JP4314604B2 - Pachinko machine - Google Patents

Description

【００２９】
つまり、時間当たりの払出球数Ｓが一定の基準値Ｎを超えている場合には、払出制御基板１１２からモータ２４を作動させるための信号が出力され（ＯＮ）、これによってタンクレール１４（底板１４ａ）の上端部（始端部）は上昇する。すると、タンクレール１４の傾斜は下向きに急勾配となるので、パチンコ球Ｐは勢いよく流下し、球払出装置３０へのパチンコ球Ｐの供給不足が解消される。
反対に、時間当たりの払出球数Ｓが一定の基準値Ｎ以内である場合には、払出制御基板１１２からはモータ２４の作動信号が出力されず（ＯＦＦ）、タンクレール１４の傾斜は変化しない。
なお、このような基準値Ｎ[個／時間]は、パチンコ機１の実際の稼働状況を見ながら判断することにより、球払出装置３０へのパチンコ球Ｐの円滑な供給が達成されるような最適な値に設定することができる。
【００３０】
（２）また、払出制御基板１１２は、積層状態検出スイッチ２９から出力される検出信号に基いて、タンクレール１４上のパチンコ球Ｐの積層状態を把握する。
すなわち、積層状態検出スイッチ２９からの検出信号を受信している場合には、球ならし振り子１６を通過したタンクレール１４上のパチンコ球Ｐは上下２段以上の積層状態であると判断される。反対に、積層状態検出スイッチ２９からの検出信号を受信していない場合には、球ならし振り子１６を通過したタンクレール１４上のパチンコ球Ｐは上下１段（もしくは０段）の状態であると判断される。
このようなことから、タンクレール１４（底板１４ａ）の傾斜は、以下の表２に示す条件に従って調整される。
【００３１】
【表２】

【００３２】
つまり、積層状態検出スイッチ２９からの検出信号を受信している場合には、払出制御基板１１２からモータ２４を作動させるための信号が出力され（ＯＮ）、これによってタンクレール１４（底板１４ａ）の上端部（始端部）は下方に作動される。すると、タンクレール１４の傾斜は下向きの急勾配から緩い勾配へと変化するので（水平に近づくので）、パチンコ球Ｐの流下速度は遅くなり、球潰し１５付近におけるパチンコ球Ｐの「球噛み」の発生等が防止される。
反対に、積層状態検出スイッチ２９からの検出信号を受信していない場合には、払出制御基板１１２からモータ２４を作動させるための信号が出力されず（ＯＦＦ）、タンクレール１４の傾斜は変化しない。
【００３３】
以上の（１）及び（２）に示す方法以外にも、例えば、以下の（３）及び（４）に示す方法に従って、タンクレール１４の傾斜が上下に調整されることにより、球払出装置３０へのパチンコ球Ｐの円滑な供給が達成される。
【００３４】
（３）回転供給体３５の単位時間当たりの回転数（回転量）に応じて、タンクレール１４の傾斜を上下に調整する。
すなわち、球払出装置３０における回転供給体３５の回転数が多ければ、賞球または貸球として払出しされるパチンコ球Ｐの数が多くなる。反対に、球払出装置３０における回転供給体３５の回転数が少なければ、賞球または貸球として払出しされるパチンコ球Ｐの数も少なくなる。したがって、回転供給体３５の回転数もしくは回転量をエンコーダ等によって検出し、この検出信号に基いてタンクレール１４の傾斜を上下に調整すれば、パチンコ球Ｐの払出球数の大小に応じてタンクレール１４の傾斜が調整されることとなるので、上記（１）の方法と同様に、球払出装置３０へのパチンコ球Ｐの円滑な供給を達成することができる。
【００３５】
例えば、回転供給体３５の単位時間当たりの回転数が一定の基準値Ｍ[回転／時間]を超えている場合には、モータ２４に作動信号を出力し、タンクレール１４の上端部（始端部）を上昇させる。これにより、タンクレール１４の傾斜は下向きに急勾配となり、球払出装置３０へのパチンコ球Ｐの供給不足が解消される。
反対に、回転供給体３５の単位時間当たりの回転数が一定の基準値Ｍ[回転／時間]以内である場合には、モータ２４に作動信号を出力せず、タンクレール１４の傾斜を変化させない。
【００３６】
（４）パチンコ機１が大当たり遊技中であるときに、タンクレール１４の傾斜を下向きに急勾配となる方向に調整する。
すなわち、パチンコ機１が大当たり遊技中であるときは、球払出装置３０による賞球の払出しが連続して行なわれるのが通常であり、球払出装置３０へのパチンコ球Ｐの供給が追いつかない事態が生じ易い。この「大当たり遊技中」に、タンクレール１４の傾斜を下向きに急勾配となる方向に調整すれば、パチンコ球Ｐの流下速度を速めることができるので、球払出装置３０へのパチンコ球Ｐの供給不足が解消される。
ここで「大当たり遊技中」とは、例えばパチンコ機１が第１種パチンコ機である場合において、遊技盤前面に配設された図柄表示装置に「７、７、７」等のゾロ目の態様で特別図柄が停止表示され、これによって大入賞口が一定期間複数ラウンドに亘って開放されることにより、賞球としてのパチンコ球Ｐが多数払出される処理のことを指している。また、パチンコ球を使用したスロット機において、いわゆるビッグボーナスと呼ばれる遊技状態となって賞球としてのパチンコ球が多数払出される処理も該当する。
なお、パチンコ機１が大当たり遊技中であるか否かは、例えば、メイン制御基板１１０のＲＡＭに記憶されたフラグの値がＣＰＵによって参照されることにより判別される。つまり、この場合には、メイン制御基板１１０に配設されたＣＰＵが本発明における「大当たり遊技状態検出手段」に対応する。
【００３７】
〔他の実施の形態〕
なお、上述したパチンコ機１（遊技機）において、他の部分の構造，形状，大きさ，材質，配置および動作条件等については、上記実施の形態に限定されるものでない。
【００３８】
上記実施の形態では、タンクレール１４の傾斜が、急勾配となる方向（下方向）、もしくは、緩勾配となる方向（上方向）の２段階に調整される例を示したが、このような態様に限定するものではない。例えば、上記（１）に示す方法の応用例として、単位時間当たりのパチンコ球Ｐの払出球数Ｓに応じて、以下の表３に示す条件に従ってタンクレール１４（底板１４ａ）の傾斜を段階的に調整することができる。
【００３９】
【表３】

【００４０】
上記表３において、Ｎ１、Ｎ２、Ｎ３[個／時間]は、単位時間当たりの払出球数Ｓ[個／時間]に応じてタンクレール１４の傾斜を段階的に調整するための基準値となるものであり、Ｎ１＜Ｎ２＜Ｎ３の関係を満たしている。
