a combination of out symbols, In step S312, the combination of the off symbol counters CL, CM, and CR at that time is stored in the off symbol buffer of the RAM 503. When both of steps S307 and S311 are NO, the symbols are aligned on the left, middle, and right, that is, it corresponds to a jackpot state. In such a case, the off symbol counters CL, CM, and CR are stored in the buffer. The process is terminated without any processing.
[0197]
After the removal symbol counter update process, in step S204 in FIG. 27, the winning ball counting signal and the payout abnormality signal received from the payout control device 311 are read. Thereafter, in step S205, a second symbol variation process for performing variation display of the second symbol by the second symbol display device 42 is executed. By this second symbol variation process, jackpot determination, setting of a variation pattern of the second symbol, and the like are performed. However, details of the second symbol variation process will be described later.
[0198]
Thereafter, in step S206, a big prize opening / closing process for opening or closing the big prize opening of the variable prize winning device 35 in the case of the big win state is executed. That is, the big winning opening is opened for each round of the big hit state, and it is determined whether the maximum opening time of the big winning opening has passed or whether a predetermined number of game balls have been won in the big winning opening. When either of these conditions is satisfied, the special winning opening is closed. At this time, the continuous winning opening is allowed on condition that the game ball has passed the specific area, and this is repeatedly executed for a predetermined number of rounds.
[0199]
In step S207, display control of the first symbol by the first symbol display device 41 is executed. Briefly, on the condition that the game ball has passed through the first starting port 34, the first symbol random number counter C4 is acquired each time and the first symbol is displayed on the display unit 43 of the first symbol display device 41. Is displayed. Then, the first symbol lottery is carried out based on the value of the first symbol random number counter C4. When the first symbol hit state is reached, the second start port 33 is opened for a predetermined time. Although the description is omitted, the first symbol random number counter C4 is also updated by the timer interrupt process shown in FIG. 31, like the jackpot random number counter C1, the jackpot symbol counter C2, and the reach random number counter C3. .
[0200]
Thereafter, in step S208, it is determined whether or not the next normal process execution timing has been reached, that is, whether or not a predetermined time (4 msec in the present embodiment) has elapsed since the start of the previous normal process. Then, the random number initial value counter CINI and the variation type counters CS1 and CS2 are repeatedly updated 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 1 and cleared to 0 when the counter value reaches the maximum value (676 in this embodiment). Then, the update value of the random number initial value counter CINI is stored in the corresponding buffer area of the RAM 503.
[0201]
In step S210, the update of the variation type counters CS1 and CS2 is executed (same as the previous step S202). Specifically, the variation type counters CS1 and CS2 are incremented by 1, and are cleared to 0 when the counter values reach the maximum values (198 and 240 in this embodiment). Then, the update values of the variation type counters CS1 and CS2 are stored in the corresponding buffer area of the RAM 503.
[0202]
Here, since the execution time of each process of steps S201 to S207 changes according to the state of the game, the remaining time until the execution timing of the next normal process is not constant and varies. Therefore, the random number initial value counter CINI (that is, the initial value of the big hit random number counter C1) can be updated at random by repeatedly executing the update of the random number initial value counter CINI using the remaining time. .
[0203]
Next, the second symbol control process of step S205 will be described with reference to the flowchart of FIG.
[0204]
In FIG. 29, in step S401, it is determined whether or not it is currently a big hit. Note that the jackpot includes a special game displayed on the second symbol display device 42 and a predetermined time after the special game is ended. In a succeeding step S402, it is determined whether or not the second symbol display device 42 is displaying the variation of the second symbol. Then, when the big symbol is not being won and the variation of the second symbol is not being displayed, the process proceeds to step S403, and it is determined whether or not the number N of the operation reserved balls of the second symbol display device 42 is larger than zero. At this time, if the jackpot is being hit or if the number N of working suspension balls is 0, this processing is terminated as it is.
[0205]
Further, if it is neither a big hit nor a change display of the second symbol and if the number N of activated balls is> 0, the process proceeds to step S404. In step S404, 1 is subtracted from the number N of active suspension balls. In step S405, a process for shifting the data stored in the reserved ball storage area is executed. This data shift process is a process of sequentially shifting the data stored in the reserved first to fourth areas of the reserved ball storage area to the execution area side, and the reserved first area → execution area, reserved second area → The data in each area is shifted such as the first hold area, the third hold area → the second hold area, the fourth hold area → the third hold area.