払出球数Ｓが、表３の▲１▼の関係、すなわち、０≦Ｓ＜Ｎ１の関係を満たしていると判別された場合には、タンクレール１４の上端部（始端部）がモータ２４によって上下いずれかの方向に作動されることにより、タンクレール１４の傾斜角が５°に調整される。なお、この場合の「傾斜角」とは、水平面とタンクレール１４の底板１４ａとがなす角度のことを指している。
払出球数Ｓが、表３の▲２▼の関係、すなわち、Ｎ１≦Ｓ＜Ｎ２の関係を満たしていると判別された場合には、タンクレール１４の上端部がモータ２４によって上下いずれかの方向に作動されることにより、タンクレール１４の傾斜角が８°に調整される。
払出球数Ｓが、表３の▲３▼の関係、すなわち、Ｎ２≦Ｓの関係を満たしていると判別された場合には、タンクレール１４の上端部がモータ２４によって上下いずれかの方向に作動されることにより、タンクレール１４の傾斜角が１０°に調整される。
【００４１】
このようにして、タンクレール１４の傾斜が３段階に調整されれば、球払出装置３０へ向けてより円滑にパチンコ球Ｐが供給される。
さらに発展させて、タンクレール１４の傾斜を４段階以上に調整したり、あるいは、タンクレール１４の傾斜を連続的に変化させて調整することもできる。この場合には、払出球数Ｓの変化等に応じてより適切にタンクレール１４の傾斜を調整することができる。
【００４２】
また、実施の形態では、パチンコ機１に本発明を適用した。この形態に代えて、パチンコ機以外の他の遊技機（例えばスロットマシン，アレンジボール機，雀球遊技機等）であっても、遊技球を払出す球払出装置やタンクレールを備えた遊技機であれば、本発明を適用し得る。
【００４３】
【発明の効果】
以上述べたように、この発明によれば、タンクレールの傾斜をパチンコ機の種々の状態に応じて調整することにより、球供給部から供給されるパチンコ球を球払出装置にまで円滑に導くことができる。これにより、タンクレールにおけるパチンコ球の整流状態の乱れを抑えつつ、球払出装置へのパチンコ球の供給不足を有効に防止することができる。
【図面の簡単な説明】
【図１】パチンコ機の背面図である。
【図２】パチンコ機の裏機構板を取り出した状態を表した図である。
【図３】傾斜調整手段の拡大図である。
【図４】タンクレールを矢印Ａの方向から見た断面図である。
【図５】タンクレールを矢印Ｂの方向から見た断面図である。
【図６】タンクレールの傾斜制御を実現するために接続構成したシステム全体の一例を示すブロック図である。
【図７】従来のパチンコ機の裏機構板を表した図である。
【符号の説明】
１ パチンコ機（遊技機）
１０ 裏機構板
１３ 球タンク（球供給部）
１４ タンクレール（誘導樋）
１４ａ 底板
１６ 球ならし振り子
１７ 回転軸
１９ 球通路
２０ 球潰し
２１ 支持シャフト
２３ スプリングバネ
２４ モータ
２７ 傾斜調整手段
２９ 積層状態検出スイッチ（積層状態検出手段）
３０ 球払出装置
３３ 賞球検出器（払出球数検出手段）
３４ 貸球検出器（払出球数検出手段）
３５ 回転供給体
１１０ メイン制御基板
１１２ 払出制御基板
Ｐ パチンコ球[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a gaming machine including a guide rod that guides a game ball supplied from a ball supply unit to a ball payout device.
[0002]
[Prior art]
Conventionally, as shown in FIG. 7, pachinko balls supplied from island facilities are stored in a ball tank 301, and when paying out winning balls or balls, the stored pachinko balls flow down onto the tank rail 302. Thus, there is known a back mechanism plate 300 of a pachinko machine configured to be guided to the ball dispensing device 303.
[0003]
In such a back mechanism plate 300, the tank rail 302 is installed to be inclined downward, and a large number of pachinko balls supplied on the tank rail 302 are rolled by their own weights while the ball dispensing device 303 is in motion. It is transported towards. Further, a ball leveling pendulum 306 is installed above the tank rail 302, and pachinko balls stacked in a plurality of stages (for example, 2 to 3 levels) on the tank rail 302 are vertically moved by the ball leveling pendulum 306. It is transported downward in a stepped rectified state. Further, a part called a ball crushing 307 is installed near the lower inclined end of the tank rail 302. The ball crushing 307 ensures that a number of pachinko balls are corrected to the straightened state of one stage in the upper and lower sides and then downward. It is supplied toward the curved path 308 that continues to the ball dispenser 303 that is positioned.
[0004]
By the way, with such a back mechanism plate 300, for example, when the payout of prize balls is concentrated during a big hit game or the like, the rolling speed of the pachinko balls on the tank rail 302 is slow, so the pachinko balls to the ball payout device 303 are There may be situations where supply cannot keep up.
In order to avoid such a situation, it is conceivable to set the inclination of the tank rail 302 large in advance. That is, if the inclination of the tank rail 302 is set to a steep slope downward, the pachinko balls will flow down on the tank rail 302 vigorously, thereby increasing the supply speed of the pachinko balls to the ball dispensing device 303. be able to.
[0005]
However, if the inclination of the tank rail 302 is set to a steep slope more than a predetermined value, the ball pressure increases, and the pachinko ball is crushed 307 in two or more layers without sufficient correction by the ball leveling pendulum 306. Things can get into. Then, when the payout operation by the ball payout device 303 is stopped in such a state, when the payout operation by the ball payout device 303 is resumed, the tank rail 302 is pressed between the bottom surface of the tank rail 302 and the ball crushing 307. A state of “ball biting (clogging)” of the pachinko ball occurs. That is, the rectification state of the pachinko ball transferred on the tank rail 302 is disturbed.
Therefore, by simply setting the inclination of the tank rail 302 to a steep slope, it is possible to maintain a smooth supply of pachinko balls to the ball payout device 303 according to the payout status of the prize balls that change every moment during the game. I can't.
[0006]
[Problems to be solved by the invention]
The present invention has been made in view of such problems, and an object of the present invention is to provide a gaming machine capable of smoothly guiding a game ball supplied from a ball supply unit to a ball payout device.
[0007]
[Means for Solving the Problems]
  In order to solve the above problems,Described in rangeThe invention is configured. Claim 1The pachinko machine rectifies a number of pachinko balls in the lateral direction on the back mechanism plate mounted on the back side of the pachinko machine, and a ball tank that forms a reservoir for a considerable number of pachinko balls, and a number of pachinko balls in the lower part of the ball tank. A tank rail that is supplied to the downstream side and a ball that can be counted and detected by a detector by paying out a predetermined number of prize balls for winning on the game board side to a lower part that communicates with the tank rail via a ball feeding passage Each of the payout devices is installed, and a main control board for electronically controlling the gaming operation, and a ball payout signal transmitted from the main control board to receive a ball payout signal, In a game control system including a payout control board that controls driving, receives a ball detection signal from a detector of a ball payout device, and stops transmitting the ball payout signal.
The tank rail is mounted sideways with its downstream end supported by a rotating shaft and its upstream end always biased upward by a spring spring, and the upper end side is displaced vertically to move the ball flow of the bottom plate. Equipped to be able to change the slope slowly,
On the upstream side of the tank rail, a motor set to be driven to switch between forward and reverse based on an operation signal transmitted from the payout control board, a pinion rotated by the motor, and an upstream portion of the tank rail And an inclination adjusting means having a rack connected to the pinion and meshed with the pinion.
The ball alignment and sending status in the tank rail is detected at the part of the tank rail that is in the middle of the ball alignment and the ball detection signal is transmitted to the payout control board when the pachinko ball is detected to be stacked in two or more stages. The set stacking state detection switch is arranged,
When the number of payout balls, which are discharged by a normal ball payout operation of the ball payout device during the pachinko game and detected by the detector, is within a reference value, the operation signal is not transmitted from the payout control board. While the motor is not driven and controlled, and the inclination of the tank rail is kept unchanged at the current ball flow gradient, when the reference value is exceeded, an actuation signal is transmitted from the payout control board to In the one in which the tank rail is lifted and displaced by the drive control of the motor, and the sphere flow gradient at that time is changed and held at a steep slope,
When the stacking state detection switch does not detect the ball stacking state in the pachinko ball sending state in the tank rail, the ball detection signal is not transmitted to the payout control board, and the operation is performed from the payout control board. When the motor is not driven and controlled without signal being transmitted, and the ball flow gradient is maintained without changing the inclination of the tank rail, while the lamination state detection switch detects the sphere lamination state, The ball detection signal is transmitted to the payout control board, the operation signal is sent from the payout control board, and the tank rail is moved downward by the drive control of the motor, and the ball flow gradient at that time is changed to a gentle state. Adjusted and retained featuresIt has.
[0008]
  Claim 1Pachinko machineAccording to the tilt adjustment meansTank railThe slope of the is adjusted. ThisPachinko machineDepending on the state ofTank railAbovePachinko ballSince the rolling speed (flowing speed) of the ball is adjusted appropriately,Pachinko ballIt is possible to effectively prevent insufficient supply of game balls to the ball payout device while suppressing the disturbance of the rectification state seen in the “ball biting”.
[0009]
  Also,If there are many balls to be dispensed per hour by the ball dispensing device,Tank railBy adjusting the slope of to be steep downward,Pachinko ballThe flow speed of the can be increased. On the other hand, when the number of balls dispensed by the ball dispensing device per hour is small, by adjusting the inclination of the tank rail to a gentle gradient (slow gradient),Pachinko ballIt is possible to slow down the flow rate. In other words, depending on the number of balls delivered by the ball dispensing device,Pachinko ballCan be adjusted as appropriate,Pachinko ballWhile suppressing the disturbance of the rectification state seen in “ball chew” etc.,Pachinko ballSupply shortage can be prevented.