[0206]
Thereafter, in step S406, a change start process is executed. Here, the details of the variation start processing will be described with reference to the flowchart of FIG. 30. In step S501, it is determined whether or not the jackpot is based on the value of the jackpot random number counter C1 stored in the execution area of the reserved ball storage area. To do. Specifically, whether or not the jackpot is determined based on the relationship between the jackpot random number counter value and the mode at that time, as described above, among the numerical values 0 to 676 of the jackpot random number counter C1 at the normal low probability, "337, “673” is a winning value, and “67, 131, 199, 269, 337, 401, 463, 523, 601, 661” is a winning value at high probability.
[0207]
If it is determined that the game 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 (value of the jackpot symbol counter C2). And a symbol representing the correspondence between the symbol and the symbol), 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 active lines, and any one of the 50 jackpot symbols is set in the stop symbol command. Is done. When these jackpot symbols are gathered with a predetermined specific symbol, the state changes to a probability variation state. However, when the symbols are not specific symbols (non-specific symbols), the probability variation state is not entered.
[0208]
Next, in step S503, the variation pattern at the time of the big hit is determined, and the variation pattern is set in the 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 the reach of the second symbol such as normal reach, super reach, premium reach, etc. based on the value of the first variation type counter CS1. The type and other rough symbol variation modes are determined, and the elapsed time until the final stop symbol (in this embodiment, the middle symbol) stops after the occurrence of reach based on the value of the second variation type counter CS2 (in other words, A more detailed symbol variation mode such as the number of variation symbols) is determined. The relationship between the numerical value of the first variation type counter CS1 and the reach pattern and the relationship between the numerical value of the second variation type counter CS2 and the stop symbol time are respectively defined in advance by a table or the like. Needless to say, the symbol variation mode may be determined based on the value of only one of the first variation type counter CS1 and the second variation type counter CS2.
[0209]
On the other hand, if it is determined in step S501 that it is not a big hit, it is determined in step S504 whether or not a 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. If the reach has occurred, it is further determined in step S505 whether the reach is out of front or back based on the value of the reach random number counter C3. 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-front reach and “2-21” corresponds to the reach other than the back-and-forth out- “22 to 238” corresponds to no reach (complete detachment).
[0210]
If the front / rear out of reach has occurred, the process proceeds to step S506, and the left, middle, and right out of symbol counters CL, CM, CR stored in the front / rear out of reach symbol buffer of the RAM 503 are set as stop symbol commands. In step S507, a variation pattern at the time of front / rear out of reach 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 the normal reach, super reach, and premium reach are determined based on the value of the first variation type counter CS1. Etc., until the reach stop type (in the present embodiment, the middle symbol) is stopped after the reach occurrence based on the value of the second variation type counter CS2 More detailed symbol variation modes such as the elapsed time (in other words, the number of variation symbols) are determined.
[0211]
If a reach other than front / rear out occurs, the process proceeds to step S508, and the left, middle, and right out-of-line counters CL, CM, CR stored in the reach symbol buffer other than front / rear out of RAM 503 are stopped. Set to. Also, in step S509, a fluctuation pattern at the time of reach other than front / rear deviation is determined, and the fluctuation pattern is set as a fluctuation 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.
[0212]
If it is neither big hit nor reach, the process proceeds to step S510, and the left, middle, and right off symbol counters CL, CM, and CR stored in the complete off symbol buffer of the RAM 503 are set as stop symbol commands. In step S511, the fluctuation pattern at the time of complete deviation is determined, and the fluctuation pattern is set in the fluctuation pattern command. At this time, since the reach does not occur, the player's interest is reduced, and various symbol variation modes are not required. Therefore, in the present embodiment, in step S511, the symbol variation mode is determined using only the first variation type counter CS1 (that is, without using the second variation type counter CS2). As described above, when the setting of the symbol stop command and the variation pattern command is completed at the time of jackpot, when the reach occurs, and when the reach does not occur, this processing ends.
[0213]
Returning to the description of FIG. 29, if step S402 is YES, that is, when the second symbol variation table is in progress, the process proceeds to step S407 to determine whether or not the variation time has elapsed. At this time, the variation time of the second symbol is determined according to the variation pattern of the second symbol, and when this variation time has elapsed, an affirmative determination is made in step S407. In step S408, the stop symbol set for stopping the change is set as a confirmation command, and then this process is terminated.
[0214]
Next, payout control executed by the CPU 511 in the payout control device 311 will be described. FIG. 34 is a flowchart showing the main process of the payout control device 311. This main process is started upon reset when the power is turned on.
[0215]
First, in step S901, an initial setting process associated with power-on is executed. Specifically, a predetermined value set in advance 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 261 is received. When the payout permission command is received, the process proceeds to step S903 to permit the RAM access, and in step S904, the external interrupt pector is set.
[0216]
Thereafter, a data backup process 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 is pressed (ON). In subsequent step S906, the information on occurrence of power interruption is set in the backup area 513a of the RAM 513. It is determined whether or not. In step S907, a RAM determination value is calculated. In subsequent step S908, 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. The RAM determination value is, for example, a checksum value at a work area address in the RAM 513. It should be noted that it is possible to determine the effectiveness of backup based on whether or not the keywords written in a predetermined area of the RAM 513 are correctly stored.
[0217]
If the RAM erase switch 323 is ON, the process proceeds to a RAM initialization process (step S915, etc.). Similarly, when the occurrence information of power interruption is not set, or when a backup abnormality is confirmed by the RAM determination value (checksum value or the like), the process proceeds to initialization processing of the RAM 513 (step S915 or the like). That is, in step S915, the entire area of the RAM 513 is cleared to 0, and in the subsequent step S916, initialization processing of the RAM 513 is executed. In step S917, the CPU peripheral device is initialized, and in step S918, interrupt permission is set, and the process proceeds to a payout control process described later.
[0218]
On the other hand, if the RAM erase switch 323 has not been pressed, the power-off occurrence information is set, and the RAM judgment value (checksum value, etc.) is normal. Execute the process (process when power is restored). That is, in step S909, the stack pointer before the power interruption is restored, and in step S910, the information on the occurrence of the power interruption is cleared. In step S911, CPU peripheral devices are 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 interruption permission / non-permission is returned to the state before the power interruption, and then the address before the power interruption is returned.
[0219]
Next, the flow of the payout control process will be described with reference to the flowchart of FIG.
[0220]
In FIG. 35, in step S1001, a command from the main control device 261 is acquired, and the total number of prize balls is stored. In step S1002, the launch control apparatus 312 is set for launch permission. 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.
[0221]
Thereafter, in step S1004, setting of the lower pan full tank state or the lower pan full tank release state is executed in accordance with the change in the state of the lower pan 15. That is, when the lower pan 15 is detected based on the detection signal of the lower pan full switch, when the lower pan is full, the lower pan full state is set, and when the lower pan full is not reached , Set the lower pan full release state. In step S1005, setting of a tank ball absence state or a tank ball absence release state is executed in accordance with a change in the state of the tank ball. In other words, the tank ball no switch state is determined based on the detection signal of the tank ball no switch, and when there is no tank ball, the setting of the tank ball no state is executed. Cancel the setting.
[0222]
Thereafter, in step S1006, the presence / absence of a state to be notified is determined. If there is a state to be notified, the 7-segment LED provided in the payout control device 311 is notified.
[0223]
In steps S1007 to S1009, prize ball payout processing is executed. In this case, if the prize ball is not paid out and the total number of prize balls stored in step S1001 is not 0 (both NO in steps S1007 and S1008), the process proceeds to step S1009 and a prize ball control process (described later). FIG. 36) is started. Further, if the prize ball cannot be paid out or the total number of prize balls is 0 (YES in any of steps S1007 and S1008), the process proceeds to a lending payout process.
[0224]
Thereafter, in steps S1010 to S1012, a rental ball payout process is executed. In this case, if it is not possible to pay out the rent and if a rent-out request from the card unit has been received (NO in step S1010, YES in S1011), the process proceeds to step S1012 and a renting control process (described later). FIG. 37) is started. Further, if a rental ball cannot be paid out or a rental ball payout request has not been received (YES in step S1010 or NO in S1011), the subsequent ball removal process is executed.
[0225]
In step S1013, the state return switch 321 is checked to execute the ball removal process by driving the payout motor 358a on the condition that the ball removal disabled state is not set and the ball removal operation is not started. In the subsequent step S1014, the control of the vibrator 360 (vibrator control) is executed on condition that the ball is clogged. Thereafter, the process returns to the top of the payout control process.