[0010]
  Also,When the number of payout balls per time detected by the payout ball number detection means exceeds a predetermined reference value, the inclination adjustment meansTank railIs adjusted in a direction that makes a steep slope (steep slope), and when the number of payout balls detected by the payout ball number detecting means is below a predetermined reference value,Tank railIs adjusted in a direction that makes a gentle gradient. Then, to the ball dispensing devicePachinko ballWhen there is a shortage of supply,Tank railThe slope of the steep downward slope,Pachinko ballThe flow speed of the becomes faster. On the contrary, to the ball dispensing devicePachinko ballIf the supply of is excessive,Tank railThe slope of is a gentle slope,Pachinko ballThe flow speed of the becomes slow. As a result, the disturbance of the rectification state seen in “ball biting” etc. near the ball crushing and the ball dispensing devicePachinko ballThe supply shortage is prevented more effectively.
[0011]
  Also tank railupperPachinko ballWhen the ball is stacked in two or more stages, the flow speed of the game ball to the ball dispensing device is slowed, and this effectively eliminates the disturbance of the rectification state seen in “ball biting” near the ball crushing device. Is prevented.
[0013]
DETAILED DESCRIPTION OF THE INVENTION
An embodiment of the present invention will be described with reference to FIGS.
In FIG. 1 showing the pachinko machine from the back, the pachinko machine 1 has a front frame 3 mounted on the front side of the wooden frame 2 so as to be opened and closed. A base frame 4 is assembled to the back surface of the front frame 3 at the periphery of the opening. A game board (not shown) is detachably mounted in the frame of the base frame 4, and the game board has a general prize opening, a specific prize opening, a gate opening, etc., an equipment device, a big prize opening, a symbol display device, etc. Is arranged. Further, a main control device (also referred to as a control board) 110 is provided in a state of being stored in the storage box 111 on the back side of the game board.
[0014]
A back mechanism plate 10 is mounted on the back side of the game board so as to surround the main control device 110. On the back side of the back mechanism plate 10, a ball tank 13 as a ball supply unit, a tank rail 14 as a guide rod, and a ball dispensing device 30 are sequentially communicated from the upper part to the lower part. . Below the ball payout device 30, a payout control board 112 for controlling the payout operation of the pachinko ball P (game ball) by the ball payout device 30 is disposed.
In this embodiment, the pachinko balls P stored in the ball tank 13 are guided to the front and rear two-row ball passages formed on the tank rail 14 and then to the entrance of the ball passage 19 extending to the ball dispensing device 30. 15 is supplied. Then, the ball paying device 30 pays out the pachinko balls P as prize balls or rental balls, and the discharged pachinko balls P are led to a passage leading to the upper plate and the lower plate arranged on the front surface of the game board. It is burned.
[0015]
FIG. 2 is a view showing a state where the back mechanism plate 10 of the pachinko machine 1 is taken out. However, FIG. 2 shows the back mechanism plate 10 with the side plate 14b (see FIG. 4) covering the side of the tank rail 14 removed so that the state of the pachinko balls P on the tank rail 14 can be easily seen. Further, the back mechanism plate 10 in a state where a part of the cover member covering the ball passage 19 is broken is shown so that the inside of the ball passage 19 leading to the ball dispensing device 30 can be easily seen.
As shown in FIG. 2, the pachinko balls P supplied from the island facility are temporarily stored in the ball tank 13, and continue to the ball dispensing device 30 while rolling on the bottom plate 14 a of the tank rail 14 installed in a downwardly inclined manner. It is carried to the receiving port 15 of the passage 19. A ball leveling pendulum 16 formed in a vertically long oval shape is attached to the upper portion of the tank rail 14, and the pachinko ball P that has been conveyed in a stacked state of two or more levels on the bottom plate 14 a After being leveled up and down by the weight of the leveling pendulum 16, it is transported to the receiving port 15. The ball leveling pendulum 16 is mounted so as to be swingable about the upper fulcrum, so that an excessive resistance is not applied to the pachinko ball P carried in a stacked state.
[0016]
Further, as shown in FIG. 2, a lamination state detection switch 29 for detecting the lamination state of the pachinko balls P laminated in two or more stages is installed on the back side of the side plate of the tank rail 14. The stacking state detection switch 29 is configured by a magnetic action type proximity switch or the like, and is stacked at a position where the stacking state of the pachinko ball P that has passed through the ball leveling pendulum 16 can be detected, for example, in two stages. Of the pachinko balls P, the pachinko balls P are installed on the back side of the side plate through which the second pachinko balls P pass.
For example, if the supply of the pachinko ball P from the ball tank 13 to the tank rail 14 is excessive, and the pachinko ball P cannot be brought into the upper and lower stages by the ball leveling pendulum 16, Passage of pachinko balls P stacked in two or more stages is detected by the stacked state detection switch 29. When the lamination state detection switch 29 detects the passage of the pachinko sphere P, a sphere detection signal is output toward the payout control board 112. This lamination state detection switch 29 corresponds to “lamination state detection means” in the present invention.
[0017]
In the vicinity of the lower inclined end of the tank rail 14, a plate-like component called a ball crush 20 is installed. The ball crusher 20 is installed so that the height thereof is narrowed as the pachinko ball P flows down. The pachinko ball P that has not been put into the upper and lower one stage by the ball leveling pendulum 16 is reliably corrected to the upper and lower stage by the ball crushing 20 and then continues to the ball dispensing device 30 positioned below. It is supplied to the inside of the ball passage 19.