[0226]
In the prize ball control process shown in FIG. 36, in step S1101, the payout motor 358a is driven to execute prize ball payout. In subsequent step S1102, whether the rotation of the payout motor 358a is normal 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, where the payout motor 358a is driven to execute a retry process, and a stop process of the payout motor 358a is executed. Thereafter, the process returns to the payout control process of FIG.
[0227]
If the rotation of the payout motor 358a is normal, the process proceeds to step S1104, and it is determined from the detection result of the payout count switch whether or not the game balls to be paid out as prize balls are normally counted. If the game ball count is not normal, the process proceeds to step S1105, where the payout motor 358a is driven to execute a retry process and the payout motor 358a is stopped, and then the process returns to the payout control process of FIG.
[0228]
Further, if the game ball count is normal, the process proceeds to step S1106, and it is determined whether or not the game ball count by the payout count switch has reached the total number of prize balls and the payout has been completed. If the payout has been completed, a stop process for the payout motor 358a is executed in step S1107, and then the process returns to the payout control process in FIG.
[0229]
In the ball lending control apparatus shown in FIG. 37, in step S1201, the payout motor 358a is driven to execute lending of a lending ball. In the subsequent step S1202, it is determined from the detection result of the dispensing rotation sensor whether the rotation of the dispensing motor 358a is normal. If the rotation of the payout motor 358a is not normal, the process proceeds to step S1203, the payout motor 358a is driven to execute a retry process, and a stop process of the payout motor 358a is executed. Thereafter, the process returns to the payout control process of FIG.
[0230]
If the rotation of the payout motor 358a is normal, the process proceeds to step S1204, and it is determined from the detection result of the payout count switch whether or not the game balls to be paid out as rented balls are normally counted. If the count of the gaming machine is not normal, the process proceeds to step S1205, the payout motor 358a is driven to execute a retry process, and a stop process of the payout motor 358a is executed. Thereafter, the process returns to the payout control process of FIG.
[0231]
If the game ball count is normal, the process proceeds to step S1206, where it is determined whether or not the game ball count by the payout count switch has reached a predetermined number of rented balls (25) and the payout is completed. If the payout has been completed, a stop process of the payout motor 358a is executed in step S1207, and then the process returns to the payout control process of FIG.
[0232]
In this way, in the pachinko machine 10 described above, even if a plurality of game balls flow in a stacked state and a ball clogging occurs at the portion of the ball leveling 600, both are caused by forced vibration. And the clogging of the ball leveling 600 can be quickly resolved. Therefore, it is possible to maintain the flow of the game ball and to prevent the game from being interrupted due to the ball clogging. In particular, in order to use the impact force associated with the fall of the game ball as an external force, that is, to use the force naturally generated by the execution of the game, the ball leveling 600 can be vibrated with a simple configuration and at low cost. . Further, since no new vibration is generated inside, there is no hindrance to the game and no discomfort to the player.
[0233]
Further, in the pachinko machine 10 described above, since one end side of the tank 355 is pivotally supported and the other end side is variably supported, the tank 355 is vibrated by an impact force associated with the supply of the game ball, and the vibration is reduced. Can be transmitted to the sphere leveler 600. Therefore, the ball leveling 600 can be vibrated even with a relatively small impact force. In addition, even when the weight of the tank 355 fluctuates due to the discharge of the game balls stored in the tank 355, the ball leveling 600 can be vibrated, so that the chances of vibrating the ball leveling 600 are increased and the ball clogging is prevented. It can be effectively resolved.
[0234]
Further, in the pachinko machine 10 described above, when there is a possibility that a ball is clogged, the replenishment means 607 is requested to refill the game ball. The ball leveling 600 can be vibrated at an appropriate timing.
[0235]
The present invention has been described with reference to the preferred embodiments. However, the present invention is not limited to these embodiments, and various improvements can be made without departing from the scope of the present invention as described below. And design changes are possible.