[0018]
As shown in FIG. 2, the pachinko ball P delivered from the tank rail 14 to the receiving port 15 flows down while meandering along the inner wall surface of the ball passage 19 extending to the ball dispensing device 30 located below.
The ball payout device 30 is a device in which a gear-like rotation supply body 35 (see FIG. 6) is configured to be normally and reversely rotated by a motor, and to the prize ball payout passage 31 by the rotation of the rotation supply body in the left direction. The pachinko balls P are paid out, and the pachinko balls P are paid out to the rental ball payout passage 32 by rotating in the right direction. That is, the single rotation supply body 35 is configured to perform the payout of the pachinko balls P as the winning balls or the rental balls while distinguishing them. Pachinko balls P that have been paid out as prize balls or rental balls merge in a single ball passage that follows and are then discharged toward the upper and lower plates placed on the front of the game board. ing. In the present embodiment, the number of pachinko balls P to be paid out as prize balls is counted by the prize ball detector 33, and the number of pachinko balls P to be paid out as balls for rental is counted by the ball rental detector 34. The prize ball detector 33 and the ball rental detector 34 are configured by a proximity switch, a photo sensor, or the like that can detect a pachinko ball P passing therethrough, and the passage of the pachinko ball P as a prize ball or a ball rental is detected. Then, a ball detection signal is output toward the payout control board 112. The winning ball detector 33 and the rental ball detector 34 correspond to the “payout ball number detecting means” in the present invention.
[0019]
As shown in FIG. 2, the end portion (lower end portion) of the bottom plate 14 a of the tank rail 14 is mounted so as to be rotatable with respect to the rotating shaft 17 erected on the back mechanism plate 10. When the start end (upper end) of the bottom plate 14a is actuated in the vertical direction by the rotation of the motor 24, the inclination of the tank rail 14 (bottom plate 14a) is adjusted up and down around the rotation shaft 17. ing. That is, the motor 24, the rack 25, and the pinion 26 constitute an inclination adjusting means 27 for adjusting the inclination of the tank rail 14 (bottom plate 14a).
[0020]
FIG. 3 is an enlarged view showing the vicinity of the inclination adjusting means 27. Here, FIG. 3A is an enlarged view showing a state where a large number of pachinko balls P are placed on the tank rail 14 and the inclination of the tank rail 14 is adjusted to the “slow gradient” by the inclination adjusting means 27. is there. FIG. 3B is an enlarged view showing a state in which a small number of pachinko balls P are placed on the tank rail 14 and the inclination of the tank rail 14 is adjusted to the “steepest” by the inclination adjusting means 27. .
As shown in FIG. 3A, when a large number of pachinko balls P are placed on the tank rail 14, the weight of the large number of pachinko balls P becomes a burden, and the tank only needs to be driven by the motor 24. It is also conceivable that the upper end of the rail 14 cannot be operated up and down. However, in the present embodiment, the weight of the pachinko ball P placed on the tank rail 14 is reduced by the elastic force of the spring spring 23 that supports the bottom plate 14 a of the tank rail 14. As a result, the upper end of the tank rail 14 can be smoothly operated in the vertical direction without using a stepping motor with such a large output as the motor 24.
Therefore, this invention can also be comprised as a gaming machine described below.
“A ball supply unit, a ball payout device for paying out a game ball as a winning ball or a rental ball, a downwardly inclined guide rod for guiding the game ball supplied from the ball supply unit to the ball payout device, A gaming machine state detecting means for detecting a state, and an inclination adjusting means for adjusting the inclination of the guide rod based on the gaming machine state detected by the gaming machine state detecting means,
The inclination adjusting means includes a driving means,
The guide rod includes support means for elastically supporting the guide rod from below, and the upper end portion of the guide rod is driven by the driving force of the drive means and the elastic force upward of the support means. A gaming machine configured to be operated upward. "
Here, the “driving means” is a means that can be a driving source for moving the tank rail 14 (guide rod) and adjusting its inclination up and down, and corresponds to the motor 24 in this embodiment. ing. The “supporting means” is a means that can elastically support the tank rail 14 (induction rod) and receive the load, and corresponds to the spring spring 23 in the present embodiment. The upper end of the tank rail 14 is actuated upward by the upward elastic force of the elastic body (spring spring 23) and the upward driving force of the drive source (motor 24). Thereby, as described above, the weight load of the pachinko sphere P applied to the drive source (motor 24) is reduced.
[0021]
FIG. 4 is a cross-sectional view of the tank rail 14 in FIG. As shown in FIG. 4, the bottom plate 14 a of the tank rail 14 is supported substantially horizontally from the lower surface side by the two support shafts 21. The two support shafts 21 are penetrated substantially perpendicularly to a pedestal plate 22 erected from the back mechanism plate 10 and receive the elastic force of a spring spring 23 that is coaxially mounted around its axis. It is held in a state where it can advance and retreat in the vertical direction.
[0022]
FIG. 5 is a cross-sectional view of the tank rail 14 in FIG.
As shown in FIG. 5, a rack 25 is provided substantially vertically downward from the bottom surface side of the bottom plate 14a. A motor 24 is installed on the back mechanism plate 10 with screws or the like. The rack 25 is actuated in the vertical direction by meshing with the pinion 26 rotated by the motor 24, whereby the bottom plate 14a is actuated in the vertical direction. As the motor 24, a stepping motor capable of forward / reverse rotation and arbitrarily controlling the amount of rotation is used.
[0023]
Next, an example of the entire system connected and configured to realize the inclination control of the tank rail 14 (bottom plate 14a) by the inclination adjusting means 27 will be described with reference to the block diagram of FIG.
As shown in FIG. 6, the main control board 110 has a pachinko ball won in a general winning opening or a large winning opening provided on the front of the game board of the pachinko machine 1, for example, or a player rents a ball in exchange for a fee. When the ball rental button is pressed to obtain the prize, the winning signal corresponding to the winning or the ball rental or the command signal regarding the number of balls is outputted to the payout control board 112.
Here, the main control board 110 and the payout control board 112 are boards mainly composed of a CPU (processor), such as a ROM for storing a game control program and required data, various random numbers, signals, etc. A RAM for storing temporary data is provided. Then, the game control program stored in the ROM is read out by the CPU and appropriately executed, thereby realizing a pachinko game such as a jackpot game or a prize ball payout. In addition, since such a control board is the same as that of a well-known structure, illustration and description are abbreviate | omitted about a specific structure.
[0024]
As shown in FIG. 6, the payout control board 112 receives a command signal regarding the number of award balls and the number of payouts from the main control board 110, and sends a ball payout signal corresponding to the number of prize balls or the number of payouts to the ball payout device. Output to 30. In response to the ball payout signal from the payout control board 112, the ball payout device 30 rotates the rotation supply body 35 stored therein by a motor in either the left or right direction. On the outer periphery of the rotation supply body 35, a plurality of ball receiving portions 36 that can store the pachinko balls P flowing down the ball passage 19 one by one are formed at equal intervals, and the rotation amount of the rotation supply body 35 ( The number of pachinko balls P to be paid out as prize balls or rental balls is controlled by adjusting the rotation angle).
[0025]
As described above, the pachinko ball P paid out to the prize ball payout passage 31 or the ball rental payout passage 32 is detected by the prize ball detector 33 or the ball rental detector 34, respectively. When the winning ball detector 33 or the rental ball detector 34 detects the pachinko ball P, a ball detection signal is output to the payout control board 112, respectively.
Further, the pachinko balls P that have been stacked in two or more stages on the tank rail 14 are detected by the stacked state detection switch 29. When the pachinko ball P is detected by the stacking state detection switch 29, a ball detection signal is output toward the payout control board 112.
The payout control board 112 outputs an operation signal for rotating the motor 24 forward and backward, thereby adjusting (controlling) the inclination of the tank rail 14 up and down according to the methods shown in the following (1) and (2). To do.
[0026]
(1) The payout control board 112 calculates the payout ball number S of the pachinko balls P per time by counting the detection signals output from the prize ball detector 33 or the rental ball detector 34. The payout ball number S of the pachinko balls P per hour is calculated by, for example, the following equation (I).
S = (Number of prize balls paid out + Number of balls paid out) / unit time [pieces / hour] (I)
Here, the “prize ball payout number” refers to the count number of detection signals output by the prize ball detector 33. The “number of rented balls” refers to the number of counts of detection signals output by the rented ball detector 34. As the “unit time”, for example, a unit time such as 10 seconds, 30 seconds, 1 minute or the like is appropriately selected, but the inclination of the tank rail 14 can be made more quickly according to the payout situation of the pachinko ball P that changes every moment. For adjustment, it is preferable to select a time as short as possible (for example, 10 seconds).
[0027]
Based on the number S of payout balls per hour, the supply status of the pachinko balls P to the ball payout device 30 is grasped.
That is, when the number S of balls to be dispensed per hour exceeds a certain reference value N [pieces / hour], the number of balls to be paid out of the pachinko sphere P is excessive, and the pachinko balls to the ball dispensing device 30 are It seems that the supply of P has not caught up.
On the contrary, when the number S of balls to be dispensed per hour is within a certain reference value N [pieces / hour], the number of balls to be paid out of the pachinko sphere P is not excessive, and the pachinko balls to the ball dispensing device 30 are The supply of P is considered sufficient.
For this reason, the inclination of the tank rail 14 (bottom plate 14a) is adjusted according to the conditions shown in Table 1 below.
[0028]
[Table 1]

[0029]
That is, when the number S of payout balls per time exceeds a certain reference value N, a signal for operating the motor 24 is output from the payout control board 112 (ON), thereby the tank rail 14 (bottom plate) The upper end (starting end) of 14a) rises. Then, since the inclination of the tank rail 14 becomes steep downward, the pachinko balls P flow down vigorously, and the supply shortage of the pachinko balls P to the ball dispensing device 30 is resolved.
On the contrary, when the number S of balls to be dispensed per time is within a certain reference value N, the operation signal of the motor 24 is not output from the dispensing control board 112 (OFF), and the inclination of the tank rail 14 does not change. .
It should be noted that such a reference value N [pieces / hour] is determined while observing the actual operating status of the pachinko machine 1 so that the smooth supply of the pachinko balls P to the ball dispensing device 30 is achieved. It can be set to an optimal value.
[0030]
(2) Further, the payout control board 112 grasps the stacked state of the pachinko balls P on the tank rail 14 based on the detection signal output from the stacked state detection switch 29.
That is, when the detection signal from the stacked state detection switch 29 is received, it is determined that the pachinko ball P on the tank rail 14 that has passed through the ball leveling pendulum 16 is in a stacked state of two or more stages. . On the other hand, when the detection signal from the stacking state detection switch 29 is not received, the pachinko ball P on the tank rail 14 that has passed through the ball leveling pendulum 16 is in the upper and lower one stage (or zero stage). It is judged.