[0236]
For example, in the pachinko machine 10 according to the above-described embodiment, the impact force generated by the replenishment to the tank 355 is transmitted to the ball smoothing 600 to vibrate the ball smoothing 600, that is, via an external force generating member called the tank 355. Although an example in which an external force is applied to the ball leveling device 600 is shown, an impact force caused by a collision of a game ball may be directly transmitted to the ball leveling device 600 without using an external force generating member. Specifically, as shown in FIG. 40, the configuration in which the ball leveling 600 is pivotally supported by the rotation shaft 616 is the same, but at the upper end of the ball leveling 600, there are a collision unit 620 and a transmission unit. An urging mechanism 622 composed of 621 is connected. The collision unit 620 is a plate-like member located inside the tank 355, and is arranged in an inclined state so that the replenished game ball K easily collides. The transmission part 621 is a rod-like member extended from the lower end of the collision part 620, and is connected to the ball leveling 600 through the bottom surface of the tank 355. According to this, when a game ball collides with the upper surface of the collision unit 620, the collision unit 620, the transmission unit 621, and the ball leveling device 600 rotate clockwise about the rotation shaft 616, and are indicated by a two-dot chain line. It becomes a state. That is, the ball leveling 600 is biased upstream with respect to the tank rail 356. A stopper 623 that restricts the displacement of the biasing mechanism 622 protrudes upward on the bottom surface of the tank 355, and the ball leveling 600 comes into contact with the game ball K by limiting the movement amount of the ball leveling 600. This prevents a situation in which the fluid does not flow, that is, in a state where it is not aligned in a vertical line.
[0237]
In this way, by urging the ball leveling 600 in a certain direction by the biasing mechanism 622, the impact force of the game ball generated by the biasing mechanism 622 can be directly transmitted to the ball leveling 600. For this reason, the attenuation of the impact force is reduced, and the ball leveling 600 can be greatly varied even with a relatively small impact force. In addition, since the game balls to be replenished collide inside the tank 355, they can be stored without being scattered outside the tank 355 even if the rebound direction of the collided game balls is indefinite. In addition, since the ball leveling 600 is biased so as to break the stacked layers of game balls, the balance between the game ball and the ball leveling 600 can be reliably broken.
[0238]
In the pachinko machine 10 of the above embodiment, the ball leveling device 600 is directly connected to the tank 355, but may be connected via a transmission member. In this case, if a flexible member or an elastic member is used as the transmission member, vibration can be amplified by the transmission member, and the ball leveling 600 can be vibrated more greatly.
[0239]
In the pachinko machine 10 of the above embodiment, the tank 355 to which game balls are replenished is shown as the external force generating member and the impact force of the falling game balls is shown. You may make it utilize force, the impact force by the collision of the game ball to be launched, or the impact force by the collision of the game ball discharged from the out port. In addition, a device (for example, a launching device) provided with driving means such as a motor and a solenoid, or a vibration device provided for other purposes is used as an external force generating member, and this is connected to the ball leveling device 600. May be. However, when the ball leveling 600 is disposed with respect to the tank rail 356 as in this example, the tank 355 is disposed in the vicinity of the ball leveling 600 and generates a relatively large impact force. Therefore, the configuration can be simplified and manufactured at a low cost, and the ball leveling 600 can be easily vibrated.
[0240]
In the pachinko machine 10 of the above-described embodiment, the one in which the one end side is pivotally supported and the other end side is variably supported by the coil spring 604 so that the tank 355 can be surely vibrated is shown. You may make it support so that it is possible. However, if the one end side is pivotally supported as in the above embodiment, the tank 355 can be rotated with the shaft portion 605 as a fulcrum. That is, the downward force generated by the replenishment of the game ball can be converted diagonally downward. For this reason, it becomes possible to effectively apply a force for breaking the balance to the game balls stacked on the upstream side, and the ball clogging can be easily eliminated.
[0241]
In the pachinko machine 10 of the above embodiment, a cuboid 600 having a rectangular parallelepiped shape is shown, but the shape and form of the sphere smoothing 600 are not particularly limited, and for example, the lower width is increased. A weight may be provided at the bottom. In the above-described embodiment, the ball passages in the tank rail 356 are divided into two, and the ball passage 600 is provided for each of them. The number can be appropriately set as necessary.
[0242]
Further, in the above embodiment, the pachinko machine 10 is shown as a gaming machine, but the present invention can be applied to a gaming machine other than the pachinko machine, for example, a slot machine, an allapachi, an arrangement ball, or the like. When applied to a slot machine, it becomes possible to maintain the flow of medals that are game media, and when applied to an allapachi or an arrangement ball, it is possible to maintain the flow of game balls that are game media. .