For this reason, the inclination of the tank rail 14 (bottom plate 14a) is adjusted according to the conditions shown in Table 2 below.
[0031]
[Table 2]

[0032]
That is, when the detection signal from the stacking state detection switch 29 is received, a signal for operating the motor 24 is output from the payout control board 112 (ON), thereby the tank rail 14 (bottom plate 14a). The upper end (starting end) is actuated downward. Then, since the inclination of the tank rail 14 changes from a steep downward slope to a gentle slope (becoming horizontal), the flow speed of the pachinko sphere P becomes slow, and the “ball biting” of the pachinko sphere P near the ball squash 15 is performed. Is prevented from occurring.
On the other hand, when the detection signal from the stacking state detection switch 29 is not received, a signal for operating the motor 24 is not output from the dispensing control board 112 (OFF), and the inclination of the tank rail 14 does not change. .
[0033]
In addition to the methods shown in the above (1) and (2), for example, according to the methods shown in the following (3) and (4), the inclination of the tank rail 14 is adjusted up and down, so that the ball dispensing device 30 A smooth supply of the pachinko sphere P is achieved.
[0034]
(3) The inclination of the tank rail 14 is adjusted up and down according to the number of rotations (rotation amount) per unit time of the rotation supply body 35.
That is, if the number of rotations of the rotation supply body 35 in the ball dispensing device 30 is large, the number of pachinko balls P to be paid out as prize balls or rental balls increases. On the other hand, if the number of rotations of the rotation supply body 35 in the ball dispensing device 30 is small, the number of pachinko balls P to be paid out as prize balls or rental balls also decreases. Therefore, if the rotation number or rotation amount of the rotation supply body 35 is detected by an encoder or the like, and the inclination of the tank rail 14 is adjusted up and down based on this detection signal, the tank according to the number of payout balls of the pachinko ball P Since the inclination of the rail 14 is adjusted, the smooth supply of the pachinko balls P to the ball dispensing device 30 can be achieved as in the method (1).
[0035]
For example, when the number of rotations of the rotation supply body 35 per unit time exceeds a certain reference value M [rotation / hour], an operation signal is output to the motor 24 and the upper end (starting end) of the tank rail 14 is output. ). Thereby, the inclination of the tank rail 14 becomes steep downward and the supply shortage of the pachinko balls P to the ball dispensing device 30 is resolved.
On the other hand, when the number of rotations per unit time of the rotation supply body 35 is within a certain reference value M [rotation / hour], an operation signal is not output to the motor 24 and the inclination of the tank rail 14 is not changed. .
[0036]
(4) When the pachinko machine 1 is in the big hit game, the inclination of the tank rail 14 is adjusted to a direction in which the slope becomes steep downward.
That is, when the pachinko machine 1 is in a big hit game, the award balls are usually paid out continuously by the ball payout device 30, and the supply of the pachinko balls P to the ball payout device 30 cannot be caught up. Is likely to occur. If the inclination of the tank rail 14 is adjusted to a steep downward direction during this “big hit game”, the flow speed of the pachinko ball P can be increased, so the supply of the pachinko ball P to the ball dispensing device 30 is possible. The shortage is resolved.
Here, “in jackpot game” means, for example, when the pachinko machine 1 is a first-class pachinko machine, the symbol display device disposed on the front surface of the game board has an aspect of “7, 7, 7”, etc. The special symbol is stopped and displayed, and this is a process in which a large number of pachinko balls P as award balls are paid out by releasing the special winning opening over a plurality of rounds for a certain period. Further, in a slot machine using pachinko balls, a process in which a large number of pachinko balls as award balls are paid out in a gaming state called a so-called big bonus is also applicable.
Whether or not the pachinko machine 1 is in a big hit game is determined, for example, by referring to the value of the flag stored in the RAM of the main control board 110 by the CPU. That is, in this case, the CPU disposed on the main control board 110 corresponds to the “big hit gaming state detection means” in the present invention.
[0037]
[Other Embodiments]
In the pachinko machine 1 (game machine) described above, the structure, shape, size, material, arrangement, operating conditions, and the like of other parts are not limited to the above embodiment.
[0038]
In the above-described embodiment, the example in which the inclination of the tank rail 14 is adjusted in two steps, that is, the direction of the steep slope (downward direction) or the direction of the gentle slope (upward direction) has been described. It is not limited to the embodiment. For example, as an application example of the method shown in (1) above, the inclination of the tank rail 14 (bottom plate 14a) is stepwise according to the conditions shown in Table 3 below according to the number S of paid-out balls P per unit time. Can be adjusted.
[0039]
[Table 3]

[0040]
In Table 3 above, N1, N2, and N3 [pieces / hour] are reference values for adjusting the inclination of the tank rail 14 stepwise in accordance with the number of balls to be dispensed per unit time S [pieces / hour]. And satisfies the relationship of N1 <N2 <N3.
When it is determined that the payout ball number S satisfies the relationship (1) in Table 3, that is, 0 ≦ S <N1, the upper end (starting end) of the tank rail 14 is moved by the motor 24. By actuating in either the up or down direction, the inclination angle of the tank rail 14 is adjusted to 5 °. In this case, the “inclination angle” refers to an angle formed by the horizontal plane and the bottom plate 14 a of the tank rail 14.
When it is determined that the payout ball number S satisfies the relationship (2) in Table 3, that is, the relationship of N1 ≦ S <N2, the upper end of the tank rail 14 is moved up or down by the motor 24. By actuating in the direction, the inclination angle of the tank rail 14 is adjusted to 8 °.
When it is determined that the payout ball number S satisfies the relationship of (3) in Table 3, that is, the relationship of N2 ≦ S, the upper end of the tank rail 14 is moved either vertically by the motor 24. By actuating, the inclination angle of the tank rail 14 is adjusted to 10 °.
[0041]
Thus, if the inclination of the tank rail 14 is adjusted in three stages, the pachinko balls P are supplied more smoothly toward the ball dispensing device 30.
Further development can be made to adjust the inclination of the tank rail 14 to four or more levels, or to adjust the inclination of the tank rail 14 by continuously changing it. In this case, the inclination of the tank rail 14 can be adjusted more appropriately according to the change in the payout ball number S or the like.
[0042]
In the embodiment, the present invention is applied to the pachinko machine 1. It replaces with this form, and even if it is other game machines (for example, a slot machine, an arrangement ball machine, a sparrow ball game machine, etc.) other than a pachinko machine, the game machine provided with the ball paying-out apparatus and tank rail which pays out a game ball If so, the present invention can be applied.
[0043]
【The invention's effect】
  As described above, according to the present invention,Tank railThe slope ofPachinko machineSupplied from the sphere supply unit by adjusting according to various states ofPachinko ballCan be smoothly guided to the ball dispensing device. ThisTank railInPachinko ballTo the ball dispensing device while suppressing disturbance of the rectification state ofPachinko ballCan be effectively prevented.
[Brief description of the drawings]
FIG. 1 is a rear view of a pachinko machine.
FIG. 2 is a view showing a state where a back mechanism plate of a pachinko machine is taken out.
FIG. 3 is an enlarged view of an inclination adjusting unit.
4 is a cross-sectional view of the tank rail as viewed from the direction of arrow A. FIG.
5 is a cross-sectional view of the tank rail as viewed from the direction of arrow B. FIG.
FIG. 6 is a block diagram showing an example of the entire system configured to be connected to realize tank rail tilt control.
FIG. 7 is a view showing a back mechanism plate of a conventional pachinko machine.
[Explanation of symbols]
1 Pachinko machine (game machine)
10 Back mechanism board
13 Ball tank (ball supply section)
14 Tank rail (guide rod)
14a Bottom plate
16 Ball leveling pendulum
17 Rotating shaft
19 ball passage
20 Smashing balls
21 Support shaft
23 Spring spring
24 motor
27 Inclination adjusting means
29 Laminated state detection switch (Laminated state detecting means)
30 ball dispenser
33 prize ball detector (payout ball number detection means)
34 Ball rental detector (payout ball number detection means)
35 Rotating supply
110 Main control board
112 Dispensing control board
P Pachinko ball

Claims (1)

On the back mechanism plate 10 mounted on the back side of the pachinko machine 1, a ball tank 13 that constitutes a storage unit for a considerable number of pachinko balls, and a number of pachinko balls are rectified in the lateral direction below the ball tank 13. A predetermined number of prize balls are paid out for winning on the game board side to the tank rail 14 to be supplied to the downstream side, and the lower part connected to the tank rail 14 via a ball feeding path, and the detector 33 detects the count. Each of the possible ball payout devices 30 is installed, and a main control board 110 that electronically controls the game operation and a prize ball number signal transmitted from the main control board 110 are received and a ball payout signal is transmitted. A pachinko machine having a game control system including a payout control board 112 that controls the driving of the ball payout device 30 and receives a ball detection signal from the detector 33 of the ball payout device 30 to stop transmitting the ball payout signal. Oite,
  The tank rail 14 is mounted sideways with the downstream end thereof supported by the rotary shaft 17 and the upstream end portion always biased upward by the spring spring 23, and the bottom plate is displaced upward and downward. It is equipped with a 14a ball flow gradient that can be changed quickly and quickly.
  On the upstream side of the tank rail 14, a motor 24 set to be driven to switch between forward and reverse based on an operation signal transmitted from the payout control board 112, a pinion 26 rotated by the motor 24, An inclination adjusting means 27 having a rack 25 connected to the upstream portion of the tank rail 14 and meshingly connected to the pinion 26 is provided.
  A ball alignment / sending state in the tank rail 14 is detected at a part of the tank rail 14 in the middle of ball alignment / sending, and a ball detection signal is transmitted to the payout control board 112 when a pachinko ball is in a stacked state of two or more stages. The stacking state detection switch 29 set to be arranged is arranged,
  When the number of paid-out balls, which are paid out by the normal ball-paying operation of the ball-paying device 30 during the pachinko game and detected by the detector 33, is within a reference value, an operation signal is transmitted from the pay-out control board 112. If the motor 24 is not driven and controlled, and the inclination of the tank rail 14 is maintained at the current ball flow gradient without being changed, the reference value is exceeded. A signal is transmitted and the tank rail 14 is moved up and displaced by the drive control of the motor 24, and the ball flow gradient at that time is changed and held at a steep slope.
  When the stacking state detection switch 29 does not detect the ball stacking state in the pachinko ball sending state in the tank rail 14, the ball detection signal is not transmitted to the payout control board 112, and the payout control board While the operation signal is not transmitted from 112, the motor 24 is not driven and controlled, and the inclination of the tank rail 14 is maintained at the sphere flow gradient at that time, while the lamination state detection switch 29 is in the sphere lamination state. Is detected, the ball detection signal is transmitted to the payout control board 112, the operation signal is sent from the payout control board 112, and the tank rail 14 is displaced downward by drive control of the motor 24. A pachinko machine in which the ball flow gradient at the time is changed and held in a relaxed state.

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