[0243]
【The invention's effect】
As described above, according to the present invention, even when a plurality of game balls are stacked and clogged at the portion of the rectifying member, the balance between the two is lost by forced vibration or swinging. , Ball clogging in ball leveling can be eliminated. Therefore, it is possible to maintain the flow of the game ball and to prevent the game from being interrupted due to the ball clogging.
[Brief description of the drawings]
FIG. 1 is a front view showing a pachinko machine according to an embodiment.
FIG. 2 is a perspective view showing a pachinko machine in a state where an inner frame and a front frame set are opened.
FIG. 3 is a front view showing an inner frame and the like in a state where a front frame set is opened.
FIG. 4 is a front view showing a configuration of a game board.
FIG. 5 is a rear view showing a configuration of a front frame set.
FIG. 6 is a rear view showing the configuration of the pachinko machine.
FIG. 7 is an exploded perspective view showing the rear structure of the pachinko machine in an exploded manner for each main part.
FIG. 8 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 surface of the pachinko machine.
FIG. 9 is a rear view showing a configuration of an inner frame and a game board.
FIG. 10 is a perspective view showing a rear configuration of the inner frame.
FIG. 11 is a perspective view showing a rear configuration of the game board.
FIG. 12 is a perspective view showing a configuration of a support fitting.
FIG. 13 is a front view showing a configuration of a first control board unit.
FIG. 14 is a perspective view showing a configuration of a first control board unit.
FIG. 15 is an exploded perspective view of the first control board unit.
FIG. 16 is an exploded perspective view showing a rear configuration of the first control board unit.
FIG. 17 is a front view showing a configuration of a second control board unit.
FIG. 18 is a perspective view showing a configuration of a second control board unit.
FIG. 19 is an exploded perspective view of a second control board unit.
FIG. 20 is a front view showing the configuration of the back pack unit.
FIG. 21 is an exploded perspective view of the back pack unit.
FIG. 22 is an exploded perspective view of a tank rail.
FIG. 23 is a block diagram showing an electrical configuration of the pachinko machine.
FIG. 24 is an explanatory diagram showing display contents of the second symbol display device.
FIG. 25 is an explanatory diagram showing an overview of various counters used for game control.
FIG. 26 is a flowchart showing main processing by the main control device.
FIG. 27 is a flowchart showing normal processing.
FIG. 28 is a flowchart showing an update process of the off symbol counter.
FIG. 29 is a flowchart showing second symbol variation processing.
FIG. 30 is a flowchart showing variation start processing;
FIG. 31 is a flowchart showing timer interrupt processing;
FIG. 32 is a flowchart showing a start winning process.
FIG. 33 is a flowchart showing NMI interrupt processing.
FIG. 34 is a flowchart showing main processing by the payout control apparatus.
FIG. 35 is a flowchart showing a payout control process.
FIG. 36 is a flowchart showing a prize ball control process.
FIG. 37 is a flowchart showing a lending control process.
FIG. 38 is an explanatory diagram schematically showing a configuration when a tank periphery is viewed from the front.
FIG. 39 is a side view showing the configuration around the tank.
FIG. 40 is an explanatory view schematically showing a configuration of a main part in another embodiment.
[Explanation of symbols]
10 Pachinko machines (game machines)
355 Tank (External force generating means)
356 Tank rail (passage)
600 Ball leveling (rectifying member)
604 Coil spring (elastic member, support means)
605 Shaft (support means)
610 Signal output means
613 Step
614 Game ball detecting means
616 Rotating shaft (transmission means)
617 Support hole (transmission means)
620 Collision
621 Transmitter
622 Energizing mechanism
K game ball

Claims (2)

A rectifying member for aligning a plurality of game balls flowing through the passage in a vertical line;
An external force applying means for applying an external force to the rectifying member to vibrate or swing the rectifying member;
A tank for storing the refilled game balls;
Supporting means for supporting the tank so as to vibrate or displace , and
The external force applying means includes transmission means for transmitting an impact force generated by a collision between a game ball replenished to the tank and a game ball stored in the tank or the tank itself to the rectifying member. A gaming machine. A game ball detecting means that is disposed in the passage on the downstream side of the flow regulating member and detects the presence or absence of the game ball, and a request for requesting replenishment to the tank when no game ball is detected by the game ball detecting means 2. The gaming machine according to claim 1, further comprising signal output means for outputting an instruction signal to the outside of the gaming machine.

Images